diff --git a/Cargo.lock b/Cargo.lock index e3416426b4d1..022b46f9a2a1 100644 --- a/Cargo.lock +++ b/Cargo.lock @@ -102,9 +102,9 @@ dependencies = [ [[package]] name = "bytemuck" -version = "1.16.1" +version = "1.16.3" source = "registry+https://github.com/rust-lang/crates.io-index" -checksum = "b236fc92302c97ed75b38da1f4917b5cdda4984745740f153a5d3059e48d725e" +checksum = "102087e286b4677862ea56cf8fc58bb2cdfa8725c40ffb80fe3a008eb7f2fc83" dependencies = [ "bytemuck_derive", ] @@ -1213,6 +1213,7 @@ name = "qiskit-qasm2" version = "1.3.0" dependencies = [ "hashbrown 0.14.5", + "num-bigint", "pyo3", "qiskit-circuit", ] diff --git a/Cargo.toml b/Cargo.toml index a10792b9ad0f..1e8a7185f449 100644 --- a/Cargo.toml +++ b/Cargo.toml @@ -17,6 +17,7 @@ license = "Apache-2.0" bytemuck = "1.16" indexmap.version = "2.2.6" hashbrown.version = "0.14.0" +num-bigint = "0.4" num-complex = "0.4" ndarray = "^0.15.6" numpy = "0.21.0" diff --git a/crates/accelerate/Cargo.toml b/crates/accelerate/Cargo.toml index 9d6024783996..0b23cf08743e 100644 --- a/crates/accelerate/Cargo.toml +++ b/crates/accelerate/Cargo.toml @@ -18,7 +18,7 @@ rand_distr = "0.4.3" ahash = "0.8.11" num-traits = "0.2" num-complex.workspace = true -num-bigint = "0.4" +num-bigint.workspace = true rustworkx-core = "0.15" faer = "0.19.1" itertools = "0.13.0" diff --git a/crates/accelerate/src/lib.rs b/crates/accelerate/src/lib.rs index 314fa5ff7c58..4e079ea84b57 100644 --- a/crates/accelerate/src/lib.rs +++ b/crates/accelerate/src/lib.rs @@ -27,6 +27,7 @@ pub mod results; pub mod sabre; pub mod sampled_exp_val; pub mod sparse_pauli_op; +pub mod star_prerouting; pub mod stochastic_swap; pub mod synthesis; pub mod target_transpiler; diff --git a/crates/accelerate/src/sabre/heuristic.rs b/crates/accelerate/src/sabre/heuristic.rs new file mode 100644 index 000000000000..32da6e414025 --- /dev/null +++ b/crates/accelerate/src/sabre/heuristic.rs @@ -0,0 +1,284 @@ +// This code is part of Qiskit. +// +// (C) Copyright IBM 2024 +// +// This code is licensed under the Apache License, Version 2.0. You may +// obtain a copy of this license in the LICENSE.txt file in the root directory +// of this source tree or at http://www.apache.org/licenses/LICENSE-2.0. +// +// Any modifications or derivative works of this code must retain this +// copyright notice, and modified files need to carry a notice indicating +// that they have been altered from the originals. + +use pyo3::exceptions::PyValueError; +use pyo3::prelude::*; +use pyo3::types::PyString; +use pyo3::Python; + +/// Affect the dynamic scaling of the weight of node-set-based heuristics (basic and lookahead). +#[pyclass] +#[pyo3(module = "qiskit._accelerate.sabre", frozen)] +#[derive(Clone, Copy, PartialEq, Eq)] +pub enum SetScaling { + /// No dynamic scaling of the weight. + Constant, + /// Scale the weight by the current number of nodes in the set (e.g., if it contains 5 nodes, + /// the weight will be multiplied by ``0.2``). + Size, +} +#[pymethods] +impl SetScaling { + pub fn __reduce__(&self, py: Python) -> PyResult> { + let name = match self { + SetScaling::Constant => "Constant", + SetScaling::Size => "Size", + }; + Ok(( + py.import_bound("builtins")?.getattr("getattr")?, + (py.get_type_bound::(), name), + ) + .into_py(py)) + } +} + +/// Define the characteristics of the basic heuristic. This is a simple sum of the physical +/// distances of every gate in the front layer. +#[pyclass] +#[pyo3(module = "qiskit._accelerate.sabre", frozen)] +#[derive(Clone, Copy, PartialEq)] +pub struct BasicHeuristic { + /// The relative weighting of this heuristic to others. Typically you should just set this to + /// 1.0 and define everything else in terms of this. + pub weight: f64, + /// Set the dynamic scaling of the weight based on the layer it is applying to. + pub scale: SetScaling, +} +#[pymethods] +impl BasicHeuristic { + #[new] + pub fn new(weight: f64, scale: SetScaling) -> Self { + Self { weight, scale } + } + + pub fn __getnewargs__(&self, py: Python) -> Py { + (self.weight, self.scale).into_py(py) + } + + pub fn __eq__(&self, py: Python, other: Py) -> bool { + if let Ok(other) = other.extract::(py) { + self == &other + } else { + false + } + } + + pub fn __repr__(&self, py: Python) -> PyResult> { + let fmt = "BasicHeuristic(weight={!r}, scale={!r})"; + Ok(PyString::new_bound(py, fmt) + .call_method1("format", (self.weight, self.scale))? + .into_py(py)) + } +} + +/// Define the characteristics of the lookahead heuristic. This is a sum of the physical distances +/// of every gate in the lookahead set, which is gates immediately after the front layer. +#[pyclass] +#[pyo3(module = "qiskit._accelerate.sabre", frozen)] +#[derive(Clone, Copy, PartialEq)] +pub struct LookaheadHeuristic { + /// The relative weight of this heuristic. Typically this is defined relative to the + /// :class:`.BasicHeuristic`, which generally has its weight set to 1.0. + pub weight: f64, + /// Number of gates to consider in the heuristic. + pub size: usize, + /// Dynamic scaling of the heuristic weight depending on the lookahead set. + pub scale: SetScaling, +} +#[pymethods] +impl LookaheadHeuristic { + #[new] + pub fn new(weight: f64, size: usize, scale: SetScaling) -> Self { + Self { + weight, + size, + scale, + } + } + + pub fn __getnewargs__(&self, py: Python) -> Py { + (self.weight, self.size, self.scale).into_py(py) + } + + pub fn __eq__(&self, py: Python, other: Py) -> bool { + if let Ok(other) = other.extract::(py) { + self == &other + } else { + false + } + } + + pub fn __repr__(&self, py: Python) -> PyResult> { + let fmt = "LookaheadHeuristic(weight={!r}, size={!r}, scale={!r})"; + Ok(PyString::new_bound(py, fmt) + .call_method1("format", (self.weight, self.size, self.scale))? + .into_py(py)) + } +} + +/// Define the characteristics of the "decay" heuristic. In this, each physical qubit has a +/// multiplier associated with it, beginning at 1.0, and has :attr:`increment` added to it each time +/// the qubit is involved in a swap. The final heuristic is calculated by multiplying all other +/// components by the maximum multiplier involved in a given swap. +#[pyclass] +#[pyo3(module = "qiskit._accelerate.sabre", frozen)] +#[derive(Clone, Copy, PartialEq)] +pub struct DecayHeuristic { + /// The amount to add onto the multiplier of a physical qubit when it is used. + pub increment: f64, + /// How frequently (in terms of swaps in the layer) to reset all qubit multipliers back to 1.0. + pub reset: usize, +} +#[pymethods] +impl DecayHeuristic { + #[new] + pub fn new(increment: f64, reset: usize) -> Self { + Self { increment, reset } + } + + pub fn __getnewargs__(&self, py: Python) -> Py { + (self.increment, self.reset).into_py(py) + } + + pub fn __eq__(&self, py: Python, other: Py) -> bool { + if let Ok(other) = other.extract::(py) { + self == &other + } else { + false + } + } + + pub fn __repr__(&self, py: Python) -> PyResult> { + let fmt = "DecayHeuristic(increment={!r}, reset={!r})"; + Ok(PyString::new_bound(py, fmt) + .call_method1("format", (self.increment, self.reset))? + .into_py(py)) + } +} + +/// A complete description of the heuristic that Sabre will use. See the individual elements for a +/// greater description. +#[pyclass] +#[pyo3(module = "qiskit._accelerate.sabre", frozen)] +#[derive(Clone, PartialEq)] +pub struct Heuristic { + pub basic: Option, + pub lookahead: Option, + pub decay: Option, + pub best_epsilon: f64, + pub attempt_limit: usize, +} + +#[pymethods] +impl Heuristic { + /// Construct a new Sabre heuristic. This can either be made directly of the desired + /// components, or you can make an empty heuristic and use the ``with_*`` methods to add + /// components to it. + /// + /// Args: + /// attempt_limit (int): the maximum number of swaps to attempt before using a fallback + /// "escape" mechanism to forcibly route a gate. Set this to ``None`` to entirely + /// disable the mechanism, but beware that it's possible (on large coupling maps with a + /// lookahead heuristic component) for Sabre to get stuck in an inescapable arbitrarily + /// deep local minimum of the heuristic. If this happens, and the escape mechanism is + /// disabled entirely, Sabre will enter an infinite loop. + /// best_epsilon (float): the floating-point epsilon to use when comparing scores to find + /// the best value. + #[new] + #[pyo3(signature = (basic=None, lookahead=None, decay=None, attempt_limit=1000, best_epsilon=1e-10))] + pub fn new( + basic: Option, + lookahead: Option, + decay: Option, + attempt_limit: Option, + best_epsilon: f64, + ) -> Self { + Self { + basic, + lookahead, + decay, + best_epsilon, + attempt_limit: attempt_limit.unwrap_or(usize::MAX), + } + } + + pub fn __getnewargs__(&self, py: Python) -> Py { + ( + self.basic, + self.lookahead, + self.decay, + self.attempt_limit, + self.best_epsilon, + ) + .into_py(py) + } + + /// Set the weight of the ``basic`` heuristic (the sum of distances of gates in the front + /// layer). This is often set to ``1.0``. You almost certainly should enable this part of the + /// heuristic, or it's highly unlikely that Sabre will be able to make any progress. + pub fn with_basic(&self, weight: f64, scale: SetScaling) -> Self { + Self { + basic: Some(BasicHeuristic { weight, scale }), + ..self.clone() + } + } + + /// Set the weight and extended-set size of the ``lookahead`` heuristic. The weight here + /// should typically be less than that of ``basic``. + pub fn with_lookahead(&self, weight: f64, size: usize, scale: SetScaling) -> Self { + Self { + lookahead: Some(LookaheadHeuristic { + weight, + size, + scale, + }), + ..self.clone() + } + } + + /// Set the multiplier increment and reset interval of the decay heuristic. The reset interval + /// must be non-zero. + pub fn with_decay(&self, increment: f64, reset: usize) -> PyResult { + if reset == 0 { + Err(PyValueError::new_err("decay reset interval cannot be zero")) + } else { + Ok(Self { + decay: Some(DecayHeuristic { increment, reset }), + ..self.clone() + }) + } + } + + pub fn __eq__(&self, py: Python, other: Py) -> bool { + if let Ok(other) = other.extract::(py) { + self == &other + } else { + false + } + } + + pub fn __repr__(&self, py: Python) -> PyResult> { + let fmt = "Heuristic(basic={!r}, lookahead={!r}, decay={!r}, attempt_limit={!r}, best_epsilon={!r})"; + Ok(PyString::new_bound(py, fmt) + .call_method1( + "format", + ( + self.basic, + self.lookahead, + self.decay, + self.attempt_limit, + self.best_epsilon, + ), + )? + .into_py(py)) + } +} diff --git a/crates/accelerate/src/sabre/layer.rs b/crates/accelerate/src/sabre/layer.rs index 8874a375935f..899321a96681 100644 --- a/crates/accelerate/src/sabre/layer.rs +++ b/crates/accelerate/src/sabre/layer.rs @@ -47,6 +47,11 @@ impl FrontLayer { } } + /// Number of gates currently stored in the layer. + pub fn len(&self) -> usize { + self.nodes.len() + } + /// View onto the mapping between qubits and their `(node, other_qubit)` pair. Index `i` /// corresponds to physical qubit `i`. pub fn qubits(&self) -> &[Option<(NodeIndex, PhysicalQubit)>] { @@ -77,11 +82,8 @@ impl FrontLayer { } /// Calculate the score _difference_ caused by this swap, compared to not making the swap. - #[inline] + #[inline(always)] pub fn score(&self, swap: [PhysicalQubit; 2], dist: &ArrayView2) -> f64 { - if self.is_empty() { - return 0.0; - } // At most there can be two affected gates in the front layer (one on each qubit in the // swap), since any gate whose closest path passes through the swapped qubit link has its // "virtual-qubit path" order changed, but not the total weight. In theory, we should @@ -96,18 +98,14 @@ impl FrontLayer { if let Some((_, c)) = self.qubits[b.index()] { total += dist[[a.index(), c.index()]] - dist[[b.index(), c.index()]] } - total / self.nodes.len() as f64 + total } /// Calculate the total absolute of the current front layer on the given layer. pub fn total_score(&self, dist: &ArrayView2) -> f64 { - if self.is_empty() { - return 0.0; - } self.iter() .map(|(_, &[a, b])| dist[[a.index(), b.index()]]) .sum::() - / self.nodes.len() as f64 } /// Apply a physical swap to the current layout data structure. @@ -181,10 +179,8 @@ impl ExtendedSet { } /// Calculate the score of applying the given swap, relative to not applying it. + #[inline(always)] pub fn score(&self, swap: [PhysicalQubit; 2], dist: &ArrayView2) -> f64 { - if self.is_empty() { - return 0.0; - } let [a, b] = swap; let mut total = 0.0; for other in self.qubits[a.index()].iter() { @@ -201,14 +197,12 @@ impl ExtendedSet { } total += dist[[a.index(), other.index()]] - dist[[b.index(), other.index()]]; } - total / self.len as f64 + total } /// Calculate the total absolute score of this set of nodes over the given layout. pub fn total_score(&self, dist: &ArrayView2) -> f64 { - if self.is_empty() { - return 0.0; - } + // Factor of two is to remove double-counting of each gate. self.qubits .iter() .enumerate() @@ -216,7 +210,7 @@ impl ExtendedSet { others.iter().map(move |b| dist[[a_index, b.index()]]) }) .sum::() - / (2.0 * self.len as f64) // Factor of two is to remove double-counting of each gate. + * 0.5 } /// Clear all nodes from the extended set. diff --git a/crates/accelerate/src/sabre/layout.rs b/crates/accelerate/src/sabre/layout.rs index a1e5e9ce6418..5ea568559119 100644 --- a/crates/accelerate/src/sabre/layout.rs +++ b/crates/accelerate/src/sabre/layout.rs @@ -24,11 +24,12 @@ use rayon::prelude::*; use crate::getenv_use_multiple_threads; use crate::nlayout::{NLayout, PhysicalQubit}; +use super::heuristic::Heuristic; use super::neighbor_table::NeighborTable; use super::route::{swap_map, swap_map_trial, RoutingTargetView}; use super::sabre_dag::SabreDAG; use super::swap_map::SwapMap; -use super::{Heuristic, NodeBlockResults, SabreResult}; +use super::{NodeBlockResults, SabreResult}; use crate::dense_layout::best_subset_inner; @@ -39,7 +40,7 @@ pub fn sabre_layout_and_routing( dag: &SabreDAG, neighbor_table: &NeighborTable, distance_matrix: PyReadonlyArray2, - heuristic: Heuristic, + heuristic: &Heuristic, max_iterations: usize, num_swap_trials: usize, num_random_trials: usize, @@ -129,7 +130,7 @@ pub fn sabre_layout_and_routing( fn layout_trial( target: &RoutingTargetView, dag: &SabreDAG, - heuristic: Heuristic, + heuristic: &Heuristic, seed: u64, max_iterations: usize, num_swap_trials: usize, diff --git a/crates/accelerate/src/sabre/mod.rs b/crates/accelerate/src/sabre/mod.rs index 3eb8ebb3a219..287fdd743dfa 100644 --- a/crates/accelerate/src/sabre/mod.rs +++ b/crates/accelerate/src/sabre/mod.rs @@ -10,12 +10,13 @@ // copyright notice, and modified files need to carry a notice indicating // that they have been altered from the originals. +mod heuristic; mod layer; mod layout; mod neighbor_table; mod route; -mod sabre_dag; -mod swap_map; +pub mod sabre_dag; +pub mod swap_map; use hashbrown::HashMap; use numpy::{IntoPyArray, ToPyArray}; @@ -29,14 +30,6 @@ use neighbor_table::NeighborTable; use sabre_dag::SabreDAG; use swap_map::SwapMap; -#[pyclass] -#[derive(Clone, Copy)] -pub enum Heuristic { - Basic, - Lookahead, - Decay, -} - /// A container for Sabre mapping results. #[pyclass(module = "qiskit._accelerate.sabre")] #[derive(Clone, Debug)] @@ -117,7 +110,11 @@ impl BlockResult { pub fn sabre(m: &Bound) -> PyResult<()> { m.add_wrapped(wrap_pyfunction!(route::sabre_routing))?; m.add_wrapped(wrap_pyfunction!(layout::sabre_layout_and_routing))?; - m.add_class::()?; + m.add_class::()?; + m.add_class::()?; + m.add_class::()?; + m.add_class::()?; + m.add_class::()?; m.add_class::()?; m.add_class::()?; m.add_class::()?; diff --git a/crates/accelerate/src/sabre/route.rs b/crates/accelerate/src/sabre/route.rs index beb4cc3cf3b9..bef6d501b4aa 100644 --- a/crates/accelerate/src/sabre/route.rs +++ b/crates/accelerate/src/sabre/route.rs @@ -31,22 +31,13 @@ use rustworkx_core::token_swapper::token_swapper; use crate::getenv_use_multiple_threads; use crate::nlayout::{NLayout, PhysicalQubit}; +use super::heuristic::{BasicHeuristic, DecayHeuristic, Heuristic, LookaheadHeuristic, SetScaling}; use super::layer::{ExtendedSet, FrontLayer}; use super::neighbor_table::NeighborTable; use super::sabre_dag::SabreDAG; use super::swap_map::SwapMap; -use super::{BlockResult, Heuristic, NodeBlockResults, SabreResult}; +use super::{BlockResult, NodeBlockResults, SabreResult}; -/// Epsilon used in minimum-score calculations. -const BEST_EPSILON: f64 = 1e-10; -/// Size of lookahead window. -const EXTENDED_SET_SIZE: usize = 20; -/// Decay coefficient for penalizing serial swaps. -const DECAY_RATE: f64 = 0.001; -/// How often to reset all decay rates to 1. -const DECAY_RESET_INTERVAL: u8 = 5; -/// Weight of lookahead window compared to front_layer. -const EXTENDED_SET_WEIGHT: f64 = 0.5; /// Number of trials for control flow block swap epilogues. const SWAP_EPILOGUE_TRIALS: usize = 4; @@ -67,7 +58,7 @@ pub struct RoutingTargetView<'a> { struct RoutingState<'a, 'b> { target: &'a RoutingTargetView<'b>, dag: &'a SabreDAG, - heuristic: Heuristic, + heuristic: &'a Heuristic, /// Mapping of instructions (node indices) to swaps that precede them. out_map: HashMap>, /// Order of the instructions (node indices) in the problem DAG in the output. @@ -76,16 +67,17 @@ struct RoutingState<'a, 'b> { node_block_results: HashMap>, front_layer: FrontLayer, extended_set: ExtendedSet, + decay: &'a mut [f64], /// How many predecessors still need to be satisfied for each node index before it is at the /// front of the topological iteration through the nodes as they're routed. required_predecessors: &'a mut [u32], layout: NLayout, - /// Tracking for the 'decay' heuristic on each qubit. - qubits_decay: &'a mut [f64], - /// Reusable allocated storage space for choosing the best swap. This is owned outside of the - /// `choose_best_swap` function so that we don't need to reallocate and then re-grow the - /// collection on every entry. - swap_scratch: Vec<[PhysicalQubit; 2]>, + /// Reusable allocated storage space for accumulating and scoring swaps. This is owned as part + /// of the general state to avoid reallocation costs. + swap_scores: Vec<([PhysicalQubit; 2], f64)>, + /// Reusable allocated storage space for tracking the current best swaps. This is owned as + /// part of the general state to avoid reallocation costs. + best_swaps: Vec<[PhysicalQubit; 2]>, rng: Pcg64Mcg, seed: u64, } @@ -241,13 +233,19 @@ impl<'a, 'b> RoutingState<'a, 'b> { /// layer (and themselves). This uses `required_predecessors` as scratch space for efficiency, /// but returns it to the same state as the input on return. fn populate_extended_set(&mut self) { + let extended_set_size = + if let Some(LookaheadHeuristic { size, .. }) = self.heuristic.lookahead { + size + } else { + return; + }; let mut to_visit = self.front_layer.iter_nodes().copied().collect::>(); let mut decremented: IndexMap = IndexMap::with_hasher(ahash::RandomState::default()); let mut i = 0; let mut visit_now: Vec = Vec::new(); let dag = &self.dag; - while i < to_visit.len() && self.extended_set.len() < EXTENDED_SET_SIZE { + while i < to_visit.len() && self.extended_set.len() < extended_set_size { // Visit runs of non-2Q gates fully before moving on to children of 2Q gates. This way, // traversal order is a BFS of 2Q gates rather than of all gates. visit_now.push(to_visit[i]); @@ -335,61 +333,76 @@ impl<'a, 'b> RoutingState<'a, 'b> { /// Return the swap of two virtual qubits that produces the best score of all possible swaps. fn choose_best_swap(&mut self) -> [PhysicalQubit; 2] { - self.swap_scratch.clear(); - let mut min_score = f64::MAX; - // The decay heuristic is the only one that actually needs the absolute score. - let dist = &self.target.distance; - let absolute_score = match self.heuristic { - Heuristic::Decay => { - self.front_layer.total_score(dist) - + EXTENDED_SET_WEIGHT * self.extended_set.total_score(dist) + // Obtain all candidate swaps from the front layer. A coupling-map edge is a candidate + // swap if it involves at least one active qubit (i.e. it must affect the "basic" + // heuristic), and if it involves two active qubits, we choose the `swap[0] < swap[1]` form + // to make a canonical choice. + self.swap_scores.clear(); + for &phys in self.front_layer.iter_active() { + for &neighbor in self.target.neighbors[phys].iter() { + if neighbor > phys || !self.front_layer.is_active(neighbor) { + self.swap_scores.push(([phys, neighbor], 0.0)); + } } - _ => 0.0, - }; - for swap in obtain_swaps(&self.front_layer, self.target.neighbors) { - let score = match self.heuristic { - Heuristic::Basic => self.front_layer.score(swap, dist), - Heuristic::Lookahead => { - self.front_layer.score(swap, dist) - + EXTENDED_SET_WEIGHT * self.extended_set.score(swap, dist) + } + + let dist = &self.target.distance; + let mut absolute_score = 0.0; + + if let Some(BasicHeuristic { weight, scale }) = self.heuristic.basic { + let weight = match scale { + SetScaling::Constant => weight, + SetScaling::Size => { + if self.front_layer.is_empty() { + 0.0 + } else { + weight / (self.front_layer.len() as f64) + } } - Heuristic::Decay => { - self.qubits_decay[swap[0].index()].max(self.qubits_decay[swap[1].index()]) - * (absolute_score - + self.front_layer.score(swap, dist) - + EXTENDED_SET_WEIGHT * self.extended_set.score(swap, dist)) + }; + absolute_score += weight * self.front_layer.total_score(dist); + for (swap, score) in self.swap_scores.iter_mut() { + *score += weight * self.front_layer.score(*swap, dist); + } + } + + if let Some(LookaheadHeuristic { weight, scale, .. }) = self.heuristic.lookahead { + let weight = match scale { + SetScaling::Constant => weight, + SetScaling::Size => { + if self.extended_set.is_empty() { + 0.0 + } else { + weight / (self.extended_set.len() as f64) + } } }; - if score < min_score - BEST_EPSILON { - min_score = score; - self.swap_scratch.clear(); - self.swap_scratch.push(swap); - } else if (score - min_score).abs() < BEST_EPSILON { - self.swap_scratch.push(swap); + absolute_score += weight * self.extended_set.total_score(dist); + for (swap, score) in self.swap_scores.iter_mut() { + *score += weight * self.extended_set.score(*swap, dist); } } - *self.swap_scratch.choose(&mut self.rng).unwrap() - } -} -/// Return a set of candidate swaps that affect qubits in front_layer. -/// -/// For each virtual qubit in `front_layer`, find its current location on hardware and the physical -/// qubits in that neighborhood. Every swap on virtual qubits that corresponds to one of those -/// physical couplings is a candidate swap. -fn obtain_swaps<'a>( - front_layer: &'a FrontLayer, - neighbors: &'a NeighborTable, -) -> impl Iterator + 'a { - front_layer.iter_active().flat_map(move |&p| { - neighbors[p].iter().filter_map(move |&neighbor| { - if neighbor > p || !front_layer.is_active(neighbor) { - Some([p, neighbor]) - } else { - None + if let Some(DecayHeuristic { .. }) = self.heuristic.decay { + for (swap, score) in self.swap_scores.iter_mut() { + *score = (absolute_score + *score) + * self.decay[swap[0].index()].max(self.decay[swap[1].index()]); } - }) - }) + } + + let mut min_score = f64::INFINITY; + let epsilon = self.heuristic.best_epsilon; + for &(swap, score) in self.swap_scores.iter() { + if score - min_score < -epsilon { + min_score = score; + self.best_swaps.clear(); + self.best_swaps.push(swap); + } else if (score - min_score).abs() <= epsilon { + self.best_swaps.push(swap); + } + } + *self.best_swaps.choose(&mut self.rng).unwrap() + } } /// Run sabre swap on a circuit @@ -408,7 +421,7 @@ pub fn sabre_routing( dag: &SabreDAG, neighbor_table: &NeighborTable, distance_matrix: PyReadonlyArray2, - heuristic: Heuristic, + heuristic: &Heuristic, initial_layout: &NLayout, num_trials: usize, seed: Option, @@ -449,7 +462,7 @@ pub fn sabre_routing( pub fn swap_map( target: &RoutingTargetView, dag: &SabreDAG, - heuristic: Heuristic, + heuristic: &Heuristic, initial_layout: &NLayout, seed: Option, num_trials: usize, @@ -498,7 +511,7 @@ pub fn swap_map( pub fn swap_map_trial( target: &RoutingTargetView, dag: &SabreDAG, - heuristic: Heuristic, + heuristic: &Heuristic, initial_layout: &NLayout, seed: u64, ) -> (SabreResult, NLayout) { @@ -512,10 +525,11 @@ pub fn swap_map_trial( node_block_results: HashMap::with_capacity(dag.node_blocks.len()), front_layer: FrontLayer::new(num_qubits), extended_set: ExtendedSet::new(num_qubits), + decay: &mut vec![1.; num_qubits as usize], required_predecessors: &mut vec![0; dag.dag.node_count()], layout: initial_layout.clone(), - qubits_decay: &mut vec![1.; num_qubits as usize], - swap_scratch: Vec::new(), + swap_scores: Vec::with_capacity(target.coupling.edge_count()), + best_swaps: Vec::new(), rng: Pcg64Mcg::seed_from_u64(seed), seed, }; @@ -529,15 +543,14 @@ pub fn swap_map_trial( // Main logic loop; the front layer only becomes empty when all nodes have been routed. At // each iteration of this loop, we route either one or two gates. - let max_iterations_without_progress = 10 * num_qubits as usize; - let mut num_search_steps: u8 = 0; let mut routable_nodes = Vec::::with_capacity(2); + let mut num_search_steps = 0; while !state.front_layer.is_empty() { let mut current_swaps: Vec<[PhysicalQubit; 2]> = Vec::new(); // Swap-mapping loop. This is the main part of the algorithm, which we repeat until we // either successfully route a node, or exceed the maximum number of attempts. - while routable_nodes.is_empty() && current_swaps.len() <= max_iterations_without_progress { + while routable_nodes.is_empty() && current_swaps.len() <= state.heuristic.attempt_limit { let best_swap = state.choose_best_swap(); state.apply_swap(best_swap); current_swaps.push(best_swap); @@ -547,13 +560,15 @@ pub fn swap_map_trial( if let Some(node) = state.routable_node_on_qubit(best_swap[0]) { routable_nodes.push(node); } - num_search_steps += 1; - if num_search_steps >= DECAY_RESET_INTERVAL { - state.qubits_decay.fill(1.); - num_search_steps = 0; - } else { - state.qubits_decay[best_swap[0].index()] += DECAY_RATE; - state.qubits_decay[best_swap[1].index()] += DECAY_RATE; + if let Some(DecayHeuristic { increment, reset }) = state.heuristic.decay { + num_search_steps += 1; + if num_search_steps >= reset { + state.decay.fill(1.); + num_search_steps = 0; + } else { + state.decay[best_swap[0].index()] += increment; + state.decay[best_swap[1].index()] += increment; + } } } if routable_nodes.is_empty() { @@ -568,7 +583,9 @@ pub fn swap_map_trial( routable_nodes.push(force_routed); } state.update_route(&routable_nodes, current_swaps); - state.qubits_decay.fill(1.); + if state.heuristic.decay.is_some() { + state.decay.fill(1.); + } routable_nodes.clear(); } ( diff --git a/crates/accelerate/src/star_prerouting.rs b/crates/accelerate/src/star_prerouting.rs new file mode 100644 index 000000000000..fd2156ad2011 --- /dev/null +++ b/crates/accelerate/src/star_prerouting.rs @@ -0,0 +1,214 @@ +// This code is part of Qiskit. +// +// (C) Copyright IBM 2024 +// +// This code is licensed under the Apache License, Version 2.0. You may +// obtain a copy of this license in the LICENSE.txt file in the root directory +// of this source tree or at http://www.apache.org/licenses/LICENSE-2.0. +// +// Any modifications or derivative works of this code must retain this +// copyright notice, and modified files need to carry a notice indicating +// that they have been altered from the originals. + +/// Type alias for a node representation. +/// Each node is represented as a tuple containing: +/// - Node id (usize) +/// - List of involved qubit indices (Vec) +/// - Set of involved classical bit indices (HashSet) +/// - Directive flag (bool) +type Nodes = (usize, Vec, HashSet, bool); + +/// Type alias for a block representation. +/// Each block is represented by a tuple containing: +/// - A boolean indicating the presence of a center (bool) +/// - A list of nodes (Vec) +type Block = (bool, Vec); + +use crate::nlayout::PhysicalQubit; +use crate::nlayout::VirtualQubit; +use crate::sabre::sabre_dag::SabreDAG; +use crate::sabre::swap_map::SwapMap; +use crate::sabre::BlockResult; +use crate::sabre::NodeBlockResults; +use crate::sabre::SabreResult; +use hashbrown::HashMap; +use hashbrown::HashSet; +use numpy::IntoPyArray; +use pyo3::prelude::*; + +/// Python function to perform star prerouting on a SabreDAG. +/// This function processes star blocks and updates the DAG and qubit mapping. +#[pyfunction] +#[pyo3(text_signature = "(dag, blocks, processing_order, /)")] +fn star_preroute( + py: Python, + dag: &mut SabreDAG, + blocks: Vec, + processing_order: Vec, +) -> (SwapMap, PyObject, NodeBlockResults, PyObject) { + let mut qubit_mapping: Vec = (0..dag.num_qubits).collect(); + let mut processed_block_ids: HashSet = HashSet::with_capacity(blocks.len()); + let last_2q_gate = processing_order.iter().rev().find(|node| node.1.len() == 2); + let mut is_first_star = true; + + // Structures for SabreResult + let mut out_map: HashMap> = + HashMap::with_capacity(dag.dag.node_count()); + let mut gate_order: Vec = Vec::with_capacity(dag.dag.node_count()); + let node_block_results: HashMap> = HashMap::new(); + + // Create a HashMap to store the node-to-block mapping + let mut node_to_block: HashMap = HashMap::with_capacity(processing_order.len()); + for (block_id, block) in blocks.iter().enumerate() { + for node in &block.1 { + node_to_block.insert(node.0, block_id); + } + } + // Store nodes where swaps will be placed. + let mut swap_locations: Vec<&Nodes> = Vec::with_capacity(processing_order.len()); + + // Process blocks, gathering swap locations and updating the gate order + for node in &processing_order { + if let Some(&block_id) = node_to_block.get(&node.0) { + // Skip if the block has already been processed + if !processed_block_ids.insert(block_id) { + continue; + } + process_block( + &blocks[block_id], + last_2q_gate, + &mut is_first_star, + &mut gate_order, + &mut swap_locations, + ); + } else { + // Apply operation for nodes not part of any block + gate_order.push(node.0); + } + } + + // Apply the swaps based on the gathered swap locations and gate order + for (index, node_id) in gate_order.iter().enumerate() { + for swap_location in &swap_locations { + if *node_id == swap_location.0 { + if let Some(next_node_id) = gate_order.get(index + 1) { + apply_swap( + &mut qubit_mapping, + &swap_location.1, + *next_node_id, + &mut out_map, + ); + } + } + } + } + + let res = SabreResult { + map: SwapMap { map: out_map }, + node_order: gate_order, + node_block_results: NodeBlockResults { + results: node_block_results, + }, + }; + + let final_res = ( + res.map, + res.node_order.into_pyarray_bound(py).into(), + res.node_block_results, + qubit_mapping.into_pyarray_bound(py).into(), + ); + + final_res +} + +/// Processes a star block, applying operations and handling swaps. +/// +/// Args: +/// +/// * `block` - A tuple containing a boolean indicating the presence of a center and a vector of nodes representing the star block. +/// * `last_2q_gate` - The last two-qubit gate in the processing order. +/// * `is_first_star` - A mutable reference to a boolean indicating if this is the first star block being processed. +/// * `gate_order` - A mutable reference to the gate order vector. +/// * `swap_locations` - A mutable reference to the nodes where swaps will be placed after +fn process_block<'a>( + block: &'a Block, + last_2q_gate: Option<&'a Nodes>, + is_first_star: &mut bool, + gate_order: &mut Vec, + swap_locations: &mut Vec<&'a Nodes>, +) { + let (has_center, sequence) = block; + + // If the block contains exactly 2 nodes, apply them directly + if sequence.len() == 2 { + for inner_node in sequence { + gate_order.push(inner_node.0); + } + return; + } + + let mut prev_qargs = None; + let mut swap_source = false; + + // Process each node in the block + for inner_node in sequence.iter() { + // Apply operation directly if it's a single-qubit operation or the same as previous qargs + if inner_node.1.len() == 1 || prev_qargs == Some(&inner_node.1) { + gate_order.push(inner_node.0); + continue; + } + + // If this is the first star and no swap source has been identified, set swap_source + if *is_first_star && !swap_source { + swap_source = *has_center; + gate_order.push(inner_node.0); + prev_qargs = Some(&inner_node.1); + continue; + } + + // Place 2q-gate and subsequent swap gate + gate_order.push(inner_node.0); + + if inner_node != last_2q_gate.unwrap() && inner_node.1.len() == 2 { + swap_locations.push(inner_node); + } + prev_qargs = Some(&inner_node.1); + } + *is_first_star = false; +} + +/// Applies a swap operation to the DAG and updates the qubit mapping. +/// +/// # Args: +/// +/// * `qubit_mapping` - A mutable reference to the qubit mapping vector. +/// * `qargs` - Qubit indices for the swap operation (node before the swap) +/// * `next_node_id` - ID of the next node in the gate order (node after the swap) +/// * `out_map` - A mutable reference to the output map. +fn apply_swap( + qubit_mapping: &mut [usize], + qargs: &[VirtualQubit], + next_node_id: usize, + out_map: &mut HashMap>, +) { + if qargs.len() == 2 { + let idx0 = qargs[0].index(); + let idx1 = qargs[1].index(); + + // Update the `qubit_mapping` and `out_map` to reflect the swap operation + qubit_mapping.swap(idx0, idx1); + out_map.insert( + next_node_id, + vec![[ + PhysicalQubit::new(qubit_mapping[idx0].try_into().unwrap()), + PhysicalQubit::new(qubit_mapping[idx1].try_into().unwrap()), + ]], + ); + } +} + +#[pymodule] +pub fn star_prerouting(m: &Bound) -> PyResult<()> { + m.add_wrapped(wrap_pyfunction!(star_preroute))?; + Ok(()) +} diff --git a/crates/circuit/src/imports.rs b/crates/circuit/src/imports.rs index 7d17aba2440f..3a1c6ff5ff4a 100644 --- a/crates/circuit/src/imports.rs +++ b/crates/circuit/src/imports.rs @@ -28,7 +28,7 @@ pub struct ImportOnceCell { } impl ImportOnceCell { - const fn new(module: &'static str, object: &'static str) -> Self { + pub const fn new(module: &'static str, object: &'static str) -> Self { Self { module, object, diff --git a/crates/pyext/src/lib.rs b/crates/pyext/src/lib.rs index 6af99ff04a8d..f9711641a938 100644 --- a/crates/pyext/src/lib.rs +++ b/crates/pyext/src/lib.rs @@ -18,9 +18,10 @@ use qiskit_accelerate::{ error_map::error_map, euler_one_qubit_decomposer::euler_one_qubit_decomposer, isometry::isometry, nlayout::nlayout, optimize_1q_gates::optimize_1q_gates, pauli_exp_val::pauli_expval, results::results, sabre::sabre, sampled_exp_val::sampled_exp_val, - sparse_pauli_op::sparse_pauli_op, stochastic_swap::stochastic_swap, synthesis::synthesis, - target_transpiler::target, two_qubit_decompose::two_qubit_decompose, uc_gate::uc_gate, - utils::utils, vf2_layout::vf2_layout, + sparse_pauli_op::sparse_pauli_op, star_prerouting::star_prerouting, + stochastic_swap::stochastic_swap, synthesis::synthesis, target_transpiler::target, + two_qubit_decompose::two_qubit_decompose, uc_gate::uc_gate, utils::utils, + vf2_layout::vf2_layout, }; #[pymodule] @@ -41,6 +42,7 @@ fn _accelerate(m: &Bound) -> PyResult<()> { m.add_wrapped(wrap_pymodule!(sabre))?; m.add_wrapped(wrap_pymodule!(sampled_exp_val))?; m.add_wrapped(wrap_pymodule!(sparse_pauli_op))?; + m.add_wrapped(wrap_pymodule!(star_prerouting))?; m.add_wrapped(wrap_pymodule!(stochastic_swap))?; m.add_wrapped(wrap_pymodule!(target))?; m.add_wrapped(wrap_pymodule!(two_qubit_decompose))?; diff --git a/crates/qasm2/Cargo.toml b/crates/qasm2/Cargo.toml index 68137ee602bf..681693c4a17d 100644 --- a/crates/qasm2/Cargo.toml +++ b/crates/qasm2/Cargo.toml @@ -10,6 +10,7 @@ name = "qiskit_qasm2" doctest = false [dependencies] +num-bigint.workspace = true hashbrown.workspace = true pyo3.workspace = true qiskit-circuit.workspace = true diff --git a/crates/qasm2/src/bytecode.rs b/crates/qasm2/src/bytecode.rs index 2dea3a2b0e85..fab973f2186f 100644 --- a/crates/qasm2/src/bytecode.rs +++ b/crates/qasm2/src/bytecode.rs @@ -10,6 +10,7 @@ // copyright notice, and modified files need to carry a notice indicating // that they have been altered from the originals. +use num_bigint::BigUint; use pyo3::prelude::*; use crate::error::QASM2ParseError; @@ -160,7 +161,7 @@ pub enum InternalBytecode { arguments: Vec, qubits: Vec, creg: CregId, - value: usize, + value: BigUint, }, Measure { qubit: QubitId, @@ -170,7 +171,7 @@ pub enum InternalBytecode { qubit: QubitId, clbit: ClbitId, creg: CregId, - value: usize, + value: BigUint, }, Reset { qubit: QubitId, @@ -178,7 +179,7 @@ pub enum InternalBytecode { ConditionedReset { qubit: QubitId, creg: CregId, - value: usize, + value: BigUint, }, Barrier { qubits: Vec, diff --git a/crates/qasm2/src/lex.rs b/crates/qasm2/src/lex.rs index 551fd2b7af48..cfac9e98fce0 100644 --- a/crates/qasm2/src/lex.rs +++ b/crates/qasm2/src/lex.rs @@ -24,6 +24,7 @@ //! real-number tokenization. use hashbrown::HashMap; +use num_bigint::BigUint; use pyo3::prelude::PyResult; use std::path::Path; @@ -279,6 +280,15 @@ impl Token { context.text[self.index].parse().unwrap() } + /// If the token is an integer (by type, not just by value), this method can be called to + /// evaluate its value as a big integer. Panics if the token is not an integer type. + pub fn bigint(&self, context: &TokenContext) -> BigUint { + if self.ttype != TokenType::Integer { + panic!() + } + context.text[self.index].parse().unwrap() + } + /// If the token is a filename path, this method can be called to get a (regular) string /// representing it. Panics if the token type was not a filename. pub fn filename(&self, context: &TokenContext) -> String { diff --git a/crates/qasm2/src/parse.rs b/crates/qasm2/src/parse.rs index f7eceb6aeef4..36e2a49f669c 100644 --- a/crates/qasm2/src/parse.rs +++ b/crates/qasm2/src/parse.rs @@ -16,6 +16,7 @@ //! operator-precedence parser. use hashbrown::{HashMap, HashSet}; +use num_bigint::BigUint; use pyo3::prelude::{PyObject, PyResult, Python}; use crate::bytecode::InternalBytecode; @@ -188,9 +189,10 @@ enum GateParameters { /// An equality condition from an `if` statement. These can condition gate applications, measures /// and resets, although in practice they're basically only ever used on gates. +#[derive(Clone)] struct Condition { creg: CregId, - value: usize, + value: BigUint, } /// Find the first match for the partial [filename] in the directories along [path]. Returns @@ -1105,7 +1107,7 @@ impl State { } { return match parameters { GateParameters::Constant(parameters) => { - self.emit_single_global_gate(bc, gate_id, parameters, qubits, &condition) + self.emit_single_global_gate(bc, gate_id, parameters, qubits, condition) } GateParameters::Expression(parameters) => { self.emit_single_gate_gate(bc, gate_id, parameters, qubits) @@ -1174,7 +1176,7 @@ impl State { } return match parameters { GateParameters::Constant(parameters) => { - self.emit_single_global_gate(bc, gate_id, parameters, qubits, &condition) + self.emit_single_global_gate(bc, gate_id, parameters, qubits, condition) } GateParameters::Expression(parameters) => { self.emit_single_gate_gate(bc, gate_id, parameters, qubits) @@ -1196,7 +1198,7 @@ impl State { gate_id, parameters.clone(), qubits, - &condition, + condition.clone(), )?; } // Gates used in gate-body definitions can't ever broadcast, because their only @@ -1215,7 +1217,7 @@ impl State { gate_id: GateId, arguments: Vec, qubits: Vec, - condition: &Option, + condition: Option, ) -> PyResult { if let Some(condition) = condition { bc.push(Some(InternalBytecode::ConditionedGate { @@ -1262,7 +1264,7 @@ impl State { self.expect(TokenType::Equals, "'=='", &if_token)?; let value = self .expect(TokenType::Integer, "an integer", &if_token)? - .int(&self.context); + .bigint(&self.context); self.expect(TokenType::RParen, "')'", &lparen_token)?; let name = name_token.id(&self.context); let creg = match self.symbols.get(&name) { @@ -1408,7 +1410,7 @@ impl State { qubit: q_start + i, clbit: c_start + i, creg, - value, + value: value.clone(), }) })); Ok(q_size) @@ -1477,7 +1479,7 @@ impl State { Some(InternalBytecode::ConditionedReset { qubit: start + offset, creg, - value, + value: value.clone(), }) })); Ok(size) diff --git a/qiskit/__init__.py b/qiskit/__init__.py index d88261cad209..6091bfa90346 100644 --- a/qiskit/__init__.py +++ b/qiskit/__init__.py @@ -77,6 +77,7 @@ sys.modules["qiskit._accelerate.sabre"] = _accelerate.sabre sys.modules["qiskit._accelerate.sampled_exp_val"] = _accelerate.sampled_exp_val sys.modules["qiskit._accelerate.sparse_pauli_op"] = _accelerate.sparse_pauli_op +sys.modules["qiskit._accelerate.star_prerouting"] = _accelerate.star_prerouting sys.modules["qiskit._accelerate.stochastic_swap"] = _accelerate.stochastic_swap sys.modules["qiskit._accelerate.target"] = _accelerate.target sys.modules["qiskit._accelerate.two_qubit_decompose"] = _accelerate.two_qubit_decompose diff --git a/qiskit/circuit/add_control.py b/qiskit/circuit/add_control.py index 2b374d54c455..98c9b4d4e452 100644 --- a/qiskit/circuit/add_control.py +++ b/qiskit/circuit/add_control.py @@ -73,7 +73,7 @@ def control( ) -> ControlledGate: """Return controlled version of gate using controlled rotations. This function first checks the name of the operation to see if it knows of a method from which - to generate a controlled version. Currently these are `x`, `rx`, `ry`, and `rz`. + to generate a controlled version. Currently, these are ``x``, ``rx``, ``ry``, and ``rz``. If a method is not directly known, it calls the unroller to convert to `u1`, `u3`, and `cx` gates. diff --git a/qiskit/circuit/annotated_operation.py b/qiskit/circuit/annotated_operation.py index 6780cc2e330f..6006e68f58df 100644 --- a/qiskit/circuit/annotated_operation.py +++ b/qiskit/circuit/annotated_operation.py @@ -18,6 +18,7 @@ from typing import Union, List from qiskit.circuit.operation import Operation +from qiskit.circuit.parameterexpression import ParameterValueType from qiskit.circuit._utils import _compute_control_matrix, _ctrl_state_to_int from qiskit.circuit.exceptions import CircuitError @@ -219,6 +220,27 @@ def power(self, exponent: float, annotated: bool = False): extended_modifiers.append(PowerModifier(exponent)) return AnnotatedOperation(self.base_op, extended_modifiers) + @property + def params(self) -> list[ParameterValueType]: + """The params of the underlying base operation.""" + return getattr(self.base_op, "params", []) + + @params.setter + def params(self, value: list[ParameterValueType]): + if hasattr(self.base_op, "params"): + self.base_op.params = value + else: + raise AttributeError( + f"Cannot set attribute ``params`` on the base operation {self.base_op}." + ) + + def validate_parameter(self, parameter: ParameterValueType) -> ParameterValueType: + """Validate a parameter for the underlying base operation.""" + if hasattr(self.base_op, "validate_parameter"): + return self.base_op.validate_parameter(parameter) + + raise AttributeError(f"Cannot validate parameters on the base operation {self.base_op}.") + def _canonicalize_modifiers(modifiers): """ diff --git a/qiskit/circuit/gate.py b/qiskit/circuit/gate.py index d2c88f40bdb6..37fd19e2022a 100644 --- a/qiskit/circuit/gate.py +++ b/qiskit/circuit/gate.py @@ -104,10 +104,9 @@ def control( num_ctrl_qubits: int = 1, label: str | None = None, ctrl_state: int | str | None = None, - annotated: bool = False, + annotated: bool | None = None, ): - """ - Return the controlled version of itself. + """Return the controlled version of itself. Implemented either as a controlled gate (ref. :class:`.ControlledGate`) or as an annotated operation (ref. :class:`.AnnotatedOperation`). @@ -118,8 +117,12 @@ def control( operation. ctrl_state: the control state in decimal or as a bitstring (e.g. ``'111'``). If ``None``, use ``2**num_ctrl_qubits-1``. - annotated: indicates whether the controlled gate can be implemented - as an annotated gate. + annotated: indicates whether the controlled gate is implemented + as an annotated gate. If ``None``, this is set to ``False`` + if the controlled gate can directly be constructed, and otherwise + set to ``True``. This allows defering the construction process in case the + synthesis of the controlled gate requires more information (e.g. + values of unbound parameters). Returns: Controlled version of the given operation. @@ -127,7 +130,7 @@ def control( Raises: QiskitError: unrecognized mode or invalid ctrl_state """ - if not annotated: + if not annotated: # captures both None and False # pylint: disable=cyclic-import from .add_control import add_control diff --git a/qiskit/circuit/library/generalized_gates/unitary.py b/qiskit/circuit/library/generalized_gates/unitary.py index 6a6623ffce5d..9aa03be86318 100644 --- a/qiskit/circuit/library/generalized_gates/unitary.py +++ b/qiskit/circuit/library/generalized_gates/unitary.py @@ -165,7 +165,7 @@ def control( num_ctrl_qubits: int = 1, label: str | None = None, ctrl_state: int | str | None = None, - annotated: bool = False, + annotated: bool | None = None, ) -> ControlledGate | AnnotatedOperation: """Return controlled version of gate. @@ -174,8 +174,8 @@ def control( label: Optional gate label. ctrl_state: The control state in decimal or as a bit string (e.g. ``"1011"``). If ``None``, use ``2**num_ctrl_qubits - 1``. - annotated: indicates whether the controlled gate can be implemented - as an annotated gate. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is handled as ``False``. Returns: Controlled version of gate. diff --git a/qiskit/circuit/library/standard_gates/h.py b/qiskit/circuit/library/standard_gates/h.py index c07895ebbeaa..462ede2c93ae 100644 --- a/qiskit/circuit/library/standard_gates/h.py +++ b/qiskit/circuit/library/standard_gates/h.py @@ -11,6 +11,9 @@ # that they have been altered from the originals. """Hadamard gate.""" + +from __future__ import annotations + from math import sqrt, pi from typing import Optional, Union import numpy @@ -79,9 +82,9 @@ def _define(self): def control( self, num_ctrl_qubits: int = 1, - label: Optional[str] = None, - ctrl_state: Optional[Union[int, str]] = None, - annotated: bool = False, + label: str | None = None, + ctrl_state: int | str | None = None, + annotated: bool | None = None, ): """Return a (multi-)controlled-H gate. @@ -92,8 +95,8 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented - as an annotated gate. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is handled as ``False``. Returns: ControlledGate: controlled version of this gate. diff --git a/qiskit/circuit/library/standard_gates/multi_control_rotation_gates.py b/qiskit/circuit/library/standard_gates/multi_control_rotation_gates.py index 98dedc05f5ef..6e31c99005b3 100644 --- a/qiskit/circuit/library/standard_gates/multi_control_rotation_gates.py +++ b/qiskit/circuit/library/standard_gates/multi_control_rotation_gates.py @@ -18,7 +18,7 @@ from typing import Optional, Union, Tuple, List import numpy as np -from qiskit.circuit import QuantumCircuit, QuantumRegister, Qubit +from qiskit.circuit import QuantumCircuit, QuantumRegister, Qubit, ParameterExpression from qiskit.circuit.library.standard_gates.x import MCXGate from qiskit.circuit.library.standard_gates.u3 import _generate_gray_code from qiskit.circuit.parameterexpression import ParameterValueType @@ -258,6 +258,9 @@ def mcrx( use_basis_gates=use_basis_gates, ) else: + if isinstance(theta, ParameterExpression): + raise QiskitError(f"Cannot synthesize MCRX with unbound parameter: {theta}.") + cgate = _mcsu2_real_diagonal( RXGate(theta).to_matrix(), num_controls=len(control_qubits), @@ -272,8 +275,8 @@ def mcry( q_controls: Union[QuantumRegister, List[Qubit]], q_target: Qubit, q_ancillae: Optional[Union[QuantumRegister, Tuple[QuantumRegister, int]]] = None, - mode: str = None, - use_basis_gates=False, + mode: Optional[str] = None, + use_basis_gates: bool = False, ): """ Apply Multiple-Controlled Y rotation gate @@ -333,6 +336,9 @@ def mcry( use_basis_gates=use_basis_gates, ) else: + if isinstance(theta, ParameterExpression): + raise QiskitError(f"Cannot synthesize MCRY with unbound parameter: {theta}.") + cgate = _mcsu2_real_diagonal( RYGate(theta).to_matrix(), num_controls=len(control_qubits), @@ -383,6 +389,9 @@ def mcrz( else: self.append(CRZGate(lam), control_qubits + [target_qubit]) else: + if isinstance(lam, ParameterExpression): + raise QiskitError(f"Cannot synthesize MCRZ with unbound parameter: {lam}.") + cgate = _mcsu2_real_diagonal( RZGate(lam).to_matrix(), num_controls=len(control_qubits), diff --git a/qiskit/circuit/library/standard_gates/p.py b/qiskit/circuit/library/standard_gates/p.py index 8c83aa464027..cb2c19bf51e9 100644 --- a/qiskit/circuit/library/standard_gates/p.py +++ b/qiskit/circuit/library/standard_gates/p.py @@ -99,7 +99,7 @@ def control( num_ctrl_qubits: int = 1, label: str | None = None, ctrl_state: str | int | None = None, - annotated: bool = False, + annotated: bool | None = None, ): """Return a (multi-)controlled-Phase gate. @@ -108,8 +108,8 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g. ``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented - as an annotated gate. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is handled as ``False``. Returns: ControlledGate: controlled version of this gate. @@ -255,7 +255,7 @@ def control( num_ctrl_qubits: int = 1, label: str | None = None, ctrl_state: str | int | None = None, - annotated: bool = False, + annotated: bool | None = None, ): """Controlled version of this gate. @@ -264,8 +264,8 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented - as an annotated gate. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is handled as ``False``. Returns: ControlledGate: controlled version of this gate. @@ -396,7 +396,7 @@ def control( num_ctrl_qubits: int = 1, label: str | None = None, ctrl_state: str | int | None = None, - annotated: bool = False, + annotated: bool | None = None, ): """Controlled version of this gate. @@ -405,8 +405,8 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented - as an annotated gate. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is handled as ``False``. Returns: ControlledGate: controlled version of this gate. diff --git a/qiskit/circuit/library/standard_gates/rx.py b/qiskit/circuit/library/standard_gates/rx.py index cb851a740d28..4b8c9e6b446a 100644 --- a/qiskit/circuit/library/standard_gates/rx.py +++ b/qiskit/circuit/library/standard_gates/rx.py @@ -12,6 +12,8 @@ """Rotation around the X axis.""" +from __future__ import annotations + import math from math import pi from typing import Optional, Union @@ -20,7 +22,7 @@ from qiskit.circuit.controlledgate import ControlledGate from qiskit.circuit.gate import Gate from qiskit.circuit.quantumregister import QuantumRegister -from qiskit.circuit.parameterexpression import ParameterValueType +from qiskit.circuit.parameterexpression import ParameterValueType, ParameterExpression from qiskit._accelerate.circuit import StandardGate @@ -78,9 +80,9 @@ def _define(self): def control( self, num_ctrl_qubits: int = 1, - label: Optional[str] = None, - ctrl_state: Optional[Union[str, int]] = None, - annotated: bool = False, + label: str | None = None, + ctrl_state: str | int | None = None, + annotated: bool | None = None, ): """Return a (multi-)controlled-RX gate. @@ -89,16 +91,24 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented - as an annotated gate. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is set to ``True`` if + the gate contains free parameters and more than one control qubit, in which + case it cannot yet be synthesized. Otherwise it is set to ``False``. Returns: ControlledGate: controlled version of this gate. """ + # deliberately capture annotated in [None, False] here if not annotated and num_ctrl_qubits == 1: gate = CRXGate(self.params[0], label=label, ctrl_state=ctrl_state) gate.base_gate.label = self.label else: + # If the gate parameters contain free parameters, we cannot eagerly synthesize + # the controlled gate decomposition. In this case, we annotate the gate per default. + if annotated is None: + annotated = any(isinstance(p, ParameterExpression) for p in self.params) + gate = super().control( num_ctrl_qubits=num_ctrl_qubits, label=label, diff --git a/qiskit/circuit/library/standard_gates/rxx.py b/qiskit/circuit/library/standard_gates/rxx.py index 1c06ae05a85b..3b069aa933bb 100644 --- a/qiskit/circuit/library/standard_gates/rxx.py +++ b/qiskit/circuit/library/standard_gates/rxx.py @@ -11,12 +11,15 @@ # that they have been altered from the originals. """Two-qubit XX-rotation gate.""" + +from __future__ import annotations + import math from typing import Optional import numpy from qiskit.circuit.gate import Gate from qiskit.circuit.quantumregister import QuantumRegister -from qiskit.circuit.parameterexpression import ParameterValueType +from qiskit.circuit.parameterexpression import ParameterValueType, ParameterExpression from qiskit._accelerate.circuit import StandardGate @@ -111,6 +114,39 @@ def _define(self): self.definition = qc + def control( + self, + num_ctrl_qubits: int = 1, + label: str | None = None, + ctrl_state: str | int | None = None, + annotated: bool | None = None, + ): + """Return a (multi-)controlled-RXX gate. + + Args: + num_ctrl_qubits: number of control qubits. + label: An optional label for the gate [Default: ``None``] + ctrl_state: control state expressed as integer, + string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is set to ``True`` if + the gate contains free parameters, in which case it cannot + yet be synthesized. + + Returns: + ControlledGate: controlled version of this gate. + """ + if annotated is None: + annotated = any(isinstance(p, ParameterExpression) for p in self.params) + + gate = super().control( + num_ctrl_qubits=num_ctrl_qubits, + label=label, + ctrl_state=ctrl_state, + annotated=annotated, + ) + return gate + def inverse(self, annotated: bool = False): """Return inverse RXX gate (i.e. with the negative rotation angle). diff --git a/qiskit/circuit/library/standard_gates/ry.py b/qiskit/circuit/library/standard_gates/ry.py index b60b34ffde6f..614d4ef13a0f 100644 --- a/qiskit/circuit/library/standard_gates/ry.py +++ b/qiskit/circuit/library/standard_gates/ry.py @@ -12,6 +12,8 @@ """Rotation around the Y axis.""" +from __future__ import annotations + import math from math import pi from typing import Optional, Union @@ -19,7 +21,7 @@ from qiskit.circuit.controlledgate import ControlledGate from qiskit.circuit.gate import Gate from qiskit.circuit.quantumregister import QuantumRegister -from qiskit.circuit.parameterexpression import ParameterValueType +from qiskit.circuit.parameterexpression import ParameterValueType, ParameterExpression from qiskit._accelerate.circuit import StandardGate @@ -77,9 +79,9 @@ def _define(self): def control( self, num_ctrl_qubits: int = 1, - label: Optional[str] = None, - ctrl_state: Optional[Union[str, int]] = None, - annotated: bool = False, + label: str | None = None, + ctrl_state: str | int | None = None, + annotated: bool | None = None, ): """Return a (multi-)controlled-RY gate. @@ -88,16 +90,24 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented - as an annotated gate. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is set to ``True`` if + the gate contains free parameters and more than one control qubit, in which + case it cannot yet be synthesized. Otherwise it is set to ``False``. Returns: ControlledGate: controlled version of this gate. """ + # deliberately capture annotated in [None, False] here if not annotated and num_ctrl_qubits == 1: gate = CRYGate(self.params[0], label=label, ctrl_state=ctrl_state) gate.base_gate.label = self.label else: + # If the gate parameters contain free parameters, we cannot eagerly synthesize + # the controlled gate decomposition. In this case, we annotate the gate per default. + if annotated is None: + annotated = any(isinstance(p, ParameterExpression) for p in self.params) + gate = super().control( num_ctrl_qubits=num_ctrl_qubits, label=label, diff --git a/qiskit/circuit/library/standard_gates/ryy.py b/qiskit/circuit/library/standard_gates/ryy.py index 91d7d8096cf9..ad185e88d04b 100644 --- a/qiskit/circuit/library/standard_gates/ryy.py +++ b/qiskit/circuit/library/standard_gates/ryy.py @@ -11,12 +11,15 @@ # that they have been altered from the originals. """Two-qubit YY-rotation gate.""" + +from __future__ import annotations + import math from typing import Optional import numpy as np from qiskit.circuit.gate import Gate from qiskit.circuit.quantumregister import QuantumRegister -from qiskit.circuit.parameterexpression import ParameterValueType +from qiskit.circuit.parameterexpression import ParameterValueType, ParameterExpression from qiskit._accelerate.circuit import StandardGate @@ -111,6 +114,39 @@ def _define(self): self.definition = qc + def control( + self, + num_ctrl_qubits: int = 1, + label: str | None = None, + ctrl_state: str | int | None = None, + annotated: bool | None = None, + ): + """Return a (multi-)controlled-YY gate. + + Args: + num_ctrl_qubits: number of control qubits. + label: An optional label for the gate [Default: ``None``] + ctrl_state: control state expressed as integer, + string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is set to ``True`` if + the gate contains free parameters, in which case it cannot + yet be synthesized. + + Returns: + ControlledGate: controlled version of this gate. + """ + if annotated is None: + annotated = any(isinstance(p, ParameterExpression) for p in self.params) + + gate = super().control( + num_ctrl_qubits=num_ctrl_qubits, + label=label, + ctrl_state=ctrl_state, + annotated=annotated, + ) + return gate + def inverse(self, annotated: bool = False): """Return inverse RYY gate (i.e. with the negative rotation angle). diff --git a/qiskit/circuit/library/standard_gates/rz.py b/qiskit/circuit/library/standard_gates/rz.py index 78cf20efa5c6..3abef37b7534 100644 --- a/qiskit/circuit/library/standard_gates/rz.py +++ b/qiskit/circuit/library/standard_gates/rz.py @@ -11,12 +11,15 @@ # that they have been altered from the originals. """Rotation around the Z axis.""" + +from __future__ import annotations + from cmath import exp from typing import Optional, Union from qiskit.circuit.gate import Gate from qiskit.circuit.controlledgate import ControlledGate from qiskit.circuit.quantumregister import QuantumRegister -from qiskit.circuit.parameterexpression import ParameterValueType +from qiskit.circuit.parameterexpression import ParameterValueType, ParameterExpression from qiskit._accelerate.circuit import StandardGate @@ -88,9 +91,9 @@ def _define(self): def control( self, num_ctrl_qubits: int = 1, - label: Optional[str] = None, - ctrl_state: Optional[Union[str, int]] = None, - annotated: bool = False, + label: str | None = None, + ctrl_state: str | int | None = None, + annotated: bool | None = None, ): """Return a (multi-)controlled-RZ gate. @@ -99,16 +102,24 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented - as an annotated gate. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is set to ``True`` if + the gate contains free parameters and more than one control qubit, in which + case it cannot yet be synthesized. Otherwise it is set to ``False``. Returns: ControlledGate: controlled version of this gate. """ + # deliberately capture annotated in [None, False] here if not annotated and num_ctrl_qubits == 1: gate = CRZGate(self.params[0], label=label, ctrl_state=ctrl_state) gate.base_gate.label = self.label else: + # If the gate parameters contain free parameters, we cannot eagerly synthesize + # the controlled gate decomposition. In this case, we annotate the gate per default. + if annotated is None: + annotated = any(isinstance(p, ParameterExpression) for p in self.params) + gate = super().control( num_ctrl_qubits=num_ctrl_qubits, label=label, diff --git a/qiskit/circuit/library/standard_gates/rzx.py b/qiskit/circuit/library/standard_gates/rzx.py index 90e7b71c0a33..003805cc6b55 100644 --- a/qiskit/circuit/library/standard_gates/rzx.py +++ b/qiskit/circuit/library/standard_gates/rzx.py @@ -11,11 +11,14 @@ # that they have been altered from the originals. """Two-qubit ZX-rotation gate.""" + +from __future__ import annotations + import math from typing import Optional from qiskit.circuit.gate import Gate from qiskit.circuit.quantumregister import QuantumRegister -from qiskit.circuit.parameterexpression import ParameterValueType +from qiskit.circuit.parameterexpression import ParameterValueType, ParameterExpression from qiskit._accelerate.circuit import StandardGate @@ -155,6 +158,39 @@ def _define(self): self.definition = qc + def control( + self, + num_ctrl_qubits: int = 1, + label: str | None = None, + ctrl_state: str | int | None = None, + annotated: bool | None = None, + ): + """Return a (multi-)controlled-RZX gate. + + Args: + num_ctrl_qubits: number of control qubits. + label: An optional label for the gate [Default: ``None``] + ctrl_state: control state expressed as integer, + string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is set to ``True`` if + the gate contains free parameters, in which case it cannot + yet be synthesized. + + Returns: + ControlledGate: controlled version of this gate. + """ + if annotated is None: + annotated = any(isinstance(p, ParameterExpression) for p in self.params) + + gate = super().control( + num_ctrl_qubits=num_ctrl_qubits, + label=label, + ctrl_state=ctrl_state, + annotated=annotated, + ) + return gate + def inverse(self, annotated: bool = False): """Return inverse RZX gate (i.e. with the negative rotation angle). diff --git a/qiskit/circuit/library/standard_gates/rzz.py b/qiskit/circuit/library/standard_gates/rzz.py index 554ad4954a31..ca3e6d2db2da 100644 --- a/qiskit/circuit/library/standard_gates/rzz.py +++ b/qiskit/circuit/library/standard_gates/rzz.py @@ -11,11 +11,14 @@ # that they have been altered from the originals. """Two-qubit ZZ-rotation gate.""" + +from __future__ import annotations + from cmath import exp from typing import Optional from qiskit.circuit.gate import Gate from qiskit.circuit.quantumregister import QuantumRegister -from qiskit.circuit.parameterexpression import ParameterValueType +from qiskit.circuit.parameterexpression import ParameterValueType, ParameterExpression from qiskit._accelerate.circuit import StandardGate @@ -119,6 +122,39 @@ def _define(self): self.definition = qc + def control( + self, + num_ctrl_qubits: int = 1, + label: str | None = None, + ctrl_state: str | int | None = None, + annotated: bool | None = None, + ): + """Return a (multi-)controlled-RZZ gate. + + Args: + num_ctrl_qubits: number of control qubits. + label: An optional label for the gate [Default: ``None``] + ctrl_state: control state expressed as integer, + string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is set to ``True`` if + the gate contains free parameters, in which case it cannot + yet be synthesized. + + Returns: + ControlledGate: controlled version of this gate. + """ + if annotated is None: + annotated = any(isinstance(p, ParameterExpression) for p in self.params) + + gate = super().control( + num_ctrl_qubits=num_ctrl_qubits, + label=label, + ctrl_state=ctrl_state, + annotated=annotated, + ) + return gate + def inverse(self, annotated: bool = False): """Return inverse RZZ gate (i.e. with the negative rotation angle). diff --git a/qiskit/circuit/library/standard_gates/s.py b/qiskit/circuit/library/standard_gates/s.py index 975d1cb3be8c..e859de4b5013 100644 --- a/qiskit/circuit/library/standard_gates/s.py +++ b/qiskit/circuit/library/standard_gates/s.py @@ -12,6 +12,8 @@ """The S, Sdg, CS and CSdg gates.""" +from __future__ import annotations + from math import pi from typing import Optional, Union @@ -83,6 +85,39 @@ def _define(self): self.definition = qc + def control( + self, + num_ctrl_qubits: int = 1, + label: str | None = None, + ctrl_state: int | str | None = None, + annotated: bool | None = None, + ): + """Return a (multi-)controlled-S gate. + + One control qubit returns a :class:`.CSGate`. + + Args: + num_ctrl_qubits: number of control qubits. + label: An optional label for the gate [Default: ``None``] + ctrl_state: control state expressed as integer, + string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is handled as ``False``. + + Returns: + ControlledGate: controlled version of this gate. + """ + if not annotated and num_ctrl_qubits == 1: + gate = CSGate(label=label, ctrl_state=ctrl_state, _base_label=self.label) + else: + gate = super().control( + num_ctrl_qubits=num_ctrl_qubits, + label=label, + ctrl_state=ctrl_state, + annotated=annotated, + ) + return gate + def inverse(self, annotated: bool = False): """Return inverse of S (SdgGate). @@ -162,6 +197,39 @@ def _define(self): self.definition = qc + def control( + self, + num_ctrl_qubits: int = 1, + label: str | None = None, + ctrl_state: int | str | None = None, + annotated: bool | None = None, + ): + """Return a (multi-)controlled-Sdg gate. + + One control qubit returns a :class:`.CSdgGate`. + + Args: + num_ctrl_qubits: number of control qubits. + label: An optional label for the gate [Default: ``None``] + ctrl_state: control state expressed as integer, + string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is handled as ``False``. + + Returns: + ControlledGate: controlled version of this gate. + """ + if not annotated and num_ctrl_qubits == 1: + gate = CSdgGate(label=label, ctrl_state=ctrl_state, _base_label=self.label) + else: + gate = super().control( + num_ctrl_qubits=num_ctrl_qubits, + label=label, + ctrl_state=ctrl_state, + annotated=annotated, + ) + return gate + def inverse(self, annotated: bool = False): """Return inverse of Sdg (SGate). diff --git a/qiskit/circuit/library/standard_gates/swap.py b/qiskit/circuit/library/standard_gates/swap.py index 5d33bc74b8d0..84ef3046746d 100644 --- a/qiskit/circuit/library/standard_gates/swap.py +++ b/qiskit/circuit/library/standard_gates/swap.py @@ -12,6 +12,8 @@ """Swap gate.""" +from __future__ import annotations + from typing import Optional, Union import numpy from qiskit.circuit.singleton import SingletonGate, SingletonControlledGate, stdlib_singleton_key @@ -90,9 +92,9 @@ def _define(self): def control( self, num_ctrl_qubits: int = 1, - label: Optional[str] = None, - ctrl_state: Optional[Union[str, int]] = None, - annotated: bool = False, + label: str | None = None, + ctrl_state: str | int | None = None, + annotated: bool | None = None, ): """Return a (multi-)controlled-SWAP gate. @@ -103,8 +105,8 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented - as an annotated gate. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is handled as ``False``. Returns: ControlledGate: controlled version of this gate. diff --git a/qiskit/circuit/library/standard_gates/sx.py b/qiskit/circuit/library/standard_gates/sx.py index ec3c87653148..ec1f57a83bd3 100644 --- a/qiskit/circuit/library/standard_gates/sx.py +++ b/qiskit/circuit/library/standard_gates/sx.py @@ -12,6 +12,8 @@ """Sqrt(X) and C-Sqrt(X) gates.""" +from __future__ import annotations + from math import pi from typing import Optional, Union from qiskit.circuit.singleton import SingletonGate, SingletonControlledGate, stdlib_singleton_key @@ -104,9 +106,9 @@ def inverse(self, annotated: bool = False): def control( self, num_ctrl_qubits: int = 1, - label: Optional[str] = None, - ctrl_state: Optional[Union[str, int]] = None, - annotated: bool = False, + label: str | None = None, + ctrl_state: str | int | None = None, + annotated: bool | None = None, ): """Return a (multi-)controlled-SX gate. @@ -117,8 +119,8 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented - as an annotated gate. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is handled as ``False``. Returns: SingletonControlledGate: controlled version of this gate. diff --git a/qiskit/circuit/library/standard_gates/u.py b/qiskit/circuit/library/standard_gates/u.py index 7f1d32eb914c..bed454897929 100644 --- a/qiskit/circuit/library/standard_gates/u.py +++ b/qiskit/circuit/library/standard_gates/u.py @@ -11,6 +11,9 @@ # that they have been altered from the originals. """Two-pulse single-qubit gate.""" + +from __future__ import annotations + import cmath import copy as _copy import math @@ -19,7 +22,7 @@ import numpy from qiskit.circuit.controlledgate import ControlledGate from qiskit.circuit.gate import Gate -from qiskit.circuit.parameterexpression import ParameterValueType +from qiskit.circuit.parameterexpression import ParameterValueType, ParameterExpression from qiskit.circuit.quantumregister import QuantumRegister from qiskit._accelerate.circuit import StandardGate @@ -103,9 +106,9 @@ def inverse(self, annotated: bool = False): def control( self, num_ctrl_qubits: int = 1, - label: Optional[str] = None, - ctrl_state: Optional[Union[str, int]] = None, - annotated: bool = False, + label: str | None = None, + ctrl_state: str | int | None = None, + annotated: bool | None = None, ): """Return a (multi-)controlled-U gate. @@ -114,8 +117,10 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented - as an annotated gate. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is set to ``True`` if + the gate contains free parameters and more than one control qubit, in which + case it cannot yet be synthesized. Otherwise it is set to ``False``. Returns: ControlledGate: controlled version of this gate. @@ -131,6 +136,11 @@ def control( ) gate.base_gate.label = self.label else: + # If the gate parameters contain free parameters, we cannot eagerly synthesize + # the controlled gate decomposition. In this case, we annotate the gate per default. + if annotated is None: + annotated = any(isinstance(p, ParameterExpression) for p in self.params) + gate = super().control( num_ctrl_qubits=num_ctrl_qubits, label=label, diff --git a/qiskit/circuit/library/standard_gates/u1.py b/qiskit/circuit/library/standard_gates/u1.py index e62a132670ff..e9bbed871d1f 100644 --- a/qiskit/circuit/library/standard_gates/u1.py +++ b/qiskit/circuit/library/standard_gates/u1.py @@ -128,7 +128,7 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented + annotated: indicates whether the controlled gate should be implemented as an annotated gate. Returns: @@ -278,7 +278,7 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented + annotated: indicates whether the controlled gate should be implemented as an annotated gate. Returns: @@ -410,7 +410,7 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented + annotated: indicates whether the controlled gate should be implemented as an annotated gate. Returns: diff --git a/qiskit/circuit/library/standard_gates/u3.py b/qiskit/circuit/library/standard_gates/u3.py index 80581bf55a5d..df229af7d819 100644 --- a/qiskit/circuit/library/standard_gates/u3.py +++ b/qiskit/circuit/library/standard_gates/u3.py @@ -11,13 +11,16 @@ # that they have been altered from the originals. """Two-pulse single-qubit gate.""" + +from __future__ import annotations + import math from cmath import exp from typing import Optional, Union import numpy from qiskit.circuit.controlledgate import ControlledGate from qiskit.circuit.gate import Gate -from qiskit.circuit.parameterexpression import ParameterValueType +from qiskit.circuit.parameterexpression import ParameterValueType, ParameterExpression from qiskit.circuit.quantumregister import QuantumRegister from qiskit._accelerate.circuit import StandardGate @@ -115,9 +118,9 @@ def inverse(self, annotated: bool = False): def control( self, num_ctrl_qubits: int = 1, - label: Optional[str] = None, - ctrl_state: Optional[Union[str, int]] = None, - annotated: bool = False, + label: str | None = None, + ctrl_state: str | int | None = None, + annotated: bool | None = None, ): """Return a (multi-)controlled-U3 gate. @@ -126,8 +129,10 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented - as an annotated gate. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is set to ``True`` if + the gate contains free parameters and more than one control qubit, in which + case it cannot yet be synthesized. Otherwise it is set to ``False``. Returns: ControlledGate: controlled version of this gate. @@ -136,6 +141,11 @@ def control( gate = CU3Gate(*self.params, label=label, ctrl_state=ctrl_state) gate.base_gate.label = self.label else: + # If the gate parameters contain free parameters, we cannot eagerly synthesize + # the controlled gate decomposition. In this case, we annotate the gate per default. + if annotated is None: + annotated = any(isinstance(p, ParameterExpression) for p in self.params) + gate = super().control( num_ctrl_qubits=num_ctrl_qubits, label=label, diff --git a/qiskit/circuit/library/standard_gates/x.py b/qiskit/circuit/library/standard_gates/x.py index 3688d376538a..f3f7b5ebdb72 100644 --- a/qiskit/circuit/library/standard_gates/x.py +++ b/qiskit/circuit/library/standard_gates/x.py @@ -112,7 +112,7 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g. ``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented + annotated: indicates whether the controlled gate should be implemented as an annotated gate. Returns: @@ -257,7 +257,7 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g. ``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented + annotated: indicates whether the controlled gate should be implemented as an annotated gate. Returns: @@ -453,7 +453,7 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g. ``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented + annotated: indicates whether the controlled gate should be implemented as an annotated gate. Returns: @@ -801,7 +801,7 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g. ``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented + annotated: indicates whether the controlled gate should be implemented as an annotated gate. Returns: @@ -1047,7 +1047,7 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g. ``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented + annotated: indicates whether the controlled gate should be implemented as an annotated gate. Returns: @@ -1222,7 +1222,7 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g. ``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented + annotated: indicates whether the controlled gate should be implemented as an annotated gate. Returns: diff --git a/qiskit/circuit/library/standard_gates/xx_minus_yy.py b/qiskit/circuit/library/standard_gates/xx_minus_yy.py index db3c3dc89153..2fac02fd154d 100644 --- a/qiskit/circuit/library/standard_gates/xx_minus_yy.py +++ b/qiskit/circuit/library/standard_gates/xx_minus_yy.py @@ -11,6 +11,9 @@ # that they have been altered from the originals. """Two-qubit XX-YY gate.""" + +from __future__ import annotations + import math from cmath import exp from math import pi @@ -24,7 +27,7 @@ from qiskit.circuit.library.standard_gates.s import SdgGate, SGate from qiskit.circuit.library.standard_gates.sx import SXdgGate, SXGate from qiskit.circuit.library.standard_gates.x import CXGate -from qiskit.circuit.parameterexpression import ParameterValueType +from qiskit.circuit.parameterexpression import ParameterValueType, ParameterExpression from qiskit.circuit.quantumcircuit import QuantumCircuit from qiskit.circuit.quantumregister import QuantumRegister from qiskit._accelerate.circuit import StandardGate @@ -156,6 +159,39 @@ def _define(self): self.definition = circuit + def control( + self, + num_ctrl_qubits: int = 1, + label: str | None = None, + ctrl_state: str | int | None = None, + annotated: bool | None = None, + ): + """Return a (multi-)controlled-(XX-YY) gate. + + Args: + num_ctrl_qubits: number of control qubits. + label: An optional label for the gate [Default: ``None``] + ctrl_state: control state expressed as integer, + string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is set to ``True`` if + the gate contains free parameters, in which case it cannot + yet be synthesized. + + Returns: + ControlledGate: controlled version of this gate. + """ + if annotated is None: + annotated = any(isinstance(p, ParameterExpression) for p in self.params) + + gate = super().control( + num_ctrl_qubits=num_ctrl_qubits, + label=label, + ctrl_state=ctrl_state, + annotated=annotated, + ) + return gate + def inverse(self, annotated: bool = False): """Inverse gate. diff --git a/qiskit/circuit/library/standard_gates/xx_plus_yy.py b/qiskit/circuit/library/standard_gates/xx_plus_yy.py index 7920454d0b98..e0528a1f1792 100644 --- a/qiskit/circuit/library/standard_gates/xx_plus_yy.py +++ b/qiskit/circuit/library/standard_gates/xx_plus_yy.py @@ -11,6 +11,9 @@ # that they have been altered from the originals. """Two-qubit XX+YY gate.""" + +from __future__ import annotations + import math from cmath import exp from math import pi @@ -20,7 +23,7 @@ from qiskit.circuit.gate import Gate from qiskit.circuit.quantumregister import QuantumRegister -from qiskit.circuit.parameterexpression import ParameterValueType +from qiskit.circuit.parameterexpression import ParameterValueType, ParameterExpression from qiskit._accelerate.circuit import StandardGate @@ -160,6 +163,39 @@ def _define(self): self.definition = qc + def control( + self, + num_ctrl_qubits: int = 1, + label: str | None = None, + ctrl_state: str | int | None = None, + annotated: bool | None = None, + ): + """Return a (multi-)controlled-(XX+YY) gate. + + Args: + num_ctrl_qubits: number of control qubits. + label: An optional label for the gate [Default: ``None``] + ctrl_state: control state expressed as integer, + string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. + annotated: indicates whether the controlled gate should be implemented + as an annotated gate. If ``None``, this is set to ``True`` if + the gate contains free parameters, in which case it cannot + yet be synthesized. + + Returns: + ControlledGate: controlled version of this gate. + """ + if annotated is None: + annotated = any(isinstance(p, ParameterExpression) for p in self.params) + + gate = super().control( + num_ctrl_qubits=num_ctrl_qubits, + label=label, + ctrl_state=ctrl_state, + annotated=annotated, + ) + return gate + def inverse(self, annotated: bool = False): """Return inverse XX+YY gate (i.e. with the negative rotation angle and same phase angle). diff --git a/qiskit/circuit/library/standard_gates/y.py b/qiskit/circuit/library/standard_gates/y.py index d62586aa2b9b..99d37ee08bd3 100644 --- a/qiskit/circuit/library/standard_gates/y.py +++ b/qiskit/circuit/library/standard_gates/y.py @@ -108,7 +108,7 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented + annotated: indicates whether the controlled gate should be implemented as an annotated gate. Returns: diff --git a/qiskit/circuit/library/standard_gates/z.py b/qiskit/circuit/library/standard_gates/z.py index 4b2364178a94..dd83c3833d62 100644 --- a/qiskit/circuit/library/standard_gates/z.py +++ b/qiskit/circuit/library/standard_gates/z.py @@ -112,7 +112,7 @@ def control( label: An optional label for the gate [Default: ``None``] ctrl_state: control state expressed as integer, string (e.g.``'110'``), or ``None``. If ``None``, use all 1s. - annotated: indicates whether the controlled gate can be implemented + annotated: indicates whether the controlled gate should be implemented as an annotated gate. Returns: diff --git a/qiskit/circuit/quantumcircuit.py b/qiskit/circuit/quantumcircuit.py index be8b66b38757..3b2da762c51f 100644 --- a/qiskit/circuit/quantumcircuit.py +++ b/qiskit/circuit/quantumcircuit.py @@ -1717,7 +1717,7 @@ def control( label (str): An optional label to give the controlled operation for visualization. ctrl_state (str or int): The control state in decimal or as a bitstring (e.g. '111'). If None, use ``2**num_ctrl_qubits - 1``. - annotated: indicates whether the controlled gate can be implemented + annotated: indicates whether the controlled gate should be implemented as an annotated gate. Returns: diff --git a/qiskit/compiler/transpiler.py b/qiskit/compiler/transpiler.py index 9c74d10a7b63..fd93fde5989f 100644 --- a/qiskit/compiler/transpiler.py +++ b/qiskit/compiler/transpiler.py @@ -218,7 +218,7 @@ def transpile( # pylint: disable=too-many-return-statements * 2: heavy optimization * 3: even heavier optimization - If ``None``, level 1 will be chosen as default. + If ``None``, level 2 will be chosen as default. callback: A callback function that will be called after each pass execution. The function will be called with 5 keyword arguments, @@ -312,13 +312,31 @@ def callback_func(**kwargs): if optimization_level is None: # Take optimization level from the configuration or 1 as default. config = user_config.get_config() - optimization_level = config.get("transpile_optimization_level", 1) + optimization_level = config.get("transpile_optimization_level", 2) if backend is not None and getattr(backend, "version", 0) <= 1: - # This is a temporary conversion step to allow for a smoother transition - # to a fully target-based transpiler pipeline while maintaining the behavior - # of `transpile` with BackendV1 inputs. - backend = BackendV2Converter(backend) + warnings.warn( + "The `transpile` function will stop supporting inputs of " + f"type `BackendV1` ( {backend} ) in the `backend` parameter in a future " + "release no earlier than 2.0. `BackendV1` is deprecated and implementations " + "should move to `BackendV2`.", + category=DeprecationWarning, + stacklevel=2, + ) + with warnings.catch_warnings(): + # This is a temporary conversion step to allow for a smoother transition + # to a fully target-based transpiler pipeline while maintaining the behavior + # of `transpile` with BackendV1 inputs. + # TODO BackendV1 is deprecated and this path can be + # removed once it gets removed: + # https://github.com/Qiskit/qiskit/pull/12850 + warnings.filterwarnings( + "ignore", + category=DeprecationWarning, + message=r".+qiskit\.providers\.backend_compat\.BackendV2Converter.+", + module="qiskit", + ) + backend = BackendV2Converter(backend) if ( scheduling_method is not None diff --git a/qiskit/primitives/backend_estimator.py b/qiskit/primitives/backend_estimator.py index b217ff25665e..f6a53c02ea9e 100644 --- a/qiskit/primitives/backend_estimator.py +++ b/qiskit/primitives/backend_estimator.py @@ -9,9 +9,8 @@ # Any modifications or derivative works of this code must retain this # copyright notice, and modified files need to carry a notice indicating # that they have been altered from the originals. -""" -Expectation value class -""" + +"""Estimator V1 implementation for an arbitrary Backend object.""" from __future__ import annotations @@ -37,7 +36,7 @@ ) from qiskit.utils.deprecation import deprecate_func -from .base import BaseEstimator, EstimatorResult +from .base import BaseEstimatorV1, EstimatorResult from .primitive_job import PrimitiveJob from .utils import _circuit_key, _observable_key, init_observable @@ -89,23 +88,29 @@ def _prepare_counts(results: list[Result]): return counts -class BackendEstimator(BaseEstimator[PrimitiveJob[EstimatorResult]]): +class BackendEstimator(BaseEstimatorV1[PrimitiveJob[EstimatorResult]]): """Evaluates expectation value using Pauli rotation gates. The :class:`~.BackendEstimator` class is a generic implementation of the - :class:`~.BaseEstimator` interface that is used to wrap a :class:`~.BackendV2` - (or :class:`~.BackendV1`) object in the :class:`~.BaseEstimator` API. It + :class:`~.BaseEstimatorV1` interface that is used to wrap a :class:`~.BackendV2` + (or :class:`~.BackendV1`) object in the :class:`~.BaseEstimatorV1` API. It facilitates using backends that do not provide a native - :class:`~.BaseEstimator` implementation in places that work with - :class:`~.BaseEstimator`. However, - if you're using a provider that has a native implementation of - :class:`~.BaseEstimator`, it is a better choice to leverage that native - implementation as it will likely include additional optimizations and be - a more efficient implementation. The generic nature of this class - precludes doing any provider- or backend-specific optimizations. + :class:`~.BaseEstimatorV1` implementation in places that work with + :class:`~.BaseEstimatorV1`. + However, if you're using a provider that has a native implementation of + :class:`~.BaseEstimatorV1` or :class:`~.BaseEstimatorV2`, it is a better + choice to leverage that native implementation as it will likely include + additional optimizations and be a more efficient implementation. + The generic nature of this class precludes doing any provider- or + backend-specific optimizations. """ - @deprecate_func(since="1.2", additional_msg="Use BackendEstimatorV2 instead.") + @deprecate_func( + since="1.2", + additional_msg="All implementations of the `BaseEstimatorV1` interface " + "have been deprecated in favor of their V2 counterparts. " + "The V2 alternative for the `BackendEstimator` class is `BackendEstimatorV2`.", + ) def __init__( self, backend: BackendV1 | BackendV2, @@ -114,10 +119,10 @@ def __init__( bound_pass_manager: PassManager | None = None, skip_transpilation: bool = False, ): - """Initialize a new BackendEstimator instance + """Initialize a new BackendEstimator (V1) instance Args: - backend: Required: the backend to run the primitive on + backend: (required) the backend to run the primitive on options: Default options. abelian_grouping: Whether the observable should be grouped into commuting diff --git a/qiskit/primitives/backend_estimator_v2.py b/qiskit/primitives/backend_estimator_v2.py index 777375a30e4c..47352dd3de22 100644 --- a/qiskit/primitives/backend_estimator_v2.py +++ b/qiskit/primitives/backend_estimator_v2.py @@ -190,7 +190,7 @@ def _run(self, pubs: list[EstimatorPub]) -> PrimitiveResult[PubResult]: # reconstruct the result of pubs for i, pub_result in zip(lst, pub_results): results[i] = pub_result - return PrimitiveResult(results) + return PrimitiveResult(results, metadata={"version": 2}) def _run_pubs(self, pubs: list[EstimatorPub], shots: int) -> list[PubResult]: """Compute results for pubs that all require the same value of ``shots``.""" @@ -238,7 +238,6 @@ def _preprocess_pub(self, pub: EstimatorPub) -> _PreprocessedData: param_indices = np.fromiter(np.ndindex(param_shape), dtype=object).reshape(param_shape) bc_param_ind, bc_obs = np.broadcast_arrays(param_indices, observables) - # calculate expectation values for each pair of parameter value set and pauli param_obs_map = defaultdict(set) for index in np.ndindex(*bc_param_ind.shape): param_index = bc_param_ind[index] @@ -275,7 +274,14 @@ def _postprocess_pub( variances[index] += np.abs(coeff) * variance**0.5 stds = variances / np.sqrt(shots) data_bin = DataBin(evs=evs, stds=stds, shape=evs.shape) - return PubResult(data_bin, metadata={"target_precision": pub.precision}) + return PubResult( + data_bin, + metadata={ + "target_precision": pub.precision, + "shots": shots, + "circuit_metadata": pub.circuit.metadata, + }, + ) def _bind_and_add_measurements( self, diff --git a/qiskit/primitives/backend_sampler.py b/qiskit/primitives/backend_sampler.py index 98592e079cb7..213b9701a556 100644 --- a/qiskit/primitives/backend_sampler.py +++ b/qiskit/primitives/backend_sampler.py @@ -10,7 +10,7 @@ # copyright notice, and modified files need to carry a notice indicating # that they have been altered from the originals. -"""Sampler implementation for an arbitrary Backend object.""" +"""Sampler V1 implementation for an arbitrary Backend object.""" from __future__ import annotations @@ -26,28 +26,34 @@ from qiskit.utils.deprecation import deprecate_func from .backend_estimator import _prepare_counts, _run_circuits -from .base import BaseSampler, SamplerResult +from .base import BaseSamplerV1, SamplerResult from .primitive_job import PrimitiveJob from .utils import _circuit_key -class BackendSampler(BaseSampler[PrimitiveJob[SamplerResult]]): - """A :class:`~.BaseSampler` implementation that provides an interface for - leveraging the sampler interface from any backend. +class BackendSampler(BaseSamplerV1[PrimitiveJob[SamplerResult]]): + """A :class:`~.BaseSamplerV1` implementation that provides a wrapper for + leveraging the Sampler V1 interface from any backend. This class provides a sampler interface from any backend and doesn't do any measurement mitigation, it just computes the probability distribution from the counts. It facilitates using backends that do not provide a - native :class:`~.BaseSampler` implementation in places that work with - :class:`~.BaseSampler`. + native :class:`~.BaseSamplerV1` implementation in places that work with + :class:`~.BaseSamplerV1`. However, if you're using a provider that has a native implementation of - :class:`~.BaseSampler`, it is a better choice to leverage that native - implementation as it will likely include additional optimizations and be - a more efficient implementation. The generic nature of this class - precludes doing any provider- or backend-specific optimizations. + :class:`~.BaseSamplerV1` or :class:`~.BaseESamplerV2`, it is a better + choice to leverage that native implementation as it will likely include + additional optimizations and be a more efficient implementation. + The generic nature of this class precludes doing any provider- or + backend-specific optimizations. """ - @deprecate_func(since="1.2", additional_msg="Use BackendSamplerV2 instead.") + @deprecate_func( + since="1.2", + additional_msg="All implementations of the `BaseSamplerV1` interface " + "have been deprecated in favor of their V2 counterparts. " + "The V2 alternative for the `BackendSampler` class is `BackendSamplerV2`.", + ) def __init__( self, backend: BackendV1 | BackendV2, @@ -55,10 +61,10 @@ def __init__( bound_pass_manager: PassManager | None = None, skip_transpilation: bool = False, ): - """Initialize a new BackendSampler + """Initialize a new BackendSampler (V1) instance Args: - backend: Required: the backend to run the sampler primitive on + backend: (required) the backend to run the sampler primitive on options: Default options. bound_pass_manager: An optional pass manager to run after parameter binding. diff --git a/qiskit/primitives/backend_sampler_v2.py b/qiskit/primitives/backend_sampler_v2.py index ff7a32580fe3..bac0bec5eaed 100644 --- a/qiskit/primitives/backend_sampler_v2.py +++ b/qiskit/primitives/backend_sampler_v2.py @@ -155,7 +155,7 @@ def _run(self, pubs: list[SamplerPub]) -> PrimitiveResult[SamplerPubResult]: # reconstruct the result of pubs for i, pub_result in zip(lst, pub_results): results[i] = pub_result - return PrimitiveResult(results) + return PrimitiveResult(results, metadata={"version": 2}) def _run_pubs(self, pubs: list[SamplerPub], shots: int) -> list[SamplerPubResult]: """Compute results for pubs that all require the same value of ``shots``.""" @@ -183,7 +183,12 @@ def _run_pubs(self, pubs: list[SamplerPub], shots: int) -> list[SamplerPubResult end = start + bound.size results.append( self._postprocess_pub( - result_memory[start:end], shots, bound.shape, meas_info, max_num_bytes + result_memory[start:end], + shots, + bound.shape, + meas_info, + max_num_bytes, + pub.circuit.metadata, ) ) start = end @@ -197,6 +202,7 @@ def _postprocess_pub( shape: tuple[int, ...], meas_info: list[_MeasureInfo], max_num_bytes: int, + circuit_metadata: dict, ) -> SamplerPubResult: """Converts the memory data into an array of bit arrays with the shape of the pub.""" arrays = { @@ -213,7 +219,10 @@ def _postprocess_pub( meas = { item.creg_name: BitArray(arrays[item.creg_name], item.num_bits) for item in meas_info } - return SamplerPubResult(DataBin(**meas, shape=shape), metadata={}) + return SamplerPubResult( + DataBin(**meas, shape=shape), + metadata={"shots": shots, "circuit_metadata": circuit_metadata}, + ) def _analyze_circuit(circuit: QuantumCircuit) -> tuple[list[_MeasureInfo], int]: diff --git a/qiskit/primitives/base/base_estimator.py b/qiskit/primitives/base/base_estimator.py index 33ec40300b2a..d3d364f9951a 100644 --- a/qiskit/primitives/base/base_estimator.py +++ b/qiskit/primitives/base/base_estimator.py @@ -10,7 +10,7 @@ # copyright notice, and modified files need to carry a notice indicating # that they have been altered from the originals. -"""Base Estimator Classes""" +"""Base Estimator V1 and V2 classes""" from __future__ import annotations @@ -110,7 +110,7 @@ def __init__( options: dict | None = None, ): """ - Creating an instance of an Estimator, or using one in a ``with`` context opens a session that + Creating an instance of an Estimator V1, or using one in a ``with`` context opens a session that holds resources until the instance is ``close()`` ed or the context is exited. Args: @@ -189,12 +189,19 @@ def _run( class BaseEstimator(BaseEstimatorV1[T]): - """DEPRECATED. Type alias of Estimator V1 base class. + """DEPRECATED. Type alias for Estimator V1 base class. See :class:`.BaseEstimatorV1` for details. """ - @deprecate_func(since="1.2", additional_msg="Use BaseEstimatorV2 instead.") + @deprecate_func( + since="1.2", + additional_msg="The `BaseEstimator` class is a type alias for the `BaseEstimatorV1` " + "interface that has been deprecated in favor of explicitly versioned interface classes. " + "It is recommended to migrate all implementations to use `BaseEstimatorV2`. " + "However, for implementations incompatible with `BaseEstimatorV2`, `BaseEstimator` can " + "be replaced with the explicitly versioned `BaseEstimatorV1` class.", + ) def __init__( self, *, diff --git a/qiskit/primitives/base/base_sampler.py b/qiskit/primitives/base/base_sampler.py index 81a1754ae35b..65d87d86b077 100644 --- a/qiskit/primitives/base/base_sampler.py +++ b/qiskit/primitives/base/base_sampler.py @@ -10,7 +10,7 @@ # copyright notice, and modified files need to carry a notice indicating # that they have been altered from the originals. -"""Base Sampler Classes""" +"""Base Sampler V1 and V2 classes""" from __future__ import annotations @@ -152,12 +152,19 @@ def _run( class BaseSampler(BaseSamplerV1[T]): - """DEPRECATED. Type alias of Sampler V1 base class + """DEPRECATED. Type alias for Sampler V1 base class See :class:`.BaseSamplerV1` for details. """ - @deprecate_func(since="1.2", additional_msg="Use BaseSamplerV2 instead.") + @deprecate_func( + since="1.2", + additional_msg="The `BaseSampler` class is a type alias for the `BaseSamplerV1` " + "interface that has been deprecated in favor of explicitly versioned interface classes. " + "It is recommended to migrate all implementations to use `BaseSamplerV2`. " + "However, for implementations incompatible with `BaseSamplerV2`, `BaseSampler` can " + "be replaced with the explicitly versioned `BaseSamplerV1` class.", + ) def __init__( self, *, diff --git a/qiskit/primitives/containers/bit_array.py b/qiskit/primitives/containers/bit_array.py index 11cd91a96521..b458b3d49232 100644 --- a/qiskit/primitives/containers/bit_array.py +++ b/qiskit/primitives/containers/bit_array.py @@ -130,10 +130,15 @@ def __repr__(self): return f"BitArray({desc})" def __getitem__(self, indices): - if isinstance(indices, tuple) and len(indices) >= self.ndim + 2: - raise ValueError( - "BitArrays cannot be sliced along the bits axis, see slice_bits() instead." - ) + if isinstance(indices, tuple): + if len(indices) == self.ndim + 1: + raise IndexError( + "BitArray cannot be sliced along the shots axis, use slice_shots() instead." + ) + if len(indices) >= self.ndim + 2: + raise IndexError( + "BitArray cannot be sliced along the bits axis, use slice_bits() instead." + ) return BitArray(self._array[indices], self.num_bits) @property @@ -430,13 +435,13 @@ def slice_bits(self, indices: int | Sequence[int]) -> "BitArray": A bit array sliced along the bit axis. Raises: - ValueError: If there are any invalid indices of the bit axis. + IndexError: If there are any invalid indices of the bit axis. """ if isinstance(indices, int): indices = (indices,) for index in indices: if index < 0 or index >= self.num_bits: - raise ValueError( + raise IndexError( f"index {index} is out of bounds for the number of bits {self.num_bits}." ) # This implementation introduces a temporary 8x memory overhead due to bit @@ -457,19 +462,110 @@ def slice_shots(self, indices: int | Sequence[int]) -> "BitArray": A bit array sliced along the shots axis. Raises: - ValueError: If there are any invalid indices of the shots axis. + IndexError: If there are any invalid indices of the shots axis. """ if isinstance(indices, int): indices = (indices,) for index in indices: if index < 0 or index >= self.num_shots: - raise ValueError( + raise IndexError( f"index {index} is out of bounds for the number of shots {self.num_shots}." ) arr = self._array arr = arr[..., indices, :] return BitArray(arr, self.num_bits) + def postselect( + self, + indices: Sequence[int] | int, + selection: Sequence[bool | int] | bool | int, + ) -> BitArray: + """Post-select this bit array based on sliced equality with a given bitstring. + + .. note:: + If this bit array contains any shape axes, it is first flattened into a long list of shots + before applying post-selection. This is done because :class:`~BitArray` cannot handle + ragged numbers of shots across axes. + + Args: + indices: A list of the indices of the cbits on which to postselect. + If this bit array was produced by a sampler, then an index ``i`` corresponds to the + :class:`~.ClassicalRegister` location ``creg[i]`` (as in :meth:`~slice_bits`). + Negative indices are allowed. + + selection: A list of binary values (will be cast to ``bool``) of length matching + ``indices``, with ``indices[i]`` corresponding to ``selection[i]``. Shots will be + discarded unless all cbits specified by ``indices`` have the values given by + ``selection``. + + Returns: + A new bit array with ``shape=(), num_bits=data.num_bits, num_shots<=data.num_shots``. + + Raises: + IndexError: If ``max(indices)`` is greater than or equal to :attr:`num_bits`. + IndexError: If ``min(indices)`` is less than negative :attr:`num_bits`. + ValueError: If the lengths of ``selection`` and ``indices`` do not match. + """ + if isinstance(indices, int): + indices = (indices,) + if isinstance(selection, (bool, int)): + selection = (selection,) + selection = np.asarray(selection, dtype=bool) + + num_indices = len(indices) + + if len(selection) != num_indices: + raise ValueError("Lengths of indices and selection do not match.") + + num_bytes = self._array.shape[-1] + indices = np.asarray(indices) + + if num_indices > 0: + if indices.max() >= self.num_bits: + raise IndexError( + f"index {int(indices.max())} out of bounds for the number of bits {self.num_bits}." + ) + if indices.min() < -self.num_bits: + raise IndexError( + f"index {int(indices.min())} out of bounds for the number of bits {self.num_bits}." + ) + + flattened = self.reshape((), self.size * self.num_shots) + + # If no conditions, keep all data, but flatten as promised: + if num_indices == 0: + return flattened + + # Make negative bit indices positive: + indices %= self.num_bits + + # Handle special-case of contradictory conditions: + if np.intersect1d(indices[selection], indices[np.logical_not(selection)]).size > 0: + return BitArray(np.empty((0, num_bytes), dtype=np.uint8), num_bits=self.num_bits) + + # Recall that creg[0] is the LSb: + byte_significance, bit_significance = np.divmod(indices, 8) + # least-significant byte is at last position: + byte_idx = (num_bytes - 1) - byte_significance + # least-significant bit is at position 0: + bit_offset = bit_significance.astype(np.uint8) + + # Get bitpacked representation of `indices` (bitmask): + bitmask = np.zeros(num_bytes, dtype=np.uint8) + np.bitwise_or.at(bitmask, byte_idx, np.uint8(1) << bit_offset) + + # Get bitpacked representation of `selection` (desired bitstring): + selection_bytes = np.zeros(num_bytes, dtype=np.uint8) + ## This assumes no contradictions present, since those were already checked for: + np.bitwise_or.at( + selection_bytes, byte_idx, np.asarray(selection, dtype=np.uint8) << bit_offset + ) + + return BitArray( + flattened._array[((flattened._array & bitmask) == selection_bytes).all(axis=-1)], + num_bits=self.num_bits, + ) + def expectation_values(self, observables: ObservablesArrayLike) -> NDArray[np.float64]: """Compute the expectation values of the provided observables, broadcasted against this bit array. diff --git a/qiskit/primitives/estimator.py b/qiskit/primitives/estimator.py index 874b631379b2..1ca1529852c3 100644 --- a/qiskit/primitives/estimator.py +++ b/qiskit/primitives/estimator.py @@ -10,7 +10,7 @@ # copyright notice, and modified files need to carry a notice indicating # that they have been altered from the originals. """ -Estimator class +Estimator V1 reference implementation """ from __future__ import annotations @@ -26,7 +26,7 @@ from qiskit.quantum_info.operators.base_operator import BaseOperator from qiskit.utils.deprecation import deprecate_func -from .base import BaseEstimator, EstimatorResult +from .base import BaseEstimatorV1, EstimatorResult from .primitive_job import PrimitiveJob from .utils import ( _circuit_key, @@ -36,9 +36,9 @@ ) -class Estimator(BaseEstimator[PrimitiveJob[EstimatorResult]]): +class Estimator(BaseEstimatorV1[PrimitiveJob[EstimatorResult]]): """ - Reference implementation of :class:`BaseEstimator`. + Reference implementation of :class:`BaseEstimatorV1`. :Run Options: @@ -52,7 +52,12 @@ class Estimator(BaseEstimator[PrimitiveJob[EstimatorResult]]): this option is ignored. """ - @deprecate_func(since="1.2", additional_msg="Use StatevectorEstimator instead.") + @deprecate_func( + since="1.2", + additional_msg="All implementations of the `BaseEstimatorV1` interface " + "have been deprecated in favor of their V2 counterparts. " + "The V2 alternative for the `Estimator` class is `StatevectorEstimator`.", + ) def __init__(self, *, options: dict | None = None): """ Args: diff --git a/qiskit/primitives/primitive_job.py b/qiskit/primitives/primitive_job.py index 5dddda27d98b..64ab8d016095 100644 --- a/qiskit/primitives/primitive_job.py +++ b/qiskit/primitives/primitive_job.py @@ -10,7 +10,7 @@ # copyright notice, and modified files need to carry a notice indicating # that they have been altered from the originals. """ -Job implementation for the reference implementations of Primitives. +Job for the reference implementations of Primitives V1 and V2. """ import uuid diff --git a/qiskit/primitives/sampler.py b/qiskit/primitives/sampler.py index da0b4ed4d003..d93db4f04116 100644 --- a/qiskit/primitives/sampler.py +++ b/qiskit/primitives/sampler.py @@ -10,7 +10,7 @@ # copyright notice, and modified files need to carry a notice indicating # that they have been altered from the originals. """ -Sampler class +Sampler V1 reference implementation """ from __future__ import annotations @@ -26,7 +26,7 @@ from qiskit.result import QuasiDistribution from qiskit.utils.deprecation import deprecate_func -from .base import BaseSampler, SamplerResult +from .base import BaseSamplerV1, SamplerResult from .primitive_job import PrimitiveJob from .utils import ( _circuit_key, @@ -36,11 +36,11 @@ ) -class Sampler(BaseSampler[PrimitiveJob[SamplerResult]]): +class Sampler(BaseSamplerV1[PrimitiveJob[SamplerResult]]): """ - Sampler class. + Sampler V1 class. - :class:`~Sampler` is a reference implementation of :class:`~BaseSampler`. + :class:`~Sampler` is a reference implementation of :class:`~BaseSamplerV1`. :Run Options: @@ -53,7 +53,12 @@ class Sampler(BaseSampler[PrimitiveJob[SamplerResult]]): option is ignored. """ - @deprecate_func(since="1.2", additional_msg="Use StatevectorSampler instead.") + @deprecate_func( + since="1.2", + additional_msg="All implementations of the `BaseSamplerV1` interface " + "have been deprecated in favor of their V2 counterparts. " + "The V2 alternative for the `Sampler` class is `StatevectorSampler`.", + ) def __init__(self, *, options: dict | None = None): """ Args: diff --git a/qiskit/primitives/statevector_estimator.py b/qiskit/primitives/statevector_estimator.py index a5dc029edf73..c57f2c5b77d5 100644 --- a/qiskit/primitives/statevector_estimator.py +++ b/qiskit/primitives/statevector_estimator.py @@ -10,7 +10,7 @@ # copyright notice, and modified files need to carry a notice indicating # that they have been altered from the originals. """ -Estimator class +Statevector Estimator V2 class """ from __future__ import annotations @@ -136,7 +136,7 @@ def run( return job def _run(self, pubs: list[EstimatorPub]) -> PrimitiveResult[PubResult]: - return PrimitiveResult([self._run_pub(pub) for pub in pubs]) + return PrimitiveResult([self._run_pub(pub) for pub in pubs], metadata={"version": 2}) def _run_pub(self, pub: EstimatorPub) -> PubResult: rng = np.random.default_rng(self._seed) @@ -162,4 +162,6 @@ def _run_pub(self, pub: EstimatorPub) -> PubResult: evs[index] = expectation_value data = DataBin(evs=evs, stds=stds, shape=evs.shape) - return PubResult(data, metadata={"precision": precision}) + return PubResult( + data, metadata={"target_precision": precision, "circuit_metadata": pub.circuit.metadata} + ) diff --git a/qiskit/primitives/statevector_sampler.py b/qiskit/primitives/statevector_sampler.py index 90fe452ad124..78672e441dc4 100644 --- a/qiskit/primitives/statevector_sampler.py +++ b/qiskit/primitives/statevector_sampler.py @@ -10,7 +10,7 @@ # copyright notice, and modified files need to carry a notice indicating # that they have been altered from the originals. """ -Statevector Sampler class +Statevector Sampler V2 class """ from __future__ import annotations @@ -171,7 +171,7 @@ def run( def _run(self, pubs: Iterable[SamplerPub]) -> PrimitiveResult[SamplerPubResult]: results = [self._run_pub(pub) for pub in pubs] - return PrimitiveResult(results) + return PrimitiveResult(results, metadata={"version": 2}) def _run_pub(self, pub: SamplerPub) -> SamplerPubResult: circuit, qargs, meas_info = _preprocess_circuit(pub.circuit) @@ -197,7 +197,10 @@ def _run_pub(self, pub: SamplerPub) -> SamplerPubResult: meas = { item.creg_name: BitArray(arrays[item.creg_name], item.num_bits) for item in meas_info } - return SamplerPubResult(DataBin(**meas, shape=pub.shape), metadata={"shots": pub.shots}) + return SamplerPubResult( + DataBin(**meas, shape=pub.shape), + metadata={"shots": pub.shots, "circuit_metadata": pub.circuit.metadata}, + ) def _preprocess_circuit(circuit: QuantumCircuit): @@ -207,7 +210,7 @@ def _preprocess_circuit(circuit: QuantumCircuit): qargs_index = {v: k for k, v in enumerate(qargs)} circuit = circuit.remove_final_measurements(inplace=False) if _has_control_flow(circuit): - raise QiskitError("StatevectorSampler cannot handle ControlFlowOp") + raise QiskitError("StatevectorSampler cannot handle ControlFlowOp and c_if") if _has_measure(circuit): raise QiskitError("StatevectorSampler cannot handle mid-circuit measurements") # num_qubits is used as sentinel to fill 0 in _samples_to_packed_array @@ -283,4 +286,7 @@ def _final_measurement_mapping(circuit: QuantumCircuit) -> dict[tuple[ClassicalR def _has_control_flow(circuit: QuantumCircuit) -> bool: - return any(isinstance(instruction.operation, ControlFlowOp) for instruction in circuit) + return any( + isinstance((op := instruction.operation), ControlFlowOp) or op.condition + for instruction in circuit + ) diff --git a/qiskit/providers/backend.py b/qiskit/providers/backend.py index 931dbed479ec..6d9ed51043ec 100644 --- a/qiskit/providers/backend.py +++ b/qiskit/providers/backend.py @@ -23,6 +23,7 @@ from qiskit.providers.provider import Provider from qiskit.providers.models.backendstatus import BackendStatus from qiskit.circuit.gate import Instruction +from qiskit.utils import deprecate_func class Backend: @@ -43,7 +44,7 @@ class BackendV1(Backend, ABC): This abstract class is to be used for Backend objects. There are several classes of information contained in a Backend. The first are the attributes of the class itself. These should be used to - defined the immutable characteristics of the backend. The ``options`` + define the immutable characteristics of the backend. The ``options`` attribute of the backend is used to contain the dynamic user configurable options of the backend. It should be used more for runtime options that configure how the backend is used. For example, something like a @@ -71,6 +72,14 @@ class BackendV1(Backend, ABC): version = 1 + @deprecate_func( + since="1.2", + removal_timeline="in the 2.0 release", + additional_msg="If the backend only encapsulates a hardware description, " + "consider constructing a Target directly. If it is part of a provider " + "that gives access to execution, consider using Primitives instead. " + "Alternatively, consider moving to BackendV2 (see https://qisk.it/backendV1-to-V2).", + ) def __init__(self, configuration, provider=None, **fields): """Initialize a backend class diff --git a/qiskit/providers/backend_compat.py b/qiskit/providers/backend_compat.py index e567c330a958..f554897d34c4 100644 --- a/qiskit/providers/backend_compat.py +++ b/qiskit/providers/backend_compat.py @@ -390,10 +390,13 @@ def __init__( self._properties = None self._defaults = None - if hasattr(self._backend, "properties"): - self._properties = self._backend.properties() - if hasattr(self._backend, "defaults"): - self._defaults = self._backend.defaults() + with warnings.catch_warnings(): + # The class QobjExperimentHeader is deprecated + warnings.filterwarnings("ignore", category=DeprecationWarning, module="qiskit") + if hasattr(self._backend, "properties"): + self._properties = self._backend.properties() + if hasattr(self._backend, "defaults"): + self._defaults = self._backend.defaults() self._target = None self._name_mapping = name_mapping diff --git a/qiskit/providers/basic_provider/basic_simulator.py b/qiskit/providers/basic_provider/basic_simulator.py index 1d1205294677..32666c57f184 100644 --- a/qiskit/providers/basic_provider/basic_simulator.py +++ b/qiskit/providers/basic_provider/basic_simulator.py @@ -236,24 +236,32 @@ def configuration(self) -> BackendConfiguration: for name in self.target.operation_names ] - self._configuration = BackendConfiguration( - backend_name=self.name, - backend_version=self.backend_version, - n_qubits=self.num_qubits, - basis_gates=self.target.operation_names, - gates=gates, - local=True, - simulator=True, - conditional=True, - open_pulse=False, - memory=True, - # This max_shots is used by the assembler, setting it to 0 - # to maintain the behavior from the previous implementation. - # Not related to the actual shots set in the backend options - max_shots=0, - coupling_map=None, - description="A python simulator for quantum experiments", - ) + with warnings.catch_warnings(): + # TODO Provider models are deprecated + # https://github.com/Qiskit/qiskit/issues/12843 + warnings.filterwarnings( + "ignore", + category=DeprecationWarning, + message=r".+qiskit\.providers\.models\.backendconfiguration\..+", + ) + self._configuration = BackendConfiguration( + backend_name=self.name, + backend_version=self.backend_version, + n_qubits=self.num_qubits, + basis_gates=self.target.operation_names, + gates=gates, + local=True, + simulator=True, + conditional=True, + open_pulse=False, + memory=True, + # This max_shots is used by the assembler, setting it to 0 + # to maintain the behavior from the previous implementation. + # Not related to the actual shots set in the backend options + max_shots=0, + coupling_map=None, + description="A python simulator for quantum experiments", + ) return self._configuration @classmethod diff --git a/qiskit/providers/fake_provider/fake_backend.py b/qiskit/providers/fake_provider/fake_backend.py index 4a638f315574..21d221b68c04 100644 --- a/qiskit/providers/fake_provider/fake_backend.py +++ b/qiskit/providers/fake_provider/fake_backend.py @@ -23,7 +23,7 @@ from qiskit.providers import BackendV1 from qiskit import pulse from qiskit.exceptions import QiskitError -from qiskit.utils import optionals as _optionals +from qiskit.utils import optionals as _optionals, deprecate_func from qiskit.providers import basic_provider @@ -39,6 +39,13 @@ def __init__(self, token="123456", url="https://"): class FakeBackend(BackendV1): """This is a dummy backend just for testing purposes.""" + @deprecate_func( + since="1.2", + removal_timeline="in the 2.0 release", + additional_msg="Fake backends using BackendV1 are deprecated in favor of " + ":class:`.GenericBackendV2`. You can convert BackendV1 to " + ":class:`.BackendV2` with :class:`.BackendV2Converter`.", + ) def __init__(self, configuration, time_alive=10): """FakeBackend initializer. diff --git a/qiskit/providers/fake_provider/fake_qasm_backend.py b/qiskit/providers/fake_provider/fake_qasm_backend.py index 55dad4aff601..7ad7222f7907 100644 --- a/qiskit/providers/fake_provider/fake_qasm_backend.py +++ b/qiskit/providers/fake_provider/fake_qasm_backend.py @@ -16,6 +16,7 @@ import json import os +import warnings from qiskit.exceptions import QiskitError from qiskit.providers.models import BackendProperties, QasmBackendConfiguration @@ -61,7 +62,10 @@ def _set_props_from_json(self): raise QiskitError("No properties file has been defined") props = self._load_json(self.props_filename) decode_backend_properties(props) - self._properties = BackendProperties.from_dict(props) + with warnings.catch_warnings(): + # This raises the BackendProperties deprecation warning internally + warnings.filterwarnings("ignore", category=DeprecationWarning, module="qiskit") + self._properties = BackendProperties.from_dict(props) def _load_json(self, filename): with open(os.path.join(self.dirname, filename)) as f_json: diff --git a/qiskit/providers/fake_provider/generic_backend_v2.py b/qiskit/providers/fake_provider/generic_backend_v2.py index c3de76cbd0e6..6374a0b0b60a 100644 --- a/qiskit/providers/fake_provider/generic_backend_v2.py +++ b/qiskit/providers/fake_provider/generic_backend_v2.py @@ -567,18 +567,12 @@ def _setup_sim(self) -> None: @classmethod def _default_options(cls) -> Options: - with warnings.catch_warnings(): # TODO remove catch once aer release without Provider ABC - warnings.filterwarnings( - "ignore", - category=DeprecationWarning, - message=".+abstract Provider and ProviderV1.+", - ) - if _optionals.HAS_AER: - from qiskit_aer import AerSimulator + if _optionals.HAS_AER: + from qiskit_aer import AerSimulator - return AerSimulator._default_options() - else: - return BasicSimulator._default_options() + return AerSimulator._default_options() + else: + return BasicSimulator._default_options() def drive_channel(self, qubit: int): drive_channels_map = getattr(self, "channels_map", {}).get("drive", {}) diff --git a/qiskit/providers/models/__init__.py b/qiskit/providers/models/__init__.py index bf90a9d16c0e..58fafed92986 100644 --- a/qiskit/providers/models/__init__.py +++ b/qiskit/providers/models/__init__.py @@ -38,6 +38,7 @@ GateProperties Nduv """ +import warnings from .backendconfiguration import ( BackendConfiguration, @@ -50,3 +51,13 @@ from .backendstatus import BackendStatus from .jobstatus import JobStatus from .pulsedefaults import PulseDefaults, Command + + +warnings.warn( + "qiskit.providers.models is deprecated since Qiskit 1.2 and will be removed in Qiskit 2.0." + "With the removal of Qobj, there is no need for these schema-conformant objects. If you still need" + "to use them, it could be because you are using a BackendV1, which is also deprecated in favor" + "of BackendV2", + DeprecationWarning, + 2, +) diff --git a/qiskit/providers/models/backendconfiguration.py b/qiskit/providers/models/backendconfiguration.py index ebd0a6d9bbb6..a50745c9572c 100644 --- a/qiskit/providers/models/backendconfiguration.py +++ b/qiskit/providers/models/backendconfiguration.py @@ -26,6 +26,7 @@ DriveChannel, MeasureChannel, ) +from qiskit.utils import deprecate_func class GateConfig: @@ -38,6 +39,15 @@ class GateConfig: and CX. """ + @deprecate_func( + since="1.2", + removal_timeline="in the 2.0 release", + additional_msg="The models in ``qiskit.providers.models`` are part " + "of the deprecated `BackendV1` workflow and no longer necessary for `BackendV2`. If a user " + "workflow requires these representations it likely relies on deprecated functionality and " + "should be updated to use `BackendV2`.", + stacklevel=3, + ) def __init__( self, name, @@ -141,6 +151,14 @@ class UchannelLO: scale: Scale factor for qubit frequency. """ + @deprecate_func( + since="1.2", + removal_timeline="in the 2.0 release", + additional_msg="The models in ``qiskit.providers.models`` are part " + "of the deprecated `BackendV1` workflow and no longer necessary for `BackendV2`. If a user " + "workflow requires these representations it likely relies on deprecated functionality and " + "should be updated to use `BackendV2`.", + ) def __init__(self, q, scale): """Initialize a UchannelLOSchema object @@ -211,6 +229,15 @@ class QasmBackendConfiguration: _data = {} + @deprecate_func( + since="1.2", + removal_timeline="in the 2.0 release", + additional_msg="The models in ``qiskit.providers.models`` are part " + "of the deprecated `BackendV1` workflow and no longer necessary for `BackendV2`. If a user " + "workflow requires these representations it likely relies on deprecated functionality and " + "should be updated to use `BackendV2`.", + stacklevel=3, + ) def __init__( self, backend_name, @@ -491,9 +518,19 @@ def __contains__(self, item): class BackendConfiguration(QasmBackendConfiguration): - """Backwards compat shim representing an abstract backend configuration.""" + """Backwards compatibility shim representing an abstract backend configuration.""" - pass + @deprecate_func( + since="1.2", + removal_timeline="in the 2.0 release", + additional_msg="The models in ``qiskit.providers.models`` are part " + "of the deprecated `BackendV1` workflow and no longer necessary for `BackendV2`. If a user " + "workflow requires these representations it likely relies on deprecated functionality and " + "should be updated to use `BackendV2`.", + stacklevel=3, + ) + def __init__(self, *args, **kwargs): + super().__init__(*args, **kwargs) class PulseBackendConfiguration(QasmBackendConfiguration): @@ -501,6 +538,15 @@ class PulseBackendConfiguration(QasmBackendConfiguration): about the set up of the device which can be useful for building Pulse programs. """ + @deprecate_func( + since="1.2", + removal_timeline="in the 2.0 release", + additional_msg="The models in ``qiskit.providers.models`` are part " + "of the deprecated `BackendV1` workflow and no longer necessary for `BackendV2`. If a user " + "workflow requires these representations it likely relies on deprecated functionality and " + "should be updated to use `BackendV2`.", + stacklevel=3, + ) def __init__( self, backend_name: str, diff --git a/qiskit/providers/models/backendproperties.py b/qiskit/providers/models/backendproperties.py index 332aac7c5edd..75e7cd18d03a 100644 --- a/qiskit/providers/models/backendproperties.py +++ b/qiskit/providers/models/backendproperties.py @@ -18,6 +18,7 @@ import dateutil.parser from qiskit.providers.exceptions import BackendPropertyError +from qiskit.utils import deprecate_func from qiskit.utils.units import apply_prefix PropertyT = Tuple[Any, datetime.datetime] @@ -172,6 +173,15 @@ class BackendProperties: _data = {} + @deprecate_func( + since="1.2", + removal_timeline="in the 2.0 release", + additional_msg="The models in ``qiskit.providers.models`` and related objects are part " + "of the deprecated `BackendV1` workflow, and no longer necessary for `BackendV2`. If a user " + "workflow requires these representations it likely relies on deprecated functionality and " + "should be updated to use `BackendV2`.", + stacklevel=3, + ) def __init__( self, backend_name, backend_version, last_update_date, qubits, gates, general, **kwargs ): @@ -248,6 +258,7 @@ def from_dict(cls, data): qubits.append(nduvs) gates = [GateProperties.from_dict(x) for x in in_data.pop("gates")] general = [Nduv.from_dict(x) for x in in_data.pop("general")] + return cls( backend_name, backend_version, last_update_date, qubits, gates, general, **in_data ) diff --git a/qiskit/transpiler/passes/basis/basis_translator.py b/qiskit/transpiler/passes/basis/basis_translator.py index 3dbdfd5eaad4..0d597b89de6a 100644 --- a/qiskit/transpiler/passes/basis/basis_translator.py +++ b/qiskit/transpiler/passes/basis/basis_translator.py @@ -249,8 +249,9 @@ def run(self, dag): replace_start_time = time.time() def apply_translation(dag, wire_map): - dag_updated = False - for node in dag.op_nodes(): + is_updated = False + out_dag = dag.copy_empty_like() + for node in dag.topological_op_nodes(): node_qargs = tuple(wire_map[bit] for bit in node.qargs) qubit_set = frozenset(node_qargs) if node.name in target_basis or len(node.qargs) < self._min_qubits: @@ -258,45 +259,48 @@ def apply_translation(dag, wire_map): flow_blocks = [] for block in node.op.blocks: dag_block = circuit_to_dag(block) - dag_updated = apply_translation( + updated_dag, is_updated = apply_translation( dag_block, { inner: wire_map[outer] for inner, outer in zip(block.qubits, node.qargs) }, ) - if dag_updated: - flow_circ_block = dag_to_circuit(dag_block) + if is_updated: + flow_circ_block = dag_to_circuit(updated_dag) else: flow_circ_block = block flow_blocks.append(flow_circ_block) node.op = node.op.replace_blocks(flow_blocks) + out_dag.apply_operation_back(node.op, node.qargs, node.cargs, check=False) continue if ( node_qargs in self._qargs_with_non_global_operation and node.name in self._qargs_with_non_global_operation[node_qargs] ): + out_dag.apply_operation_back(node.op, node.qargs, node.cargs, check=False) continue if dag.has_calibration_for(node): + out_dag.apply_operation_back(node.op, node.qargs, node.cargs, check=False) continue if qubit_set in extra_instr_map: - self._replace_node(dag, node, extra_instr_map[qubit_set]) + self._replace_node(out_dag, node, extra_instr_map[qubit_set]) elif (node.name, node.num_qubits) in instr_map: - self._replace_node(dag, node, instr_map) + self._replace_node(out_dag, node, instr_map) else: raise TranspilerError(f"BasisTranslator did not map {node.name}.") - dag_updated = True - return dag_updated + is_updated = True + return out_dag, is_updated - apply_translation(dag, qarg_indices) + out_dag, _ = apply_translation(dag, qarg_indices) replace_end_time = time.time() logger.info( "Basis translation instructions replaced in %.3fs.", replace_end_time - replace_start_time, ) - return dag + return out_dag def _replace_node(self, dag, node, instr_map): target_params, target_dag = instr_map[node.name, node.num_qubits] @@ -307,12 +311,18 @@ def _replace_node(self, dag, node, instr_map): ) if node.params: parameter_map = dict(zip(target_params, node.params)) - bound_target_dag = target_dag.copy_empty_like() for inner_node in target_dag.topological_op_nodes(): new_node = DAGOpNode.from_instruction( inner_node._to_circuit_instruction(), - dag=bound_target_dag, + dag=target_dag, ) + new_node.qargs = tuple( + node.qargs[target_dag.find_bit(x).index] for x in inner_node.qargs + ) + new_node.cargs = tuple( + node.cargs[target_dag.find_bit(x).index] for x in inner_node.cargs + ) + if not new_node.is_standard_gate(): new_node.op = new_node.op.copy() if any(isinstance(x, ParameterExpression) for x in inner_node.params): @@ -334,7 +344,8 @@ def _replace_node(self, dag, node, instr_map): new_node.params = new_params if not new_node.is_standard_gate(): new_node.op.params = new_params - bound_target_dag._apply_op_node_back(new_node) + dag._apply_op_node_back(new_node) + if isinstance(target_dag.global_phase, ParameterExpression): old_phase = target_dag.global_phase bind_dict = {x: parameter_map[x] for x in old_phase.parameters} @@ -342,31 +353,37 @@ def _replace_node(self, dag, node, instr_map): new_phase = old_phase for x in bind_dict.items(): new_phase = new_phase.assign(*x) - else: new_phase = old_phase.bind(bind_dict) if not new_phase.parameters: new_phase = new_phase.numeric() if isinstance(new_phase, complex): raise TranspilerError(f"Global phase must be real, but got '{new_phase}'") - bound_target_dag.global_phase = new_phase - else: - bound_target_dag = target_dag - - if len(bound_target_dag.op_nodes()) == 1 and len( - bound_target_dag.op_nodes()[0].qargs - ) == len(node.qargs): - dag_op = bound_target_dag.op_nodes()[0].op - # dag_op may be the same instance as other ops in the dag, - # so if there is a condition, need to copy - if getattr(node, "condition", None): - dag_op = dag_op.copy() - dag.substitute_node(node, dag_op, inplace=True) - - if bound_target_dag.global_phase: - dag.global_phase += bound_target_dag.global_phase + dag.global_phase += new_phase + else: - dag.substitute_node_with_dag(node, bound_target_dag) + for inner_node in target_dag.topological_op_nodes(): + new_node = DAGOpNode.from_instruction( + inner_node._to_circuit_instruction(), + dag=target_dag, + ) + new_node.qargs = tuple( + node.qargs[target_dag.find_bit(x).index] for x in inner_node.qargs + ) + new_node.cargs = tuple( + node.cargs[target_dag.find_bit(x).index] for x in inner_node.cargs + ) + if not new_node.is_standard_gate: + new_node.op = new_node.op.copy() + # dag_op may be the same instance as other ops in the dag, + # so if there is a condition, need to copy + if getattr(node.op, "condition", None): + new_node_op = new_node.op.to_mutable() + new_node_op.condition = node.op.condition + new_node.op = new_node_op + dag._apply_op_node_back(new_node) + if target_dag.global_phase: + dag.global_phase += target_dag.global_phase @singledispatchmethod def _extract_basis(self, circuit): diff --git a/qiskit/transpiler/passes/layout/sabre_layout.py b/qiskit/transpiler/passes/layout/sabre_layout.py index 2fb9a1890bd5..4ce94ecdb62f 100644 --- a/qiskit/transpiler/passes/layout/sabre_layout.py +++ b/qiskit/transpiler/passes/layout/sabre_layout.py @@ -35,11 +35,7 @@ from qiskit.transpiler.basepasses import TransformationPass from qiskit.transpiler.exceptions import TranspilerError from qiskit._accelerate.nlayout import NLayout -from qiskit._accelerate.sabre import ( - sabre_layout_and_routing, - Heuristic, - NeighborTable, -) +from qiskit._accelerate.sabre import sabre_layout_and_routing, Heuristic, NeighborTable, SetScaling from qiskit.transpiler.passes.routing.sabre_swap import _build_sabre_dag, _apply_sabre_result from qiskit.transpiler.target import Target from qiskit.transpiler.coupling import CouplingMap @@ -393,12 +389,18 @@ def _inner_run(self, dag, coupling_map, starting_layouts=None): coupling_map.size(), original_qubit_indices, ) + heuristic = ( + Heuristic(attempt_limit=10 * coupling_map.size()) + .with_basic(1.0, SetScaling.Size) + .with_lookahead(0.5, 20, SetScaling.Size) + .with_decay(0.001, 5) + ) sabre_start = time.perf_counter() (initial_layout, final_permutation, sabre_result) = sabre_layout_and_routing( sabre_dag, neighbor_table, dist_matrix, - Heuristic.Decay, + heuristic, self.max_iterations, self.swap_trials, self.layout_trials, diff --git a/qiskit/transpiler/passes/routing/sabre_swap.py b/qiskit/transpiler/passes/routing/sabre_swap.py index e3aa723b65b2..788f0d995754 100644 --- a/qiskit/transpiler/passes/routing/sabre_swap.py +++ b/qiskit/transpiler/passes/routing/sabre_swap.py @@ -31,12 +31,7 @@ from qiskit.dagcircuit import DAGCircuit, DAGOpNode from qiskit.utils.parallel import CPU_COUNT -from qiskit._accelerate.sabre import ( - sabre_routing, - Heuristic, - NeighborTable, - SabreDAG, -) +from qiskit._accelerate.sabre import sabre_routing, Heuristic, SetScaling, NeighborTable, SabreDAG from qiskit._accelerate.nlayout import NLayout logger = logging.getLogger(__name__) @@ -211,12 +206,25 @@ def run(self, dag): " This circuit cannot be routed to this device." ) - if self.heuristic == "basic": - heuristic = Heuristic.Basic + if isinstance(self.heuristic, Heuristic): + heuristic = self.heuristic + elif self.heuristic == "basic": + heuristic = Heuristic(attempt_limit=10 * num_dag_qubits).with_basic( + 1.0, SetScaling.Size + ) elif self.heuristic == "lookahead": - heuristic = Heuristic.Lookahead + heuristic = ( + Heuristic(attempt_limit=10 * num_dag_qubits) + .with_basic(1.0, SetScaling.Size) + .with_lookahead(0.5, 20, SetScaling.Size) + ) elif self.heuristic == "decay": - heuristic = Heuristic.Decay + heuristic = ( + Heuristic(attempt_limit=10 * num_dag_qubits) + .with_basic(1.0, SetScaling.Size) + .with_lookahead(0.5, 20, SetScaling.Size) + .with_decay(0.001, 5) + ) else: raise TranspilerError(f"Heuristic {self.heuristic} not recognized.") disjoint_utils.require_layout_isolated_to_component( diff --git a/qiskit/transpiler/passes/routing/star_prerouting.py b/qiskit/transpiler/passes/routing/star_prerouting.py index c00cee74de4b..53bc971a268b 100644 --- a/qiskit/transpiler/passes/routing/star_prerouting.py +++ b/qiskit/transpiler/passes/routing/star_prerouting.py @@ -14,11 +14,15 @@ from typing import Iterable, Union, Optional, List, Tuple from math import floor, log10 -from qiskit.circuit import Barrier -from qiskit.circuit.library import SwapGate +from qiskit.circuit import SwitchCaseOp, Clbit, ClassicalRegister, Barrier +from qiskit.circuit.controlflow import condition_resources, node_resources from qiskit.dagcircuit import DAGOpNode, DAGDepNode, DAGDependency, DAGCircuit from qiskit.transpiler.basepasses import TransformationPass from qiskit.transpiler.layout import Layout +from qiskit.transpiler.passes.routing.sabre_swap import _build_sabre_dag, _apply_sabre_result + +from qiskit._accelerate import star_prerouting +from qiskit._accelerate.nlayout import NLayout class StarBlock: @@ -305,113 +309,84 @@ def star_preroute(self, dag, blocks, processing_order): new_dag: a dag specifying the pre-routed circuit qubit_mapping: the final qubit mapping after pre-routing """ - node_to_block_id = {} - for i, block in enumerate(blocks): - for node in block.get_nodes(): - node_to_block_id[node] = i - - new_dag = dag.copy_empty_like() - processed_block_ids = set() - qubit_mapping = list(range(len(dag.qubits))) - - def _apply_mapping(qargs, qubit_mapping, qubits): - return tuple(qubits[qubit_mapping[dag.find_bit(qubit).index]] for qubit in qargs) - - is_first_star = True - last_2q_gate = [ - op - for op in reversed(processing_order) - if ((len(op.qargs) > 1) and (op.name != "barrier")) + # Convert the DAG to a SabreDAG + num_qubits = len(dag.qubits) + canonical_register = dag.qregs["q"] + current_layout = Layout.generate_trivial_layout(canonical_register) + qubit_indices = {bit: idx for idx, bit in enumerate(canonical_register)} + layout_mapping = {qubit_indices[k]: v for k, v in current_layout.get_virtual_bits().items()} + initial_layout = NLayout(layout_mapping, num_qubits, num_qubits) + sabre_dag, circuit_to_dag_dict = _build_sabre_dag(dag, num_qubits, qubit_indices) + + # Extract the nodes from the blocks for the Rust representation + rust_blocks = [ + (block.center is not None, _extract_nodes(block.get_nodes(), dag)) for block in blocks ] - if len(last_2q_gate) > 0: - last_2q_gate = last_2q_gate[0] - else: - last_2q_gate = None + # Determine the processing order of the nodes in the DAG for the Rust representation int_digits = floor(log10(len(processing_order))) + 1 processing_order_index_map = { - node: f"a{str(index).zfill(int(int_digits))}" - for index, node in enumerate(processing_order) + node: f"a{index:0{int_digits}}" for index, node in enumerate(processing_order) } def tie_breaker_key(node): return processing_order_index_map.get(node, node.sort_key) - for node in dag.topological_op_nodes(key=tie_breaker_key): - block_id = node_to_block_id.get(node, None) - if block_id is not None: - if block_id in processed_block_ids: - continue - - processed_block_ids.add(block_id) - - # process the whole block - block = blocks[block_id] - sequence = block.nodes - center_node = block.center - - if len(sequence) == 2: - for inner_node in sequence: - new_dag.apply_operation_back( - inner_node.op, - _apply_mapping(inner_node.qargs, qubit_mapping, dag.qubits), - inner_node.cargs, - check=False, - ) - continue - swap_source = None - prev = None - for inner_node in sequence: - if (len(inner_node.qargs) == 1) or (inner_node.qargs == prev): - new_dag.apply_operation_back( - inner_node.op, - _apply_mapping(inner_node.qargs, qubit_mapping, dag.qubits), - inner_node.cargs, - check=False, - ) - continue - if is_first_star and swap_source is None: - swap_source = center_node - new_dag.apply_operation_back( - inner_node.op, - _apply_mapping(inner_node.qargs, qubit_mapping, dag.qubits), - inner_node.cargs, - check=False, - ) - - prev = inner_node.qargs - continue - # place 2q-gate and subsequent swap gate - new_dag.apply_operation_back( - inner_node.op, - _apply_mapping(inner_node.qargs, qubit_mapping, dag.qubits), - inner_node.cargs, - check=False, - ) - - if not inner_node is last_2q_gate and not isinstance(inner_node.op, Barrier): - new_dag.apply_operation_back( - SwapGate(), - _apply_mapping(inner_node.qargs, qubit_mapping, dag.qubits), - inner_node.cargs, - check=False, - ) - # Swap mapping - index_0 = dag.find_bit(inner_node.qargs[0]).index - index_1 = dag.find_bit(inner_node.qargs[1]).index - qubit_mapping[index_1], qubit_mapping[index_0] = ( - qubit_mapping[index_0], - qubit_mapping[index_1], - ) - - prev = inner_node.qargs - is_first_star = False - else: - # the node is not part of a block - new_dag.apply_operation_back( - node.op, - _apply_mapping(node.qargs, qubit_mapping, dag.qubits), - node.cargs, - check=False, - ) - return new_dag, qubit_mapping + rust_processing_order = _extract_nodes(dag.topological_op_nodes(key=tie_breaker_key), dag) + + # Run the star prerouting algorithm to obtain the new DAG and qubit mapping + *sabre_result, qubit_mapping = star_prerouting.star_preroute( + sabre_dag, rust_blocks, rust_processing_order + ) + + res_dag = _apply_sabre_result( + dag.copy_empty_like(), + dag, + sabre_result, + initial_layout, + dag.qubits, + circuit_to_dag_dict, + ) + + return res_dag, qubit_mapping + + +def _extract_nodes(nodes, dag): + """Extract and format node information for Rust representation used in SabreDAG. + + Each node is represented as a tuple containing: + - Node ID (int): The unique identifier of the node in the DAG. + - Qubit indices (list of int): Indices of qubits involved in the node's operation. + - Classical bit indices (set of int): Indices of classical bits involved in the node's operation. + - Directive flag (bool): Indicates whether the operation is a directive (True) or not (False). + + Args: + nodes (list[DAGOpNode]): List of DAGOpNode objects to extract information from. + dag (DAGCircuit): DAGCircuit object containing the circuit structure. + + Returns: + list of tuples: Each tuple contains information about a node in the format described above. + """ + extracted_node_info = [] + for node in nodes: + qubit_indices = [dag.find_bit(qubit).index for qubit in node.qargs] + classical_bit_indices = set() + + if node.op.condition is not None: + classical_bit_indices.update(condition_resources(node.op.condition).clbits) + + if isinstance(node.op, SwitchCaseOp): + switch_case_target = node.op.target + if isinstance(switch_case_target, Clbit): + classical_bit_indices.add(switch_case_target) + elif isinstance(switch_case_target, ClassicalRegister): + classical_bit_indices.update(switch_case_target) + else: # Assume target is an expression involving classical bits + classical_bit_indices.update(node_resources(switch_case_target).clbits) + + is_directive = getattr(node.op, "_directive", False) + extracted_node_info.append( + (node._node_id, qubit_indices, classical_bit_indices, is_directive) + ) + + return extracted_node_info diff --git a/qiskit/transpiler/preset_passmanagers/__init__.py b/qiskit/transpiler/preset_passmanagers/__init__.py index 6092573876f1..cad512c07a52 100644 --- a/qiskit/transpiler/preset_passmanagers/__init__.py +++ b/qiskit/transpiler/preset_passmanagers/__init__.py @@ -57,12 +57,12 @@ .. autofunction:: generate_scheduling .. currentmodule:: qiskit.transpiler.preset_passmanagers """ - +from .generate_preset_pass_manager import generate_preset_pass_manager from .level0 import level_0_pass_manager from .level1 import level_1_pass_manager from .level2 import level_2_pass_manager from .level3 import level_3_pass_manager -from .generate_preset_pass_manager import generate_preset_pass_manager + __all__ = [ "level_0_pass_manager", diff --git a/qiskit/transpiler/preset_passmanagers/builtin_plugins.py b/qiskit/transpiler/preset_passmanagers/builtin_plugins.py index f85b4d113c17..5e42c7ba3e3f 100644 --- a/qiskit/transpiler/preset_passmanagers/builtin_plugins.py +++ b/qiskit/transpiler/preset_passmanagers/builtin_plugins.py @@ -12,6 +12,8 @@ """Built-in transpiler stage plugins for preset pass managers.""" +import os + from qiskit.transpiler.passmanager import PassManager from qiskit.transpiler.exceptions import TranspilerError from qiskit.transpiler.passes import BasicSwap @@ -63,6 +65,10 @@ SXGate, SXdgGate, ) +from qiskit.utils.parallel import CPU_COUNT +from qiskit import user_config + +CONFIG = user_config.get_config() class DefaultInitPassManager(PassManagerStagePlugin): @@ -397,11 +403,12 @@ def pass_manager(self, pass_manager_config, optimization_level=None) -> PassMana pass_manager_config.initial_layout, ) if optimization_level == 0: + trial_count = _get_trial_count(5) routing_pass = SabreSwap( coupling_map_routing, heuristic="basic", seed=seed_transpiler, - trials=5, + trials=trial_count, ) return common.generate_routing_passmanager( routing_pass, @@ -411,11 +418,12 @@ def pass_manager(self, pass_manager_config, optimization_level=None) -> PassMana use_barrier_before_measurement=True, ) if optimization_level == 1: + trial_count = _get_trial_count(5) routing_pass = SabreSwap( coupling_map_routing, heuristic="decay", seed=seed_transpiler, - trials=5, + trials=trial_count, ) return common.generate_routing_passmanager( routing_pass, @@ -429,11 +437,13 @@ def pass_manager(self, pass_manager_config, optimization_level=None) -> PassMana use_barrier_before_measurement=True, ) if optimization_level == 2: + trial_count = _get_trial_count(20) + routing_pass = SabreSwap( coupling_map_routing, heuristic="decay", seed=seed_transpiler, - trials=10, + trials=trial_count, ) return common.generate_routing_passmanager( routing_pass, @@ -446,11 +456,12 @@ def pass_manager(self, pass_manager_config, optimization_level=None) -> PassMana use_barrier_before_measurement=True, ) if optimization_level == 3: + trial_count = _get_trial_count(20) routing_pass = SabreSwap( coupling_map_routing, heuristic="decay", seed=seed_transpiler, - trials=20, + trials=trial_count, ) return common.generate_routing_passmanager( routing_pass, @@ -737,12 +748,15 @@ def _swap_mapped(property_set): max_trials=2500, # Limits layout scoring to < 600ms on ~400 qubit devices ) layout.append(ConditionalController(choose_layout_1, condition=_layout_not_perfect)) + + trial_count = _get_trial_count(5) + choose_layout_2 = SabreLayout( coupling_map, max_iterations=2, seed=pass_manager_config.seed_transpiler, - swap_trials=5, - layout_trials=5, + swap_trials=trial_count, + layout_trials=trial_count, skip_routing=pass_manager_config.routing_method is not None and pass_manager_config.routing_method != "sabre", ) @@ -769,12 +783,15 @@ def _swap_mapped(property_set): layout.append( ConditionalController(choose_layout_0, condition=_choose_layout_condition) ) + + trial_count = _get_trial_count(20) + choose_layout_1 = SabreLayout( coupling_map, max_iterations=2, seed=pass_manager_config.seed_transpiler, - swap_trials=20, - layout_trials=20, + swap_trials=trial_count, + layout_trials=trial_count, skip_routing=pass_manager_config.routing_method is not None and pass_manager_config.routing_method != "sabre", ) @@ -801,12 +818,15 @@ def _swap_mapped(property_set): layout.append( ConditionalController(choose_layout_0, condition=_choose_layout_condition) ) + + trial_count = _get_trial_count(20) + choose_layout_1 = SabreLayout( coupling_map, max_iterations=4, seed=pass_manager_config.seed_transpiler, - swap_trials=20, - layout_trials=20, + swap_trials=trial_count, + layout_trials=trial_count, skip_routing=pass_manager_config.routing_method is not None and pass_manager_config.routing_method != "sabre", ) @@ -902,42 +922,50 @@ def _swap_mapped(property_set): layout = PassManager() layout.append(_given_layout) if optimization_level == 0: + trial_count = _get_trial_count(5) + layout_pass = SabreLayout( coupling_map, max_iterations=1, seed=pass_manager_config.seed_transpiler, - swap_trials=5, - layout_trials=5, + swap_trials=trial_count, + layout_trials=trial_count, skip_routing=pass_manager_config.routing_method is not None and pass_manager_config.routing_method != "sabre", ) elif optimization_level == 1: + trial_count = _get_trial_count(5) + layout_pass = SabreLayout( coupling_map, max_iterations=2, seed=pass_manager_config.seed_transpiler, - swap_trials=5, - layout_trials=5, + swap_trials=trial_count, + layout_trials=trial_count, skip_routing=pass_manager_config.routing_method is not None and pass_manager_config.routing_method != "sabre", ) elif optimization_level == 2: + trial_count = _get_trial_count(20) + layout_pass = SabreLayout( coupling_map, max_iterations=2, seed=pass_manager_config.seed_transpiler, - swap_trials=20, - layout_trials=20, + swap_trials=trial_count, + layout_trials=trial_count, skip_routing=pass_manager_config.routing_method is not None and pass_manager_config.routing_method != "sabre", ) elif optimization_level == 3: + trial_count = _get_trial_count(20) + layout_pass = SabreLayout( coupling_map, max_iterations=4, seed=pass_manager_config.seed_transpiler, - swap_trials=20, - layout_trials=20, + swap_trials=trial_count, + layout_trials=trial_count, skip_routing=pass_manager_config.routing_method is not None and pass_manager_config.routing_method != "sabre", ) @@ -957,3 +985,9 @@ def _swap_mapped(property_set): embed = common.generate_embed_passmanager(coupling_map) layout.append(ConditionalController(embed.to_flow_controller(), condition=_swap_mapped)) return layout + + +def _get_trial_count(default_trials=5): + if CONFIG.get("sabre_all_threads", None) or os.getenv("QISKIT_SABRE_ALL_THREADS"): + return max(CPU_COUNT, default_trials) + return default_trials diff --git a/qiskit/transpiler/preset_passmanagers/generate_preset_pass_manager.py b/qiskit/transpiler/preset_passmanagers/generate_preset_pass_manager.py index 6023f2a4b6aa..a9a9a5e2f029 100644 --- a/qiskit/transpiler/preset_passmanagers/generate_preset_pass_manager.py +++ b/qiskit/transpiler/preset_passmanagers/generate_preset_pass_manager.py @@ -15,10 +15,12 @@ """ import copy +import warnings from qiskit.circuit.controlflow import CONTROL_FLOW_OP_NAMES from qiskit.circuit.library.standard_gates import get_standard_gate_name_mapping from qiskit.circuit.quantumregister import Qubit +from qiskit.providers.backend import Backend from qiskit.providers.backend_compat import BackendV2Converter from qiskit.transpiler.coupling import CouplingMap from qiskit.transpiler.exceptions import TranspilerError @@ -35,7 +37,7 @@ def generate_preset_pass_manager( - optimization_level, + optimization_level=2, backend=None, target=None, basis_gates=None, @@ -96,9 +98,10 @@ def generate_preset_pass_manager( Args: optimization_level (int): The optimization level to generate a - :class:`~.PassManager` for. This can be 0, 1, 2, or 3. Higher - levels generate more optimized circuits, at the expense of - longer transpilation time: + :class:`~.StagedPassManager` for. By default optimization level 2 + is used if this is not specified. This can be 0, 1, 2, or 3. Higher + levels generate potentially more optimized circuits, at the expense + of longer transpilation time: * 0: no optimization * 1: light optimization @@ -238,10 +241,28 @@ def generate_preset_pass_manager( ValueError: if an invalid value for ``optimization_level`` is passed in. """ + # Handle positional arguments for target and backend. This enables the usage + # pattern `generate_preset_pass_manager(backend.target)` to generate a default + # pass manager for a given target. + if isinstance(optimization_level, Target): + target = optimization_level + optimization_level = 2 + elif isinstance(optimization_level, Backend): + backend = optimization_level + optimization_level = 2 + if backend is not None and getattr(backend, "version", 0) <= 1: # This is a temporary conversion step to allow for a smoother transition # to a fully target-based transpiler pipeline while maintaining the behavior # of `transpile` with BackendV1 inputs. + warnings.warn( + "The `generate_preset_pass_manager` function will stop supporting inputs of " + f"type `BackendV1` ( {backend} ) in the `backend` parameter in a future " + "release no earlier than 2.0. `BackendV1` is deprecated and implementations " + "should move to `BackendV2`.", + category=DeprecationWarning, + stacklevel=2, + ) backend = BackendV2Converter(backend) # Check if a custom inst_map was specified before overwriting inst_map @@ -319,7 +340,17 @@ def generate_preset_pass_manager( if timing_constraints is None: timing_constraints = target.timing_constraints() if backend_properties is None: - backend_properties = target_to_backend_properties(target) + with warnings.catch_warnings(): + # TODO this approach (target-to-properties) is going to be removed soon (1.3) in favor + # of backend-to-target approach + # https://github.com/Qiskit/qiskit/pull/12850 + warnings.filterwarnings( + "ignore", + category=DeprecationWarning, + message=r".+qiskit\.transpiler\.target\.target_to_backend_properties.+", + module="qiskit", + ) + backend_properties = target_to_backend_properties(target) # Parse non-target dependent pm options initial_layout = _parse_initial_layout(initial_layout) diff --git a/qiskit/transpiler/preset_passmanagers/level0.py b/qiskit/transpiler/preset_passmanagers/level0.py index 7289a8635c55..58381b3db7a8 100644 --- a/qiskit/transpiler/preset_passmanagers/level0.py +++ b/qiskit/transpiler/preset_passmanagers/level0.py @@ -48,7 +48,7 @@ def level_0_pass_manager(pass_manager_config: PassManagerConfig) -> StagedPassMa initial_layout = pass_manager_config.initial_layout init_method = pass_manager_config.init_method or "default" layout_method = pass_manager_config.layout_method or "default" - routing_method = pass_manager_config.routing_method or "stochastic" + routing_method = pass_manager_config.routing_method or "sabre" translation_method = pass_manager_config.translation_method or "translator" optimization_method = pass_manager_config.optimization_method or "default" scheduling_method = pass_manager_config.scheduling_method or "default" diff --git a/qiskit/transpiler/target.py b/qiskit/transpiler/target.py index 001e8020962b..da4a44a8ee02 100644 --- a/qiskit/transpiler/target.py +++ b/qiskit/transpiler/target.py @@ -20,6 +20,7 @@ from __future__ import annotations import itertools +import warnings from typing import Optional, List, Any from collections.abc import Mapping @@ -55,6 +56,7 @@ # full target from qiskit.providers.backend import QubitProperties # pylint: disable=unused-import from qiskit.providers.models.backendproperties import BackendProperties +from qiskit.utils import deprecate_func logger = logging.getLogger(__name__) @@ -1164,6 +1166,15 @@ def from_configuration( Mapping.register(Target) +@deprecate_func( + since="1.2", + removal_timeline="in the 2.0 release", + additional_msg="This method is used to build an element from the deprecated " + "``qiskit.providers.models`` module. These models are part of the deprecated `BackendV1` " + "workflow and no longer necessary for `BackendV2`. If a user workflow requires these " + "representations it likely relies on deprecated functionality and " + "should be updated to use `BackendV2`.", +) def target_to_backend_properties(target: Target): """Convert a :class:`~.Target` object into a legacy :class:`~.BackendProperties`""" @@ -1242,6 +1253,9 @@ def target_to_backend_properties(target: Target): if gates or qubits: properties_dict["gates"] = gates properties_dict["qubits"] = qubits - return BackendProperties.from_dict(properties_dict) + with warnings.catch_warnings(): + # This raises BackendProperties internally + warnings.filterwarnings("ignore", category=DeprecationWarning) + return BackendProperties.from_dict(properties_dict) else: return None diff --git a/qiskit/user_config.py b/qiskit/user_config.py index 0ca52fc5c8c0..22d12406b348 100644 --- a/qiskit/user_config.py +++ b/qiskit/user_config.py @@ -35,6 +35,7 @@ class UserConfig: transpile_optimization_level = 1 parallel = False num_processes = 4 + sabre_all_threads = true """ @@ -168,6 +169,13 @@ def read_config_file(self): ) self.settings["num_processes"] = num_processes + # Parse sabre_all_threads + sabre_all_threads = self.config_parser.getboolean( + "default", "sabre_all_threads", fallback=None + ) + if sabre_all_threads is not None: + self.settings["sabre_all_threads"] = sabre_all_threads + def set_config(key, value, section=None, file_path=None): """Adds or modifies a user configuration @@ -208,6 +216,7 @@ def set_config(key, value, section=None, file_path=None): "transpile_optimization_level", "parallel", "num_processes", + "sabre_all_threads", } if section in [None, "default"]: diff --git a/qiskit/utils/deprecation.py b/qiskit/utils/deprecation.py index 294ea9414924..aebea233282e 100644 --- a/qiskit/utils/deprecation.py +++ b/qiskit/utils/deprecation.py @@ -29,6 +29,7 @@ def deprecate_func( package_name: str = "qiskit", removal_timeline: str = "no earlier than 3 months after the release date", is_property: bool = False, + stacklevel: int = 2, ): """Decorator to indicate a function has been deprecated. @@ -50,7 +51,7 @@ def deprecate_func( is_property: If the deprecated function is a `@property`, set this to True so that the generated message correctly describes it as such. (This isn't necessary for property setters, as their docstring is ignored by Python.) - + stacklevel: Stack level passed to :func:`warnings.warn`. Returns: Callable: The decorated callable. """ @@ -92,7 +93,7 @@ def decorator(func): @functools.wraps(func) def wrapper(*args, **kwargs): - warnings.warn(msg, category=category, stacklevel=2) + warnings.warn(msg, category=category, stacklevel=stacklevel) return func(*args, **kwargs) add_deprecation_to_docstring(wrapper, msg, since=since, pending=pending) diff --git a/qiskit/visualization/circuit/_utils.py b/qiskit/visualization/circuit/_utils.py index 2077a3891542..e6ee03905d27 100644 --- a/qiskit/visualization/circuit/_utils.py +++ b/qiskit/visualization/circuit/_utils.py @@ -387,7 +387,7 @@ def _get_valid_justify_arg(justify): warn( f"Setting QuantumCircuit.draw()’s or circuit_drawer()'s justify argument: {justify}, to a " "value other than 'left', 'right', 'none' or None (='left'). Default 'left' will be used. " - "Support for invalid justify arguments is deprecated as of qiskit 1.2.0. Starting no " + "Support for invalid justify arguments is deprecated as of Qiskit 1.2.0. Starting no " "earlier than 3 months after the release date, invalid arguments will error.", DeprecationWarning, 2, diff --git a/releasenotes/notes/add-sabre-all-threads-option-ad4ff7a4d045cb2b.yaml b/releasenotes/notes/add-sabre-all-threads-option-ad4ff7a4d045cb2b.yaml new file mode 100644 index 000000000000..24b64a28703e --- /dev/null +++ b/releasenotes/notes/add-sabre-all-threads-option-ad4ff7a4d045cb2b.yaml @@ -0,0 +1,26 @@ +--- +features_transpiler: + - | + Added a new user config file option ``sabre_all_threads`` and a + corresponding environment variable ``QISKIT_SABRE_ALL_THREADS``. When this + flag is set the preset pass managers will run the :class:`.SabreLayout` + and :class:`.SabreSwap` transpiler passes using all the available + CPUs on the local system. Using this option is a tradeoff between + determinism of output between different computers and potentially better + output with fewer :class:`.SwapGate`\s. + + These transpiler passes run multiple random trials in parallel and pick + the output which results in the fewest :class:`.SwapGate`\s. As a rule of + thumb, if you run more trials, this provides the algorithm more opportunities + to find a better result. By default, the preset pass managers use a fixed + number of trials, in this release 5 trials for levels 0 and 1, and 20 + trials for levels 2 and 3, but these numbers may change in future releases + (and were different in historical releases). Using a fixed number of + trials results in deterministic results regardless of the local system, + because even with a fixed seed if you were to default to the number of + local CPUs available the results would different when running between + different computers. + + If the default number of trials for a given optimization level is higher + than the number of local CPUs it will use the optimization level default + which is higher. diff --git a/releasenotes/notes/annotated-params-116288d5628f7ee8.yaml b/releasenotes/notes/annotated-params-116288d5628f7ee8.yaml new file mode 100644 index 000000000000..2f316a06ae8d --- /dev/null +++ b/releasenotes/notes/annotated-params-116288d5628f7ee8.yaml @@ -0,0 +1,30 @@ +--- +features_circuits: + - | + Added support for :meth:`.AnnotatedOperation.params` and + :meth:`.AnnotatedOperation.validate_parameter`, which enable + circuit-level parameter handling (such as binding parameters) for + annotated operations. +fixes: + - | + Fixed a series of issues when controlling parameterized standard gates. + The controlled version of some gates (e.g. :class:`.RXXGate` or + :class:`.RYGate` for more than 1 control) cannot be synthesized if + they contain unbound parameters. Previously, calling ``.control()`` but + now we create an :class:`.AnnotatedOperation` as placeholder. This + allows to insert the controlled gate into a circuit, bind the parameters + at a later stage, and then synthesize the operation. + Fixes `#10311 `_, + `#10697 `_, + and `#12135 `_. + - | + The :class:`.SGate` and :class:`.SdgGate` now correctly return a + :class:`.CSGate`, resp. :class:`.CSdgGate`, if they are controlled on + a single control qubit. +upgrade_circuits: + - | + The ``annotated`` argument of the :meth:`.Gate.control` method is now + ``None``, which allows Qiskit to choose whether to annotate a controlled operation. + If the concrete implementation (``annotated=False``) is available, it will be returned by + default. Otherwise, the annotated implementation will be returned (``annotated=True``). + This allows, for example, to defer the synthesis of controlled, parameterized gates. diff --git a/releasenotes/notes/backendv1-d0d0642ed38fed3c.yaml b/releasenotes/notes/backendv1-d0d0642ed38fed3c.yaml new file mode 100644 index 000000000000..3b19a7ab9a2c --- /dev/null +++ b/releasenotes/notes/backendv1-d0d0642ed38fed3c.yaml @@ -0,0 +1,14 @@ +--- +deprecations_providers: + - | + The :class:`.BackendV1` class is deprecated and it will be removed not earlier than the next major release. + There are several migration paths available depending on the main purpose of the backend object:: + + - To expose backend information with no access to execution (just a hardware description), consider constructing a :class:`.Target` directly. + - To provides access to execution capabilities, consider relying on the primitives interfaces instead. + - Alternatively, to continue providing simultaneous :class:`.Target` (hardware information) and ``run`` (execution) capabilities, consider moving to :class:`.BackendV2` (see ). + + - | + The models in :mod:`qiskit.providers.models` are part of the deprecated :class:`.BackendV1` workflow + and no longer necessary for :class:`.BackendV2`. If a user workflow requires these representations it + likely relies on deprecated functionality and should be updated to use :class:`.BackendV2`. diff --git a/releasenotes/notes/bitarray-postselect-659b8f7801ccaa60.yaml b/releasenotes/notes/bitarray-postselect-659b8f7801ccaa60.yaml new file mode 100644 index 000000000000..33ce17bafa8d --- /dev/null +++ b/releasenotes/notes/bitarray-postselect-659b8f7801ccaa60.yaml @@ -0,0 +1,11 @@ +--- +features_primitives: + - | + Added a new method :meth:`.BitArray.postselect` that returns all shots containing specified bit values. + Example usage:: + + from qiskit.primitives.containers import BitArray + + ba = BitArray.from_counts({'110': 2, '100': 4, '000': 3}) + print(ba.postselect([0,2], [0,1]).get_counts()) + # {'110': 2, '100': 4} diff --git a/releasenotes/notes/default-level-2-generate-preset-passmanager-ec758ddc896ae2d6.yaml b/releasenotes/notes/default-level-2-generate-preset-passmanager-ec758ddc896ae2d6.yaml new file mode 100644 index 000000000000..ff5d57797860 --- /dev/null +++ b/releasenotes/notes/default-level-2-generate-preset-passmanager-ec758ddc896ae2d6.yaml @@ -0,0 +1,44 @@ +--- +features_transpiler: + - | + The ``optimization_level`` argument for the :func:`.generate_preset_pass_manager` function is + now optional. If it's not specified it will default to using optimization level 2. As the argument + is now optional, the first positional argument has been expanded to enable passing a :class:`.Target` + or a :class:`.BackendV2` as the first argument for more convenient construction. For example:: + + from qiskit.transpiler.preset_passmanager import generate_preset_pass_manager + from qiskit.providers.fake_provider import GenericBackendV2 + + backend = GenericBackendV2(100) + + generate_preset_pass_manager(backend.Target) + + will construct a default pass manager for the 100 qubit :class`.GenericBackendV2` instance. +upgrade_transpiler: + - | + The default ``optimization_level`` used by the :func:`.transpile` function when one is not + specified has been changed to level 2. This makes it consistent with the default used + by :func:`.generate_preset_pass_manager` which is used internally by :func:`.transpile`. Optimization + level 2 provides a much better balance between the run time of the function and the optimizations it + performs, it's a better tradeoff to use by default. + + The API of :func:`.transpile` remains unchanged because, fundamentally, level 2 and level 1 + have the same semantics. If you were previously relying on the implicit default of level 1, + you can simply set the argument ``optimization_level=1`` when you call :func:`.transpile`. + Similarly you can change the default back in your local environment by using a user config + file and setting the ``transpile_optimization_level`` field to 1. + + The only potential issue is that your transpilation workflow may be relying on an implicit trivial layout (where qubit 0 + in the circuit passed to :func:`.transpile` is mapped to qubit 0 on the target backend/coupling, + 1->1, 2->2, etc.) without specifying ``optimization_level=1``, ``layout_method="trivial"``, or + explicitly setting ``initial_layout`` when calling :func:`.transpile`. This behavior was a side + effect of the preset pass manager construction in optimization level 1 and is not mirrored in + level 2. If you need this behavior you can use any of the three options listed previously to make + this behavior explicit. + + Similarly, if you were targeting a discrete basis gate set you may encounter an issue using the + new default with optimization level 2 (or running explicitly optimization level 3), as the additional optimization passes that run in + level 2 and 3 don't work in all cases with a discrete basis. You can explicitly set + ``optimization_level=1`` manually in this case. In general the transpiler does not currently + fully support discrete basis sets and if you're relying on this you should likely construct a + pass manager manually to build a compilation pipeline that will work with your target. diff --git a/releasenotes/notes/deprecate-primitives-v1.yaml b/releasenotes/notes/deprecate-primitives-v1.yaml index 9526c12d6eca..3d0335d358cb 100644 --- a/releasenotes/notes/deprecate-primitives-v1.yaml +++ b/releasenotes/notes/deprecate-primitives-v1.yaml @@ -1,17 +1,23 @@ --- deprecations_primitives: - | - Primitives V1 is now deprecated and will be removed in no less than 3 months from the release date. + Primitive V1 implementations and V1-exclusive non-versioned type aliases are now + deprecated in favor of their V2 counterparts. The deprecation is extended to the + following classes implementing V1 interfaces: - The following Primitives V1 classes are deprecated: + * :class:`.Estimator`, in favor of the V2 equivalent, :class:`.StatevectorEstimator` + * :class:`.Sampler`, in favor of the V2 equivalent, :class:`.StatevectorSampler` + * :class:`.BackendEstimator`, in favor of the V2 equivalent, :class:`.BackendEstimatorV2` + * :class:`.BackendSampler`, in favor of the V2 equivalent, :class:`.BackendSamplerV2` - * :class:`.BaseEstimator`, use :class:`.BaseEstimatorV2` instead, - * :class:`.BaseSampler`, use :class:`.BaseSamplerV2` instead, - * :class:`.Estimator`, use :class:`.StatevectorEstimator` instead, - * :class:`.Sampler`, use :class:`.StatevectorSampler` instead, - * :class:`.BackendEstimator`, use :class:`.BackendEstimatorV2` instead, - * :class:`.BackendSampler`, use :class:`.BackendSamplerV2` instead, + As well as the following non-versioned type aliases: + + * :class:`.BaseEstimator`, alias for :class:`.BaseEstimatorV1` + * :class:`.BaseSampler`, alias for :class:`.BaseSamplerV1` + This deprecation does NOT affect the explicitly-versioned :class:`BaseEstimatorV1` + and :class:`BaseSamplerV1` abstract + interface definitions or related result and job classes. In addition, the following utility functions are deprecated: diff --git a/releasenotes/notes/fix-bitarray-slice-bits-shots-c9cb7e5d907722f5.yaml b/releasenotes/notes/fix-bitarray-slice-bits-shots-c9cb7e5d907722f5.yaml new file mode 100644 index 000000000000..56fd81012428 --- /dev/null +++ b/releasenotes/notes/fix-bitarray-slice-bits-shots-c9cb7e5d907722f5.yaml @@ -0,0 +1,11 @@ +--- +upgrade_primitives: + - | + :meth:`.BitArray.slice_bits` and :meth:`.BitArray.slice_shots` + will now raise ``IndexError`` when indices are out of bounds. + They used to raise ``ValueError`` in the case. + - | + :meth:`.BitArray.__getitem__` will now raise ``IndexError`` + when indices are out of bounds or the number of dimensions + of indices does not match that of BitArray. + They used to raise ``ValueError`` in the case. diff --git a/releasenotes/notes/fix-statevector-sampler-c_if-9753f8f97a3d0ff5.yaml b/releasenotes/notes/fix-statevector-sampler-c_if-9753f8f97a3d0ff5.yaml new file mode 100644 index 000000000000..d743b52ee900 --- /dev/null +++ b/releasenotes/notes/fix-statevector-sampler-c_if-9753f8f97a3d0ff5.yaml @@ -0,0 +1,5 @@ +--- +fixes: + - | + Fixed a bug of :class:`.StatevectorSampler` that ignored gates with ``c_if``. + It will raise an error because :class:`.Statevector` cannot handle ``c_if``. diff --git a/releasenotes/notes/port_star_prerouting-13fae3ff78feb5e3.yaml b/releasenotes/notes/port_star_prerouting-13fae3ff78feb5e3.yaml new file mode 100644 index 000000000000..f8eca807bec6 --- /dev/null +++ b/releasenotes/notes/port_star_prerouting-13fae3ff78feb5e3.yaml @@ -0,0 +1,11 @@ +--- +features_transpiler: + - | + Port part of the logic from the :class:`StarPrerouting`, used to + find a star graph connectivity subcircuit and replaces it with a + linear routing equivalent. + - | + The function :func:`star_preroute` now performs the heavily lifting + to transform the dag by in the rust space by taking advantage + of the functions :func:`_build_sabre_dag` and + :func:`_apply_sabre_result`. diff --git a/releasenotes/notes/qasm2-big-condition-cfd203d53540d4ca.yaml b/releasenotes/notes/qasm2-big-condition-cfd203d53540d4ca.yaml new file mode 100644 index 000000000000..a5863cae2310 --- /dev/null +++ b/releasenotes/notes/qasm2-big-condition-cfd203d53540d4ca.yaml @@ -0,0 +1,6 @@ +--- +fixes: + - | + The OpenQASM 2 parser (:mod:`qiskit.qasm2`) can now handle conditionals + with integers that do not fit within a 64-bit integer. Fixed + `#12773 `__. diff --git a/releasenotes/notes/sabre_level0-1524f01965257f3f.yaml b/releasenotes/notes/sabre_level0-1524f01965257f3f.yaml new file mode 100644 index 000000000000..c24775d6d096 --- /dev/null +++ b/releasenotes/notes/sabre_level0-1524f01965257f3f.yaml @@ -0,0 +1,13 @@ +--- +upgrade_transpiler: + - | + The default routing pass used by optimization level 0 for :func:`.generate_preset_pass_manager` + and :func:`.transpile` has been changed from :class:`.StochasticSwap` to :class:`.SabreSwap`. + The :class:`.SabreSwap` pass performs exactly the same function but performs better in both + runtime and output quality (in number of swap gates and depth) compared to + :class:`.StochasticSwap`. For ``optimization_level=0`` this shouldn't matter because it's not + expected to run routing for the typical use case of level 0. + + If you were relying on the previous default routing algorithm for any reason you can use the + ``routing_method`` argument for :func:`.transpile` and :func:`.generate_preset_pass_manager` + to ``"stochastic"`` to use the :class:`.StochasticSwap` pass. diff --git a/releasenotes/notes/update-primitive-v2-metadata-cf1226e2d6477688.yaml b/releasenotes/notes/update-primitive-v2-metadata-cf1226e2d6477688.yaml new file mode 100644 index 000000000000..570f5211b080 --- /dev/null +++ b/releasenotes/notes/update-primitive-v2-metadata-cf1226e2d6477688.yaml @@ -0,0 +1,13 @@ +--- +features_primitives: + - | + The metadata of Primitives V2 implementations, i.e., :class:`.StatevectorSampler`, + :class:`.StatevectorEstimator`, :class:`.BackendSamplerV2` and :class:`.BackendEstimatorV2`, + has been updated to match that of IBM quantum devices. + + * ``version`` and ``circuit_metadata`` are added for all V2 implementations + * ``shots`` is added for :class:`.BackendSamplerV2` and :class:`.BackendEstimatorV2` + * ``precision`` is renamed with ``target_precision`` for :class:`.StatevectorEstimator` + + Note that metadata of :class:`.StatevectorEstimator` does not have ``shots`` because + the class computes expectation values with :class:`.Statevector` and shots are not used. diff --git a/test/python/circuit/library/test_qft.py b/test/python/circuit/library/test_qft.py index 1f5c9715dd7a..85837f0ac80c 100644 --- a/test/python/circuit/library/test_qft.py +++ b/test/python/circuit/library/test_qft.py @@ -139,7 +139,7 @@ def test_qft_num_gates(self, num_qubits, approximation_degree, insert_barriers): qft = QFT( num_qubits, approximation_degree=approximation_degree, insert_barriers=insert_barriers ) - ops = transpile(qft, basis_gates=basis_gates).count_ops() + ops = transpile(qft, basis_gates=basis_gates, optimization_level=1).count_ops() with self.subTest(msg="assert H count"): self.assertEqual(ops["h"], num_qubits) diff --git a/test/python/circuit/test_annotated_operation.py b/test/python/circuit/test_annotated_operation.py index f4228fc0485f..e2ca9f4af9a4 100644 --- a/test/python/circuit/test_annotated_operation.py +++ b/test/python/circuit/test_annotated_operation.py @@ -14,6 +14,7 @@ import unittest +from qiskit.circuit import Parameter, QuantumCircuit from qiskit.circuit._utils import _compute_control_matrix from qiskit.circuit.annotated_operation import ( AnnotatedOperation, @@ -22,7 +23,7 @@ PowerModifier, _canonicalize_modifiers, ) -from qiskit.circuit.library import SGate, SdgGate +from qiskit.circuit.library import SGate, SdgGate, UGate, RXGate from qiskit.quantum_info import Operator from test import QiskitTestCase # pylint: disable=wrong-import-order @@ -157,6 +158,52 @@ def test_canonicalize_inverse(self): expected_list = [] self.assertEqual(canonical_list, expected_list) + def test_params_access(self): + """Test access to the params field.""" + p, q = Parameter("p"), Parameter("q") + params = [0.2, -1, p] + gate = UGate(*params) + annotated = gate.control(10, annotated=True) + + with self.subTest(msg="reading params"): + self.assertListEqual(annotated.params, params) + + new_params = [q, 131, -1.2] + with self.subTest(msg="setting params"): + annotated.params = new_params + self.assertListEqual(annotated.params, new_params) + + def test_binding_annotated_gate(self): + """Test binding an annotated gate in a circuit.""" + p = Parameter("p") + annotated = RXGate(p).control(2, annotated=True) + circuit = QuantumCircuit(annotated.num_qubits) + circuit.h(circuit.qubits) + circuit.append(annotated, circuit.qubits) + + with self.subTest(msg="test parameter is reported"): + self.assertEqual(circuit.num_parameters, 1) + + with self.subTest(msg="test binding parameters worked"): + bound = circuit.assign_parameters([0.321]) + self.assertEqual(bound.num_parameters, 0) + + def test_invalid_params_access(self): + """Test params access to a operation not providing params.""" + op = Operator(SGate()) + annotated = AnnotatedOperation(op, InverseModifier()) + + with self.subTest(msg="accessing params returns an empty list"): + self.assertEqual(len(annotated.params), 0) + + with self.subTest(msg="setting params fails"): + with self.assertRaises(AttributeError): + annotated.params = [1.2] + + with self.subTest(msg="validating params fails"): + with self.assertRaises(AttributeError): + _ = annotated.validate_parameter(1.2) + if __name__ == "__main__": unittest.main() diff --git a/test/python/circuit/test_controlled_gate.py b/test/python/circuit/test_controlled_gate.py index 6d7b237915fa..707f9d32cb94 100644 --- a/test/python/circuit/test_controlled_gate.py +++ b/test/python/circuit/test_controlled_gate.py @@ -19,7 +19,7 @@ from numpy import pi from ddt import ddt, data, unpack -from qiskit import QuantumRegister, QuantumCircuit, QiskitError +from qiskit import QuantumRegister, QuantumCircuit, QiskitError, transpile from qiskit.circuit import ControlledGate, Parameter, Gate from qiskit.circuit.annotated_operation import AnnotatedOperation from qiskit.circuit.singleton import SingletonControlledGate, _SingletonControlledGateOverrides @@ -46,9 +46,13 @@ CCXGate, HGate, RZGate, + RYGate, RXGate, + RZZGate, + RZXGate, + RYYGate, + RXXGate, CPhaseGate, - RYGate, CRYGate, CRXGate, CSwapGate, @@ -73,6 +77,8 @@ C3SXGate, C4XGate, MCPhaseGate, + XXMinusYYGate, + XXPlusYYGate, GlobalPhaseGate, UnitaryGate, ) @@ -761,7 +767,6 @@ def test_small_mcx_gates_yield_cx_count(self, num_ctrl_qubits): yields the expected number of cx gates.""" qc = QuantumCircuit(num_ctrl_qubits + 1) qc.append(MCXGate(num_ctrl_qubits), range(num_ctrl_qubits + 1)) - from qiskit import transpile cqc = transpile(qc, basis_gates=["u", "cx"]) cx_count = cqc.count_ops()["cx"] @@ -808,8 +813,6 @@ def test_mcx_gates(self, num_ctrl_qubits): def test_mcxvchain_dirty_ancilla_cx_count(self, num_ctrl_qubits): """Test if cx count of the v-chain mcx with dirty ancilla is less than upper bound.""" - from qiskit import transpile - mcx_vchain = MCXVChain(num_ctrl_qubits, dirty_ancillas=True) qc = QuantumCircuit(mcx_vchain.num_qubits) @@ -824,8 +827,6 @@ def test_mcxvchain_dirty_ancilla_cx_count(self, num_ctrl_qubits): def test_mcxrecursive_clean_ancilla_cx_count(self, num_ctrl_qubits): """Test if cx count of the mcx with one clean ancilla is less than upper bound.""" - from qiskit import transpile - mcx_recursive = MCXRecursive(num_ctrl_qubits) qc = QuantumCircuit(mcx_recursive.num_qubits) @@ -1491,6 +1492,45 @@ def test_control_zero_operand_gate(self, num_ctrl_qubits): target.flat[-1] = -1 self.assertEqual(Operator(controlled), Operator(target)) + @data( + RXGate, + RYGate, + RZGate, + RXXGate, + RYYGate, + RZXGate, + RZZGate, + UGate, + U3Gate, + XXMinusYYGate, + XXPlusYYGate, + ) + def test_mc_failure_without_annotation(self, gate_cls): + """Test error for gates that cannot be multi-controlled without annotation.""" + theta = Parameter("theta") + num_params = len(_get_free_params(gate_cls.__init__, ignore=["self"])) + params = [theta] + (num_params - 1) * [1.234] + + for annotated in [False, None]: + with self.subTest(annotated=annotated): + # if annotated is False, check that a sensible error is raised + if annotated is False: + with self.assertRaisesRegex(QiskitError, "unbound parameter"): + _ = gate_cls(*params).control(5, annotated=False) + + # else, check that the gate can be synthesized after all parameters + # have been bound + else: + mc_gate = gate_cls(*params).control(5) + + circuit = QuantumCircuit(mc_gate.num_qubits) + circuit.append(mc_gate, circuit.qubits) + + bound = circuit.assign_parameters([0.5123]) + unrolled = transpile(bound, basis_gates=["u", "cx"], optimization_level=0) + + self.assertEqual(unrolled.num_parameters, 0) + def assertEqualTranslated(self, circuit, unrolled_reference, basis): """Assert that the circuit is equal to the unrolled reference circuit.""" unroller = UnrollCustomDefinitions(std_eqlib, basis) diff --git a/test/python/circuit/test_parameters.py b/test/python/circuit/test_parameters.py index 4f989767164f..ad336a0ad6bb 100644 --- a/test/python/circuit/test_parameters.py +++ b/test/python/circuit/test_parameters.py @@ -31,10 +31,11 @@ from qiskit.compiler import assemble, transpile from qiskit import pulse from qiskit.quantum_info import Operator -from qiskit.providers.fake_provider import Fake5QV1 +from qiskit.providers.fake_provider import Fake5QV1, GenericBackendV2 from qiskit.providers.basic_provider import BasicSimulator from qiskit.utils import parallel_map from test import QiskitTestCase, combine # pylint: disable=wrong-import-order +from ..legacy_cmaps import BOGOTA_CMAP def raise_if_parameter_table_invalid(circuit): @@ -1074,6 +1075,31 @@ def test_transpiling_multiple_parameterized_circuits(self): self.assertTrue(len(job.result().results), 2) + @data(0, 1, 2, 3) + def test_transpile_across_optimization_levelsV1(self, opt_level): + """Verify parameterized circuits can be transpiled with all default pass managers. + To remove once Fake5QV1 gets removed""" + + qc = QuantumCircuit(5, 5) + + theta = Parameter("theta") + phi = Parameter("phi") + + qc.rx(theta, 0) + qc.x(0) + for i in range(5 - 1): + qc.rxx(phi, i, i + 1) + + qc.measure(range(5 - 1), range(5 - 1)) + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + transpile(qc, backend, optimization_level=opt_level) + @data(0, 1, 2, 3) def test_transpile_across_optimization_levels(self, opt_level): """Verify parameterized circuits can be transpiled with all default pass managers.""" @@ -1090,7 +1116,15 @@ def test_transpile_across_optimization_levels(self, opt_level): qc.measure(range(5 - 1), range(5 - 1)) - transpile(qc, Fake5QV1(), optimization_level=opt_level) + transpile( + qc, + GenericBackendV2( + num_qubits=5, + coupling_map=BOGOTA_CMAP, + seed=42, + ), + optimization_level=opt_level, + ) def test_repeated_gates_to_dag_and_back(self): """Verify circuits with repeated parameterized gates can be converted diff --git a/test/python/circuit/test_scheduled_circuit.py b/test/python/circuit/test_scheduled_circuit.py index c3b3158d7b85..ce5cd8213105 100644 --- a/test/python/circuit/test_scheduled_circuit.py +++ b/test/python/circuit/test_scheduled_circuit.py @@ -33,8 +33,9 @@ class TestScheduledCircuit(QiskitTestCase): def setUp(self): super().setUp() - self.backend_with_dt = Fake27QPulseV1() - self.backend_without_dt = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + self.backend_with_dt = Fake27QPulseV1() + self.backend_without_dt = Fake27QPulseV1() delattr(self.backend_without_dt.configuration(), "dt") # Remove timing constraints from the backends (alignment values, # granularity and min_length), so that these values will default @@ -50,21 +51,24 @@ def setUp(self): def test_schedule_circuit_when_backend_tells_dt(self): """dt is known to transpiler by backend""" qc = QuantumCircuit(2) - qc.delay(0.1, 0, unit="ms") # 450000[dt] + qc.delay(0.1, 0, unit="ms") # 450450[dt] qc.delay(100, 0, unit="ns") # 450[dt] - qc.h(0) # 160[dt] - qc.h(1) # 160[dt] - sc = transpile(qc, self.backend_with_dt, scheduling_method="alap", layout_method="trivial") - self.assertEqual(sc.duration, 450546) + qc.h(0) # 195[dt] + qc.h(1) # 210[dt] + + backend = GenericBackendV2(2, calibrate_instructions=True, seed=42) + + sc = transpile(qc, backend, scheduling_method="alap", layout_method="trivial") + self.assertEqual(sc.duration, 451095) self.assertEqual(sc.unit, "dt") self.assertEqual(sc.data[0].operation.name, "delay") - self.assertEqual(sc.data[0].operation.duration, 450450) + self.assertEqual(sc.data[0].operation.duration, 450900) self.assertEqual(sc.data[0].operation.unit, "dt") self.assertEqual(sc.data[1].operation.name, "rz") self.assertEqual(sc.data[1].operation.duration, 0) self.assertEqual(sc.data[1].operation.unit, "dt") self.assertEqual(sc.data[4].operation.name, "delay") - self.assertEqual(sc.data[4].operation.duration, 450450) + self.assertEqual(sc.data[4].operation.duration, 450885) self.assertEqual(sc.data[4].operation.unit, "dt") def test_schedule_circuit_when_transpile_option_tells_dt(self): @@ -74,13 +78,18 @@ def test_schedule_circuit_when_transpile_option_tells_dt(self): qc.delay(100, 0, unit="ns") # 450[dt] qc.h(0) qc.h(1) - sc = transpile( - qc, - self.backend_without_dt, - scheduling_method="alap", - dt=self.dt, - layout_method="trivial", - ) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + sc = transpile( + qc, + self.backend_without_dt, + scheduling_method="alap", + dt=self.dt, + layout_method="trivial", + ) self.assertEqual(sc.duration, 450546) self.assertEqual(sc.unit, "dt") self.assertEqual(sc.data[0].operation.name, "delay") @@ -100,9 +109,14 @@ def test_schedule_circuit_in_sec_when_no_one_tells_dt(self): qc.delay(100, 0, unit="ns") qc.h(0) qc.h(1) - sc = transpile( - qc, self.backend_without_dt, scheduling_method="alap", layout_method="trivial" - ) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + sc = transpile( + qc, self.backend_without_dt, scheduling_method="alap", layout_method="trivial" + ) self.assertAlmostEqual(sc.duration, 450610 * self.dt) self.assertEqual(sc.unit, "s") self.assertEqual(sc.data[0].operation.name, "delay") @@ -124,13 +138,23 @@ def test_cannot_schedule_circuit_with_mixed_SI_and_dt_when_no_one_tells_dt(self) qc.delay(30, 0, unit="dt") qc.h(0) qc.h(1) - with self.assertRaises(QiskitError): - transpile(qc, self.backend_without_dt, scheduling_method="alap") + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + with self.assertRaises(QiskitError): + transpile(qc, self.backend_without_dt, scheduling_method="alap") def test_transpile_single_delay_circuit(self): qc = QuantumCircuit(1) qc.delay(1234, 0) - sc = transpile(qc, backend=self.backend_with_dt, scheduling_method="alap") + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + sc = transpile(qc, backend=self.backend_with_dt, scheduling_method="alap") self.assertEqual(sc.duration, 1234) self.assertEqual(sc.data[0].operation.name, "delay") self.assertEqual(sc.data[0].operation.duration, 1234) @@ -141,7 +165,12 @@ def test_transpile_t1_circuit(self): qc.x(0) # 320 [dt] qc.delay(1000, 0, unit="ns") # 4500 [dt] qc.measure_all() - scheduled = transpile(qc, backend=self.backend_with_dt, scheduling_method="alap") + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + scheduled = transpile(qc, backend=self.backend_with_dt, scheduling_method="alap") self.assertEqual(scheduled.duration, 8004) def test_transpile_delay_circuit_with_backend(self): @@ -149,9 +178,14 @@ def test_transpile_delay_circuit_with_backend(self): qc.h(0) qc.delay(100, 1, unit="ns") # 450 [dt] qc.cx(0, 1) # 1760 [dt] - scheduled = transpile( - qc, backend=self.backend_with_dt, scheduling_method="alap", layout_method="trivial" - ) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + scheduled = transpile( + qc, backend=self.backend_with_dt, scheduling_method="alap", layout_method="trivial" + ) self.assertEqual(scheduled.duration, 1826) def test_transpile_delay_circuit_without_backend(self): @@ -183,7 +217,12 @@ def test_transpile_circuit_with_custom_instruction(self): def test_transpile_delay_circuit_with_dt_but_without_scheduling_method(self): qc = QuantumCircuit(1) qc.delay(100, 0, unit="ns") - transpiled = transpile(qc, backend=self.backend_with_dt) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + transpiled = transpile(qc, backend=self.backend_with_dt) self.assertEqual(transpiled.duration, None) # not scheduled self.assertEqual(transpiled.data[0].operation.duration, 450) # unit is converted ns -> dt @@ -208,7 +247,12 @@ def test_invalidate_schedule_circuit_if_new_instruction_is_appended(self): qc.h(0) qc.delay(500 * self.dt, 1, "s") qc.cx(0, 1) - scheduled = transpile(qc, backend=self.backend_with_dt, scheduling_method="alap") + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + scheduled = transpile(qc, backend=self.backend_with_dt, scheduling_method="alap") # append a gate to a scheduled circuit scheduled.h(0) self.assertEqual(scheduled.duration, None) @@ -241,21 +285,31 @@ def test_unit_seconds_when_using_backend_durations(self): qc.delay(500 * self.dt, 1, "s") qc.cx(0, 1) # usual case - scheduled = transpile( - qc, backend=self.backend_with_dt, scheduling_method="alap", layout_method="trivial" - ) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + scheduled = transpile( + qc, backend=self.backend_with_dt, scheduling_method="alap", layout_method="trivial" + ) self.assertEqual(scheduled.duration, 1876) # update durations durations = InstructionDurations.from_backend(self.backend_with_dt) durations.update([("cx", [0, 1], 1000 * self.dt, "s")]) - scheduled = transpile( - qc, - backend=self.backend_with_dt, - scheduling_method="alap", - instruction_durations=durations, - layout_method="trivial", - ) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + scheduled = transpile( + qc, + backend=self.backend_with_dt, + scheduling_method="alap", + instruction_durations=durations, + layout_method="trivial", + ) self.assertEqual(scheduled.duration, 1500) def test_per_qubit_durations(self): @@ -301,7 +355,7 @@ def test_convert_duration_to_dt(self): """Test that circuit duration unit conversion is applied only when necessary. Tests fix for bug reported in PR #11782.""" - backend = GenericBackendV2(num_qubits=3, calibrate_instructions=True, seed=10) + backend = GenericBackendV2(num_qubits=3, calibrate_instructions=True, seed=42) schedule_config = ScheduleConfig( inst_map=backend.target.instruction_schedule_map(), meas_map=backend.meas_map, @@ -344,13 +398,23 @@ def test_change_dt_in_transpile(self): qc.x(0) qc.measure(0, 0) # default case - scheduled = transpile(qc, backend=self.backend_with_dt, scheduling_method="asap") + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + scheduled = transpile(qc, backend=self.backend_with_dt, scheduling_method="asap") org_duration = scheduled.duration # halve dt in sec = double duration in dt - scheduled = transpile( - qc, backend=self.backend_with_dt, scheduling_method="asap", dt=self.dt / 2 - ) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + scheduled = transpile( + qc, backend=self.backend_with_dt, scheduling_method="asap", dt=self.dt / 2 + ) self.assertEqual(scheduled.duration, org_duration * 2) @data("asap", "alap") @@ -362,7 +426,12 @@ def test_duration_on_same_instruction_instance(self, scheduling_method): qc = QuantumCircuit(3) qc.cz(0, 1) qc.cz(1, 2) - sc = transpile(qc, backend=self.backend_with_dt, scheduling_method=scheduling_method) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + sc = transpile(qc, backend=self.backend_with_dt, scheduling_method=scheduling_method) cxs = [inst.operation for inst in sc.data if inst.operation.name == "cx"] self.assertNotEqual(cxs[0].duration, cxs[1].duration) @@ -400,7 +469,12 @@ def test_can_transpile_circuits_after_assigning_parameters(self): qc.delay(idle_dur, 0, "us") qc.measure(0, 0) qc = qc.assign_parameters({idle_dur: 0.1}) - circ = transpile(qc, self.backend_with_dt) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + circ = transpile(qc, self.backend_with_dt) self.assertEqual(circ.duration, None) # not scheduled self.assertEqual(circ.data[1].operation.duration, 450) # converted in dt @@ -410,7 +484,12 @@ def test_can_transpile_and_assemble_circuits_with_assigning_parameters_inbetween qc.x(0) qc.delay(idle_dur, 0, "us") qc.measure(0, 0) - circ = transpile(qc, self.backend_with_dt) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + circ = transpile(qc, self.backend_with_dt) circ = circ.assign_parameters({idle_dur: 0.1}) with self.assertWarns(DeprecationWarning): qobj = assemble(circ, self.backend_with_dt) @@ -424,7 +503,12 @@ def test_can_transpile_circuits_with_unbounded_parameters(self): qc.delay(idle_dur, 0, "us") qc.measure(0, 0) # not assign parameter - circ = transpile(qc, self.backend_with_dt) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + circ = transpile(qc, self.backend_with_dt) self.assertEqual(circ.duration, None) # not scheduled self.assertEqual(circ.data[1].operation.unit, "dt") # converted in dt self.assertEqual( @@ -437,7 +521,12 @@ def test_fail_to_assemble_circuits_with_unbounded_parameters(self): qc.x(0) qc.delay(idle_dur, 0, "us") qc.measure(0, 0) - qc = transpile(qc, self.backend_with_dt) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + qc = transpile(qc, self.backend_with_dt) with self.assertRaises(DeprecationWarning): assemble(qc, self.backend_with_dt) @@ -449,7 +538,12 @@ def test_can_schedule_circuits_with_bounded_parameters(self, scheduling_method): qc.delay(idle_dur, 0, "us") qc.measure(0, 0) qc = qc.assign_parameters({idle_dur: 0.1}) - circ = transpile(qc, self.backend_with_dt, scheduling_method=scheduling_method) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + circ = transpile(qc, self.backend_with_dt, scheduling_method=scheduling_method) self.assertIsNotNone(circ.duration) # scheduled @data("asap", "alap") @@ -459,6 +553,12 @@ def test_fail_to_schedule_circuits_with_unbounded_parameters(self, scheduling_me qc.x(0) qc.delay(idle_dur, 0, "us") qc.measure(0, 0) - # not assign parameter - with self.assertRaises(TranspilerError): - transpile(qc, self.backend_with_dt, scheduling_method=scheduling_method) + + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + # unassigned parameter + with self.assertRaises(TranspilerError): + transpile(qc, self.backend_with_dt, scheduling_method=scheduling_method) diff --git a/test/python/compiler/test_assembler.py b/test/python/compiler/test_assembler.py index ff1f86f228db..c333ce9ace22 100644 --- a/test/python/compiler/test_assembler.py +++ b/test/python/compiler/test_assembler.py @@ -63,7 +63,8 @@ def setUp(self): self.circ.cx(qr[0], qr[1]) self.circ.measure(qr, cr) - self.backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + self.backend = Fake5QV1() self.backend_config = self.backend.configuration() self.num_qubits = self.backend_config.n_qubits @@ -591,7 +592,8 @@ def test_pulse_gates_with_parameteric_pulses(self): circ.h(0) circ.add_calibration("h", [0], custom_h_schedule) - backend = FakeOpenPulse2Q() + with self.assertWarns(DeprecationWarning): + backend = FakeOpenPulse2Q() backend.configuration().parametric_pulses = ["drag"] with self.assertWarns(DeprecationWarning): qobj = assemble(circ, backend) @@ -974,7 +976,8 @@ class TestPulseAssembler(QiskitTestCase): def setUp(self): super().setUp() - self.backend = FakeOpenPulse2Q() + with self.assertWarns(DeprecationWarning): + self.backend = FakeOpenPulse2Q() self.backend_config = self.backend.configuration() test_pulse = pulse.Waveform( @@ -1282,7 +1285,8 @@ def test_pulse_name_conflicts(self): def test_pulse_name_conflicts_in_other_schedule(self): """Test two pulses with the same name in different schedule can be resolved.""" - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() defaults = backend.defaults() schedules = [] @@ -1390,7 +1394,8 @@ def test_assemble_parametric(self): ) << sched.duration ) - backend = FakeOpenPulse3Q() + with self.assertWarns(DeprecationWarning): + backend = FakeOpenPulse3Q() backend.configuration().parametric_pulses = [ "gaussian", "drag", @@ -1437,7 +1442,8 @@ def test_assemble_parametric_unsupported(self): ) sched += Play(pulse.Constant(duration=25, amp=1), DriveChannel(2)) - backend = FakeOpenPulse3Q() + with self.assertWarns(DeprecationWarning): + backend = FakeOpenPulse3Q() backend.configuration().parametric_pulses = ["something_extra"] with self.assertWarns(DeprecationWarning): @@ -1449,7 +1455,8 @@ def test_assemble_parametric_unsupported(self): def test_assemble_parametric_pulse_kwarg_with_backend_setting(self): """Test that parametric pulses respect the kwarg over backend""" - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() qc = QuantumCircuit(1, 1) qc.x(0) @@ -1465,7 +1472,8 @@ def test_assemble_parametric_pulse_kwarg_with_backend_setting(self): def test_assemble_parametric_pulse_kwarg_empty_list_with_backend_setting(self): """Test that parametric pulses respect the kwarg as empty list over backend""" - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() qc = QuantumCircuit(1, 1) qc.x(0) @@ -1822,7 +1830,8 @@ def setUp(self): super().setUp() self.schedule = pulse.Schedule(name="fake_experiment") - self.backend = FakeOpenPulse2Q() + with self.assertWarns(DeprecationWarning): + self.backend = FakeOpenPulse2Q() self.config = self.backend.configuration() self.defaults = self.backend.defaults() self.qubit_lo_freq = list(self.defaults.qubit_freq_est) @@ -1963,7 +1972,8 @@ def test_missing_lo_ranges(self): def test_unsupported_meas_level(self): """Test that assembly raises an error if meas_level is not supported""" - backend = FakeOpenPulse2Q() + with self.assertWarns(DeprecationWarning): + backend = FakeOpenPulse2Q() backend.configuration().meas_levels = [1, 2] with self.assertRaises(QiskitError), self.assertWarns(DeprecationWarning): assemble( @@ -1983,7 +1993,8 @@ def test_unsupported_meas_level(self): def test_single_and_deprecated_acquire_styles(self): """Test that acquires are identically combined with Acquires that take a single channel.""" - backend = FakeOpenPulse2Q() + with self.assertWarns(DeprecationWarning): + backend = FakeOpenPulse2Q() new_style_schedule = Schedule() acq_dur = 1200 for i in range(2): diff --git a/test/python/compiler/test_compiler.py b/test/python/compiler/test_compiler.py index 1479fde88cec..32d33ba3e56c 100644 --- a/test/python/compiler/test_compiler.py +++ b/test/python/compiler/test_compiler.py @@ -188,7 +188,6 @@ def test_example_swap_bits(self): def test_parallel_compile(self): """Trigger parallel routines in compile.""" - backend = Fake20QV1() qr = QuantumRegister(16) cr = ClassicalRegister(2) qc = QuantumCircuit(qr, cr) @@ -198,6 +197,7 @@ def test_parallel_compile(self): qc.measure(qr[5], cr[0]) qlist = [qc for k in range(10)] with self.assertWarns(DeprecationWarning): + backend = Fake20QV1() qobj = assemble(transpile(qlist, backend=backend)) self.assertEqual(len(qobj.experiments), 10) @@ -500,7 +500,8 @@ def test_yzy_zyz_cases(self): See: https://github.com/Qiskit/qiskit-terra/issues/607 """ - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() qr = QuantumRegister(2) circ1 = QuantumCircuit(qr) circ1.cx(qr[0], qr[1]) diff --git a/test/python/compiler/test_disassembler.py b/test/python/compiler/test_disassembler.py index e5d0fd73a79c..0525b54e2107 100644 --- a/test/python/compiler/test_disassembler.py +++ b/test/python/compiler/test_disassembler.py @@ -457,7 +457,8 @@ class TestPulseScheduleDisassembler(QiskitTestCase): def setUp(self): super().setUp() - self.backend = FakeOpenPulse2Q() + with self.assertWarns(DeprecationWarning): + self.backend = FakeOpenPulse2Q() self.backend_config = self.backend.configuration() self.backend_config.parametric_pulses = ["constant", "gaussian", "gaussian_square", "drag"] diff --git a/test/python/compiler/test_scheduler.py b/test/python/compiler/test_scheduler.py index 62e0af596ba4..ad9b14b24c4a 100644 --- a/test/python/compiler/test_scheduler.py +++ b/test/python/compiler/test_scheduler.py @@ -15,7 +15,7 @@ from qiskit.circuit import QuantumRegister, ClassicalRegister, QuantumCircuit from qiskit.exceptions import QiskitError from qiskit.pulse import InstructionScheduleMap, Schedule -from qiskit.providers.fake_provider import FakeOpenPulse3Q +from qiskit.providers.fake_provider import FakeOpenPulse3Q, GenericBackendV2 from qiskit.compiler.scheduler import schedule from test import QiskitTestCase # pylint: disable=wrong-import-order @@ -37,9 +37,9 @@ def setUp(self): self.circ2.cx(qr2[0], qr2[1]) self.circ2.measure(qr2, cr2) - self.backend = FakeOpenPulse3Q() - self.backend_config = self.backend.configuration() - self.num_qubits = self.backend_config.n_qubits + self.backend = GenericBackendV2( + 3, calibrate_instructions=True, basis_gates=["cx", "u1", "u2", "u3"], seed=42 + ) def test_instruction_map_and_backend_not_supplied(self): """Test instruction map and backend not supplied.""" @@ -51,6 +51,8 @@ def test_instruction_map_and_backend_not_supplied(self): def test_instruction_map_and_backend_defaults_unavailable(self): """Test backend defaults unavailable when backend is provided, but instruction map is not.""" + with self.assertWarns(DeprecationWarning): + self.backend = FakeOpenPulse3Q() self.backend._defaults = None with self.assertRaisesRegex( QiskitError, r"The backend defaults are unavailable. The backend may not support pulse." diff --git a/test/python/compiler/test_sequencer.py b/test/python/compiler/test_sequencer.py index 771e854effab..ae75348a5cdf 100644 --- a/test/python/compiler/test_sequencer.py +++ b/test/python/compiler/test_sequencer.py @@ -13,6 +13,8 @@ # pylint: disable=missing-function-docstring """Tests basic functionality of the sequence function""" +# TODO with the removal of pulses, this file can be removed too. + import unittest from qiskit import QuantumCircuit, pulse @@ -27,7 +29,8 @@ class TestSequence(QiskitTestCase): def setUp(self): super().setUp() - self.backend = Fake127QPulseV1() + with self.assertWarns(DeprecationWarning): + self.backend = Fake127QPulseV1() self.backend.configuration().timing_constraints = {} def test_sequence_empty(self): @@ -38,9 +41,19 @@ def test_transpile_and_sequence_agree_with_schedule(self): qc.h(0) qc.cx(0, 1) qc.measure_all() - sc = transpile(qc, self.backend, scheduling_method="alap") + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + sc = transpile(qc, self.backend, scheduling_method="alap") actual = sequence(sc, self.backend) - expected = schedule(transpile(qc, self.backend), self.backend) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + expected = schedule(transpile(qc, self.backend), self.backend) self.assertEqual(actual, pad(expected)) def test_transpile_and_sequence_agree_with_schedule_for_circuit_with_delay(self): @@ -49,9 +62,19 @@ def test_transpile_and_sequence_agree_with_schedule_for_circuit_with_delay(self) qc.delay(500, 0, unit="ns") qc.h(0) qc.measure(0, 0) - sc = transpile(qc, self.backend, scheduling_method="alap") + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + sc = transpile(qc, self.backend, scheduling_method="alap") actual = sequence(sc, self.backend) - expected = schedule(transpile(qc, self.backend), self.backend) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + expected = schedule(transpile(qc, self.backend), self.backend) self.assertEqual( actual.exclude(instruction_types=[pulse.Delay]), expected.exclude(instruction_types=[pulse.Delay]), @@ -62,7 +85,17 @@ def test_transpile_and_sequence_agree_with_schedule_for_circuits_without_measure qc = QuantumCircuit(2, name="bell_without_measurement") qc.h(0) qc.cx(0, 1) - sc = transpile(qc, self.backend, scheduling_method="alap") + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + sc = transpile(qc, self.backend, scheduling_method="alap") actual = sequence(sc, self.backend) - expected = schedule(transpile(qc, self.backend), self.backend) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + expected = schedule(transpile(qc, self.backend), self.backend) self.assertEqual(actual, pad(expected)) diff --git a/test/python/compiler/test_transpiler.py b/test/python/compiler/test_transpiler.py index 77b63a3098bc..90dda73c0739 100644 --- a/test/python/compiler/test_transpiler.py +++ b/test/python/compiler/test_transpiler.py @@ -96,7 +96,7 @@ from test import QiskitTestCase, combine, slow_test # pylint: disable=wrong-import-order -from ..legacy_cmaps import MELBOURNE_CMAP, RUESCHLIKON_CMAP +from ..legacy_cmaps import MELBOURNE_CMAP, RUESCHLIKON_CMAP, MUMBAI_CMAP, TOKYO_CMAP class CustomCX(Gate): @@ -170,7 +170,7 @@ def test_num_processes_kwarg_concurrent_default(self, num_processes): qc.h(0) qc.cx(0, 1) qc.measure_all() - target = GenericBackendV2(num_qubits=27).target + target = GenericBackendV2(num_qubits=27, seed=42).target res = transpile([qc] * 3, target=target, num_processes=num_processes) self.assertIsInstance(res, list) for circ in res: @@ -269,7 +269,7 @@ def test_transpile_non_adjacent_layout(self): circuit.cx(qr[2], qr[3]) backend = GenericBackendV2( - num_qubits=15, basis_gates=["ecr", "id", "rz", "sx", "x"], coupling_map=cmap + num_qubits=15, basis_gates=["ecr", "id", "rz", "sx", "x"], coupling_map=cmap, seed=42 ) initial_layout = [None, qr[0], qr[1], qr[2], None, qr[3]] @@ -313,7 +313,7 @@ def test_already_mapped_1(self): See: https://github.com/Qiskit/qiskit-terra/issues/342 """ - backend = GenericBackendV2(num_qubits=16, coupling_map=RUESCHLIKON_CMAP) + backend = GenericBackendV2(num_qubits=16, coupling_map=RUESCHLIKON_CMAP, seed=42) coupling_map = backend.coupling_map basis_gates = backend.operation_names @@ -517,11 +517,21 @@ def test_transpile_bell_discrete_basis(self): # Try with the initial layout in both directions to ensure we're dealing with the basis # having only a single direction. + + # Use optimization level=1 because the synthesis that runs as part of optimization at + # higher optimization levels will create intermediate gates that the transpiler currently + # lacks logic to translate to a discrete basis. self.assertIsInstance( - transpile(qc, target=target, initial_layout=[0, 1], seed_transpiler=42), QuantumCircuit + transpile( + qc, target=target, initial_layout=[0, 1], seed_transpiler=42, optimization_level=1 + ), + QuantumCircuit, ) self.assertIsInstance( - transpile(qc, target=target, initial_layout=[1, 0], seed_transpiler=42), QuantumCircuit + transpile( + qc, target=target, initial_layout=[1, 0], seed_transpiler=42, optimization_level=1 + ), + QuantumCircuit, ) def test_transpile_one(self): @@ -588,7 +598,7 @@ def test_transpile_singleton(self): def test_mapping_correction(self): """Test mapping works in previous failed case.""" - backend = GenericBackendV2(num_qubits=12) + backend = GenericBackendV2(num_qubits=12, seed=42) qr = QuantumRegister(name="qr", size=11) cr = ClassicalRegister(name="qc", size=11) circuit = QuantumCircuit(qr, cr) @@ -708,7 +718,7 @@ def test_transpiler_layout_from_intlist(self): def test_mapping_multi_qreg(self): """Test mapping works for multiple qregs.""" - backend = GenericBackendV2(num_qubits=8) + backend = GenericBackendV2(num_qubits=8, seed=42) qr = QuantumRegister(3, name="qr") qr2 = QuantumRegister(1, name="qr2") qr3 = QuantumRegister(4, name="qr3") @@ -725,7 +735,7 @@ def test_mapping_multi_qreg(self): def test_transpile_circuits_diff_registers(self): """Transpile list of circuits with different qreg names.""" - backend = GenericBackendV2(num_qubits=4) + backend = GenericBackendV2(num_qubits=4, seed=42) circuits = [] for _ in range(2): qr = QuantumRegister(2) @@ -741,7 +751,7 @@ def test_transpile_circuits_diff_registers(self): def test_wrong_initial_layout(self): """Test transpile with a bad initial layout.""" - backend = GenericBackendV2(num_qubits=4) + backend = GenericBackendV2(num_qubits=4, seed=42) qubit_reg = QuantumRegister(2, name="q") clbit_reg = ClassicalRegister(2, name="c") @@ -780,7 +790,7 @@ def test_parameterized_circuit_for_device(self): theta = Parameter("theta") qc.p(theta, qr[0]) - backend = GenericBackendV2(num_qubits=4) + backend = GenericBackendV2(num_qubits=4, seed=42) transpiled_qc = transpile( qc, @@ -820,7 +830,7 @@ def test_parameter_expression_circuit_for_device(self): square = theta * theta qc.rz(square, qr[0]) - backend = GenericBackendV2(num_qubits=4) + backend = GenericBackendV2(num_qubits=4, seed=42) transpiled_qc = transpile( qc, backend=backend, @@ -853,7 +863,7 @@ def test_do_not_run_gatedirection_with_symmetric_cm(self): circ = QuantumCircuit.from_qasm_file(os.path.join(qasm_dir, "example.qasm")) layout = Layout.generate_trivial_layout(*circ.qregs) coupling_map = [] - for node1, node2 in GenericBackendV2(num_qubits=16).coupling_map: + for node1, node2 in GenericBackendV2(num_qubits=16, seed=42).coupling_map: coupling_map.append([node1, node2]) coupling_map.append([node2, node1]) @@ -912,7 +922,7 @@ def test_pass_manager_empty(self): def test_move_measurements(self): """Measurements applied AFTER swap mapping.""" - cmap = GenericBackendV2(num_qubits=16).coupling_map + cmap = GenericBackendV2(num_qubits=16, seed=42).coupling_map qasm_dir = os.path.join(os.path.dirname(os.path.dirname(os.path.abspath(__file__))), "qasm") circ = QuantumCircuit.from_qasm_file(os.path.join(qasm_dir, "move_measurements.qasm")) @@ -956,7 +966,7 @@ def test_initialize_FakeMelbourne(self): qc = QuantumCircuit(qr) qc.initialize(desired_vector, [qr[0], qr[1], qr[2]]) - out = transpile(qc, backend=GenericBackendV2(num_qubits=4)) + out = transpile(qc, backend=GenericBackendV2(num_qubits=4, seed=42)) out_dag = circuit_to_dag(out) reset_nodes = out_dag.named_nodes("reset") @@ -1275,7 +1285,7 @@ def test_transpiled_custom_gates_calibration(self): transpiled_circuit = transpile( circ, - backend=GenericBackendV2(num_qubits=4), + backend=GenericBackendV2(num_qubits=4, seed=42), layout_method="trivial", seed_transpiler=42, ) @@ -1295,7 +1305,7 @@ def test_transpiled_basis_gates_calibrations(self): circ.add_calibration("h", [0], q0_x180) transpiled_circuit = transpile( - circ, backend=GenericBackendV2(num_qubits=4), seed_transpiler=42 + circ, backend=GenericBackendV2(num_qubits=4, seed=42), seed_transpiler=42 ) self.assertEqual(transpiled_circuit.calibrations, circ.calibrations) @@ -1315,9 +1325,10 @@ def test_transpile_calibrated_custom_gate_on_diff_qubit(self): with self.assertRaises(QiskitError): transpile( circ, - backend=GenericBackendV2(num_qubits=4), + backend=GenericBackendV2(num_qubits=4, seed=42), layout_method="trivial", seed_transpiler=42, + optimization_level=1, ) def test_transpile_calibrated_nonbasis_gate_on_diff_qubit(self): @@ -1334,7 +1345,7 @@ def test_transpile_calibrated_nonbasis_gate_on_diff_qubit(self): circ.add_calibration("h", [1], q0_x180) transpiled_circuit = transpile( - circ, backend=GenericBackendV2(num_qubits=4), seed_transpiler=42 + circ, backend=GenericBackendV2(num_qubits=4), seed_transpiler=42, optimization_level=1 ) self.assertEqual(transpiled_circuit.calibrations, circ.calibrations) self.assertEqual(set(transpiled_circuit.count_ops().keys()), {"rz", "sx", "h"}) @@ -1357,7 +1368,7 @@ def test_transpile_subset_of_calibrated_gates(self): transpiled_circ = transpile( circ, - backend=GenericBackendV2(num_qubits=4), + backend=GenericBackendV2(num_qubits=4, seed=42), layout_method="trivial", seed_transpiler=42, ) @@ -1379,7 +1390,7 @@ def q0_rxt(tau): transpiled_circ = transpile( circ, - backend=GenericBackendV2(num_qubits=4), + backend=GenericBackendV2(num_qubits=4, seed=42), layout_method="trivial", seed_transpiler=42, ) @@ -1511,8 +1522,15 @@ def test_scheduling_timing_constraints(self): """Test that scheduling-related loose transpile constraints work with both BackendV1 and BackendV2.""" - backend_v1 = Fake27QPulseV1() - backend_v2 = BackendV2Converter(backend_v1) + with self.assertWarns(DeprecationWarning): + backend_v1 = Fake27QPulseV1() + backend_v2 = GenericBackendV2( + num_qubits=27, + calibrate_instructions=True, + control_flow=True, + coupling_map=MUMBAI_CMAP, + seed=42, + ) # the original timing constraints are granularity = min_length = 16 timing_constraints = TimingConstraints(granularity=32, min_length=64) error_msgs = { @@ -1536,18 +1554,20 @@ def test_scheduling_timing_constraints(self): [0, 0], ) with self.assertRaisesRegex(TranspilerError, error_msgs[duration]): - _ = transpile( - qc, - backend=backend, - timing_constraints=timing_constraints, - ) + with self.assertWarns(DeprecationWarning): + _ = transpile( + qc, + backend=backend, + timing_constraints=timing_constraints, + ) def test_scheduling_instruction_constraints(self): """Test that scheduling-related loose transpile constraints work with both BackendV1 and BackendV2.""" - backend_v1 = Fake27QPulseV1() - backend_v2 = BackendV2Converter(backend_v1) + with self.assertWarns(DeprecationWarning): + backend_v1 = Fake27QPulseV1() + backend_v2 = BackendV2Converter(backend_v1) qc = QuantumCircuit(2) qc.h(0) qc.delay(500, 1, "dt") @@ -1556,43 +1576,62 @@ def test_scheduling_instruction_constraints(self): durations = InstructionDurations.from_backend(backend_v1) durations.update([("cx", [0, 1], 1000, "dt")]) - for backend in [backend_v1, backend_v2]: - with self.subTest(backend=backend): - scheduled = transpile( - qc, - backend=backend, - scheduling_method="alap", - instruction_durations=durations, - layout_method="trivial", - ) - self.assertEqual(scheduled.duration, 1500) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will stop supporting inputs of type `BackendV1` ", + ): + scheduled = transpile( + qc, + backend=backend_v1, + scheduling_method="alap", + instruction_durations=durations, + layout_method="trivial", + ) + self.assertEqual(scheduled.duration, 1500) + + scheduled = transpile( + qc, + backend=backend_v2, + scheduling_method="alap", + instruction_durations=durations, + layout_method="trivial", + ) + self.assertEqual(scheduled.duration, 1500) def test_scheduling_dt_constraints(self): """Test that scheduling-related loose transpile constraints work with both BackendV1 and BackendV2.""" - backend_v1 = Fake27QPulseV1() - backend_v2 = BackendV2Converter(backend_v1) + with self.assertWarns(DeprecationWarning): + backend_v1 = Fake27QPulseV1() + backend_v2 = BackendV2Converter(backend_v1) qc = QuantumCircuit(1, 1) qc.x(0) qc.measure(0, 0) original_dt = 2.2222222222222221e-10 original_duration = 3504 - for backend in [backend_v1, backend_v2]: - with self.subTest(backend=backend): - # halve dt in sec = double duration in dt - scheduled = transpile( - qc, backend=backend, scheduling_method="asap", dt=original_dt / 2 - ) - self.assertEqual(scheduled.duration, original_duration * 2) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will stop supporting inputs of type `BackendV1` ", + ): + # halve dt in sec = double duration in dt + scheduled = transpile( + qc, backend=backend_v1, scheduling_method="asap", dt=original_dt / 2 + ) + self.assertEqual(scheduled.duration, original_duration * 2) + + # halve dt in sec = double duration in dt + scheduled = transpile(qc, backend=backend_v2, scheduling_method="asap", dt=original_dt / 2) + self.assertEqual(scheduled.duration, original_duration * 2) def test_backend_props_constraints(self): """Test that loose transpile constraints work with both BackendV1 and BackendV2.""" - backend_v1 = Fake20QV1() - backend_v2 = BackendV2Converter(backend_v1) + with self.assertWarns(DeprecationWarning): + backend_v1 = Fake20QV1() + backend_v2 = BackendV2Converter(backend_v1) qr1 = QuantumRegister(3, "qr1") qr2 = QuantumRegister(2, "qr2") qc = QuantumCircuit(qr1, qr2) @@ -1604,7 +1643,8 @@ def test_backend_props_constraints(self): # generate a fake backend with same number of qubits # but different backend properties fake_backend = GenericBackendV2(num_qubits=20, seed=42) - custom_backend_properties = target_to_backend_properties(fake_backend.target) + with self.assertWarns(DeprecationWarning): + custom_backend_properties = target_to_backend_properties(fake_backend.target) # expected layout for custom_backend_properties # (different from expected layout for Fake20QV1) @@ -1631,17 +1671,28 @@ def test_backend_props_constraints(self): 17: Qubit(QuantumRegister(15, "ancilla"), 14), } - for backend in [backend_v1, backend_v2]: - with self.subTest(backend=backend): - result = transpile( - qc, - backend=backend, - backend_properties=custom_backend_properties, - optimization_level=2, - seed_transpiler=42, - ) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will stop supporting inputs of type `BackendV1` ", + ): + result = transpile( + qc, + backend=backend_v1, + backend_properties=custom_backend_properties, + optimization_level=2, + seed_transpiler=42, + ) + + self.assertEqual(result._layout.initial_layout._p2v, vf2_layout) + result = transpile( + qc, + backend=backend_v2, + backend_properties=custom_backend_properties, + optimization_level=2, + seed_transpiler=42, + ) - self.assertEqual(result._layout.initial_layout._p2v, vf2_layout) + self.assertEqual(result._layout.initial_layout._p2v, vf2_layout) @data(1, 2, 3) def test_no_infinite_loop(self, optimization_level): @@ -1781,7 +1832,7 @@ def test_approximation_degree_invalid(self): ) def test_approximation_degree(self): - """Test more approximation gives lower-cost circuit.""" + """Test more approximation can give lower-cost circuit.""" circuit = QuantumCircuit(2) circuit.swap(0, 1) circuit.h(0) @@ -1791,6 +1842,7 @@ def test_approximation_degree(self): translation_method="synthesis", approximation_degree=0.1, seed_transpiler=42, + optimization_level=1, ) circ_90 = transpile( circuit, @@ -1798,6 +1850,7 @@ def test_approximation_degree(self): translation_method="synthesis", approximation_degree=0.9, seed_transpiler=42, + optimization_level=1, ) self.assertLess(circ_10.depth(), circ_90.depth()) @@ -2068,6 +2121,21 @@ def test_transpile_annotated_ops(self, opt_level): self.assertEqual(Operator(qc), Operator(transpiled)) self.assertEqual(Operator(qc), Operator(expected)) + @combine(opt_level=[0, 1, 2, 3]) + def test_transpile_annotated_ops_with_backend_v1(self, opt_level): + """Test transpilation of circuits with annotated operations given a backend. + Remove once Fake20QV1 is removed.""" + qc = QuantumCircuit(3) + qc.append(AnnotatedOperation(SGate(), InverseModifier()), [0]) + qc.append(AnnotatedOperation(XGate(), ControlModifier(1)), [1, 2]) + qc.append(AnnotatedOperation(HGate(), PowerModifier(3)), [2]) + with self.assertWarns(DeprecationWarning): + backend = Fake20QV1() + transpiled = transpile( + qc, optimization_level=opt_level, backend=backend, seed_transpiler=42 + ) + self.assertLessEqual(set(transpiled.count_ops().keys()), {"u1", "u2", "u3", "cx"}) + @combine(opt_level=[0, 1, 2, 3]) def test_transpile_annotated_ops_with_backend(self, opt_level): """Test transpilation of circuits with annotated operations given a backend.""" @@ -2075,7 +2143,12 @@ def test_transpile_annotated_ops_with_backend(self, opt_level): qc.append(AnnotatedOperation(SGate(), InverseModifier()), [0]) qc.append(AnnotatedOperation(XGate(), ControlModifier(1)), [1, 2]) qc.append(AnnotatedOperation(HGate(), PowerModifier(3)), [2]) - backend = Fake20QV1() + + backend = GenericBackendV2( + num_qubits=20, + coupling_map=TOKYO_CMAP, + basis_gates=["id", "u1", "u2", "u3", "cx"], + ) transpiled = transpile( qc, optimization_level=opt_level, backend=backend, seed_transpiler=42 ) @@ -2383,9 +2456,15 @@ def test_qpy_roundtrip_standalone_var_target(self, optimization_level): @data(0, 1, 2, 3) def test_qasm3_output(self, optimization_level): """Test that the output of a transpiled circuit can be dumped into OpenQASM 3.""" + backend = GenericBackendV2( + num_qubits=20, + coupling_map=TOKYO_CMAP, + basis_gates=["id", "u1", "u2", "u3", "cx"], + ) + transpiled = transpile( self._regular_circuit(), - backend=Fake20QV1(), + backend=backend, optimization_level=optimization_level, seed_transpiler=2022_10_17, ) @@ -2394,6 +2473,23 @@ def test_qasm3_output(self, optimization_level): # itself doesn't throw an error, though. self.assertIsInstance(qasm3.dumps(transpiled).strip(), str) + @data(0, 1, 2, 3) + def test_qasm3_output_v1(self, optimization_level): + """Test that the output of a transpiled circuit can be dumped into OpenQASM 3 (backend V1).""" + with self.assertWarns(DeprecationWarning): + backend = Fake20QV1() + + transpiled = transpile( + self._regular_circuit(), + backend=backend, + optimization_level=optimization_level, + seed_transpiler=2022_10_17, + ) + # TODO: There's not a huge amount we can sensibly test for the output here until we can + # round-trip the OpenQASM 3 back into a Terra circuit. Mostly we're concerned that the dump + # itself doesn't throw an error, though. + self.assertIsInstance(qasm3.dumps(transpiled).strip(), str) + @data(0, 1, 2, 3) def test_qasm3_output_control_flow(self, optimization_level): """Test that the output of a transpiled circuit with control flow can be dumped into diff --git a/test/python/legacy_cmaps.py b/test/python/legacy_cmaps.py index 08d2f043ca4e..84f4be45128b 100644 --- a/test/python/legacy_cmaps.py +++ b/test/python/legacy_cmaps.py @@ -426,3 +426,151 @@ [64, 54], [64, 63], ] + +# 127 qubits +KYOTO_CMAP = [ + [0, 14], + [1, 0], + [1, 2], + [3, 2], + [4, 3], + [4, 5], + [6, 5], + [7, 6], + [8, 7], + [8, 9], + [8, 16], + [9, 10], + [11, 10], + [11, 12], + [12, 13], + [15, 4], + [16, 26], + [17, 12], + [17, 30], + [18, 14], + [18, 19], + [19, 20], + [21, 20], + [22, 15], + [22, 21], + [22, 23], + [23, 24], + [25, 24], + [25, 26], + [27, 26], + [27, 28], + [28, 29], + [28, 35], + [30, 29], + [30, 31], + [31, 32], + [32, 36], + [33, 20], + [33, 39], + [34, 24], + [34, 43], + [37, 38], + [38, 39], + [39, 40], + [40, 41], + [42, 41], + [43, 42], + [44, 43], + [44, 45], + [46, 45], + [47, 35], + [47, 46], + [48, 47], + [49, 48], + [49, 55], + [50, 49], + [50, 51], + [51, 36], + [52, 37], + [53, 41], + [53, 60], + [54, 45], + [54, 64], + [55, 68], + [56, 52], + [57, 56], + [57, 58], + [59, 58], + [59, 60], + [61, 60], + [62, 61], + [62, 63], + [63, 64], + [64, 65], + [65, 66], + [67, 66], + [67, 68], + [68, 69], + [70, 69], + [71, 58], + [72, 62], + [73, 66], + [73, 85], + [74, 70], + [75, 90], + [76, 75], + [76, 77], + [77, 71], + [77, 78], + [79, 78], + [79, 91], + [80, 79], + [81, 72], + [81, 80], + [82, 81], + [82, 83], + [83, 92], + [84, 83], + [84, 85], + [86, 85], + [87, 86], + [87, 93], + [88, 87], + [89, 74], + [89, 88], + [93, 106], + [94, 90], + [94, 95], + [96, 95], + [96, 97], + [96, 109], + [97, 98], + [98, 91], + [98, 99], + [99, 100], + [101, 100], + [101, 102], + [102, 92], + [102, 103], + [104, 103], + [104, 111], + [105, 104], + [105, 106], + [106, 107], + [107, 108], + [109, 114], + [110, 100], + [112, 108], + [113, 114], + [115, 114], + [116, 115], + [117, 116], + [118, 110], + [118, 117], + [119, 118], + [120, 119], + [121, 120], + [122, 111], + [122, 121], + [122, 123], + [124, 123], + [125, 124], + [125, 126], + [126, 112], +] diff --git a/test/python/primitives/containers/test_bit_array.py b/test/python/primitives/containers/test_bit_array.py index 4aeeba854b33..fb99ab0332e4 100644 --- a/test/python/primitives/containers/test_bit_array.py +++ b/test/python/primitives/containers/test_bit_array.py @@ -537,6 +537,20 @@ def test_getitem(self): for j in range(2): self.assertEqual(ba.get_counts((0, j, 2)), ba2.get_counts(j)) + with self.subTest("errors"): + with self.assertRaisesRegex(IndexError, "index 2 is out of bounds"): + _ = ba[0, 2, 2] + with self.assertRaisesRegex(IndexError, "index -3 is out of bounds"): + _ = ba[0, -3, 2] + with self.assertRaisesRegex( + IndexError, "BitArray cannot be sliced along the shots axis" + ): + _ = ba[0, 1, 2, 3] + with self.assertRaisesRegex( + IndexError, "BitArray cannot be sliced along the bits axis" + ): + _ = ba[0, 1, 2, 3, 4] + def test_slice_bits(self): """Test the slice_bits method.""" # this creates incrementing bitstrings from 0 to 59 @@ -581,9 +595,9 @@ def test_slice_bits(self): self.assertEqual(ba2.get_counts((i, j, k)), expect) with self.subTest("errors"): - with self.assertRaisesRegex(ValueError, "index -1 is out of bounds"): + with self.assertRaisesRegex(IndexError, "index -1 is out of bounds"): _ = ba.slice_bits(-1) - with self.assertRaisesRegex(ValueError, "index 9 is out of bounds"): + with self.assertRaisesRegex(IndexError, "index 9 is out of bounds"): _ = ba.slice_bits(9) def test_slice_shots(self): @@ -631,9 +645,9 @@ def test_slice_shots(self): self.assertEqual(ba2.get_bitstrings((i, j, k)), expected) with self.subTest("errors"): - with self.assertRaisesRegex(ValueError, "index -1 is out of bounds"): + with self.assertRaisesRegex(IndexError, "index -1 is out of bounds"): _ = ba.slice_shots(-1) - with self.assertRaisesRegex(ValueError, "index 10 is out of bounds"): + with self.assertRaisesRegex(IndexError, "index 10 is out of bounds"): _ = ba.slice_shots(10) def test_expectation_values(self): @@ -719,3 +733,82 @@ def test_expectation_values(self): _ = ba.expectation_values("Z") with self.assertRaisesRegex(ValueError, "is not diagonal"): _ = ba.expectation_values("X" * ba.num_bits) + + def test_postselection(self): + """Test the postselection method.""" + + flat_data = np.array( + [ + [0, 0, 0, 0, 0, 0, 0, 0, 0, 0], + [0, 0, 0, 0, 0, 1, 1, 1, 1, 1], + [0, 1, 0, 1, 0, 1, 0, 1, 0, 1], + ], + dtype=bool, + ) + + shaped_data = np.array( + [ + [ + [ + [0, 0, 0, 0, 0, 0, 0, 0, 0, 0], + [0, 0, 0, 0, 0, 1, 1, 1, 1, 1], + [0, 1, 0, 1, 0, 1, 0, 1, 0, 1], + ], + [ + [1, 0, 1, 0, 1, 0, 1, 0, 1, 0], + [1, 1, 1, 1, 1, 0, 0, 0, 0, 0], + [1, 1, 1, 1, 1, 1, 1, 1, 1, 1], + ], + ] + ], + dtype=bool, + ) + + for dataname, bool_array in zip(["flat", "shaped"], [flat_data, shaped_data]): + + bit_array = BitArray.from_bool_array(bool_array, order="little") + # indices value of i <-> creg[i] <-> bool_array[..., i] + + num_bits = bool_array.shape[-1] + bool_array = bool_array.reshape(-1, num_bits) + + test_cases = [ + ("basic", [0, 1], [0, 0]), + ("multibyte", [0, 9], [0, 1]), + ("repeated", [5, 5, 5], [0, 0, 0]), + ("contradict", [5, 5, 5], [1, 0, 0]), + ("unsorted", [5, 0, 9, 3], [1, 0, 1, 0]), + ("negative", [-5, 1, -2, -10], [1, 0, 1, 0]), + ("negcontradict", [4, -6], [1, 0]), + ("trivial", [], []), + ("bareindex", 6, 0), + ] + + for name, indices, selection in test_cases: + with self.subTest("_".join([dataname, name])): + postselected_bools = np.unpackbits( + bit_array.postselect(indices, selection).array[:, ::-1], + count=num_bits, + axis=-1, + bitorder="little", + ).astype(bool) + if isinstance(indices, int): + indices = (indices,) + if isinstance(selection, bool): + selection = (selection,) + answer = bool_array[np.all(bool_array[:, indices] == selection, axis=-1)] + if name in ["contradict", "negcontradict"]: + self.assertEqual(len(answer), 0) + else: + self.assertGreater(len(answer), 0) + np.testing.assert_equal(postselected_bools, answer) + + error_cases = [ + ("aboverange", [0, 6, 10], [True, True, False], IndexError), + ("belowrange", [0, 6, -11], [True, True, False], IndexError), + ("mismatch", [0, 1, 2], [False, False], ValueError), + ] + for name, indices, selection, error in error_cases: + with self.subTest(dataname + "_" + name): + with self.assertRaises(error): + bit_array.postselect(indices, selection) diff --git a/test/python/primitives/test_backend_estimator.py b/test/python/primitives/test_backend_estimator.py index c3deb0735ca1..80b471b66063 100644 --- a/test/python/primitives/test_backend_estimator.py +++ b/test/python/primitives/test_backend_estimator.py @@ -311,7 +311,7 @@ class FakeBackendLimitedCircuits(GenericBackendV2): def max_circuits(self): return 1 - backend = FakeBackendLimitedCircuits(num_qubits=5) + backend = FakeBackendLimitedCircuits(num_qubits=5, seed=42) backend.set_options(seed_simulator=123) qc = RealAmplitudes(num_qubits=2, reps=2) op = SparsePauliOp.from_list([("IZ", 1), ("XI", 2), ("ZY", -1)]) @@ -326,8 +326,10 @@ def max_circuits(self): self.assertEqual(run_mock.call_count, 10) def test_job_size_limit_v1(self): - """Test BackendEstimator respects job size limit""" - backend = Fake7QPulseV1() + """Test BackendEstimator respects job size limit + REMOVE ONCE Fake7QPulseV1 GETS REMOVED""" + with self.assertWarns(DeprecationWarning): + backend = Fake7QPulseV1() config = backend.configuration() config.max_experiments = 1 backend._configuration = config @@ -345,8 +347,10 @@ def test_job_size_limit_v1(self): self.assertEqual(run_mock.call_count, 10) def test_no_max_circuits(self): - """Test BackendEstimator works with BackendV1 and no max_experiments set.""" - backend = Fake7QPulseV1() + """Test BackendEstimator works with BackendV1 and no max_experiments set. + REMOVE ONCE Fake7QPulseV1 GETS REMOVED""" + with self.assertWarns(DeprecationWarning): + backend = Fake7QPulseV1() config = backend.configuration() del config.max_experiments backend._configuration = config @@ -387,7 +391,9 @@ def callback(msg): bound_counter = CallbackPass("bound_pass_manager", callback) bound_pass = PassManager(bound_counter) with self.assertWarns(DeprecationWarning): - estimator = BackendEstimator(backend=Fake7QPulseV1(), bound_pass_manager=bound_pass) + estimator = BackendEstimator( + backend=GenericBackendV2(num_qubits=5, seed=42), bound_pass_manager=bound_pass + ) _ = estimator.run(qc, op).result() expected = [ "bound_pass_manager", @@ -409,7 +415,8 @@ def callback(msg): # pylint: disable=function-redefined bound_pass = PassManager(bound_counter) with self.assertWarns(DeprecationWarning): estimator = BackendEstimator( - backend=Fake7QPulseV1(), bound_pass_manager=bound_pass + backend=GenericBackendV2(num_qubits=5, seed=42), + bound_pass_manager=bound_pass, ) _ = estimator.run([qc, qc], [op, op]).result() expected = [ @@ -430,7 +437,7 @@ def test_layout(self, backend): backend.set_options(seed_simulator=15) with self.assertWarns(DeprecationWarning): estimator = BackendEstimator(backend) - estimator.set_transpile_options(seed_transpiler=15) + estimator.set_transpile_options(seed_transpiler=15, optimization_level=1) value = estimator.run(qc, op, shots=10000).result().values[0] if optionals.HAS_AER: ref_value = -0.9954 if isinstance(backend, GenericBackendV2) else -0.916 @@ -446,7 +453,9 @@ def test_layout(self, backend): op = SparsePauliOp("IZI") with self.assertWarns(DeprecationWarning): estimator = BackendEstimator(backend) - estimator.set_transpile_options(initial_layout=[0, 1, 2], seed_transpiler=15) + estimator.set_transpile_options( + initial_layout=[0, 1, 2], seed_transpiler=15, optimization_level=1 + ) estimator.set_options(seed_simulator=15) value = estimator.run(qc, op, shots=10000).result().values[0] if optionals.HAS_AER: diff --git a/test/python/primitives/test_backend_estimator_v2.py b/test/python/primitives/test_backend_estimator_v2.py index 6728d57e3fdd..12a932b83819 100644 --- a/test/python/primitives/test_backend_estimator_v2.py +++ b/test/python/primitives/test_backend_estimator_v2.py @@ -33,8 +33,20 @@ from qiskit.quantum_info import SparsePauliOp from qiskit.transpiler.preset_passmanagers import generate_preset_pass_manager from qiskit.utils import optionals - -BACKENDS = [BasicSimulator(), Fake7QPulseV1(), BackendV2Converter(Fake7QPulseV1())] +from ..legacy_cmaps import LAGOS_CMAP + +BACKENDS_V1 = [Fake7QPulseV1()] +BACKENDS_V2 = [ + BasicSimulator(), + BackendV2Converter(Fake7QPulseV1()), + GenericBackendV2( + num_qubits=7, + basis_gates=["id", "rz", "sx", "x", "cx", "reset"], + coupling_map=LAGOS_CMAP, + seed=42, + ), +] +BACKENDS = BACKENDS_V1 + BACKENDS_V2 @ddt @@ -73,7 +85,7 @@ def setUp(self): [1, 2, 3, 4, 5, 6], ) - @combine(backend=BACKENDS, abelian_grouping=[True, False]) + @combine(backend=BACKENDS_V2, abelian_grouping=[True, False]) def test_estimator_run(self, backend, abelian_grouping): """Test Estimator.run()""" psi1, psi2 = self.psi @@ -120,7 +132,59 @@ def test_estimator_run(self, backend, abelian_grouping): np.testing.assert_allclose(result4[0].data.evs, [1.55555728, -1.08766318], rtol=self._rtol) np.testing.assert_allclose(result4[1].data.evs, [0.17849238], rtol=self._rtol) - @combine(backend=BACKENDS, abelian_grouping=[True, False]) + @combine(backend=BACKENDS_V1, abelian_grouping=[True, False]) + def test_estimator_run_v1(self, backend, abelian_grouping): + """Test Estimator.run()""" + psi1, psi2 = self.psi + hamiltonian1, hamiltonian2, hamiltonian3 = self.hamiltonian + theta1, theta2, theta3 = self.theta + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will stop supporting " + "inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + psi1, psi2 = pm.run([psi1, psi2]) + estimator = BackendEstimatorV2(backend=backend, options=self._options) + estimator.options.abelian_grouping = abelian_grouping + # Specify the circuit and observable by indices. + # calculate [ ] + ham1 = hamiltonian1.apply_layout(psi1.layout) + job = estimator.run([(psi1, ham1, [theta1])]) + result = job.result() + np.testing.assert_allclose(result[0].data.evs, [1.5555572817900956], rtol=self._rtol) + + # Objects can be passed instead of indices. + # Note that passing objects has an overhead + # since the corresponding indices need to be searched. + # User can append a circuit and observable. + # calculate [ ] + ham1 = hamiltonian1.apply_layout(psi2.layout) + result2 = estimator.run([(psi2, ham1, theta2)]).result() + np.testing.assert_allclose(result2[0].data.evs, [2.97797666], rtol=self._rtol) + + # calculate [ , ] + ham2 = hamiltonian2.apply_layout(psi1.layout) + ham3 = hamiltonian3.apply_layout(psi1.layout) + result3 = estimator.run([(psi1, [ham2, ham3], theta1)]).result() + np.testing.assert_allclose(result3[0].data.evs, [-0.551653, 0.07535239], rtol=self._rtol) + + # calculate [ [, + # ], + # [] ] + ham1 = hamiltonian1.apply_layout(psi1.layout) + ham3 = hamiltonian3.apply_layout(psi1.layout) + ham2 = hamiltonian2.apply_layout(psi2.layout) + result4 = estimator.run( + [ + (psi1, [ham1, ham3], [theta1, theta3]), + (psi2, ham2, theta2), + ] + ).result() + np.testing.assert_allclose(result4[0].data.evs, [1.55555728, -1.08766318], rtol=self._rtol) + np.testing.assert_allclose(result4[1].data.evs, [0.17849238], rtol=self._rtol) + + @combine(backend=BACKENDS_V2, abelian_grouping=[True, False]) def test_estimator_with_pub(self, backend, abelian_grouping): """Test estimator with explicit EstimatorPubs.""" psi1, psi2 = self.psi @@ -146,7 +210,38 @@ def test_estimator_with_pub(self, backend, abelian_grouping): np.testing.assert_allclose(result4[0].data.evs, [1.55555728, -1.08766318], rtol=self._rtol) np.testing.assert_allclose(result4[1].data.evs, [0.17849238], rtol=self._rtol) - @combine(backend=BACKENDS, abelian_grouping=[True, False]) + @combine(backend=BACKENDS_V1, abelian_grouping=[True, False]) + def test_estimator_with_pub_v1(self, backend, abelian_grouping): + """Test estimator with explicit EstimatorPubs.""" + psi1, psi2 = self.psi + hamiltonian1, hamiltonian2, hamiltonian3 = self.hamiltonian + theta1, theta2, theta3 = self.theta + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will stop supporting " + "inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + psi1, psi2 = pm.run([psi1, psi2]) + + ham1 = hamiltonian1.apply_layout(psi1.layout) + ham3 = hamiltonian3.apply_layout(psi1.layout) + obs1 = ObservablesArray.coerce([ham1, ham3]) + bind1 = BindingsArray.coerce({tuple(psi1.parameters): [theta1, theta3]}) + pub1 = EstimatorPub(psi1, obs1, bind1) + + ham2 = hamiltonian2.apply_layout(psi2.layout) + obs2 = ObservablesArray.coerce(ham2) + bind2 = BindingsArray.coerce({tuple(psi2.parameters): theta2}) + pub2 = EstimatorPub(psi2, obs2, bind2) + + estimator = BackendEstimatorV2(backend=backend, options=self._options) + estimator.options.abelian_grouping = abelian_grouping + result4 = estimator.run([pub1, pub2]).result() + np.testing.assert_allclose(result4[0].data.evs, [1.55555728, -1.08766318], rtol=self._rtol) + np.testing.assert_allclose(result4[1].data.evs, [0.17849238], rtol=self._rtol) + + @combine(backend=BACKENDS_V2, abelian_grouping=[True, False]) def test_estimator_run_no_params(self, backend, abelian_grouping): """test for estimator without parameters""" circuit = self.ansatz.assign_parameters([0, 1, 1, 2, 3, 5]) @@ -158,7 +253,24 @@ def test_estimator_run_no_params(self, backend, abelian_grouping): result = est.run([(circuit, observable)]).result() np.testing.assert_allclose(result[0].data.evs, [-1.284366511861733], rtol=self._rtol) - @combine(backend=BACKENDS, abelian_grouping=[True, False]) + @combine(backend=BACKENDS_V1, abelian_grouping=[True, False]) + def test_estimator_run_no_params_v1(self, backend, abelian_grouping): + """test for estimator without parameters""" + circuit = self.ansatz.assign_parameters([0, 1, 1, 2, 3, 5]) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + circuit = pm.run(circuit) + est = BackendEstimatorV2(backend=backend, options=self._options) + est.options.abelian_grouping = abelian_grouping + observable = self.observable.apply_layout(circuit.layout) + result = est.run([(circuit, observable)]).result() + np.testing.assert_allclose(result[0].data.evs, [-1.284366511861733], rtol=self._rtol) + + @combine(backend=BACKENDS_V2, abelian_grouping=[True, False]) def test_run_single_circuit_observable(self, backend, abelian_grouping): """Test for single circuit and single observable case.""" est = BackendEstimatorV2(backend=backend, options=self._options) @@ -216,7 +328,70 @@ def test_run_single_circuit_observable(self, backend, abelian_grouping): np.testing.assert_allclose(result[0].data.evs, target, rtol=self._rtol) self.assertEqual(result[0].metadata["target_precision"], self._precision) - @combine(backend=BACKENDS, abelian_grouping=[True, False]) + @combine(backend=BACKENDS_V1, abelian_grouping=[True, False]) + def test_run_single_circuit_observable_v1(self, backend, abelian_grouping): + """Test for single circuit and single observable case.""" + est = BackendEstimatorV2(backend=backend, options=self._options) + est.options.abelian_grouping = abelian_grouping + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will stop supporting " + "inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + + with self.subTest("No parameter"): + qc = QuantumCircuit(1) + qc.x(0) + qc = pm.run(qc) + op = SparsePauliOp("Z") + op = op.apply_layout(qc.layout) + param_vals = [None, [], [[]], np.array([]), np.array([[]]), [np.array([])]] + target = [-1] + for val in param_vals: + self.subTest(f"{val}") + result = est.run([(qc, op, val)]).result() + np.testing.assert_allclose(result[0].data.evs, target, rtol=self._rtol) + self.assertEqual(result[0].metadata["target_precision"], self._precision) + + with self.subTest("One parameter"): + param = Parameter("x") + qc = QuantumCircuit(1) + qc.ry(param, 0) + qc = pm.run(qc) + op = SparsePauliOp("Z") + op = op.apply_layout(qc.layout) + param_vals = [ + [np.pi], + np.array([np.pi]), + ] + target = [-1] + for val in param_vals: + self.subTest(f"{val}") + result = est.run([(qc, op, val)]).result() + np.testing.assert_allclose(result[0].data.evs, target, rtol=self._rtol) + self.assertEqual(result[0].metadata["target_precision"], self._precision) + + with self.subTest("More than one parameter"): + qc = self.psi[0] + qc = pm.run(qc) + op = self.hamiltonian[0] + op = op.apply_layout(qc.layout) + param_vals = [ + self.theta[0], + [self.theta[0]], + np.array(self.theta[0]), + np.array([self.theta[0]]), + [np.array(self.theta[0])], + ] + target = [1.5555572817900956] + for val in param_vals: + self.subTest(f"{val}") + result = est.run([(qc, op, val)]).result() + np.testing.assert_allclose(result[0].data.evs, target, rtol=self._rtol) + self.assertEqual(result[0].metadata["target_precision"], self._precision) + + @combine(backend=BACKENDS_V2, abelian_grouping=[True, False]) def test_run_1qubit(self, backend, abelian_grouping): """Test for 1-qubit cases""" qc = QuantumCircuit(1) @@ -246,7 +421,42 @@ def test_run_1qubit(self, backend, abelian_grouping): result = est.run([(qc2, op_4)]).result() np.testing.assert_allclose(result[0].data.evs, [-1], rtol=self._rtol) - @combine(backend=BACKENDS, abelian_grouping=[True, False]) + @combine(backend=BACKENDS_V1, abelian_grouping=[True, False]) + def test_run_1qubit_v1(self, backend, abelian_grouping): + """Test for 1-qubit cases""" + qc = QuantumCircuit(1) + qc2 = QuantumCircuit(1) + qc2.x(0) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will stop supporting " + "inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + qc, qc2 = pm.run([qc, qc2]) + + op = SparsePauliOp.from_list([("I", 1)]) + op2 = SparsePauliOp.from_list([("Z", 1)]) + + est = BackendEstimatorV2(backend=backend, options=self._options) + est.options.abelian_grouping = abelian_grouping + op_1 = op.apply_layout(qc.layout) + result = est.run([(qc, op_1)]).result() + np.testing.assert_allclose(result[0].data.evs, [1], rtol=self._rtol) + + op_2 = op2.apply_layout(qc.layout) + result = est.run([(qc, op_2)]).result() + np.testing.assert_allclose(result[0].data.evs, [1], rtol=self._rtol) + + op_3 = op.apply_layout(qc2.layout) + result = est.run([(qc2, op_3)]).result() + np.testing.assert_allclose(result[0].data.evs, [1], rtol=self._rtol) + + op_4 = op2.apply_layout(qc2.layout) + result = est.run([(qc2, op_4)]).result() + np.testing.assert_allclose(result[0].data.evs, [-1], rtol=self._rtol) + + @combine(backend=BACKENDS_V2, abelian_grouping=[True, False]) def test_run_2qubits(self, backend, abelian_grouping): """Test for 2-qubit cases (to check endian)""" qc = QuantumCircuit(2) @@ -285,6 +495,50 @@ def test_run_2qubits(self, backend, abelian_grouping): result = est.run([(qc2, op_6)]).result() np.testing.assert_allclose(result[0].data.evs, [-1], rtol=self._rtol) + @combine(backend=BACKENDS_V1, abelian_grouping=[True, False]) + def test_run_2qubits_v1(self, backend, abelian_grouping): + """Test for 2-qubit cases (to check endian)""" + qc = QuantumCircuit(2) + qc2 = QuantumCircuit(2) + qc2.x(0) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will stop supporting " + "inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + qc, qc2 = pm.run([qc, qc2]) + + op = SparsePauliOp.from_list([("II", 1)]) + op2 = SparsePauliOp.from_list([("ZI", 1)]) + op3 = SparsePauliOp.from_list([("IZ", 1)]) + + est = BackendEstimatorV2(backend=backend, options=self._options) + est.options.abelian_grouping = abelian_grouping + op_1 = op.apply_layout(qc.layout) + result = est.run([(qc, op_1)]).result() + np.testing.assert_allclose(result[0].data.evs, [1], rtol=self._rtol) + + op_2 = op.apply_layout(qc2.layout) + result = est.run([(qc2, op_2)]).result() + np.testing.assert_allclose(result[0].data.evs, [1], rtol=self._rtol) + + op_3 = op2.apply_layout(qc.layout) + result = est.run([(qc, op_3)]).result() + np.testing.assert_allclose(result[0].data.evs, [1], rtol=self._rtol) + + op_4 = op2.apply_layout(qc2.layout) + result = est.run([(qc2, op_4)]).result() + np.testing.assert_allclose(result[0].data.evs, [1], rtol=self._rtol) + + op_5 = op3.apply_layout(qc.layout) + result = est.run([(qc, op_5)]).result() + np.testing.assert_allclose(result[0].data.evs, [1], rtol=self._rtol) + + op_6 = op3.apply_layout(qc2.layout) + result = est.run([(qc2, op_6)]).result() + np.testing.assert_allclose(result[0].data.evs, [-1], rtol=self._rtol) + @combine(backend=BACKENDS, abelian_grouping=[True, False]) def test_run_errors(self, backend, abelian_grouping): """Test for errors""" @@ -322,7 +576,7 @@ def test_run_errors(self, backend, abelian_grouping): with self.assertRaisesRegex(ValueError, "An invalid Estimator pub-like was given"): _ = est.run((qc, op)).result() - @combine(backend=BACKENDS, abelian_grouping=[True, False]) + @combine(backend=BACKENDS_V2, abelian_grouping=[True, False]) def test_run_numpy_params(self, backend, abelian_grouping): """Test for numpy array as parameter values""" qc = RealAmplitudes(num_qubits=2, reps=2) @@ -350,7 +604,40 @@ def test_run_numpy_params(self, backend, abelian_grouping): self.assertEqual(result[0].data.evs.shape, (k,)) np.testing.assert_allclose(result[0].data.evs, target[0].data.evs, rtol=self._rtol) - @combine(backend=BACKENDS, abelian_grouping=[True, False]) + @combine(backend=BACKENDS_V1, abelian_grouping=[True, False]) + def test_run_numpy_params_v1(self, backend, abelian_grouping): + """Test for numpy array as parameter values""" + qc = RealAmplitudes(num_qubits=2, reps=2) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will stop supporting " + "inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + qc = pm.run(qc) + op = SparsePauliOp.from_list([("IZ", 1), ("XI", 2), ("ZY", -1)]) + op = op.apply_layout(qc.layout) + k = 5 + params_array = self._rng.random((k, qc.num_parameters)) + params_list = params_array.tolist() + params_list_array = list(params_array) + statevector_estimator = StatevectorEstimator(seed=123) + target = statevector_estimator.run([(qc, op, params_list)]).result() + + backend_estimator = BackendEstimatorV2(backend=backend, options=self._options) + backend_estimator.options.abelian_grouping = abelian_grouping + + with self.subTest("ndarrary"): + result = backend_estimator.run([(qc, op, params_array)]).result() + self.assertEqual(result[0].data.evs.shape, (k,)) + np.testing.assert_allclose(result[0].data.evs, target[0].data.evs, rtol=self._rtol) + + with self.subTest("list of ndarray"): + result = backend_estimator.run([(qc, op, params_list_array)]).result() + self.assertEqual(result[0].data.evs.shape, (k,)) + np.testing.assert_allclose(result[0].data.evs, target[0].data.evs, rtol=self._rtol) + + @combine(backend=BACKENDS_V2, abelian_grouping=[True, False]) def test_precision(self, backend, abelian_grouping): """Test for precision""" estimator = BackendEstimatorV2(backend=backend, options=self._options) @@ -372,7 +659,34 @@ def test_precision(self, backend, abelian_grouping): result = job.result() np.testing.assert_allclose(result[0].data.evs, [1.5555572817900956], rtol=self._rtol) - @combine(backend=BACKENDS, abelian_grouping=[True, False]) + @combine(backend=BACKENDS_V1, abelian_grouping=[True, False]) + def test_precision_v1(self, backend, abelian_grouping): + """Test for precision""" + estimator = BackendEstimatorV2(backend=backend, options=self._options) + estimator.options.abelian_grouping = abelian_grouping + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will stop supporting " + "inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + psi1 = pm.run(self.psi[0]) + hamiltonian1 = self.hamiltonian[0].apply_layout(psi1.layout) + theta1 = self.theta[0] + job = estimator.run([(psi1, hamiltonian1, [theta1])]) + result = job.result() + np.testing.assert_allclose(result[0].data.evs, [1.901141473854881], rtol=self._rtol) + # The result of the second run is the same + job = estimator.run([(psi1, hamiltonian1, [theta1]), (psi1, hamiltonian1, [theta1])]) + result = job.result() + np.testing.assert_allclose(result[0].data.evs, [1.901141473854881], rtol=self._rtol) + np.testing.assert_allclose(result[1].data.evs, [1.901141473854881], rtol=self._rtol) + # apply smaller precision value + job = estimator.run([(psi1, hamiltonian1, [theta1])], precision=self._precision * 0.5) + result = job.result() + np.testing.assert_allclose(result[0].data.evs, [1.5555572817900956], rtol=self._rtol) + + @combine(backend=BACKENDS_V2, abelian_grouping=[True, False]) def test_diff_precision(self, backend, abelian_grouping): """Test for running different precisions at once""" estimator = BackendEstimatorV2(backend=backend, options=self._options) @@ -388,6 +702,27 @@ def test_diff_precision(self, backend, abelian_grouping): np.testing.assert_allclose(result[0].data.evs, [1.901141473854881], rtol=self._rtol) np.testing.assert_allclose(result[1].data.evs, [1.901141473854881], rtol=self._rtol) + @combine(backend=BACKENDS_V1, abelian_grouping=[True, False]) + def test_diff_precision_v1(self, backend, abelian_grouping): + """Test for running different precisions at once""" + estimator = BackendEstimatorV2(backend=backend, options=self._options) + estimator.options.abelian_grouping = abelian_grouping + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will stop supporting " + "inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + psi1 = pm.run(self.psi[0]) + hamiltonian1 = self.hamiltonian[0].apply_layout(psi1.layout) + theta1 = self.theta[0] + job = estimator.run( + [(psi1, hamiltonian1, [theta1]), (psi1, hamiltonian1, [theta1], self._precision * 0.8)] + ) + result = job.result() + np.testing.assert_allclose(result[0].data.evs, [1.901141473854881], rtol=self._rtol) + np.testing.assert_allclose(result[1].data.evs, [1.901141473854881], rtol=self._rtol) + @unittest.skipUnless(optionals.HAS_AER, "qiskit-aer is required to run this test") @combine(abelian_grouping=[True, False]) def test_aer(self, abelian_grouping): @@ -446,8 +781,9 @@ def max_circuits(self): self.assertEqual(run_mock.call_count, 10) def test_job_size_limit_backend_v1(self): - """Test BackendEstimatorV2 respects job size limit""" - backend = Fake7QPulseV1() + """Test BackendEstimatorV2 respects job size limit from BackendV1""" + with self.assertWarns(DeprecationWarning): + backend = Fake7QPulseV1() config = backend.configuration() config.max_experiments = 1 backend._configuration = config @@ -473,6 +809,30 @@ def test_iter_pub(self): np.testing.assert_allclose(result[0].data.evs, [-1.284366511861733], rtol=self._rtol) np.testing.assert_allclose(result[1].data.evs, [-1.284366511861733], rtol=self._rtol) + def test_metadata(self): + """Test for metadata""" + qc = QuantumCircuit(2) + qc2 = QuantumCircuit(2) + qc2.metadata = {"a": 1} + backend = BasicSimulator() + estimator = BackendEstimatorV2(backend=backend) + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + qc, qc2 = pm.run([qc, qc2]) + op = SparsePauliOp("ZZ").apply_layout(qc.layout) + op2 = SparsePauliOp("ZZ").apply_layout(qc2.layout) + result = estimator.run([(qc, op), (qc2, op2)], precision=0.1).result() + + self.assertEqual(len(result), 2) + self.assertEqual(result.metadata, {"version": 2}) + self.assertEqual( + result[0].metadata, + {"target_precision": 0.1, "shots": 100, "circuit_metadata": qc.metadata}, + ) + self.assertEqual( + result[1].metadata, + {"target_precision": 0.1, "shots": 100, "circuit_metadata": qc2.metadata}, + ) + if __name__ == "__main__": unittest.main() diff --git a/test/python/primitives/test_backend_sampler.py b/test/python/primitives/test_backend_sampler.py index 8bc5f76ed095..27e438d30874 100644 --- a/test/python/primitives/test_backend_sampler.py +++ b/test/python/primitives/test_backend_sampler.py @@ -34,6 +34,12 @@ BACKENDS = [Fake7QPulseV1(), BackendV2Converter(Fake7QPulseV1())] +BACKENDS_V1 = [Fake7QPulseV1()] +BACKENDS_V2 = [ + BackendV2Converter(Fake7QPulseV1()), +] +BACKENDS = BACKENDS_V1 + BACKENDS_V2 + class CallbackPass(DummyAP): """A dummy analysis pass that calls a callback when executed""" @@ -236,8 +242,37 @@ def test_run_errors(self, backend): with self.assertRaises(ValueError): sampler.run([qc2], [[1e2]]).result() - @combine(backend=BACKENDS) - def test_run_empty_parameter(self, backend): + @combine(backend=BACKENDS_V1) + def test_run_empty_parameter_v1(self, backend): + """Test for empty parameter""" + n = 5 + qc = QuantumCircuit(n, n - 1) + qc.measure(range(n - 1), range(n - 1)) + with self.assertWarns(DeprecationWarning): + sampler = BackendSampler(backend=backend) + with self.subTest("one circuit"): + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + result = sampler.run([qc], shots=1000).result() + self.assertEqual(len(result.quasi_dists), 1) + for q_d in result.quasi_dists: + quasi_dist = {k: v for k, v in q_d.items() if v != 0.0} + self.assertDictAlmostEqual(quasi_dist, {0: 1.0}, delta=0.1) + self.assertEqual(len(result.metadata), 1) + + with self.subTest("two circuits"): + result = sampler.run([qc, qc], shots=1000).result() + self.assertEqual(len(result.quasi_dists), 2) + for q_d in result.quasi_dists: + quasi_dist = {k: v for k, v in q_d.items() if v != 0.0} + self.assertDictAlmostEqual(quasi_dist, {0: 1.0}, delta=0.1) + self.assertEqual(len(result.metadata), 2) + + @combine(backend=BACKENDS_V2) + def test_run_empty_parameter_v2(self, backend): """Test for empty parameter""" n = 5 qc = QuantumCircuit(n, n - 1) @@ -323,9 +358,9 @@ def max_circuits(self): qc2.x(0) qc2.measure_all() with self.assertWarns(DeprecationWarning): - sampler = BackendSampler(backend=FakeBackendLimitedCircuits(num_qubits=5)) - result = sampler.run([qc, qc2]).result() - self.assertIsInstance(result, SamplerResult) + sampler = BackendSampler(backend=FakeBackendLimitedCircuits(num_qubits=5, seed=42)) + result = sampler.run([qc, qc2]).result() + self.assertIsInstance(result, SamplerResult) self.assertEqual(len(result.quasi_dists), 2) self.assertDictAlmostEqual(result.quasi_dists[0], {0: 1}, 0.1) @@ -333,10 +368,9 @@ def max_circuits(self): def test_primitive_job_size_limit_backend_v1(self): """Test primitive respects backend's job size limit.""" - backend = Fake7QPulseV1() - config = backend.configuration() - config.max_experiments = 1 - backend._configuration = config + backend = GenericBackendV2( + 7, calibrate_instructions=True, basis_gates=["cx", "u1", "u2", "u3"], seed=42 + ) qc = QuantumCircuit(1) qc.measure_all() qc2 = QuantumCircuit(1) @@ -374,14 +408,17 @@ def test_circuit_with_dynamic_circuit(self): def test_sequential_run(self): """Test sequential run.""" + backend = GenericBackendV2( + 7, calibrate_instructions=True, basis_gates=["cx", "u1", "u2", "u3"], seed=42 + ) qc = QuantumCircuit(1) qc.measure_all() qc2 = QuantumCircuit(1) qc2.x(0) qc2.measure_all() with self.assertWarns(DeprecationWarning): - sampler = BackendSampler(backend=Fake7QPulseV1()) - result = sampler.run([qc]).result() + sampler = BackendSampler(backend=backend) + result = sampler.run([qc]).result() self.assertDictAlmostEqual(result.quasi_dists[0], {0: 1}, 0.1) result2 = sampler.run([qc2]).result() self.assertDictAlmostEqual(result2.quasi_dists[0], {1: 1}, 0.1) @@ -421,9 +458,12 @@ def callback(msg): bound_counter = CallbackPass("bound_pass_manager", callback) bound_pass = PassManager(bound_counter) + backend = GenericBackendV2( + 7, calibrate_instructions=True, basis_gates=["cx", "u1", "u2", "u3"], seed=42 + ) with self.assertWarns(DeprecationWarning): - sampler = BackendSampler(backend=Fake7QPulseV1(), bound_pass_manager=bound_pass) - _ = sampler.run([self._circuit[0]]).result() + sampler = BackendSampler(backend=backend, bound_pass_manager=bound_pass) + _ = sampler.run([self._circuit[0]]).result() expected = [ "bound_pass_manager", ] @@ -442,9 +482,12 @@ def callback(msg): # pylint: disable=function-redefined bound_counter = CallbackPass("bound_pass_manager", callback) bound_pass = PassManager(bound_counter) + backend = GenericBackendV2( + 7, calibrate_instructions=True, basis_gates=["cx", "u1", "u2", "u3"], seed=42 + ) with self.assertWarns(DeprecationWarning): - sampler = BackendSampler(backend=Fake7QPulseV1(), bound_pass_manager=bound_pass) - _ = sampler.run([self._circuit[0], self._circuit[0]]).result() + sampler = BackendSampler(backend=backend, bound_pass_manager=bound_pass) + _ = sampler.run([self._circuit[0], self._circuit[0]]).result() expected = [ "bound_pass_manager", "bound_pass_manager", diff --git a/test/python/primitives/test_backend_sampler_v2.py b/test/python/primitives/test_backend_sampler_v2.py index b03818846c82..372ae3a6715c 100644 --- a/test/python/primitives/test_backend_sampler_v2.py +++ b/test/python/primitives/test_backend_sampler_v2.py @@ -34,8 +34,20 @@ from qiskit.providers.basic_provider import BasicSimulator from qiskit.providers.fake_provider import Fake7QPulseV1, GenericBackendV2 from qiskit.transpiler.preset_passmanagers import generate_preset_pass_manager - -BACKENDS = [BasicSimulator(), Fake7QPulseV1(), BackendV2Converter(Fake7QPulseV1())] +from ..legacy_cmaps import LAGOS_CMAP + +BACKENDS_V1 = [Fake7QPulseV1()] +BACKENDS_V2 = [ + BasicSimulator(), + BackendV2Converter(Fake7QPulseV1()), + GenericBackendV2( + num_qubits=7, + basis_gates=["id", "rz", "sx", "x", "cx", "reset"], + coupling_map=LAGOS_CMAP, + seed=42, + ), +] +BACKENDS = BACKENDS_V1 + BACKENDS_V2 @ddt @@ -85,7 +97,63 @@ def _assert_allclose(self, bitarray: BitArray, target: NDArray | BitArray, rtol= tgt = np.array([target_counts.get(i, 0) for i in range(max_key + 1)]) np.testing.assert_allclose(ary, tgt, rtol=rtol, atol=atol, err_msg=f"index: {idx}") - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V1) + def test_sampler_run_v1(self, backend): + """Test run().""" + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + + with self.subTest("single"): + bell, _, target = self._cases[1] + bell = pm.run(bell) + sampler = BackendSamplerV2(backend=backend, options=self._options) + job = sampler.run([bell], shots=self._shots) + result = job.result() + self.assertIsInstance(result, PrimitiveResult) + self.assertIsInstance(result.metadata, dict) + self.assertEqual(len(result), 1) + self.assertIsInstance(result[0], PubResult) + self.assertIsInstance(result[0].data, DataBin) + self.assertIsInstance(result[0].data.meas, BitArray) + self._assert_allclose(result[0].data.meas, np.array(target)) + + with self.subTest("single with param"): + pqc, param_vals, target = self._cases[2] + sampler = BackendSamplerV2(backend=backend, options=self._options) + pqc = pm.run(pqc) + params = (param.name for param in pqc.parameters) + job = sampler.run([(pqc, {params: param_vals})], shots=self._shots) + result = job.result() + self.assertIsInstance(result, PrimitiveResult) + self.assertIsInstance(result.metadata, dict) + self.assertEqual(len(result), 1) + self.assertIsInstance(result[0], PubResult) + self.assertIsInstance(result[0].data, DataBin) + self.assertIsInstance(result[0].data.meas, BitArray) + self._assert_allclose(result[0].data.meas, np.array(target)) + + with self.subTest("multiple"): + pqc, param_vals, target = self._cases[2] + sampler = BackendSamplerV2(backend=backend, options=self._options) + pqc = pm.run(pqc) + params = (param.name for param in pqc.parameters) + job = sampler.run( + [(pqc, {params: [param_vals, param_vals, param_vals]})], shots=self._shots + ) + result = job.result() + self.assertIsInstance(result, PrimitiveResult) + self.assertIsInstance(result.metadata, dict) + self.assertEqual(len(result), 1) + self.assertIsInstance(result[0], PubResult) + self.assertIsInstance(result[0].data, DataBin) + self.assertIsInstance(result[0].data.meas, BitArray) + self._assert_allclose(result[0].data.meas, np.array([target, target, target])) + + @combine(backend=BACKENDS_V2) def test_sampler_run(self, backend): """Test run().""" pm = generate_preset_pass_manager(optimization_level=0, backend=backend) @@ -136,7 +204,25 @@ def test_sampler_run(self, backend): self.assertIsInstance(result[0].data.meas, BitArray) self._assert_allclose(result[0].data.meas, np.array([target, target, target])) - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V1) + def test_sampler_run_multiple_times_v1(self, backend): + """Test run() returns the same results if the same input is given.""" + bell, _, _ = self._cases[1] + sampler = BackendSamplerV2(backend=backend, options=self._options) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + bell = pm.run(bell) + result1 = sampler.run([bell], shots=self._shots).result() + meas1 = result1[0].data.meas + result2 = sampler.run([bell], shots=self._shots).result() + meas2 = result2[0].data.meas + self._assert_allclose(meas1, meas2, rtol=0) + + @combine(backend=BACKENDS_V2) def test_sampler_run_multiple_times(self, backend): """Test run() returns the same results if the same input is given.""" bell, _, _ = self._cases[1] @@ -149,7 +235,25 @@ def test_sampler_run_multiple_times(self, backend): meas2 = result2[0].data.meas self._assert_allclose(meas1, meas2, rtol=0) - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V1) + def test_sample_run_multiple_circuits_v1(self, backend): + """Test run() with multiple circuits.""" + bell, _, target = self._cases[1] + sampler = BackendSamplerV2(backend=backend, options=self._options) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + bell = pm.run(bell) + result = sampler.run([bell, bell, bell], shots=self._shots).result() + self.assertEqual(len(result), 3) + self._assert_allclose(result[0].data.meas, np.array(target)) + self._assert_allclose(result[1].data.meas, np.array(target)) + self._assert_allclose(result[2].data.meas, np.array(target)) + + @combine(backend=BACKENDS_V2) def test_sample_run_multiple_circuits(self, backend): """Test run() with multiple circuits.""" bell, _, target = self._cases[1] @@ -162,13 +266,14 @@ def test_sample_run_multiple_circuits(self, backend): self._assert_allclose(result[1].data.meas, np.array(target)) self._assert_allclose(result[2].data.meas, np.array(target)) - @combine(backend=BACKENDS) - def test_sampler_run_with_parameterized_circuits(self, backend): + @combine(backend=BACKENDS_V1) + def test_sampler_run_with_parameterized_circuits_v1(self, backend): """Test run() with parameterized circuits.""" pqc1, param1, target1 = self._cases[4] pqc2, param2, target2 = self._cases[5] pqc3, param3, target3 = self._cases[6] - pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + with self.assertWarns(DeprecationWarning): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) pqc1, pqc2, pqc3 = pm.run([pqc1, pqc2, pqc3]) sampler = BackendSamplerV2(backend=backend, options=self._options) @@ -180,7 +285,7 @@ def test_sampler_run_with_parameterized_circuits(self, backend): self._assert_allclose(result[1].data.meas, np.array(target2)) self._assert_allclose(result[2].data.meas, np.array(target3)) - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V2) def test_run_1qubit(self, backend): """test for 1-qubit cases""" qc = QuantumCircuit(1) @@ -197,7 +302,29 @@ def test_run_1qubit(self, backend): for i in range(2): self._assert_allclose(result[i].data.meas, np.array({i: self._shots})) - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V1) + def test_run_1qubit_v1(self, backend): + """test for 1-qubit cases""" + qc = QuantumCircuit(1) + qc.measure_all() + qc2 = QuantumCircuit(1) + qc2.x(0) + qc2.measure_all() + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + qc, qc2 = pm.run([qc, qc2]) + + sampler = BackendSamplerV2(backend=backend, options=self._options) + result = sampler.run([qc, qc2], shots=self._shots).result() + self.assertEqual(len(result), 2) + for i in range(2): + self._assert_allclose(result[i].data.meas, np.array({i: self._shots})) + + @combine(backend=BACKENDS_V2) def test_run_2qubit(self, backend): """test for 2-qubit cases""" qc0 = QuantumCircuit(2) @@ -220,7 +347,35 @@ def test_run_2qubit(self, backend): for i in range(4): self._assert_allclose(result[i].data.meas, np.array({i: self._shots})) - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V1) + def test_run_2qubit_v1(self, backend): + """test for 2-qubit cases""" + qc0 = QuantumCircuit(2) + qc0.measure_all() + qc1 = QuantumCircuit(2) + qc1.x(0) + qc1.measure_all() + qc2 = QuantumCircuit(2) + qc2.x(1) + qc2.measure_all() + qc3 = QuantumCircuit(2) + qc3.x([0, 1]) + qc3.measure_all() + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + qc0, qc1, qc2, qc3 = pm.run([qc0, qc1, qc2, qc3]) + + sampler = BackendSamplerV2(backend=backend, options=self._options) + result = sampler.run([qc0, qc1, qc2, qc3], shots=self._shots).result() + self.assertEqual(len(result), 4) + for i in range(4): + self._assert_allclose(result[i].data.meas, np.array({i: self._shots})) + + @combine(backend=BACKENDS_V2) def test_run_single_circuit(self, backend): """Test for single circuit case.""" sampler = BackendSamplerV2(backend=backend, options=self._options) @@ -278,7 +433,70 @@ def test_run_single_circuit(self, backend): self.assertEqual(len(result), 1) self._assert_allclose(result[0].data.meas, target) - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V1) + def test_run_single_circuit_v1(self, backend): + """Test for single circuit case.""" + sampler = BackendSamplerV2(backend=backend, options=self._options) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + + with self.subTest("No parameter"): + circuit, _, target = self._cases[1] + circuit = pm.run(circuit) + param_target = [ + (None, np.array(target)), + ({}, np.array(target)), + ] + for param, target in param_target: + with self.subTest(f"{circuit.name} w/ {param}"): + result = sampler.run([(circuit, param)], shots=self._shots).result() + self.assertEqual(len(result), 1) + self._assert_allclose(result[0].data.meas, target) + + with self.subTest("One parameter"): + circuit = QuantumCircuit(1, 1, name="X gate") + param = Parameter("x") + circuit.ry(param, 0) + circuit.measure(0, 0) + circuit = pm.run(circuit) + param_target = [ + ({"x": np.pi}, np.array({1: self._shots})), + ({param: np.pi}, np.array({1: self._shots})), + ({"x": np.array(np.pi)}, np.array({1: self._shots})), + ({param: np.array(np.pi)}, np.array({1: self._shots})), + ({"x": [np.pi]}, np.array({1: self._shots})), + ({param: [np.pi]}, np.array({1: self._shots})), + ({"x": np.array([np.pi])}, np.array({1: self._shots})), + ({param: np.array([np.pi])}, np.array({1: self._shots})), + ] + for param, target in param_target: + with self.subTest(f"{circuit.name} w/ {param}"): + result = sampler.run([(circuit, param)], shots=self._shots).result() + self.assertEqual(len(result), 1) + self._assert_allclose(result[0].data.c, target) + + with self.subTest("More than one parameter"): + circuit, param, target = self._cases[3] + circuit = pm.run(circuit) + param_target = [ + (param, np.array(target)), + (tuple(param), np.array(target)), + (np.array(param), np.array(target)), + ((param,), np.array([target])), + ([param], np.array([target])), + (np.array([param]), np.array([target])), + ] + for param, target in param_target: + with self.subTest(f"{circuit.name} w/ {param}"): + result = sampler.run([(circuit, param)], shots=self._shots).result() + self.assertEqual(len(result), 1) + self._assert_allclose(result[0].data.meas, target) + + @combine(backend=BACKENDS_V2) def test_run_reverse_meas_order(self, backend): """test for sampler with reverse measurement order""" x = Parameter("x") @@ -305,7 +523,39 @@ def test_run_reverse_meas_order(self, backend): # qc({x: pi/2, y: 0}) self._assert_allclose(result[1].data.c, np.array({1: self._shots / 2, 5: self._shots / 2})) - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V1) + def test_run_reverse_meas_order_v1(self, backend): + """test for sampler with reverse measurement order""" + x = Parameter("x") + y = Parameter("y") + + qc = QuantumCircuit(3, 3) + qc.rx(x, 0) + qc.rx(y, 1) + qc.x(2) + qc.measure(0, 2) + qc.measure(1, 1) + qc.measure(2, 0) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + qc = pm.run(qc) + + sampler = BackendSamplerV2(backend=backend) + sampler.options.seed_simulator = self._seed + result = sampler.run([(qc, [0, 0]), (qc, [np.pi / 2, 0])], shots=self._shots).result() + self.assertEqual(len(result), 2) + + # qc({x: 0, y: 0}) + self._assert_allclose(result[0].data.c, np.array({1: self._shots})) + + # qc({x: pi/2, y: 0}) + self._assert_allclose(result[1].data.c, np.array({1: self._shots / 2, 5: self._shots / 2})) + + @combine(backend=BACKENDS_V2) def test_run_errors(self, backend): """Test for errors with run method""" qc1 = QuantumCircuit(1) @@ -357,7 +607,64 @@ def test_run_errors(self, backend): with self.assertRaisesRegex(ValueError, "Note that if you want to run a single pub,"): _ = sampler.run((qc2, [0, 1])).result() - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V1) + def test_run_errors_v1(self, backend): + """Test for errors with run method""" + qc1 = QuantumCircuit(1) + qc1.measure_all() + qc2 = RealAmplitudes(num_qubits=1, reps=1) + qc2.measure_all() + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + qc1, qc2 = pm.run([qc1, qc2]) + + sampler = BackendSamplerV2(backend=backend) + with self.subTest("set parameter values to a non-parameterized circuit"): + with self.assertRaises(ValueError): + _ = sampler.run([(qc1, [1e2])]).result() + with self.subTest("missing all parameter values for a parameterized circuit"): + with self.assertRaises(ValueError): + _ = sampler.run([qc2]).result() + with self.assertRaises(ValueError): + _ = sampler.run([(qc2, [])]).result() + with self.assertRaises(ValueError): + _ = sampler.run([(qc2, None)]).result() + with self.subTest("missing some parameter values for a parameterized circuit"): + with self.assertRaises(ValueError): + _ = sampler.run([(qc2, [1e2])]).result() + with self.subTest("too many parameter values for a parameterized circuit"): + with self.assertRaises(ValueError): + _ = sampler.run([(qc2, [1e2] * 100)]).result() + with self.subTest("negative shots, run arg"): + with self.assertRaises(ValueError): + _ = sampler.run([qc1], shots=-1).result() + with self.subTest("negative shots, pub-like"): + with self.assertRaises(ValueError): + _ = sampler.run([(qc1, None, -1)]).result() + with self.subTest("negative shots, pub"): + with self.assertRaises(ValueError): + _ = sampler.run([SamplerPub(qc1, shots=-1)]).result() + with self.subTest("zero shots, run arg"): + with self.assertRaises(ValueError): + _ = sampler.run([qc1], shots=0).result() + with self.subTest("zero shots, pub-like"): + with self.assertRaises(ValueError): + _ = sampler.run([(qc1, None, 0)]).result() + with self.subTest("zero shots, pub"): + with self.assertRaises(ValueError): + _ = sampler.run([SamplerPub(qc1, shots=0)]).result() + with self.subTest("missing []"): + with self.assertRaisesRegex(ValueError, "An invalid Sampler pub-like was given"): + _ = sampler.run(qc1).result() + with self.subTest("missing [] for pqc"): + with self.assertRaisesRegex(ValueError, "Note that if you want to run a single pub,"): + _ = sampler.run((qc2, [0, 1])).result() + + @combine(backend=BACKENDS_V2) def test_run_empty_parameter(self, backend): """Test for empty parameter""" n = 5 @@ -377,12 +684,72 @@ def test_run_empty_parameter(self, backend): for i in range(2): self._assert_allclose(result[i].data.c, np.array({0: self._shots})) - @combine(backend=BACKENDS) - def test_run_numpy_params(self, backend): + @combine(backend=BACKENDS_V1) + def test_run_empty_parameter_v1(self, backend): + """Test for empty parameter""" + n = 5 + qc = QuantumCircuit(n, n - 1) + qc.measure(range(n - 1), range(n - 1)) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + qc = pm.run(qc) + sampler = BackendSamplerV2(backend=backend, options=self._options) + with self.subTest("one circuit"): + result = sampler.run([qc], shots=self._shots).result() + self.assertEqual(len(result), 1) + self._assert_allclose(result[0].data.c, np.array({0: self._shots})) + + with self.subTest("two circuits"): + result = sampler.run([qc, qc], shots=self._shots).result() + self.assertEqual(len(result), 2) + for i in range(2): + self._assert_allclose(result[i].data.c, np.array({0: self._shots})) + + @combine(backend=BACKENDS_V2) + def test_run_numpy_params(self, backend): + """Test for numpy array as parameter values""" + qc = RealAmplitudes(num_qubits=2, reps=2) + qc.measure_all() + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + qc = pm.run(qc) + k = 5 + params_array = np.linspace(0, 1, k * qc.num_parameters).reshape((k, qc.num_parameters)) + params_list = params_array.tolist() + sampler = StatevectorSampler(seed=self._seed) + target = sampler.run([(qc, params_list)], shots=self._shots).result() + + with self.subTest("ndarray"): + sampler = BackendSamplerV2(backend=backend, options=self._options) + result = sampler.run([(qc, params_array)], shots=self._shots).result() + self.assertEqual(len(result), 1) + self._assert_allclose(result[0].data.meas, target[0].data.meas) + + with self.subTest("split a list"): + sampler = BackendSamplerV2(backend=backend, options=self._options) + result = sampler.run( + [(qc, params) for params in params_list], shots=self._shots + ).result() + self.assertEqual(len(result), k) + for i in range(k): + self._assert_allclose( + result[i].data.meas, np.array(target[0].data.meas.get_int_counts(i)) + ) + + @combine(backend=BACKENDS_V1) + def test_run_numpy_params_v1(self, backend): """Test for numpy array as parameter values""" qc = RealAmplitudes(num_qubits=2, reps=2) qc.measure_all() - pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) qc = pm.run(qc) k = 5 params_array = np.linspace(0, 1, k * qc.num_parameters).reshape((k, qc.num_parameters)) @@ -407,7 +774,7 @@ def test_run_numpy_params(self, backend): result[i].data.meas, np.array(target[0].data.meas.get_int_counts(i)) ) - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V2) def test_run_with_shots_option(self, backend): """test with shots option.""" bell, _, _ = self._cases[1] @@ -471,7 +838,76 @@ def test_run_with_shots_option(self, backend): self.assertEqual(result[1].data.meas.num_shots, shots2) self.assertEqual(sum(result[1].data.meas.get_counts().values()), shots2) - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V1) + def test_run_with_shots_option_v1(self, backend): + """test with shots option.""" + bell, _, _ = self._cases[1] + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + bell = pm.run(bell) + shots = 100 + + with self.subTest("run arg"): + sampler = BackendSamplerV2(backend=backend, options=self._options) + result = sampler.run([bell], shots=shots).result() + self.assertEqual(len(result), 1) + self.assertEqual(result[0].data.meas.num_shots, shots) + self.assertEqual(sum(result[0].data.meas.get_counts().values()), shots) + + with self.subTest("default shots"): + sampler = BackendSamplerV2(backend=backend, options=self._options) + default_shots = sampler.options.default_shots + result = sampler.run([bell]).result() + self.assertEqual(len(result), 1) + self.assertEqual(result[0].data.meas.num_shots, default_shots) + self.assertEqual(sum(result[0].data.meas.get_counts().values()), default_shots) + + with self.subTest("setting default shots"): + default_shots = 100 + sampler = BackendSamplerV2(backend=backend, options=self._options) + sampler.options.default_shots = default_shots + self.assertEqual(sampler.options.default_shots, default_shots) + result = sampler.run([bell]).result() + self.assertEqual(len(result), 1) + self.assertEqual(result[0].data.meas.num_shots, default_shots) + self.assertEqual(sum(result[0].data.meas.get_counts().values()), default_shots) + + with self.subTest("pub-like"): + sampler = BackendSamplerV2(backend=backend, options=self._options) + result = sampler.run([(bell, None, shots)]).result() + self.assertEqual(len(result), 1) + self.assertEqual(result[0].data.meas.num_shots, shots) + self.assertEqual(sum(result[0].data.meas.get_counts().values()), shots) + + with self.subTest("pub"): + sampler = BackendSamplerV2(backend=backend, options=self._options) + result = sampler.run([SamplerPub(bell, shots=shots)]).result() + self.assertEqual(len(result), 1) + self.assertEqual(result[0].data.meas.num_shots, shots) + self.assertEqual(sum(result[0].data.meas.get_counts().values()), shots) + + with self.subTest("multiple pubs"): + sampler = BackendSamplerV2(backend=backend, options=self._options) + shots1 = 100 + shots2 = 200 + result = sampler.run( + [ + SamplerPub(bell, shots=shots1), + SamplerPub(bell, shots=shots2), + ], + shots=self._shots, + ).result() + self.assertEqual(len(result), 2) + self.assertEqual(result[0].data.meas.num_shots, shots1) + self.assertEqual(sum(result[0].data.meas.get_counts().values()), shots1) + self.assertEqual(result[1].data.meas.num_shots, shots2) + self.assertEqual(sum(result[1].data.meas.get_counts().values()), shots2) + + @combine(backend=BACKENDS_V2) def test_run_shots_result_size(self, backend): """test with shots option to validate the result size""" n = 7 # should be less than or equal to the number of qubits of backend @@ -486,7 +922,27 @@ def test_run_shots_result_size(self, backend): self.assertLessEqual(result[0].data.meas.num_shots, self._shots) self.assertEqual(sum(result[0].data.meas.get_counts().values()), self._shots) - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V1) + def test_run_shots_result_size_v1(self, backend): + """test with shots option to validate the result size""" + n = 7 # should be less than or equal to the number of qubits of backend + qc = QuantumCircuit(n) + qc.h(range(n)) + qc.measure_all() + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + qc = pm.run(qc) + sampler = BackendSamplerV2(backend=backend, options=self._options) + result = sampler.run([qc], shots=self._shots).result() + self.assertEqual(len(result), 1) + self.assertLessEqual(result[0].data.meas.num_shots, self._shots) + self.assertEqual(sum(result[0].data.meas.get_counts().values()), self._shots) + + @combine(backend=BACKENDS_V2) def test_primitive_job_status_done(self, backend): """test primitive job's status""" bell, _, _ = self._cases[1] @@ -497,7 +953,23 @@ def test_primitive_job_status_done(self, backend): _ = job.result() self.assertEqual(job.status(), JobStatus.DONE) - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V1) + def test_primitive_job_status_done_v1(self, backend): + """test primitive job's status""" + bell, _, _ = self._cases[1] + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + bell = pm.run(bell) + sampler = BackendSamplerV2(backend=backend, options=self._options) + job = sampler.run([bell], shots=self._shots) + _ = job.result() + self.assertEqual(job.status(), JobStatus.DONE) + + @combine(backend=BACKENDS_V2) def test_circuit_with_unitary(self, backend): """Test for circuit with unitary gate.""" pm = generate_preset_pass_manager(optimization_level=0, backend=backend) @@ -528,7 +1000,43 @@ def test_circuit_with_unitary(self, backend): self.assertEqual(len(result), 1) self._assert_allclose(result[0].data.meas, np.array({1: self._shots})) - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V1) + def test_circuit_with_unitary_v1(self, backend): + """Test for circuit with unitary gate.""" + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + + with self.subTest("identity"): + gate = UnitaryGate(np.eye(2)) + + circuit = QuantumCircuit(1) + circuit.append(gate, [0]) + circuit.measure_all() + circuit = pm.run(circuit) + + sampler = BackendSamplerV2(backend=backend, options=self._options) + result = sampler.run([circuit], shots=self._shots).result() + self.assertEqual(len(result), 1) + self._assert_allclose(result[0].data.meas, np.array({0: self._shots})) + + with self.subTest("X"): + gate = UnitaryGate([[0, 1], [1, 0]]) + + circuit = QuantumCircuit(1) + circuit.append(gate, [0]) + circuit.measure_all() + circuit = pm.run(circuit) + + sampler = BackendSamplerV2(backend=backend, options=self._options) + result = sampler.run([circuit], shots=self._shots).result() + self.assertEqual(len(result), 1) + self._assert_allclose(result[0].data.meas, np.array({1: self._shots})) + + @combine(backend=BACKENDS_V2) def test_circuit_with_multiple_cregs(self, backend): """Test for circuit with multiple classical registers.""" pm = generate_preset_pass_manager(optimization_level=0, backend=backend) @@ -608,7 +1116,92 @@ def test_circuit_with_multiple_cregs(self, backend): self.assertTrue(hasattr(data, creg.name)) self._assert_allclose(getattr(data, creg.name), np.array(target[creg.name])) - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V1) + def test_circuit_with_multiple_cregs_v1(self, backend): + """Test for circuit with multiple classical registers.""" + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + cases = [] + + # case 1 + a = ClassicalRegister(1, "a") + b = ClassicalRegister(2, "b") + c = ClassicalRegister(3, "c") + + qc = QuantumCircuit(QuantumRegister(3), a, b, c) + qc.h(range(3)) + qc.measure([0, 1, 2, 2], [0, 2, 4, 5]) + qc = pm.run(qc) + target = {"a": {0: 5000, 1: 5000}, "b": {0: 5000, 2: 5000}, "c": {0: 5000, 6: 5000}} + cases.append(("use all cregs", qc, target)) + + # case 2 + a = ClassicalRegister(1, "a") + b = ClassicalRegister(5, "b") + c = ClassicalRegister(3, "c") + + qc = QuantumCircuit(QuantumRegister(3), a, b, c) + qc.h(range(3)) + qc.measure([0, 1, 2, 2], [0, 2, 4, 5]) + qc = pm.run(qc) + target = { + "a": {0: 5000, 1: 5000}, + "b": {0: 2500, 2: 2500, 24: 2500, 26: 2500}, + "c": {0: 10000}, + } + cases.append(("use only a and b", qc, target)) + + # case 3 + a = ClassicalRegister(1, "a") + b = ClassicalRegister(2, "b") + c = ClassicalRegister(3, "c") + + qc = QuantumCircuit(QuantumRegister(3), a, b, c) + qc.h(range(3)) + qc.measure(1, 5) + qc = pm.run(qc) + target = {"a": {0: 10000}, "b": {0: 10000}, "c": {0: 5000, 4: 5000}} + cases.append(("use only c", qc, target)) + + # case 4 + a = ClassicalRegister(1, "a") + b = ClassicalRegister(2, "b") + c = ClassicalRegister(3, "c") + + qc = QuantumCircuit(QuantumRegister(3), a, b, c) + qc.h(range(3)) + qc.measure([0, 1, 2], [5, 5, 5]) + qc = pm.run(qc) + target = {"a": {0: 10000}, "b": {0: 10000}, "c": {0: 5000, 4: 5000}} + cases.append(("use only c multiple qubits", qc, target)) + + # case 5 + a = ClassicalRegister(1, "a") + b = ClassicalRegister(2, "b") + c = ClassicalRegister(3, "c") + + qc = QuantumCircuit(QuantumRegister(3), a, b, c) + qc.h(range(3)) + qc = pm.run(qc) + target = {"a": {0: 10000}, "b": {0: 10000}, "c": {0: 10000}} + cases.append(("no measure", qc, target)) + + for title, qc, target in cases: + with self.subTest(title): + sampler = BackendSamplerV2(backend=backend, options=self._options) + result = sampler.run([qc], shots=self._shots).result() + self.assertEqual(len(result), 1) + data = result[0].data + self.assertEqual(len(data), 3) + for creg in qc.cregs: + self.assertTrue(hasattr(data, creg.name)) + self._assert_allclose(getattr(data, creg.name), np.array(target[creg.name])) + + @combine(backend=BACKENDS_V2) def test_circuit_with_aliased_cregs(self, backend): """Test for circuit with aliased classical registers.""" q = QuantumRegister(3, "q") @@ -644,6 +1237,47 @@ def test_circuit_with_aliased_cregs(self, backend): self.assertTrue(hasattr(data, creg_name)) self._assert_allclose(getattr(data, creg_name), np.array(creg)) + @combine(backend=BACKENDS_V1) + def test_circuit_with_aliased_cregs_v1(self, backend): + """Test for circuit with aliased classical registers.""" + q = QuantumRegister(3, "q") + c1 = ClassicalRegister(1, "c1") + c2 = ClassicalRegister(1, "c2") + + qc = QuantumCircuit(q, c1, c2) + qc.ry(np.pi / 4, 2) + qc.cx(2, 1) + qc.cx(0, 1) + qc.h(0) + qc.measure(0, c1) + qc.measure(1, c2) + qc.z(2).c_if(c1, 1) + qc.x(2).c_if(c2, 1) + qc2 = QuantumCircuit(5, 5) + qc2.compose(qc, [0, 2, 3], [2, 4], inplace=True) + cregs = [creg.name for creg in qc2.cregs] + target = { + cregs[0]: {0: 4255, 4: 4297, 16: 720, 20: 726}, + cregs[1]: {0: 5000, 1: 5000}, + cregs[2]: {0: 8500, 1: 1500}, + } + + sampler = BackendSamplerV2(backend=backend, options=self._options) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + qc2 = pm.run(qc2) + result = sampler.run([qc2], shots=self._shots).result() + self.assertEqual(len(result), 1) + data = result[0].data + self.assertEqual(len(data), 3) + for creg_name, creg in target.items(): + self.assertTrue(hasattr(data, creg_name)) + self._assert_allclose(getattr(data, creg_name), np.array(creg)) + @combine(backend=BACKENDS) def test_no_cregs(self, backend): """Test that the sampler works when there are no classical register in the circuit.""" @@ -670,7 +1304,7 @@ def test_empty_creg(self, backend): result = sampler.run([qc], shots=self._shots).result() self.assertEqual(result[0].data.c1.array.shape, (self._shots, 0)) - @combine(backend=BACKENDS) + @combine(backend=BACKENDS_V2) def test_diff_shots(self, backend): """Test of pubs with different shots""" pm = generate_preset_pass_manager(optimization_level=0, backend=backend) @@ -688,6 +1322,29 @@ def test_diff_shots(self, backend): self.assertEqual(result[1].data.meas.num_shots, shots2) self._assert_allclose(result[1].data.meas, np.array(target2)) + @combine(backend=BACKENDS_V1) + def test_diff_shots_v1(self, backend): + """Test of pubs with different shots""" + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level=0, backend=backend) + + bell, _, target = self._cases[1] + bell = pm.run(bell) + sampler = BackendSamplerV2(backend=backend, options=self._options) + shots2 = self._shots + 2 + target2 = {k: v + 1 for k, v in target.items()} + job = sampler.run([(bell, None, self._shots), (bell, None, shots2)]) + result = job.result() + self.assertEqual(len(result), 2) + self.assertEqual(result[0].data.meas.num_shots, self._shots) + self._assert_allclose(result[0].data.meas, np.array(target)) + self.assertEqual(result[1].data.meas.num_shots, shots2) + self._assert_allclose(result[1].data.meas, np.array(target2)) + def test_job_size_limit_backend_v2(self): """Test BackendSamplerV2 respects backend's job size limit.""" @@ -714,10 +1371,9 @@ def max_circuits(self): def test_job_size_limit_backend_v1(self): """Test BackendSamplerV2 respects backend's job size limit.""" - backend = Fake7QPulseV1() - config = backend.configuration() - config.max_experiments = 1 - backend._configuration = config + backend = GenericBackendV2( + 2, calibrate_instructions=True, basis_gates=["cx", "u1", "u2", "u3"], seed=42 + ) qc = QuantumCircuit(1) qc.measure_all() qc2 = QuantumCircuit(1) @@ -749,6 +1405,21 @@ def test_iter_pub(self): self._assert_allclose(result[0].data.meas, np.array({0: self._shots})) self._assert_allclose(result[1].data.meas, np.array({1: self._shots})) + def test_metadata(self): + """Test for metadata""" + qc = QuantumCircuit(2) + qc.measure_all() + qc2 = qc.copy() + qc2.metadata = {"a": 1} + backend = BasicSimulator() + sampler = BackendSamplerV2(backend=backend) + result = sampler.run([(qc, None, 10), (qc2, None, 20)]).result() + + self.assertEqual(len(result), 2) + self.assertEqual(result.metadata, {"version": 2}) + self.assertEqual(result[0].metadata, {"shots": 10, "circuit_metadata": qc.metadata}) + self.assertEqual(result[1].metadata, {"shots": 20, "circuit_metadata": qc2.metadata}) + if __name__ == "__main__": unittest.main() diff --git a/test/python/primitives/test_primitive.py b/test/python/primitives/test_primitive.py index f0401e771448..fb96081fa001 100644 --- a/test/python/primitives/test_primitive.py +++ b/test/python/primitives/test_primitive.py @@ -21,7 +21,7 @@ from qiskit.circuit.random import random_circuit from qiskit.primitives.base import validation from qiskit.primitives.utils import _circuit_key -from qiskit.providers.fake_provider import Fake20QV1 +from qiskit.providers.fake_provider import GenericBackendV2 from test import QiskitTestCase # pylint: disable=wrong-import-order @@ -142,7 +142,11 @@ def test_with_scheduling(n): qc = QuantumCircuit(1) qc.x(0) qc.add_calibration("x", qubits=(0,), schedule=custom_gate) - return transpile(qc, Fake20QV1(), scheduling_method="alap") + + backend = GenericBackendV2( + num_qubits=2, basis_gates=["id", "u1", "u2", "u3", "cx"], seed=42 + ) + return transpile(qc, backend, scheduling_method="alap", optimization_level=1) keys = [_circuit_key(test_with_scheduling(i)) for i in range(1, 5)] self.assertEqual(len(keys), len(set(keys))) diff --git a/test/python/primitives/test_statevector_estimator.py b/test/python/primitives/test_statevector_estimator.py index 1ed2d42e0e3b..4eaa70e07a07 100644 --- a/test/python/primitives/test_statevector_estimator.py +++ b/test/python/primitives/test_statevector_estimator.py @@ -129,7 +129,7 @@ def test_run_single_circuit_observable(self): self.subTest(f"{val}") result = est.run([(qc, op, val)]).result() np.testing.assert_allclose(result[0].data.evs, target) - self.assertEqual(result[0].metadata["precision"], 0) + self.assertEqual(result[0].metadata["target_precision"], 0) with self.subTest("One parameter"): param = Parameter("x") @@ -145,7 +145,7 @@ def test_run_single_circuit_observable(self): self.subTest(f"{val}") result = est.run([(qc, op, val)]).result() np.testing.assert_allclose(result[0].data.evs, target) - self.assertEqual(result[0].metadata["precision"], 0) + self.assertEqual(result[0].metadata["target_precision"], 0) with self.subTest("More than one parameter"): qc = self.psi[0] @@ -162,7 +162,7 @@ def test_run_single_circuit_observable(self): self.subTest(f"{val}") result = est.run([(qc, op, val)]).result() np.testing.assert_allclose(result[0].data.evs, target) - self.assertEqual(result[0].metadata["precision"], 0) + self.assertEqual(result[0].metadata["target_precision"], 0) def test_run_1qubit(self): """Test for 1-qubit cases""" @@ -290,6 +290,23 @@ def test_iter_pub(self): np.testing.assert_allclose(result[0].data.evs, [-1.284366511861733]) np.testing.assert_allclose(result[1].data.evs, [-1.284366511861733]) + def test_metadata(self): + """Test for metadata""" + qc = QuantumCircuit(2) + qc2 = QuantumCircuit(2) + qc2.metadata = {"a": 1} + estimator = StatevectorEstimator() + result = estimator.run([(qc, "ZZ"), (qc2, "ZZ")], precision=0.1).result() + + self.assertEqual(len(result), 2) + self.assertEqual(result.metadata, {"version": 2}) + self.assertEqual( + result[0].metadata, {"target_precision": 0.1, "circuit_metadata": qc.metadata} + ) + self.assertEqual( + result[1].metadata, {"target_precision": 0.1, "circuit_metadata": qc2.metadata} + ) + if __name__ == "__main__": unittest.main() diff --git a/test/python/primitives/test_statevector_sampler.py b/test/python/primitives/test_statevector_sampler.py index c065871025d7..a782aafaeaf5 100644 --- a/test/python/primitives/test_statevector_sampler.py +++ b/test/python/primitives/test_statevector_sampler.py @@ -280,6 +280,11 @@ def test_run_errors(self): qc3 = QuantumCircuit(1, 1) with qc3.for_loop(range(5)): qc3.h(0) + qc4 = QuantumCircuit(2, 2) + qc4.h(0) + qc4.measure(1, 1) + qc4.x(0).c_if(1, 1) + qc4.measure(0, 0) sampler = StatevectorSampler() with self.subTest("set parameter values to a non-parameterized circuit"): @@ -301,6 +306,9 @@ def test_run_errors(self): with self.subTest("with control flow"): with self.assertRaises(QiskitError): _ = sampler.run([qc3]).result() + with self.subTest("with c_if"): + with self.assertRaises(QiskitError): + _ = sampler.run([qc4]).result() with self.subTest("negative shots, run arg"): with self.assertRaises(ValueError): _ = sampler.run([qc1], shots=-1).result() @@ -584,17 +592,21 @@ def test_circuit_with_aliased_cregs(self): c2 = ClassicalRegister(1, "c2") qc = QuantumCircuit(q, c1, c2) - qc.ry(np.pi / 4, 2) - qc.cx(2, 1) - qc.cx(0, 1) - qc.h(0) - qc.measure(0, c1) - qc.measure(1, c2) qc.z(2).c_if(c1, 1) qc.x(2).c_if(c2, 1) qc2 = QuantumCircuit(5, 5) qc2.compose(qc, [0, 2, 3], [2, 4], inplace=True) - cregs = [creg.name for creg in qc2.cregs] + # Note: qc2 has aliased cregs, c0 -> c[2] and c1 -> c[4]. + # copy_empty_like copies the aliased cregs of qc2 to qc3. + qc3 = QuantumCircuit.copy_empty_like(qc2) + qc3.ry(np.pi / 4, 2) + qc3.cx(2, 1) + qc3.cx(0, 1) + qc3.h(0) + qc3.measure(0, 2) + qc3.measure(1, 4) + self.assertEqual(len(qc3.cregs), 3) + cregs = [creg.name for creg in qc3.cregs] target = { cregs[0]: {0: 4255, 4: 4297, 16: 720, 20: 726}, cregs[1]: {0: 5000, 1: 5000}, @@ -602,7 +614,7 @@ def test_circuit_with_aliased_cregs(self): } sampler = StatevectorSampler(seed=self._seed) - result = sampler.run([qc2], shots=self._shots).result() + result = sampler.run([qc3], shots=self._shots).result() self.assertEqual(len(result), 1) data = result[0].data self.assertEqual(len(data), 3) @@ -636,6 +648,20 @@ def test_iter_pub(self): self._assert_allclose(result[0].data.meas, np.array({0: self._shots})) self._assert_allclose(result[1].data.meas, np.array({1: self._shots})) + def test_metadata(self): + """Test for metadata""" + qc = QuantumCircuit(2) + qc.measure_all() + qc2 = qc.copy() + qc2.metadata = {"a": 1} + sampler = StatevectorSampler() + result = sampler.run([(qc, None, 10), (qc2, None, 20)]).result() + + self.assertEqual(len(result), 2) + self.assertEqual(result.metadata, {"version": 2}) + self.assertEqual(result[0].metadata, {"shots": 10, "circuit_metadata": qc.metadata}) + self.assertEqual(result[1].metadata, {"shots": 20, "circuit_metadata": qc2.metadata}) + if __name__ == "__main__": unittest.main() diff --git a/test/python/providers/fake_provider/test_fake_backends.py b/test/python/providers/fake_provider/test_fake_backends.py index c12be3584fc2..72c9675e1ce7 100644 --- a/test/python/providers/fake_provider/test_fake_backends.py +++ b/test/python/providers/fake_provider/test_fake_backends.py @@ -15,7 +15,7 @@ import unittest from qiskit import QuantumRegister, ClassicalRegister, QuantumCircuit, transpile -from qiskit.providers.fake_provider import Fake5QV1, GenericBackendV2 +from qiskit.providers.fake_provider import GenericBackendV2 from qiskit.utils import optionals from test import QiskitTestCase # pylint: disable=wrong-import-order @@ -36,9 +36,9 @@ class FakeBackendsTest(QiskitTestCase): """fake backends test.""" @unittest.skipUnless(optionals.HAS_AER, "qiskit-aer is required to run this test") - def test_fake_backends_get_kwargs(self): + def test_fake_backends_get_kwargs_v1(self): """Fake backends honor kwargs passed.""" - backend = Fake5QV1() + backend = GenericBackendV2(num_qubits=5, seed=42) qc = QuantumCircuit(2) qc.x(range(0, 2)) @@ -57,6 +57,7 @@ def test_fake_backend_v2_noise_model_always_present(self): qc = QuantumCircuit(1) qc.x(0) qc.measure_all() + res = backend.run(qc, shots=1000).result().get_counts() # Assert noise was present and result wasn't ideal self.assertNotEqual(res, {"1": 1000}) diff --git a/test/python/providers/fake_provider/test_generic_backend_v2.py b/test/python/providers/fake_provider/test_generic_backend_v2.py index 70ac50f659c9..42f46b7d7851 100644 --- a/test/python/providers/fake_provider/test_generic_backend_v2.py +++ b/test/python/providers/fake_provider/test_generic_backend_v2.py @@ -35,17 +35,17 @@ def setUp(self): def test_supported_basis_gates(self): """Test that target raises error if basis_gate not in ``supported_names``.""" with self.assertRaises(QiskitError): - GenericBackendV2(num_qubits=8, basis_gates=["cx", "id", "rz", "sx", "zz"]) + GenericBackendV2(num_qubits=8, basis_gates=["cx", "id", "rz", "sx", "zz"], seed=42) def test_cx_1Q(self): """Test failing with a backend with single qubit but with a two-qubit basis gate""" with self.assertRaises(QiskitError): - GenericBackendV2(num_qubits=1, basis_gates=["cx", "id"]) + GenericBackendV2(num_qubits=1, basis_gates=["cx", "id"], seed=42) def test_ccx_2Q(self): """Test failing with a backend with two qubits but with a three-qubit basis gate""" with self.assertRaises(QiskitError): - GenericBackendV2(num_qubits=2, basis_gates=["ccx", "id"]) + GenericBackendV2(num_qubits=2, basis_gates=["ccx", "id"], seed=42) def test_calibration_no_noise_info(self): """Test failing with a backend with calibration and no noise info""" @@ -55,12 +55,13 @@ def test_calibration_no_noise_info(self): basis_gates=["ccx", "id"], calibrate_instructions=True, noise_info=False, + seed=42, ) def test_no_noise(self): """Test no noise info when parameter is false""" backend = GenericBackendV2( - num_qubits=5, coupling_map=CouplingMap.from_line(5), noise_info=False + num_qubits=5, coupling_map=CouplingMap.from_line(5), noise_info=False, seed=42 ) qc = QuantumCircuit(5) qc.h(0) @@ -75,7 +76,7 @@ def test_no_noise(self): def test_no_noise_fully_connected(self): """Test no noise info when parameter is false""" - backend = GenericBackendV2(num_qubits=5, noise_info=False) + backend = GenericBackendV2(num_qubits=5, noise_info=False, seed=42) qc = QuantumCircuit(5) qc.h(0) qc.cx(0, 1) @@ -94,6 +95,7 @@ def test_no_info(self): coupling_map=CouplingMap.from_line(5), noise_info=False, pulse_channels=False, + seed=42, ) qc = QuantumCircuit(5) qc.h(0) @@ -109,7 +111,7 @@ def test_no_info(self): def test_no_pulse_channels(self): """Test no/empty pulse channels when parameter is false""" backend = GenericBackendV2( - num_qubits=5, coupling_map=CouplingMap.from_line(5), pulse_channels=False + num_qubits=5, coupling_map=CouplingMap.from_line(5), pulse_channels=False, seed=42 ) qc = QuantumCircuit(5) qc.h(0) @@ -125,12 +127,12 @@ def test_no_pulse_channels(self): def test_operation_names(self): """Test that target basis gates include "delay", "measure" and "reset" even if not provided by user.""" - target = GenericBackendV2(num_qubits=8) + target = GenericBackendV2(num_qubits=8, seed=42) op_names = list(target.operation_names) op_names.sort() self.assertEqual(op_names, ["cx", "delay", "id", "measure", "reset", "rz", "sx", "x"]) - target = GenericBackendV2(num_qubits=8, basis_gates=["ecr", "id", "rz", "sx", "x"]) + target = GenericBackendV2(num_qubits=8, basis_gates=["ecr", "id", "rz", "sx", "x"], seed=42) op_names = list(target.operation_names) op_names.sort() self.assertEqual(op_names, ["delay", "ecr", "id", "measure", "reset", "rz", "sx", "x"]) @@ -138,7 +140,7 @@ def test_operation_names(self): def test_incompatible_coupling_map(self): """Test that the size of the coupling map must match num_qubits.""" with self.assertRaises(QiskitError): - GenericBackendV2(num_qubits=5, coupling_map=self.cmap) + GenericBackendV2(num_qubits=5, coupling_map=self.cmap, seed=42) def test_control_flow_operation_names(self): """Test that control flow instructions are added to the target if control_flow is True.""" @@ -147,6 +149,7 @@ def test_control_flow_operation_names(self): basis_gates=["ecr", "id", "rz", "sx", "x"], coupling_map=self.cmap, control_flow=True, + seed=42, ).target op_names = list(target.operation_names) op_names.sort() @@ -176,7 +179,7 @@ def test_default_coupling_map(self): (1, 3), (3, 1), (1, 4), (4, 1), (2, 3), (3, 2), (2, 4), (4, 2), (3, 4), (4, 3)] # fmt: on self.assertEqual( - list(GenericBackendV2(num_qubits=5).coupling_map.get_edges()), + list(GenericBackendV2(num_qubits=5, seed=42).coupling_map.get_edges()), reference_cmap, ) @@ -191,7 +194,7 @@ def test_run(self): qc.cx(qr[0], qr[k]) qc.measure(qr, cr) - backend = GenericBackendV2(num_qubits=5, basis_gates=["cx", "id", "rz", "sx", "x"]) + backend = GenericBackendV2(num_qubits=5, basis_gates=["cx", "id", "rz", "sx", "x"], seed=42) tqc = transpile(qc, backend=backend, optimization_level=3, seed_transpiler=42) result = backend.run(tqc, seed_simulator=42, shots=1000).result() counts = result.get_counts() @@ -214,7 +217,7 @@ def test_duration_defaults(self): "rxx": (7.992e-08, 8.99988e-07), } for _ in range(20): - target = GenericBackendV2(num_qubits=2, basis_gates=basis_gates).target + target = GenericBackendV2(num_qubits=2, basis_gates=basis_gates, seed=42).target for inst in target: for qargs in target.qargs_for_operation_name(inst): duration = target[inst][qargs].duration diff --git a/test/python/providers/test_backend_v2.py b/test/python/providers/test_backend_v2.py index 70330085b1ab..df5f7b9abdea 100644 --- a/test/python/providers/test_backend_v2.py +++ b/test/python/providers/test_backend_v2.py @@ -41,7 +41,7 @@ class TestBackendV2(QiskitTestCase): def setUp(self): super().setUp() - self.backend = GenericBackendV2(num_qubits=2, seed=42, basis_gates=["rx", "u"]) + self.backend = GenericBackendV2(num_qubits=2, basis_gates=["rx", "u"], seed=42) cx_props = { (0, 1): InstructionProperties(duration=5.23e-7, error=0.00098115), } @@ -127,9 +127,9 @@ def test_transpile(self, opt_level): ) def test_5q_ghz(self, opt_level, gate, bidirectional): if bidirectional: - backend = GenericBackendV2(num_qubits=5) + backend = GenericBackendV2(num_qubits=5, seed=42) else: - backend = GenericBackendV2(num_qubits=5, coupling_map=TENERIFE_CMAP) + backend = GenericBackendV2(num_qubits=5, coupling_map=TENERIFE_CMAP, seed=42) qc = QuantumCircuit(5) qc.h(0) getattr(qc, gate)(0, 1) @@ -147,7 +147,7 @@ def test_transpile_respects_arg_constraints(self): qc = QuantumCircuit(2) qc.h(0) qc.cx(1, 0) - tqc = transpile(qc, self.backend) + tqc = transpile(qc, self.backend, optimization_level=1) self.assertTrue(Operator.from_circuit(tqc).equiv(qc)) # Below is done to check we're decomposing cx(1, 0) with extra # rotations to correct for direction. However because of fp @@ -163,7 +163,7 @@ def test_transpile_respects_arg_constraints(self): qc = QuantumCircuit(2) qc.h(0) qc.ecr(0, 1) - tqc = transpile(qc, self.backend) + tqc = transpile(qc, self.backend, optimization_level=1) self.assertTrue(Operator.from_circuit(tqc).equiv(qc)) self.assertEqual(tqc.count_ops(), {"ecr": 1, "u": 4}) self.assertMatchesTargetConstraints(tqc, self.backend.target) @@ -173,7 +173,7 @@ def test_transpile_relies_on_gate_direction(self): qc = QuantumCircuit(2) qc.h(0) qc.ecr(0, 1) - tqc = transpile(qc, self.backend) + tqc = transpile(qc, self.backend, optimization_level=1) expected = QuantumCircuit(2) expected.u(0, 0, -math.pi, 0) expected.u(math.pi / 2, 0, 0, 1) @@ -191,7 +191,7 @@ def test_transpile_mumbai_target(self): qc.h(0) qc.cx(1, 0) qc.measure_all() - tqc = transpile(qc, backend) + tqc = transpile(qc, backend, optimization_level=1) qr = QuantumRegister(27, "q") cr = ClassicalRegister(2, "meas") expected = QuantumCircuit(qr, cr, global_phase=math.pi / 4) @@ -207,7 +207,7 @@ def test_transpile_mumbai_target(self): @data(0, 1, 2, 3, 4) def test_drive_channel(self, qubit): """Test getting drive channel with qubit index.""" - backend = GenericBackendV2(num_qubits=5) + backend = GenericBackendV2(num_qubits=5, seed=42) chan = backend.drive_channel(qubit) ref = channels.DriveChannel(qubit) self.assertEqual(chan, ref) @@ -215,7 +215,7 @@ def test_drive_channel(self, qubit): @data(0, 1, 2, 3, 4) def test_measure_channel(self, qubit): """Test getting measure channel with qubit index.""" - backend = GenericBackendV2(num_qubits=5) + backend = GenericBackendV2(num_qubits=5, seed=42) chan = backend.measure_channel(qubit) ref = channels.MeasureChannel(qubit) self.assertEqual(chan, ref) @@ -223,7 +223,7 @@ def test_measure_channel(self, qubit): @data(0, 1, 2, 3, 4) def test_acquire_channel(self, qubit): """Test getting acquire channel with qubit index.""" - backend = GenericBackendV2(num_qubits=5) + backend = GenericBackendV2(num_qubits=5, seed=42) chan = backend.acquire_channel(qubit) ref = channels.AcquireChannel(qubit) self.assertEqual(chan, ref) @@ -241,7 +241,7 @@ def test_control_channel(self, qubits): (1, 0): 1, (0, 1): 0, } - backend = GenericBackendV2(num_qubits=5, coupling_map=BOGOTA_CMAP) + backend = GenericBackendV2(num_qubits=5, coupling_map=BOGOTA_CMAP, seed=42) chan = backend.control_channel(qubits)[0] ref = channels.ControlChannel(bogota_cr_channels_map[qubits]) self.assertEqual(chan, ref) diff --git a/test/python/providers/test_backendconfiguration.py b/test/python/providers/test_backendconfiguration.py index 5ba727fd660d..82bbd1c6847f 100644 --- a/test/python/providers/test_backendconfiguration.py +++ b/test/python/providers/test_backendconfiguration.py @@ -12,6 +12,9 @@ """ Test that the PulseBackendConfiguration methods work as expected with a mocked Pulse backend. """ +# TODO the full file can be removed once BackendV1 is removed, since it is the +# only one with backend.configuration() + import collections import copy @@ -26,7 +29,8 @@ class TestBackendConfiguration(QiskitTestCase): def setUp(self): super().setUp() - backend = FakeOpenPulse2Q() + with self.assertWarns(DeprecationWarning): + backend = FakeOpenPulse2Q() self.config = backend.configuration() def test_simple_config(self): @@ -60,7 +64,8 @@ def test_hamiltonian(self): {k: var * 1e-9 for k, var in ref_vars.items()}, ) # 3Q doesn't offer a hamiltonian -- test that we get a reasonable response - backend_3q = FakeOpenPulse3Q() + with self.assertWarns(DeprecationWarning): + backend_3q = FakeOpenPulse3Q() self.assertEqual(backend_3q.configuration().hamiltonian, None) def test_get_channels(self): @@ -80,7 +85,8 @@ def test_get_channel_qubits(self): """Test to get all qubits operated on a given channel.""" self.assertEqual(self.config.get_channel_qubits(channel=DriveChannel(0)), [0]) self.assertEqual(self.config.get_channel_qubits(channel=ControlChannel(0)), [0, 1]) - backend_3q = FakeOpenPulse3Q() + with self.assertWarns(DeprecationWarning): + backend_3q = FakeOpenPulse3Q() self.assertEqual(backend_3q.configuration().get_channel_qubits(ControlChannel(2)), [2, 1]) self.assertEqual(backend_3q.configuration().get_channel_qubits(ControlChannel(1)), [1, 0]) with self.assertRaises(BackendConfigurationError): @@ -107,7 +113,8 @@ def test_get_qubit_channels(self): ], ) ) - backend_3q = FakeOpenPulse3Q() + with self.assertWarns(DeprecationWarning): + backend_3q = FakeOpenPulse3Q() self.assertTrue( self._test_lists_equal( actual=backend_3q.configuration().get_qubit_channels(1), @@ -178,7 +185,8 @@ def test_deepcopy(self): def test_u_channel_lo_scale(self): """Ensure that u_channel_lo scale is a complex number""" - valencia_conf = Fake27QPulseV1().configuration() + with self.assertWarns(DeprecationWarning): + valencia_conf = Fake27QPulseV1().configuration() self.assertTrue(isinstance(valencia_conf.u_channel_lo[0][0].scale, complex)) def test_processor_type(self): diff --git a/test/python/providers/test_backendproperties.py b/test/python/providers/test_backendproperties.py index b1455bd9a320..ac024973133e 100644 --- a/test/python/providers/test_backendproperties.py +++ b/test/python/providers/test_backendproperties.py @@ -22,12 +22,13 @@ class BackendpropertiesTestCase(QiskitTestCase): """Test usability methods of backend.properties().""" - backend = Fake5QV1() - backend_name = "fake_ourense" + # TODO the full file can be removed once BackendV1 is removed, since it is the + # only one with backend.properties() def setUp(self): super().setUp() - self.backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + self.backend = Fake5QV1() self.properties = self.backend.properties() self.ref_gate = next( g for g in self.backend.configuration().basis_gates if g not in ["id", "rz"] diff --git a/test/python/providers/test_backendstatus.py b/test/python/providers/test_backendstatus.py index 8372108408ac..2cfa31791de3 100644 --- a/test/python/providers/test_backendstatus.py +++ b/test/python/providers/test_backendstatus.py @@ -35,7 +35,8 @@ def test_repr(self): def test_fake_backend_status(self): """Test backend status for one of the fake backends""" - fake_backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + fake_backend = Fake5QV1() backend_status = fake_backend.status() self.assertIsInstance(backend_status, BackendStatus) diff --git a/test/python/providers/test_fake_backends.py b/test/python/providers/test_fake_backends.py index 1a1c55d1ee2d..6d8716359bcc 100644 --- a/test/python/providers/test_fake_backends.py +++ b/test/python/providers/test_fake_backends.py @@ -78,12 +78,13 @@ from qiskit.transpiler.coupling import CouplingMap from test.utils.base import QiskitTestCase # pylint: disable=wrong-import-order -BACKENDS = [Fake5QV1(), Fake20QV1(), Fake7QPulseV1(), Fake27QPulseV1(), Fake127QPulseV1()] +with warnings.catch_warnings(): + BACKENDS = [Fake5QV1(), Fake20QV1(), Fake7QPulseV1(), Fake27QPulseV1(), Fake127QPulseV1()] BACKENDS_V2 = [] for n in [5, 7, 16, 20, 27, 65, 127]: cmap = CouplingMap.from_ring(n) - BACKENDS_V2.append(GenericBackendV2(num_qubits=n, coupling_map=cmap)) + BACKENDS_V2.append(GenericBackendV2(num_qubits=n, coupling_map=cmap, seed=42)) @ddt @@ -129,12 +130,15 @@ def test_circuit_on_fake_backend(self, backend, optimization_level): self.skipTest( f"Unable to run fake_backend {backend.configuration().backend_name} without qiskit-aer" ) - job = backend.run( - transpile( + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + transpiled = transpile( self.circuit, backend, seed_transpiler=42, optimization_level=optimization_level - ), - seed_simulator=42, - ) + ) + job = backend.run(transpiled, seed_simulator=42) result = job.result() counts = result.get_counts() max_count = max(counts.items(), key=operator.itemgetter(1))[0] @@ -142,15 +146,18 @@ def test_circuit_on_fake_backend(self, backend, optimization_level): def test_qobj_failure(self): backend = BACKENDS[-1] - tqc = transpile(self.circuit, backend) with self.assertWarns(DeprecationWarning): + tqc = transpile(self.circuit, backend) qobj = assemble(tqc, backend) with self.assertRaises(QiskitError): backend.run(qobj) @data(*BACKENDS) def test_to_dict_properties(self, backend): - properties = backend.properties() + with warnings.catch_warnings(): + # The class QobjExperimentHeader is deprecated + warnings.filterwarnings("ignore", category=DeprecationWarning, module="qiskit") + properties = backend.properties() if properties: self.assertIsInstance(backend.properties().to_dict(), dict) else: @@ -189,7 +196,7 @@ def test_to_dict_configuration(self, backend): self.assertIsInstance(configuration.to_dict(), dict) - @data(BACKENDS) + @data(*BACKENDS) def test_defaults_to_dict(self, backend): if hasattr(backend, "defaults"): defaults = backend.defaults() @@ -206,7 +213,8 @@ def test_defaults_to_dict(self, backend): self.skipTest(f"Backend {backend} does not have defaults") def test_delay_circuit(self): - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() backend.configuration().timing_constraints = { "acquire_alignment": 1, "granularity": 1, @@ -218,12 +226,18 @@ def test_delay_circuit(self): qc.x(1) qc.delay(250, 1, unit="ns") qc.measure_all() - res = transpile(qc, backend) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + res = transpile(qc, backend) self.assertIn("delay", res.count_ops()) @data(0, 1, 2, 3) def test_converter(self, opt_level): - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() backend_v2 = BackendV2Converter(backend) self.assertIsInstance(backend_v2, BackendV2) res = transpile(self.circuit, backend_v2, optimization_level=opt_level) @@ -237,7 +251,8 @@ def test_converter(self, opt_level): self.assertEqual(max_count, "11") def test_converter_delay_circuit(self): - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() backend.configuration().timing_constraints = { "acquire_alignment": 1, "granularity": 1, @@ -256,8 +271,8 @@ def test_converter_delay_circuit(self): def test_converter_with_missing_gate_property(self): """Test converting to V2 model with irregular backend data.""" - backend = FakeOpenPulse2Q() - + with self.assertWarns(DeprecationWarning): + backend = FakeOpenPulse2Q() # The backend includes pulse calibration definition for U2, but its property is gone. # Note that u2 is a basis gate of this device. # Since gate property is not provided, the gate broadcasts to all qubits as ideal instruction. @@ -268,9 +283,11 @@ def test_converter_with_missing_gate_property(self): self.assertDictEqual(backend_v2.target["u2"], {None: None}) def test_non_cx_tests(self): - backend = GenericBackendV2(num_qubits=5, basis_gates=["cz", "x", "sx", "id", "rz"]) + backend = GenericBackendV2(num_qubits=5, basis_gates=["cz", "x", "sx", "id", "rz"], seed=42) self.assertIsInstance(backend.target.operation_from_name("cz"), CZGate) - backend = GenericBackendV2(num_qubits=5, basis_gates=["ecr", "x", "sx", "id", "rz"]) + backend = GenericBackendV2( + num_qubits=5, basis_gates=["ecr", "x", "sx", "id", "rz"], seed=42 + ) self.assertIsInstance(backend.target.operation_from_name("ecr"), ECRGate) @unittest.skipUnless(optionals.HAS_AER, "Aer required for this test") @@ -521,11 +538,12 @@ def __init__(self, num_ctrl_qubits, ctrl_state=None): def test_filter_faulty_qubits_backend_v2_converter(self): """Test faulty qubits in v2 conversion.""" - backend = Fake127QPulseV1() - # Get properties dict to make it easier to work with the properties API - # is difficult to edit because of the multiple layers of nesting and - # different object types - props_dict = backend.properties().to_dict() + with self.assertWarns(DeprecationWarning): + backend = Fake127QPulseV1() + # Get properties dict to make it easier to work with the properties API + # is difficult to edit because of the multiple layers of nesting and + # different object types + props_dict = backend.properties().to_dict() for i in range(62, 67): non_operational = { "date": datetime.datetime.now(datetime.timezone.utc), @@ -534,7 +552,8 @@ def test_filter_faulty_qubits_backend_v2_converter(self): "value": 0, } props_dict["qubits"][i].append(non_operational) - backend._properties = BackendProperties.from_dict(props_dict) + with self.assertWarns(DeprecationWarning): + backend._properties = BackendProperties.from_dict(props_dict) v2_backend = BackendV2Converter(backend, filter_faulty=True) for i in range(62, 67): for qarg in v2_backend.target.qargs: @@ -542,11 +561,12 @@ def test_filter_faulty_qubits_backend_v2_converter(self): def test_filter_faulty_qubits_backend_v2_converter_with_delay(self): """Test faulty qubits in v2 conversion.""" - backend = Fake127QPulseV1() - # Get properties dict to make it easier to work with the properties API - # is difficult to edit because of the multiple layers of nesting and - # different object types - props_dict = backend.properties().to_dict() + with self.assertWarns(DeprecationWarning): + backend = Fake127QPulseV1() + # Get properties dict to make it easier to work with the properties API + # is difficult to edit because of the multiple layers of nesting and + # different object types + props_dict = backend.properties().to_dict() for i in range(62, 67): non_operational = { "date": datetime.datetime.now(datetime.timezone.utc), @@ -555,7 +575,8 @@ def test_filter_faulty_qubits_backend_v2_converter_with_delay(self): "value": 0, } props_dict["qubits"][i].append(non_operational) - backend._properties = BackendProperties.from_dict(props_dict) + with self.assertWarns(DeprecationWarning): + backend._properties = BackendProperties.from_dict(props_dict) v2_backend = BackendV2Converter(backend, filter_faulty=True, add_delay=True) for i in range(62, 67): for qarg in v2_backend.target.qargs: @@ -584,17 +605,19 @@ def test_backend_v2_converter_without_delay(self): (4, 2), (4, 3), } - - backend = BackendV2Converter(backend=Fake5QV1(), filter_faulty=True, add_delay=False) + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() + backend = BackendV2Converter(backend=backend, filter_faulty=True, add_delay=False) self.assertEqual(backend.target.qargs, expected) def test_backend_v2_converter_with_meaningless_gate_config(self): """Test backend with broken gate config can be converted only with properties data.""" - backend_v1 = Fake5QV1() - backend_v1.configuration().gates = [ - GateConfig(name="NotValidGate", parameters=[], qasm_def="not_valid_gate") - ] + with self.assertWarns(DeprecationWarning): + backend_v1 = Fake5QV1() + backend_v1.configuration().gates = [ + GateConfig(name="NotValidGate", parameters=[], qasm_def="not_valid_gate") + ] backend_v2 = BackendV2Converter( backend=backend_v1, filter_faulty=True, @@ -608,11 +631,12 @@ def test_backend_v2_converter_with_meaningless_gate_config(self): def test_filter_faulty_qubits_and_gates_backend_v2_converter(self): """Test faulty gates and qubits.""" - backend = Fake127QPulseV1() - # Get properties dict to make it easier to work with the properties API - # is difficult to edit because of the multiple layers of nesting and - # different object types - props_dict = backend.properties().to_dict() + with self.assertWarns(DeprecationWarning): + backend = Fake127QPulseV1() + # Get properties dict to make it easier to work with the properties API + # is difficult to edit because of the multiple layers of nesting and + # different object types + props_dict = backend.properties().to_dict() for i in range(62, 67): non_operational = { "date": datetime.datetime.now(datetime.timezone.utc), @@ -641,7 +665,8 @@ def test_filter_faulty_qubits_and_gates_backend_v2_converter(self): if tuple(gate["qubits"]) in invalid_cx_edges: gate["parameters"].append(non_operational_gate) - backend._properties = BackendProperties.from_dict(props_dict) + with self.assertWarns(DeprecationWarning): + backend._properties = BackendProperties.from_dict(props_dict) v2_backend = BackendV2Converter(backend, filter_faulty=True) for i in range(62, 67): for qarg in v2_backend.target.qargs: @@ -651,7 +676,8 @@ def test_filter_faulty_qubits_and_gates_backend_v2_converter(self): def test_filter_faulty_gates_v2_converter(self): """Test just faulty gates in conversion.""" - backend = Fake127QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake127QPulseV1() # Get properties dict to make it easier to work with the properties API # is difficult to edit because of the multiple layers of nesting and # different object types @@ -676,7 +702,8 @@ def test_filter_faulty_gates_v2_converter(self): if tuple(gate["qubits"]) in invalid_cx_edges: gate["parameters"].append(non_operational_gate) - backend._properties = BackendProperties.from_dict(props_dict) + with self.assertWarns(DeprecationWarning): + backend._properties = BackendProperties.from_dict(props_dict) v2_backend = BackendV2Converter(backend, filter_faulty=True) for i in range(62, 67): self.assertIn((i,), v2_backend.target.qargs) @@ -685,25 +712,29 @@ def test_filter_faulty_gates_v2_converter(self): def test_filter_faulty_no_faults_v2_converter(self): """Test that faulty qubit filtering does nothing with all operational qubits and gates.""" - backend = Fake127QPulseV1() - v2_backend = BackendV2Converter(backend, filter_faulty=True) + with self.assertWarns(DeprecationWarning): + backend = Fake127QPulseV1() + v2_backend = BackendV2Converter(backend, filter_faulty=True) for i in range(v2_backend.num_qubits): self.assertIn((i,), v2_backend.target.qargs) @data(0, 1, 2, 3) def test_faulty_full_path_transpile_connected_cmap(self, opt_level): - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() + props = backend.properties().to_dict() + non_operational_gate = { "date": datetime.datetime.now(datetime.timezone.utc), "name": "operational", "unit": "", "value": 0, } - props = backend.properties().to_dict() for gate in props["gates"]: if tuple(sorted(gate["qubits"])) == (0, 1): gate["parameters"].append(non_operational_gate) - backend._properties = BackendProperties.from_dict(props) + with self.assertWarns(DeprecationWarning): + backend._properties = BackendProperties.from_dict(props) v2_backend = BackendV2Converter(backend, filter_faulty=True) qc = QuantumCircuit(5) for x, y in itertools.product(range(5), range(5)): @@ -715,7 +746,8 @@ def test_faulty_full_path_transpile_connected_cmap(self, opt_level): self.assertNotIn((0, 1), connections) def test_convert_to_target_control_flow(self): - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() properties = backend.properties() configuration = backend.configuration() configuration.supported_instructions = [ @@ -739,7 +771,8 @@ def test_convert_to_target_control_flow(self): self.assertTrue(target.instruction_supported("switch_case", ())) def test_convert_unrelated_supported_instructions(self): - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() properties = backend.properties() configuration = backend.configuration() configuration.supported_instructions = [ diff --git a/test/python/providers/test_faulty_backend.py b/test/python/providers/test_faulty_backend.py index e1a3f9fa179e..bd8db856ec0b 100644 --- a/test/python/providers/test_faulty_backend.py +++ b/test/python/providers/test_faulty_backend.py @@ -26,15 +26,21 @@ class FaultyQubitBackendTestCase(QiskitTestCase): """Test operational-related methods of backend.properties() with Fake7QV1FaultyQ1, which is like Fake7QV1 but with a faulty 1Q""" + # These test can be removed with Fake7QV1FaultyQ1 + backend = Fake7QV1FaultyQ1() def test_operational_false(self): """Test operation status of the qubit. Q1 is non-operational""" - self.assertFalse(self.backend.properties().is_qubit_operational(1)) + with self.assertWarns(DeprecationWarning): + properties = self.backend.properties() + self.assertFalse(properties.is_qubit_operational(1)) def test_faulty_qubits(self): """Test faulty_qubits method.""" - self.assertEqual(self.backend.properties().faulty_qubits(), [1]) + with self.assertWarns(DeprecationWarning): + properties = self.backend.properties() + self.assertEqual(properties.faulty_qubits(), [1]) def test_convert_to_target_with_filter(self): """Test converting legacy data structure to V2 target model with faulty qubits. @@ -43,11 +49,13 @@ def test_convert_to_target_with_filter(self): even though instruction is not provided by the backend, since these are the necessary instructions that the transpiler may assume. """ + with self.assertWarns(DeprecationWarning): + properties = self.backend.properties() # Filter out faulty Q1 target = convert_to_target( configuration=self.backend.configuration(), - properties=self.backend.properties(), + properties=properties, add_delay=True, filter_faulty=True, ) @@ -57,10 +65,13 @@ def test_convert_to_target_with_filter(self): def test_convert_to_target_without_filter(self): """Test converting legacy data structure to V2 target model with faulty qubits.""" + with self.assertWarns(DeprecationWarning): + properties = self.backend.properties() + # Include faulty Q1 even though data could be incomplete target = convert_to_target( configuration=self.backend.configuration(), - properties=self.backend.properties(), + properties=properties, add_delay=True, filter_faulty=False, ) @@ -68,17 +79,20 @@ def test_convert_to_target_without_filter(self): self.assertTrue(target.instruction_supported(operation_name="delay", qargs=(1,))) # Properties are preserved + with self.assertWarns(DeprecationWarning): + properties = self.backend.properties() + self.assertEqual( target.qubit_properties[1].t1, - self.backend.properties().t1(1), + properties.t1(1), ) self.assertEqual( target.qubit_properties[1].t2, - self.backend.properties().t2(1), + properties.t2(1), ) self.assertEqual( target.qubit_properties[1].frequency, - self.backend.properties().frequency(1), + properties.frequency(1), ) @@ -90,12 +104,16 @@ class FaultyGate13BackendTestCase(QiskitTestCase): def test_operational_gate(self): """Test is_gate_operational method.""" - self.assertFalse(self.backend.properties().is_gate_operational("cx", [1, 3])) - self.assertFalse(self.backend.properties().is_gate_operational("cx", [3, 1])) + with self.assertWarns(DeprecationWarning): + properties = self.backend.properties() + self.assertFalse(properties.is_gate_operational("cx", [1, 3])) + self.assertFalse(properties.is_gate_operational("cx", [3, 1])) def test_faulty_gates(self): """Test faulty_gates method.""" - gates = self.backend.properties().faulty_gates() + with self.assertWarns(DeprecationWarning): + properties = self.backend.properties() + gates = properties.faulty_gates() self.assertEqual(len(gates), 2) self.assertEqual([gate.gate for gate in gates], ["cx", "cx"]) self.assertEqual(sorted(gate.qubits for gate in gates), [[1, 3], [3, 1]]) @@ -109,12 +127,16 @@ class FaultyGate01BackendTestCase(QiskitTestCase): def test_operational_gate(self): """Test is_gate_operational method.""" - self.assertFalse(self.backend.properties().is_gate_operational("cx", [0, 1])) - self.assertFalse(self.backend.properties().is_gate_operational("cx", [1, 0])) + with self.assertWarns(DeprecationWarning): + properties = self.backend.properties() + self.assertFalse(properties.is_gate_operational("cx", [0, 1])) + self.assertFalse(properties.is_gate_operational("cx", [1, 0])) def test_faulty_gates(self): """Test faulty_gates method.""" - gates = self.backend.properties().faulty_gates() + with self.assertWarns(DeprecationWarning): + properties = self.backend.properties() + gates = properties.faulty_gates() self.assertEqual(len(gates), 2) self.assertEqual([gate.gate for gate in gates], ["cx", "cx"]) self.assertEqual(sorted(gate.qubits for gate in gates), [[0, 1], [1, 0]]) @@ -129,9 +151,12 @@ class MissingPropertyQubitBackendTestCase(QiskitTestCase): def test_convert_to_target(self): """Test converting legacy data structure to V2 target model with missing qubit property.""" + with self.assertWarns(DeprecationWarning): + properties = self.backend.properties() + target = convert_to_target( configuration=self.backend.configuration(), - properties=self.backend.properties(), + properties=properties, add_delay=True, filter_faulty=True, ) @@ -139,9 +164,9 @@ def test_convert_to_target(self): self.assertIsNone(target.qubit_properties[1].t1) self.assertEqual( target.qubit_properties[1].t2, - self.backend.properties().t2(1), + properties.t2(1), ) self.assertEqual( target.qubit_properties[1].frequency, - self.backend.properties().frequency(1), + properties.frequency(1), ) diff --git a/test/python/providers/test_pulse_defaults.py b/test/python/providers/test_pulse_defaults.py index 33fe9ecbad65..18f849255917 100644 --- a/test/python/providers/test_pulse_defaults.py +++ b/test/python/providers/test_pulse_defaults.py @@ -17,7 +17,7 @@ import numpy as np -from qiskit.providers.fake_provider import FakeOpenPulse2Q +from qiskit.providers.fake_provider import FakeOpenPulse2Q, GenericBackendV2 from test import QiskitTestCase # pylint: disable=wrong-import-order @@ -26,8 +26,13 @@ class TestPulseDefaults(QiskitTestCase): def setUp(self): super().setUp() - self.defs = FakeOpenPulse2Q().defaults() - self.inst_map = self.defs.instruction_schedule_map + with self.assertWarns(DeprecationWarning): + # BackendV2 does not have defaults + self.defs = FakeOpenPulse2Q().defaults() + backend = GenericBackendV2( + 2, calibrate_instructions=True, basis_gates=["cx", "u1", "u2", "u3"], seed=42 + ) + self.inst_map = backend.instruction_schedule_map def test_buffer(self): """Test getting the buffer value.""" diff --git a/test/python/pulse/test_block.py b/test/python/pulse/test_block.py index 3af2d0b510d1..c6a2c2384f64 100644 --- a/test/python/pulse/test_block.py +++ b/test/python/pulse/test_block.py @@ -28,7 +28,8 @@ class BaseTestBlock(QiskitTestCase): def setUp(self): super().setUp() - self.backend = FakeOpenPulse2Q() + with self.assertWarns(DeprecationWarning): + self.backend = FakeOpenPulse2Q() self.test_waveform0 = pulse.Constant(100, 0.1) self.test_waveform1 = pulse.Constant(200, 0.1) diff --git a/test/python/pulse/test_builder.py b/test/python/pulse/test_builder.py index cf029d5d98c2..72a6de11ae08 100644 --- a/test/python/pulse/test_builder.py +++ b/test/python/pulse/test_builder.py @@ -30,7 +30,8 @@ class TestBuilder(QiskitTestCase): def setUp(self): super().setUp() - self.backend = FakeOpenPulse2Q() + with self.assertWarns(DeprecationWarning): + self.backend = FakeOpenPulse2Q() self.configuration = self.backend.configuration() self.defaults = self.backend.defaults() self.inst_map = self.defaults.instruction_schedule_map @@ -689,7 +690,8 @@ def test_measure_all(self): self.assertScheduleEqual(schedule, reference) - backend = Fake127QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake127QPulseV1() num_qubits = backend.configuration().num_qubits with pulse.build(backend) as schedule: regs = pulse.measure_all() @@ -764,7 +766,13 @@ def get_sched(qubit_idx: [int], backend): qc = circuit.QuantumCircuit(2) for idx in qubit_idx: qc.append(circuit.library.U2Gate(0, pi / 2), [idx]) - return compiler.schedule(compiler.transpile(qc, backend=backend), backend) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + transpiled = compiler.transpile(qc, backend=backend, optimization_level=1) + return compiler.schedule(transpiled, backend) with pulse.build(self.backend) as schedule: with pulse.align_sequential(): @@ -784,7 +792,12 @@ def get_sched(qubit_idx: [int], backend): # prepare and schedule circuits that will be used. single_u2_qc = circuit.QuantumCircuit(2) single_u2_qc.append(circuit.library.U2Gate(0, pi / 2), [1]) - single_u2_qc = compiler.transpile(single_u2_qc, self.backend) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + single_u2_qc = compiler.transpile(single_u2_qc, self.backend, optimization_level=1) single_u2_sched = compiler.schedule(single_u2_qc, self.backend) # sequential context @@ -809,7 +822,12 @@ def get_sched(qubit_idx: [int], backend): triple_u2_qc.append(circuit.library.U2Gate(0, pi / 2), [0]) triple_u2_qc.append(circuit.library.U2Gate(0, pi / 2), [1]) triple_u2_qc.append(circuit.library.U2Gate(0, pi / 2), [0]) - triple_u2_qc = compiler.transpile(triple_u2_qc, self.backend) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + triple_u2_qc = compiler.transpile(triple_u2_qc, self.backend, optimization_level=1) align_left_reference = compiler.schedule(triple_u2_qc, self.backend, method="alap") # measurement diff --git a/test/python/pulse/test_builder_v2.py b/test/python/pulse/test_builder_v2.py index 843c8a8447fe..79d3ac5b6020 100644 --- a/test/python/pulse/test_builder_v2.py +++ b/test/python/pulse/test_builder_v2.py @@ -32,9 +32,7 @@ class TestBuilderV2(QiskitTestCase): def setUp(self): super().setUp() self.backend = GenericBackendV2( - num_qubits=27, - coupling_map=MUMBAI_CMAP, - calibrate_instructions=True, + num_qubits=27, coupling_map=MUMBAI_CMAP, calibrate_instructions=True, seed=42 ) def assertScheduleEqual(self, program, target): diff --git a/test/python/pulse/test_instruction_schedule_map.py b/test/python/pulse/test_instruction_schedule_map.py index 3ef2ccaa38e5..d1610d7ebcc0 100644 --- a/test/python/pulse/test_instruction_schedule_map.py +++ b/test/python/pulse/test_instruction_schedule_map.py @@ -100,7 +100,9 @@ def test_has(self): def test_has_from_mock(self): """Test `has` and `assert_has` from mock data.""" - inst_map = FakeOpenPulse2Q().defaults().instruction_schedule_map + with self.assertWarns(DeprecationWarning): + backend = FakeOpenPulse2Q() + inst_map = backend.defaults().instruction_schedule_map self.assertTrue(inst_map.has("u1", [0])) self.assertTrue(inst_map.has("cx", (0, 1))) self.assertTrue(inst_map.has("u3", 0)) @@ -229,7 +231,9 @@ def test_has_gate(self): def test_has_from_mock_gate(self): """Test `has` and `assert_has` from mock data.""" - inst_map = FakeOpenPulse2Q().defaults().instruction_schedule_map + with self.assertWarns(DeprecationWarning): + backend = FakeOpenPulse2Q() + inst_map = backend.defaults().instruction_schedule_map self.assertTrue(inst_map.has(U1Gate(0), [0])) self.assertTrue(inst_map.has(CXGate(), (0, 1))) self.assertTrue(inst_map.has(U3Gate(0, 0, 0), 0)) @@ -531,14 +535,18 @@ def test_callable_sched1(par_b): def test_two_instmaps_equal(self): """Test eq method when two instmaps are identical.""" - instmap1 = Fake7QPulseV1().defaults().instruction_schedule_map + with self.assertWarns(DeprecationWarning): + backend = Fake7QPulseV1() + instmap1 = backend.defaults().instruction_schedule_map instmap2 = copy.deepcopy(instmap1) self.assertEqual(instmap1, instmap2) def test_two_instmaps_different(self): """Test eq method when two instmaps are not identical.""" - instmap1 = Fake7QPulseV1().defaults().instruction_schedule_map + with self.assertWarns(DeprecationWarning): + backend = Fake7QPulseV1() + instmap1 = backend.defaults().instruction_schedule_map instmap2 = copy.deepcopy(instmap1) # override one of instruction @@ -548,7 +556,9 @@ def test_two_instmaps_different(self): def test_instmap_picklable(self): """Test if instmap can be pickled.""" - instmap = Fake7QPulseV1().defaults().instruction_schedule_map + with self.assertWarns(DeprecationWarning): + backend = Fake7QPulseV1() + instmap = backend.defaults().instruction_schedule_map ser_obj = pickle.dumps(instmap) deser_instmap = pickle.loads(ser_obj) @@ -562,7 +572,9 @@ def test_instmap_picklable_with_arguments(self): in which arguments are provided by users in the form of python dict key object that is not picklable. """ - instmap = Fake7QPulseV1().defaults().instruction_schedule_map + with self.assertWarns(DeprecationWarning): + backend = Fake7QPulseV1() + instmap = backend.defaults().instruction_schedule_map param1 = Parameter("P1") param2 = Parameter("P2") @@ -582,14 +594,18 @@ def test_instmap_picklable_with_arguments(self): def test_check_backend_provider_cals(self): """Test if schedules provided by backend provider is distinguishable.""" - instmap = FakeOpenPulse2Q().defaults().instruction_schedule_map + with self.assertWarns(DeprecationWarning): + backend = FakeOpenPulse2Q() + instmap = backend.defaults().instruction_schedule_map publisher = instmap.get("u1", (0,), P0=0).metadata["publisher"] self.assertEqual(publisher, CalibrationPublisher.BACKEND_PROVIDER) def test_check_user_cals(self): """Test if schedules provided by user is distinguishable.""" - instmap = FakeOpenPulse2Q().defaults().instruction_schedule_map + with self.assertWarns(DeprecationWarning): + backend = FakeOpenPulse2Q() + instmap = backend.defaults().instruction_schedule_map test_u1 = Schedule() test_u1 += ShiftPhase(Parameter("P0"), DriveChannel(0)) @@ -601,7 +617,8 @@ def test_check_user_cals(self): def test_has_custom_gate(self): """Test method to check custom gate.""" - backend = FakeOpenPulse2Q() + with self.assertWarns(DeprecationWarning): + backend = FakeOpenPulse2Q() instmap = backend.defaults().instruction_schedule_map self.assertFalse(instmap.has_custom_gate()) diff --git a/test/python/pulse/test_macros.py b/test/python/pulse/test_macros.py index 05937c88982d..6d87320cf480 100644 --- a/test/python/pulse/test_macros.py +++ b/test/python/pulse/test_macros.py @@ -33,12 +33,15 @@ class TestMeasure(QiskitTestCase): def setUp(self): super().setUp() - self.backend = FakeOpenPulse2Q() + with self.assertWarns(DeprecationWarning): + self.backend = FakeOpenPulse2Q() + self.backend_v1 = Fake27QPulseV1() + self.inst_map = self.backend.defaults().instruction_schedule_map - self.backend_v1 = Fake27QPulseV1() self.backend_v2 = GenericBackendV2( num_qubits=27, calibrate_instructions=self.backend_v1.defaults().instruction_schedule_map, + seed=42, ) def test_measure(self): @@ -171,7 +174,9 @@ def test_output_with_measure_v1_and_measure_v2_sched_with_qubit_mem_slots(self): def test_output_with_measure_v1_and_measure_v2_sched_with_meas_map(self): """Test make outputs of measure_v1 and measure_v2 with custom meas_map as list and dict consistent.""" - num_qubits_list_measure_v1 = list(range(Fake27QPulseV1().configuration().num_qubits)) + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() + num_qubits_list_measure_v1 = list(range(backend.configuration().num_qubits)) num_qubits_list_measure_v2 = list(range(self.backend_v2.num_qubits)) sched_with_meas_map_list_v1 = macros.measure( qubits=[0], backend=self.backend_v1, meas_map=[num_qubits_list_measure_v1] @@ -210,11 +215,13 @@ class TestMeasureAll(QiskitTestCase): def setUp(self): super().setUp() - self.backend_v1 = FakeOpenPulse2Q() + with self.assertWarns(DeprecationWarning): + self.backend_v1 = FakeOpenPulse2Q() self.inst_map = self.backend_v1.defaults().instruction_schedule_map self.backend_v2 = GenericBackendV2( num_qubits=2, calibrate_instructions=self.backend_v1.defaults().instruction_schedule_map, + seed=42, ) def test_measure_all(self): diff --git a/test/python/pulse/test_schedule.py b/test/python/pulse/test_schedule.py index 40d637887ed0..5e5676e7c2d9 100644 --- a/test/python/pulse/test_schedule.py +++ b/test/python/pulse/test_schedule.py @@ -61,7 +61,8 @@ def linear(duration, slope, intercept): return slope * x + intercept self.linear = linear - self.config = FakeOpenPulse2Q().configuration() + with self.assertWarns(DeprecationWarning): + self.config = FakeOpenPulse2Q().configuration() class TestScheduleBuilding(BaseTestSchedule): diff --git a/test/python/pulse/test_transforms.py b/test/python/pulse/test_transforms.py index 5918a6e6993d..c16405cff4d1 100644 --- a/test/python/pulse/test_transforms.py +++ b/test/python/pulse/test_transforms.py @@ -46,7 +46,8 @@ class TestAlignMeasures(QiskitTestCase): def setUp(self): super().setUp() - self.backend = FakeOpenPulse2Q() + with self.assertWarns(DeprecationWarning): + self.backend = FakeOpenPulse2Q() self.config = self.backend.configuration() self.inst_map = self.backend.defaults().instruction_schedule_map self.short_pulse = pulse.Waveform( @@ -202,7 +203,8 @@ class TestAddImplicitAcquires(QiskitTestCase): def setUp(self): super().setUp() - self.backend = FakeOpenPulse2Q() + with self.assertWarns(DeprecationWarning): + self.backend = FakeOpenPulse2Q() self.config = self.backend.configuration() self.short_pulse = pulse.Waveform( samples=np.array([0.02739068], dtype=np.complex128), name="p0" diff --git a/test/python/qasm2/test_structure.py b/test/python/qasm2/test_structure.py index 22eff30b38f4..d963eea7e255 100644 --- a/test/python/qasm2/test_structure.py +++ b/test/python/qasm2/test_structure.py @@ -324,6 +324,35 @@ def test_parameterless_gates_accept_parentheses(self): qc.cx(1, 0) self.assertEqual(parsed, qc) + def test_huge_conditions(self): + # Something way bigger than any native integer. + bigint = (1 << 300) + 123456789 + program = f""" + qreg qr[2]; + creg cr[2]; + creg cond[500]; + if (cond=={bigint}) U(0, 0, 0) qr[0]; + if (cond=={bigint}) U(0, 0, 0) qr; + if (cond=={bigint}) reset qr[0]; + if (cond=={bigint}) reset qr; + if (cond=={bigint}) measure qr[0] -> cr[0]; + if (cond=={bigint}) measure qr -> cr; + """ + parsed = qiskit.qasm2.loads(program) + qr, cr = QuantumRegister(2, "qr"), ClassicalRegister(2, "cr") + cond = ClassicalRegister(500, "cond") + qc = QuantumCircuit(qr, cr, cond) + qc.u(0, 0, 0, qr[0]).c_if(cond, bigint) + qc.u(0, 0, 0, qr[0]).c_if(cond, bigint) + qc.u(0, 0, 0, qr[1]).c_if(cond, bigint) + qc.reset(qr[0]).c_if(cond, bigint) + qc.reset(qr[0]).c_if(cond, bigint) + qc.reset(qr[1]).c_if(cond, bigint) + qc.measure(qr[0], cr[0]).c_if(cond, bigint) + qc.measure(qr[0], cr[0]).c_if(cond, bigint) + qc.measure(qr[1], cr[1]).c_if(cond, bigint) + self.assertEqual(parsed, qc) + class TestGateDefinition(QiskitTestCase): def test_simple_definition(self): diff --git a/test/python/qpy/test_circuit_load_from_qpy.py b/test/python/qpy/test_circuit_load_from_qpy.py index a050a70cac5f..8f0cffb36a5f 100644 --- a/test/python/qpy/test_circuit_load_from_qpy.py +++ b/test/python/qpy/test_circuit_load_from_qpy.py @@ -61,8 +61,10 @@ class TestCalibrationPasses(QpyCircuitTestCase): def setUp(self): super().setUp() - # This backend provides CX(0,1) with native ECR direction. - self.inst_map = Fake27QPulseV1().defaults().instruction_schedule_map + # TODO remove context once https://github.com/Qiskit/qiskit/issues/12759 is fixed + with self.assertWarns(DeprecationWarning): + # This backend provides CX(0,1) with native ECR direction. + self.inst_map = Fake27QPulseV1().defaults().instruction_schedule_map @data(0.1, 0.7, 1.5) def test_rzx_calibration(self, angle): @@ -112,7 +114,7 @@ def test_transpile_layout(self, opt_level): qc.h(0) qc.cx(0, 1) qc.measure_all() - backend = GenericBackendV2(num_qubits=127) + backend = GenericBackendV2(num_qubits=127, seed=42) tqc = transpile(qc, backend, optimization_level=opt_level) self.assert_roundtrip_equal(tqc) @@ -126,7 +128,7 @@ def test_transpile_with_routing(self, opt_level): qc.cx(0, 3) qc.cx(0, 4) qc.measure_all() - backend = GenericBackendV2(num_qubits=127) + backend = GenericBackendV2(num_qubits=127, seed=42) tqc = transpile(qc, backend, optimization_level=opt_level) self.assert_roundtrip_equal(tqc) @@ -137,7 +139,7 @@ def test_transpile_layout_explicit_None_final_layout(self, opt_level): qc.h(0) qc.cx(0, 1) qc.measure_all() - backend = GenericBackendV2(num_qubits=127) + backend = GenericBackendV2(num_qubits=127, seed=42) tqc = transpile(qc, backend, optimization_level=opt_level) tqc.layout.final_layout = None self.assert_roundtrip_equal(tqc) @@ -201,7 +203,7 @@ def test_custom_register_name(self, opt_level): qc.cx(0, 3) qc.cx(0, 4) qc.measure_all() - backend = GenericBackendV2(num_qubits=127) + backend = GenericBackendV2(num_qubits=127, seed=42) tqc = transpile(qc, backend, optimization_level=opt_level) self.assert_roundtrip_equal(tqc) @@ -213,7 +215,7 @@ def test_no_register(self, opt_level): qc.h(0) qc.cx(0, 1) qc.measure_all() - backend = GenericBackendV2(num_qubits=127) + backend = GenericBackendV2(num_qubits=127, seed=42) tqc = transpile(qc, backend, optimization_level=opt_level) # Manually validate to deal with qubit equality needing exact objects qpy_file = io.BytesIO() diff --git a/test/python/result/test_mitigators.py b/test/python/result/test_mitigators.py index 3b3e83bce009..8dcdedc433fe 100644 --- a/test/python/result/test_mitigators.py +++ b/test/python/result/test_mitigators.py @@ -119,8 +119,11 @@ def counts_data(circuit, assignment_matrices, shots=1024): def test_mitigation_improvement(self): """Test whether readout mitigation led to more accurate results""" shots = 1024 - assignment_matrices = self.assignment_matrices() - num_qubits = len(assignment_matrices) + with self.assertWarns(DeprecationWarning): + # TODO self.assignment_matrices calls LocalReadoutMitigator, + # which only supports BackendV1 at the moment: + # https://github.com/Qiskit/qiskit/issues/12832 + assignment_matrices = self.assignment_matrices() mitigators = self.mitigators(assignment_matrices) circuit, circuit_name, num_qubits = self.ghz_3_circuit() counts_ideal, counts_noise, probs_noise = self.counts_data( @@ -156,7 +159,8 @@ def test_expectation_improvement(self): """Test whether readout mitigation led to more accurate results and that its standard deviation is increased""" shots = 1024 - assignment_matrices = self.assignment_matrices() + with self.assertWarns(DeprecationWarning): + assignment_matrices = self.assignment_matrices() mitigators = self.mitigators(assignment_matrices) num_qubits = len(assignment_matrices) diagonals = [] @@ -198,7 +202,8 @@ def test_expectation_improvement(self): def test_clbits_parameter(self): """Test whether the clbits parameter is handled correctly""" shots = 10000 - assignment_matrices = self.assignment_matrices() + with self.assertWarns(DeprecationWarning): + assignment_matrices = self.assignment_matrices() mitigators = self.mitigators(assignment_matrices) circuit, _, _ = self.first_qubit_h_3_circuit() counts_ideal, counts_noise, _ = self.counts_data(circuit, assignment_matrices, shots) @@ -233,7 +238,8 @@ def test_clbits_parameter(self): def test_qubits_parameter(self): """Test whether the qubits parameter is handled correctly""" shots = 10000 - assignment_matrices = self.assignment_matrices() + with self.assertWarns(DeprecationWarning): + assignment_matrices = self.assignment_matrices() mitigators = self.mitigators(assignment_matrices) circuit, _, _ = self.first_qubit_h_3_circuit() counts_ideal, counts_noise, _ = self.counts_data(circuit, assignment_matrices, shots) @@ -281,7 +287,8 @@ def test_qubits_parameter(self): def test_repeated_qubits_parameter(self): """Tests the order of mitigated qubits.""" shots = 10000 - assignment_matrices = self.assignment_matrices() + with self.assertWarns(DeprecationWarning): + assignment_matrices = self.assignment_matrices() mitigators = self.mitigators(assignment_matrices, qubits=[0, 1, 2]) circuit, _, _ = self.first_qubit_h_3_circuit() counts_ideal, counts_noise, _ = self.counts_data(circuit, assignment_matrices, shots) @@ -319,7 +326,8 @@ def test_qubits_subset_parameter(self): """Tests mitigation on a subset of the initial set of qubits.""" shots = 10000 - assignment_matrices = self.assignment_matrices() + with self.assertWarns(DeprecationWarning): + assignment_matrices = self.assignment_matrices() mitigators = self.mitigators(assignment_matrices, qubits=[2, 4, 6]) circuit, _, _ = self.first_qubit_h_3_circuit() counts_ideal, counts_noise, _ = self.counts_data(circuit, assignment_matrices, shots) @@ -364,7 +372,8 @@ def test_qubits_subset_parameter(self): def test_from_backend(self): """Test whether a local mitigator can be created directly from backend properties""" - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() num_qubits = len(backend.properties().qubits) probs = TestReadoutMitigation.rng.random((num_qubits, 2)) for qubit_idx, qubit_prop in enumerate(backend.properties().qubits): @@ -422,7 +431,9 @@ def test_error_handling(self): def test_expectation_value_endian(self): """Test that endian for expval is little.""" - mitigators = self.mitigators(self.assignment_matrices()) + with self.assertWarns(DeprecationWarning): + assignment_matrices = self.assignment_matrices() + mitigators = self.mitigators(assignment_matrices) counts = Counts({"10": 3, "11": 24, "00": 74, "01": 923}) for mitigator in mitigators: expval, _ = mitigator.expectation_value(counts, diagonal="IZ", qubits=[0, 1]) @@ -449,7 +460,9 @@ class TestLocalReadoutMitigation(QiskitTestCase): def test_assignment_matrix(self): """Tests that the local mitigator generates the full assignment matrix correctly""" qubits = [7, 2, 3] - assignment_matrices = LocalReadoutMitigator(backend=Fake5QV1())._assignment_mats[0:3] + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() + assignment_matrices = LocalReadoutMitigator(backend=backend)._assignment_mats[0:3] expected_assignment_matrix = np.kron( np.kron(assignment_matrices[2], assignment_matrices[1]), assignment_matrices[0] ) diff --git a/test/python/scheduler/test_basic_scheduler.py b/test/python/scheduler/test_basic_scheduler.py index 16ec00927c67..947a255ddf21 100644 --- a/test/python/scheduler/test_basic_scheduler.py +++ b/test/python/scheduler/test_basic_scheduler.py @@ -46,14 +46,16 @@ class TestBasicSchedule(QiskitTestCase): def setUp(self): super().setUp() - self.backend = FakeOpenPulse2Q() + with self.assertWarns(DeprecationWarning): + self.backend = FakeOpenPulse2Q() self.inst_map = self.backend.defaults().instruction_schedule_map def test_unavailable_defaults(self): """Test backend with unavailable defaults.""" qr = QuantumRegister(1) qc = QuantumCircuit(qr) - backend = FakeBackend(None) + with self.assertWarns(DeprecationWarning): + backend = FakeBackend(None) backend.defaults = backend.configuration self.assertRaises(QiskitError, lambda: schedule(qc, backend)) @@ -252,7 +254,8 @@ def test_3q_schedule(self): # ┌──────┴───┴──────┐ └───────────────┘ ┌─┴─┐┌─────────────────┐ # q0_2: ┤ U2(0.778,0.122) ├───────────────────┤ X ├┤ U2(0.778,0.122) ├ # └─────────────────┘ └───┘└─────────────────┘ - backend = FakeOpenPulse3Q() + with self.assertWarns(DeprecationWarning): + backend = FakeOpenPulse3Q() inst_map = backend.defaults().instruction_schedule_map q = QuantumRegister(3) c = ClassicalRegister(3) @@ -416,9 +419,13 @@ def test_subset_calibrated_measurements(self): meas_scheds.append(meas) qc.add_calibration("measure", [qubit], meas) - meas = macros.measure([1], FakeOpenPulse3Q()) + with self.assertWarns(DeprecationWarning): + backend = FakeOpenPulse3Q() + meas = macros.measure([1], backend) meas = meas.exclude(channels=[AcquireChannel(0), AcquireChannel(2)]) - sched = schedule(qc, FakeOpenPulse3Q()) + with self.assertWarns(DeprecationWarning): + backend = FakeOpenPulse3Q() + sched = schedule(qc, backend) expected = Schedule(meas_scheds[0], meas_scheds[1], meas) self.assertEqual(sched.instructions, expected.instructions) @@ -509,7 +516,7 @@ class TestBasicScheduleV2(QiskitTestCase): def setUp(self): super().setUp() - self.backend = GenericBackendV2(num_qubits=3, calibrate_instructions=True) + self.backend = GenericBackendV2(num_qubits=3, calibrate_instructions=True, seed=42) self.inst_map = self.backend.instruction_schedule_map # self.pulse_2_samples is the pulse sequence used to calibrate "measure" in # GenericBackendV2. See class construction for more details. diff --git a/test/python/transpiler/test_1q.py b/test/python/transpiler/test_1q.py index 50bdc7b24643..13379f410c34 100644 --- a/test/python/transpiler/test_1q.py +++ b/test/python/transpiler/test_1q.py @@ -16,12 +16,16 @@ from qiskit import QuantumCircuit from qiskit.compiler import transpile -from qiskit.providers.fake_provider import Fake1Q +from qiskit.providers.fake_provider import Fake1Q, GenericBackendV2 from qiskit.providers.basic_provider import BasicSimulator from qiskit.transpiler import TranspilerError from test import combine # pylint: disable=wrong-import-order from test import QiskitTestCase # pylint: disable=wrong-import-order +Fake1QV2 = GenericBackendV2( + num_qubits=1, basis_gates=["u1", "u2", "u3"], coupling_map=None, dtm=1.3333, seed=42 +) + def emptycircuit(): """Empty circuit""" @@ -45,31 +49,54 @@ class Test1QFailing(QiskitTestCase): circuit=[circuit_3516], level=[0, 1, 2, 3], dsc="Transpiling {circuit.__name__} at level {level} should fail", - name="{circuit.__name__}_level{level}_fail", + name="{circuit.__name__}_level{level}_fail_v1", + ) + def test(self, circuit, level): + """All the levels with all the 1Q backendV1""" + with self.assertRaises(TranspilerError): + with self.assertWarns(DeprecationWarning): + transpile(circuit(), backend=Fake1Q(), optimization_level=level, seed_transpiler=42) + + +@ddt +class Test1QV2Failing(QiskitTestCase): + """1QV2 tests that should fail.""" + + @combine( + circuit=[circuit_3516], + level=[0, 1, 2, 3], + dsc="Transpiling {circuit.__name__} at level {level} should fail", + name="{circuit.__name__}_level{level}_fail_v2", ) def test(self, circuit, level): - """All the levels with all the 1Q backend""" + """All the levels with all the 1Q backendV2""" with self.assertRaises(TranspilerError): - transpile(circuit(), backend=Fake1Q(), optimization_level=level, seed_transpiler=42) + transpile(circuit(), backend=Fake1QV2, optimization_level=level, seed_transpiler=42) @ddt class Test1QWorking(QiskitTestCase): - """1Q tests that should work.""" + """1QV1 tests that should work.""" @combine( circuit=[emptycircuit], level=[0, 1, 2, 3], dsc="Transpiling {circuit.__name__} at level {level} should work", - name="{circuit.__name__}_level{level}_valid", + name="{circuit.__name__}_level{level}_valid_v1", ) def test_device(self, circuit, level): - """All the levels with all the 1Q backend""" - result = transpile( - circuit(), backend=Fake1Q(), optimization_level=level, seed_transpiler=42 - ) + """All the levels with all the 1Q backendV1""" + with self.assertWarns(DeprecationWarning): + result = transpile( + circuit(), backend=Fake1Q(), optimization_level=level, seed_transpiler=42 + ) self.assertIsInstance(result, QuantumCircuit) + +@ddt +class TestBasicSimulatorWorking(QiskitTestCase): + """All the levels with a simulator backend""" + @combine( circuit=[circuit_3516], level=[0, 1, 2, 3], @@ -81,3 +108,21 @@ def test_simulator(self, circuit, level): backend = BasicSimulator() result = transpile(circuit(), backend=backend, optimization_level=level, seed_transpiler=42) self.assertIsInstance(result, QuantumCircuit) + + +@ddt +class Test1QV2Working(QiskitTestCase): + """1QV2 tests that should work.""" + + @combine( + circuit=[emptycircuit], + level=[0, 1, 2, 3], + dsc="Transpiling {circuit.__name__} at level {level} should work", + name="{circuit.__name__}_level{level}_valid_v2", + ) + def test_device(self, circuit, level): + """All the levels with all the 1Q backendV2""" + result = transpile( + circuit(), backend=Fake1QV2, optimization_level=level, seed_transpiler=42 + ) + self.assertIsInstance(result, QuantumCircuit) diff --git a/test/python/transpiler/test_basis_translator.py b/test/python/transpiler/test_basis_translator.py index e1c8063a4575..9dae6c3f283a 100644 --- a/test/python/transpiler/test_basis_translator.py +++ b/test/python/transpiler/test_basis_translator.py @@ -1106,6 +1106,7 @@ def test_skip_target_basis_equivalences_1(self): circ, basis_gates=["id", "rz", "sx", "x", "cx"], seed_transpiler=42, + optimization_level=1, ) self.assertEqual(circ_transpiled.count_ops(), {"cx": 91, "rz": 66, "sx": 22}) diff --git a/test/python/transpiler/test_calibrationbuilder.py b/test/python/transpiler/test_calibrationbuilder.py index bc64d954a429..90676a38a586 100644 --- a/test/python/transpiler/test_calibrationbuilder.py +++ b/test/python/transpiler/test_calibrationbuilder.py @@ -266,7 +266,10 @@ def build_reverse( @data(-np.pi / 4, 0.1, np.pi / 4, np.pi / 2, np.pi) def test_rzx_calibration_cr_pulse_stretch(self, theta: float): """Test that cross resonance pulse durations are computed correctly.""" - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + # TODO this tests does not work with BackendV2/GenericBackendV2 + # https://github.com/Qiskit/qiskit/issues/12834 + backend = Fake27QPulseV1() inst_map = backend.defaults().instruction_schedule_map cr_schedule = inst_map.get("cx", (0, 1)) with builder.build() as test_sched: @@ -279,7 +282,8 @@ def test_rzx_calibration_cr_pulse_stretch(self, theta: float): @data(-np.pi / 4, 0.1, np.pi / 4, np.pi / 2, np.pi) def test_rzx_calibration_rotary_pulse_stretch(self, theta: float): """Test that rotary pulse durations are computed correctly.""" - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() inst_map = backend.defaults().instruction_schedule_map cr_schedule = inst_map.get("cx", (0, 1)) with builder.build() as test_sched: @@ -296,8 +300,8 @@ def test_raise(self): qc = circuit.QuantumCircuit(2) qc.rzx(theta, 0, 1) dag = circuit_to_dag(qc) - - backend = Fake7QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake7QPulseV1() # The error is raised when calibrations in multi-qubit # gates are not detected. # We force this by removing the 'cx' entries from the @@ -322,7 +326,8 @@ def test_ecr_cx_forward(self): qc = circuit.QuantumCircuit(2) qc.rzx(theta, 0, 1) - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() inst_map = backend.defaults().instruction_schedule_map _pass = RZXCalibrationBuilder(inst_map) test_qc = PassManager(_pass).run(qc) @@ -347,7 +352,8 @@ def test_ecr_cx_reverse(self): qc = circuit.QuantumCircuit(2) qc.rzx(theta, 1, 0) - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() inst_map = backend.defaults().instruction_schedule_map _pass = RZXCalibrationBuilder(inst_map) test_qc = PassManager(_pass).run(qc) @@ -434,7 +440,8 @@ def test_ecr_cx_forward(self): qc = circuit.QuantumCircuit(2) qc.rzx(theta, 0, 1) - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() inst_map = backend.defaults().instruction_schedule_map _pass = RZXCalibrationBuilderNoEcho(inst_map) @@ -509,7 +516,7 @@ def test_raises_error_when_rotation_angle_not_assigned(self): an unassigned Parameter, not a number. The QiskitError occurs while trying to typecast the Parameter into a float. """ - backend = GenericBackendV2(num_qubits=5) + backend = GenericBackendV2(num_qubits=5, seed=42) tp = RXCalibrationBuilder(backend.target) qubits = (0,) rx = RXGate(Parameter("theta")) @@ -521,7 +528,7 @@ def test_raises_error_when_rotation_angle_not_assigned(self): @data(0, np.pi / 3, (2 / 3) * np.pi) def test_pulse_schedule(self, theta: float): """Test that get_calibration() returns a schedule with correct amplitude.""" - backend = GenericBackendV2(num_qubits=5) + backend = GenericBackendV2(num_qubits=5, seed=42) dummy_target = Target() sx_amp, sx_beta, sx_sigma, sx_duration, sx_angle = 0.6, 2, 40, 160, 0.5 with builder.build(backend=backend) as dummy_sx_cal: @@ -572,7 +579,7 @@ def test_with_normalizerxangles(self): ) ism = InstructionScheduleMap() ism.add("sx", (0,), sched) - backend = GenericBackendV2(num_qubits=5, calibrate_instructions=ism) + backend = GenericBackendV2(num_qubits=5, calibrate_instructions=ism, seed=42) # NormalizeRXAngle pass should also be included because it's a required pass. pm = PassManager(RXCalibrationBuilder(backend.target)) diff --git a/test/python/transpiler/test_echo_rzx_weyl_decomposition.py b/test/python/transpiler/test_echo_rzx_weyl_decomposition.py index c4efffc977f4..8f876dd261d7 100644 --- a/test/python/transpiler/test_echo_rzx_weyl_decomposition.py +++ b/test/python/transpiler/test_echo_rzx_weyl_decomposition.py @@ -32,7 +32,12 @@ class TestEchoRZXWeylDecomposition(QiskitTestCase): def setUp(self): super().setUp() - self.backend = Fake27QPulseV1() + # TODO once https://github.com/Qiskit/qiskit/issues/12759 is fixed, replace with + # backend = GenericBackendV2(num_qubits=27, calibrate_instructions=True, + # control_flow=True, seed=42) + # self.inst_map = backend.instruction_schedule_map + with self.assertWarns(DeprecationWarning): + self.backend = Fake27QPulseV1() self.inst_map = self.backend.defaults().instruction_schedule_map def assertRZXgates(self, unitary_circuit, after): diff --git a/test/python/transpiler/test_gates_in_basis_pass.py b/test/python/transpiler/test_gates_in_basis_pass.py index 06ce5e0f6702..0dd5e880e0c0 100644 --- a/test/python/transpiler/test_gates_in_basis_pass.py +++ b/test/python/transpiler/test_gates_in_basis_pass.py @@ -99,7 +99,7 @@ def test_all_gates_in_basis_after_translation(self): def test_all_gates_in_basis_with_target(self): """Test circuit with all gates in basis with target.""" - target = GenericBackendV2(num_qubits=5, basis_gates=["u", "cx"]).target + target = GenericBackendV2(num_qubits=5, basis_gates=["u", "cx"], seed=42).target basis_gates = ["cx", "u"] # not used property_set = {} analysis_pass = GatesInBasis(basis_gates, target=target) @@ -112,7 +112,7 @@ def test_all_gates_in_basis_with_target(self): def test_all_gates_not_in_basis_with_target(self): """Test circuit with not all gates in basis with target.""" - target = GenericBackendV2(num_qubits=5, basis_gates=["u", "cx"]).target + target = GenericBackendV2(num_qubits=5, basis_gates=["u", "cx"], seed=42).target basis_gates = ["cx", "h"] property_set = {} analysis_pass = GatesInBasis(basis_gates, target=target) @@ -125,7 +125,7 @@ def test_all_gates_not_in_basis_with_target(self): def test_all_gates_in_basis_not_on_all_qubits_with_target(self): """Test circuit with gate in global basis but not local basis.""" - target = GenericBackendV2(num_qubits=5, basis_gates=["u", "cx"]).target + target = GenericBackendV2(num_qubits=5, basis_gates=["u", "cx"], seed=42).target basis_gates = ["ecr", "cx", "h"] property_set = {} analysis_pass = GatesInBasis(basis_gates, target=target) @@ -138,7 +138,7 @@ def test_all_gates_in_basis_not_on_all_qubits_with_target(self): def test_all_gates_in_basis_empty_circuit_with_target(self): """Test circuit with no gates with target.""" - target = GenericBackendV2(num_qubits=5, basis_gates=["u", "cx"]).target + target = GenericBackendV2(num_qubits=5, basis_gates=["u", "cx"], seed=42).target basis_gates = ["cx", "u"] property_set = {} analysis_pass = GatesInBasis(basis_gates, target=target) @@ -191,7 +191,7 @@ def test_all_gates_not_in_ideal_sim_target(self): def test_all_gates_in_basis_after_translation_with_target(self): """Test circuit with gates in basis after conditional translation.""" - target = GenericBackendV2(num_qubits=5, basis_gates=["u", "cx"]).target + target = GenericBackendV2(num_qubits=5, basis_gates=["u", "cx"], seed=42).target basis_gates = ["cx", "u"] property_set = {} analysis_pass = GatesInBasis(basis_gates, target) diff --git a/test/python/transpiler/test_high_level_synthesis.py b/test/python/transpiler/test_high_level_synthesis.py index fd6ae6a01cda..d1ea21cde544 100644 --- a/test/python/transpiler/test_high_level_synthesis.py +++ b/test/python/transpiler/test_high_level_synthesis.py @@ -2118,11 +2118,9 @@ def test_qft_plugins_qft(self, qft_plugin_name): qc.cx(1, 3) qc.append(QFTGate(3).inverse(), [0, 1, 2]) hls_config = HLSConfig(qft=[qft_plugin_name]) - basis_gates = ["cx", "u"] - qct = transpile(qc, hls_config=hls_config, basis_gates=basis_gates) + hls_pass = HighLevelSynthesis(hls_config=hls_config) + qct = hls_pass(qc) self.assertEqual(Operator(qc), Operator(qct)) - ops = set(qct.count_ops().keys()) - self.assertEqual(ops, {"u", "cx"}) @data("line", "full") def test_qft_line_plugin_annotated_qft(self, qft_plugin_name): @@ -2130,11 +2128,9 @@ def test_qft_line_plugin_annotated_qft(self, qft_plugin_name): qc = QuantumCircuit(4) qc.append(QFTGate(3).inverse(annotated=True).control(annotated=True), [0, 1, 2, 3]) hls_config = HLSConfig(qft=[qft_plugin_name]) - basis_gates = ["cx", "u"] - qct = transpile(qc, hls_config=hls_config, basis_gates=basis_gates) + hls_pass = HighLevelSynthesis(hls_config=hls_config) + qct = hls_pass(qc) self.assertEqual(Operator(qc), Operator(qct)) - ops = set(qct.count_ops().keys()) - self.assertEqual(ops, {"u", "cx"}) if __name__ == "__main__": diff --git a/test/python/transpiler/test_instruction_durations.py b/test/python/transpiler/test_instruction_durations.py index ba37f6cd65e4..de68fbadf86a 100644 --- a/test/python/transpiler/test_instruction_durations.py +++ b/test/python/transpiler/test_instruction_durations.py @@ -36,14 +36,18 @@ def test_fail_if_invalid_dict_is_supplied_when_construction(self): InstructionDurations(invalid_dic) def test_from_backend_for_backend_with_dt(self): - backend = Fake27QPulseV1() + # Remove context once https://github.com/Qiskit/qiskit/issues/12760 is fixed + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() gate = self._find_gate_with_length(backend) durations = InstructionDurations.from_backend(backend) self.assertGreater(durations.dt, 0) self.assertGreater(durations.get(gate, 0), 0) def test_from_backend_for_backend_without_dt(self): - backend = Fake27QPulseV1() + # Remove context once https://github.com/Qiskit/qiskit/issues/12760 is fixed + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() delattr(backend.configuration(), "dt") gate = self._find_gate_with_length(backend) durations = InstructionDurations.from_backend(backend) diff --git a/test/python/transpiler/test_passmanager_config.py b/test/python/transpiler/test_passmanager_config.py index 01ec7ebf133a..ebac6a410b7f 100644 --- a/test/python/transpiler/test_passmanager_config.py +++ b/test/python/transpiler/test_passmanager_config.py @@ -19,6 +19,7 @@ from qiskit.transpiler.coupling import CouplingMap from qiskit.transpiler.passmanager_config import PassManagerConfig from test import QiskitTestCase # pylint: disable=wrong-import-order +from ..legacy_cmaps import ALMADEN_CMAP class TestPassManagerConfig(QiskitTestCase): @@ -30,7 +31,8 @@ def test_config_from_backend(self): `Fake27QPulseV1` is used in this testcase. This backend has `defaults` attribute that contains an instruction schedule map. """ - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() config = PassManagerConfig.from_backend(backend) self.assertEqual(config.basis_gates, backend.configuration().basis_gates) self.assertEqual(config.inst_map, backend.defaults().instruction_schedule_map) @@ -40,7 +42,7 @@ def test_config_from_backend(self): def test_config_from_backend_v2(self): """Test from_backend() with a BackendV2 instance.""" - backend = GenericBackendV2(num_qubits=27) + backend = GenericBackendV2(num_qubits=27, seed=42) config = PassManagerConfig.from_backend(backend) self.assertEqual(config.basis_gates, backend.operation_names) self.assertEqual(config.inst_map, backend.instruction_schedule_map) @@ -51,16 +53,19 @@ def test_invalid_backend(self): with self.assertRaises(AttributeError): PassManagerConfig.from_backend(Backend()) - def test_from_backend_and_user(self): + def test_from_backend_and_user_v1(self): """Test from_backend() with a backend and user options. `FakeMelbourne` is used in this testcase. This backend does not have `defaults` attribute and thus not provide an instruction schedule map. + + REMOVE AFTER Fake20QV1 GETS REMOVED. """ qr = QuantumRegister(4, "qr") initial_layout = [None, qr[0], qr[1], qr[2], None, qr[3]] - backend = Fake20QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake20QV1() config = PassManagerConfig.from_backend( backend, basis_gates=["user_gate"], initial_layout=initial_layout ) @@ -72,9 +77,35 @@ def test_from_backend_and_user(self): ) self.assertEqual(config.initial_layout, initial_layout) + def test_from_backend_and_user(self): + """Test from_backend() with a backend and user options. + + `FakeMelbourne` is used in this testcase. This backend does not have + `defaults` attribute and thus not provide an instruction schedule map. + """ + qr = QuantumRegister(4, "qr") + initial_layout = [None, qr[0], qr[1], qr[2], None, qr[3]] + + backend = GenericBackendV2( + num_qubits=20, + coupling_map=ALMADEN_CMAP, + basis_gates=["id", "u1", "u2", "u3", "cx"], + calibrate_instructions=None, + seed=42, + ) + config = PassManagerConfig.from_backend( + backend, basis_gates=["user_gate"], initial_layout=initial_layout + ) + self.assertEqual(config.basis_gates, ["user_gate"]) + self.assertNotEqual(config.basis_gates, backend.operation_names) + self.assertEqual(config.inst_map.instructions, []) + self.assertEqual(str(config.coupling_map), str(CouplingMap(backend.coupling_map))) + self.assertEqual(config.initial_layout, initial_layout) + def test_from_backendv1_inst_map_is_none(self): """Test that from_backend() works with backend that has defaults defined as None.""" - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() backend.defaults = lambda: None config = PassManagerConfig.from_backend(backend) self.assertIsInstance(config, PassManagerConfig) @@ -82,8 +113,9 @@ def test_from_backendv1_inst_map_is_none(self): def test_invalid_user_option(self): """Test from_backend() with an invalid user option.""" + backend = GenericBackendV2(num_qubits=20, seed=42) with self.assertRaises(TypeError): - PassManagerConfig.from_backend(Fake20QV1(), invalid_option=None) + PassManagerConfig.from_backend(backend, invalid_option=None) def test_str(self): """Test string output.""" diff --git a/test/python/transpiler/test_passmanager_run.py b/test/python/transpiler/test_passmanager_run.py index caf6af2aaf67..96df928c6e21 100644 --- a/test/python/transpiler/test_passmanager_run.py +++ b/test/python/transpiler/test_passmanager_run.py @@ -15,9 +15,10 @@ from qiskit import QuantumRegister, QuantumCircuit from qiskit.circuit.library import CXGate from qiskit.transpiler.preset_passmanagers import level_1_pass_manager -from qiskit.providers.fake_provider import Fake20QV1 +from qiskit.providers.fake_provider import GenericBackendV2 from qiskit.transpiler import Layout, PassManager from qiskit.transpiler.passmanager_config import PassManagerConfig +from ..legacy_cmaps import ALMADEN_CMAP from test import QiskitTestCase # pylint: disable=wrong-import-order @@ -83,12 +84,17 @@ def test_default_pass_manager_single(self): circuit.cx(qr[1], qr[2]) circuit.cx(qr[2], qr[3]) - coupling_map = Fake20QV1().configuration().coupling_map + backend = GenericBackendV2( + num_qubits=20, + coupling_map=ALMADEN_CMAP, + basis_gates=["id", "u1", "u2", "u3", "cx"], + seed=42, + ) initial_layout = [None, qr[0], qr[1], qr[2], None, qr[3]] pass_manager = level_1_pass_manager( PassManagerConfig.from_backend( - Fake20QV1(), + backend, initial_layout=Layout.from_qubit_list(initial_layout), seed_transpiler=42, ) @@ -100,7 +106,7 @@ def test_default_pass_manager_single(self): for instruction in new_circuit.data: if isinstance(instruction.operation, CXGate): - self.assertIn([bit_indices[x] for x in instruction.qubits], coupling_map) + self.assertIn([bit_indices[x] for x in instruction.qubits], ALMADEN_CMAP) def test_default_pass_manager_two(self): """Test default_pass_manager.run(circuitS). @@ -133,12 +139,66 @@ def test_default_pass_manager_two(self): circuit2.cx(qr[0], qr[1]) circuit2.cx(qr[2], qr[3]) - coupling_map = Fake20QV1().configuration().coupling_map + coupling_map = [ + [0, 1], + [1, 0], + [1, 2], + [1, 6], + [2, 1], + [2, 3], + [3, 2], + [3, 4], + [3, 8], + [4, 3], + [5, 6], + [5, 10], + [6, 1], + [6, 5], + [6, 7], + [7, 6], + [7, 8], + [7, 12], + [8, 3], + [8, 7], + [8, 9], + [9, 8], + [9, 14], + [10, 5], + [10, 11], + [11, 10], + [11, 12], + [11, 16], + [12, 7], + [12, 11], + [12, 13], + [13, 12], + [13, 14], + [13, 18], + [14, 9], + [14, 13], + [15, 16], + [16, 11], + [16, 15], + [16, 17], + [17, 16], + [17, 18], + [18, 13], + [18, 17], + [18, 19], + [19, 18], + ] initial_layout = [None, qr[0], qr[1], qr[2], None, qr[3]] + backend = GenericBackendV2( + num_qubits=20, + coupling_map=coupling_map, + basis_gates=["id", "u1", "u2", "u3", "cx"], + seed=42, + ) + pass_manager = level_1_pass_manager( PassManagerConfig.from_backend( - Fake20QV1(), + backend=backend, initial_layout=Layout.from_qubit_list(initial_layout), seed_transpiler=42, ) diff --git a/test/python/transpiler/test_preset_passmanagers.py b/test/python/transpiler/test_preset_passmanagers.py index 32d39304b44e..58f6d35a20d5 100644 --- a/test/python/transpiler/test_preset_passmanagers.py +++ b/test/python/transpiler/test_preset_passmanagers.py @@ -39,7 +39,7 @@ from qiskit.transpiler.preset_passmanagers.builtin_plugins import OptimizationPassManager from test import QiskitTestCase # pylint: disable=wrong-import-order -from ..legacy_cmaps import MELBOURNE_CMAP, RUESCHLIKON_CMAP, LAGOS_CMAP, TOKYO_CMAP +from ..legacy_cmaps import MELBOURNE_CMAP, RUESCHLIKON_CMAP, LAGOS_CMAP, TOKYO_CMAP, BOGOTA_CMAP def mock_get_passmanager_stage( @@ -222,7 +222,13 @@ def test_alignment_constraints_called_with_by_default(self, level): circuit.h(q[0]) circuit.cz(q[0], q[1]) with unittest.mock.patch("qiskit.transpiler.passes.TimeUnitConversion.run") as mock: - transpile(circuit, backend=Fake20QV1(), optimization_level=level) + backend = GenericBackendV2( + num_qubits=20, + coupling_map=TOKYO_CMAP, + basis_gates=["id", "u1", "u2", "u3", "cx"], + seed=42, + ) + transpile(circuit, backend=backend, optimization_level=level) mock.assert_not_called() @combine(level=[0, 1, 2, 3], name="level{level}") @@ -236,12 +242,23 @@ def test_alignment_constraints_called_with_delay_in_circuit(self, level): with unittest.mock.patch( "qiskit.transpiler.passes.TimeUnitConversion.run", return_value=circuit_to_dag(circuit) ) as mock: - transpile(circuit, backend=Fake20QV1(), optimization_level=level) + backend = GenericBackendV2( + num_qubits=20, + coupling_map=TOKYO_CMAP, + basis_gates=["id", "u1", "u2", "u3", "cx"], + seed=42, + ) + transpile(circuit, backend=backend, optimization_level=level) mock.assert_called_once() def test_unroll_only_if_not_gates_in_basis(self): """Test that the list of passes _unroll only runs if a gate is not in the basis.""" - qcomp = Fake5QV1() + qcomp = GenericBackendV2( + num_qubits=5, + coupling_map=BOGOTA_CMAP, + basis_gates=["id", "u1", "u2", "u3", "cx"], + seed=42, + ) qv_circuit = QuantumVolume(3) gates_in_basis_true_count = 0 collect_2q_blocks_count = 0 @@ -273,8 +290,18 @@ class TestTranspileLevels(QiskitTestCase): circuit=[emptycircuit, circuit_2532], level=[0, 1, 2, 3], backend=[ - Fake5QV1(), - Fake20QV1(), + GenericBackendV2( + num_qubits=5, + coupling_map=BOGOTA_CMAP, + basis_gates=["id", "u1", "u2", "u3", "cx"], + seed=42, + ), + GenericBackendV2( + num_qubits=20, + coupling_map=TOKYO_CMAP, + basis_gates=["id", "u1", "u2", "u3", "cx"], + seed=42, + ), None, ], dsc="Transpiler {circuit.__name__} on {backend} backend at level {level}", @@ -285,6 +312,28 @@ def test(self, circuit, level, backend): result = transpile(circuit(), backend=backend, optimization_level=level, seed_transpiler=42) self.assertIsInstance(result, QuantumCircuit) + @combine( + circuit=[emptycircuit, circuit_2532], + level=[0, 1, 2, 3], + backend=[ + Fake5QV1(), + Fake20QV1(), + ], + dsc="Transpiler {circuit.__name__} on {backend} backend V1 at level {level}", + name="{circuit.__name__}_{backend}_level{level}", + ) + def test_v1(self, circuit, level, backend): + """All the levels with all the backends""" + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + result = transpile( + circuit(), backend=backend, optimization_level=level, seed_transpiler=42 + ) + self.assertIsInstance(result, QuantumCircuit) + @ddt class TestPassesInspection(QiskitTestCase): @@ -782,7 +831,12 @@ def test_layout_2503(self, level): 19: ancilla[16], } - backend = Fake20QV1() + backend = GenericBackendV2( + num_qubits=20, + coupling_map=TOKYO_CMAP, + basis_gates=["id", "u1", "u2", "u3", "cx"], + seed=42, + ) qc_b = transpile(qc, backend, initial_layout=initial_layout, optimization_level=level) self.assertEqual(qc_b._layout.initial_layout._p2v, final_layout) @@ -1038,7 +1092,12 @@ def test_trivial_layout(self, level): expected_layouts = [trivial_layout, trivial_layout] - backend = Fake20QV1() + backend = GenericBackendV2( + num_qubits=20, + coupling_map=TOKYO_CMAP, + basis_gates=["id", "u1", "u2", "u3", "cx"], + seed=42, + ) result = transpile(qc, backend, optimization_level=level, seed_transpiler=42) self.assertEqual(result._layout.initial_layout._p2v, expected_layouts[level]) @@ -1071,7 +1130,12 @@ def test_initial_layout(self, level): 18: qr[9], } - backend = Fake20QV1() + backend = GenericBackendV2( + num_qubits=20, + coupling_map=TOKYO_CMAP, + basis_gates=["id", "u1", "u2", "u3", "cx"], + seed=42, + ) result = transpile( qc, backend, optimization_level=level, initial_layout=initial_layout, seed_transpiler=42 ) @@ -1151,7 +1215,12 @@ def test_optimization_condition(self, level): cr = ClassicalRegister(1) qc = QuantumCircuit(qr, cr) qc.cx(0, 1).c_if(cr, 1) - backend = Fake20QV1() + backend = GenericBackendV2( + num_qubits=20, + coupling_map=TOKYO_CMAP, + basis_gates=["id", "u1", "u2", "u3", "cx"], + seed=42, + ) circ = transpile(qc, backend, optimization_level=level) self.assertIsInstance(circ, QuantumCircuit) @@ -1215,8 +1284,32 @@ class TestGeneratePresetPassManagers(QiskitTestCase): @data(0, 1, 2, 3) def test_with_backend(self, optimization_level): """Test a passmanager is constructed when only a backend and optimization level.""" - target = Fake20QV1() - pm = generate_preset_pass_manager(optimization_level, target) + with self.assertWarns(DeprecationWarning): + backend = Fake20QV1() + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `generate_preset_pass_manager` function will " + "stop supporting inputs of type `BackendV1`", + ): + pm = generate_preset_pass_manager(optimization_level, backend) + self.assertIsInstance(pm, PassManager) + + def test_default_optimization_level(self): + """Test a pass manager is constructed with no optimization level.""" + backend = GenericBackendV2(num_qubits=14, coupling_map=MELBOURNE_CMAP) + pm = generate_preset_pass_manager(backend=backend) + self.assertIsInstance(pm, PassManager) + + def test_default_optimization_level_backend_first_pos_arg(self): + """Test a pass manager is constructed with only a positional backend.""" + backend = GenericBackendV2(num_qubits=14, coupling_map=MELBOURNE_CMAP) + pm = generate_preset_pass_manager(backend) + self.assertIsInstance(pm, PassManager) + + def test_default_optimization_level_target_first_pos_arg(self): + """Test a pass manager is constructed with only a positional target.""" + backend = GenericBackendV2(num_qubits=14, coupling_map=MELBOURNE_CMAP) + pm = generate_preset_pass_manager(backend.target) self.assertIsInstance(pm, PassManager) @data(0, 1, 2, 3) @@ -1569,8 +1662,12 @@ def test_invalid_methods_raise_on_control_flow(self, optimization_level): def test_unsupported_basis_gates_raise(self, optimization_level): """Test that trying to transpile a control-flow circuit for a backend that doesn't support the necessary operations in its `basis_gates` will raise a sensible error.""" - backend = Fake20QV1() - + backend = GenericBackendV2( + num_qubits=20, + coupling_map=TOKYO_CMAP, + basis_gates=["id", "u1", "u2", "u3", "cx"], + seed=42, + ) qc = QuantumCircuit(1, 1) with qc.for_loop((0,)): pass diff --git a/test/python/transpiler/test_pulse_gate_pass.py b/test/python/transpiler/test_pulse_gate_pass.py index a11d4c4a6b53..07d6172264d4 100644 --- a/test/python/transpiler/test_pulse_gate_pass.py +++ b/test/python/transpiler/test_pulse_gate_pass.py @@ -56,7 +56,9 @@ def setUp(self): def test_transpile_with_bare_backend(self): """Test transpile without custom calibrations.""" - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + # TODO Move this test to backendV2 + backend = Fake27QPulseV1() # Remove timing constraints to avoid triggering # scheduling passes. backend.configuration().timing_constraints = {} @@ -68,7 +70,12 @@ def test_transpile_with_bare_backend(self): qc.sx(1) qc.measure_all() - transpiled_qc = transpile(qc, backend, initial_layout=[0, 1]) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + transpiled_qc = transpile(qc, backend, initial_layout=[0, 1]) ref_calibration = {} self.assertDictEqual(transpiled_qc.calibrations, ref_calibration) @@ -77,9 +84,7 @@ def test_transpile_with_backend_target(self): """Test transpile without custom calibrations from target.""" target = GenericBackendV2( - num_qubits=5, - coupling_map=BOGOTA_CMAP, - calibrate_instructions=True, + num_qubits=5, coupling_map=BOGOTA_CMAP, calibrate_instructions=True, seed=42 ).target qc = circuit.QuantumCircuit(2) @@ -96,7 +101,9 @@ def test_transpile_with_backend_target(self): def test_transpile_with_custom_basis_gate(self): """Test transpile with custom calibrations.""" - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + # TODO Move this test to backendV2 + backend = Fake27QPulseV1() backend.defaults().instruction_schedule_map.add("sx", (0,), self.custom_sx_q0) backend.defaults().instruction_schedule_map.add("sx", (1,), self.custom_sx_q1) # Remove timing constraints to avoid triggering @@ -110,7 +117,12 @@ def test_transpile_with_custom_basis_gate(self): qc.sx(1) qc.measure_all() - transpiled_qc = transpile(qc, backend, initial_layout=[0, 1]) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + transpiled_qc = transpile(qc, backend, initial_layout=[0, 1]) ref_calibration = { "sx": { @@ -122,10 +134,13 @@ def test_transpile_with_custom_basis_gate(self): def test_transpile_with_custom_basis_gate_in_target(self): """Test transpile with custom calibrations.""" + with self.assertWarns(DeprecationWarning): + backend_pulse = Fake27QPulseV1() target = GenericBackendV2( num_qubits=5, coupling_map=BOGOTA_CMAP, - calibrate_instructions=Fake27QPulseV1().defaults().instruction_schedule_map, + calibrate_instructions=backend_pulse.defaults().instruction_schedule_map, + seed=42, ).target target["sx"][(0,)].calibration = self.custom_sx_q0 @@ -150,12 +165,17 @@ def test_transpile_with_custom_basis_gate_in_target(self): def test_transpile_with_instmap(self): """Test providing instruction schedule map.""" - instmap = Fake27QPulseV1().defaults().instruction_schedule_map + with self.assertWarns(DeprecationWarning): + # TODO Move this test to backendV2 + backend = Fake27QPulseV1() + instmap = backend.defaults().instruction_schedule_map instmap.add("sx", (0,), self.custom_sx_q0) instmap.add("sx", (1,), self.custom_sx_q1) # Inst map is renewed - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + # TODO Move this test to backendV2 + backend = Fake27QPulseV1() # Remove timing constraints to avoid triggering # scheduling passes. backend.configuration().timing_constraints = {} @@ -167,7 +187,12 @@ def test_transpile_with_instmap(self): qc.sx(1) qc.measure_all() - transpiled_qc = transpile(qc, backend, inst_map=instmap, initial_layout=[0, 1]) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + transpiled_qc = transpile(qc, backend, inst_map=instmap, initial_layout=[0, 1]) ref_calibration = { "sx": { @@ -179,7 +204,9 @@ def test_transpile_with_instmap(self): def test_transpile_with_custom_gate(self): """Test providing non-basis gate.""" - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + # TODO Move this test to backendV2 + backend = Fake27QPulseV1() backend.defaults().instruction_schedule_map.add( "my_gate", (0,), self.my_gate_q0, arguments=["P0"] ) @@ -188,9 +215,10 @@ def test_transpile_with_custom_gate(self): ) # Add gate to backend configuration backend.configuration().basis_gates.append("my_gate") - dummy_config = GateConfig( - name="my_gate", parameters=[], qasm_def="", coupling_map=[(0,), (1,)] - ) + with self.assertWarns(DeprecationWarning): + dummy_config = GateConfig( + name="my_gate", parameters=[], qasm_def="", coupling_map=[(0,), (1,)] + ) backend.configuration().gates.append(dummy_config) # Remove timing constraints to avoid triggering # scheduling passes. @@ -200,7 +228,12 @@ def test_transpile_with_custom_gate(self): qc.append(circuit.Gate("my_gate", 1, [1.0]), [0]) qc.append(circuit.Gate("my_gate", 1, [2.0]), [1]) - transpiled_qc = transpile(qc, backend, basis_gates=["my_gate"], initial_layout=[0, 1]) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + transpiled_qc = transpile(qc, backend, basis_gates=["my_gate"], initial_layout=[0, 1]) my_gate_q0_1_0 = self.my_gate_q0.assign_parameters({self.sched_param: 1.0}, inplace=False) my_gate_q1_2_0 = self.my_gate_q1.assign_parameters({self.sched_param: 2.0}, inplace=False) @@ -215,13 +248,18 @@ def test_transpile_with_custom_gate(self): def test_transpile_with_parameterized_custom_gate(self): """Test providing non-basis gate, which is kept parameterized throughout transpile.""" - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + # TODO convert this to BackendV2/Target + backend = Fake27QPulseV1() backend.defaults().instruction_schedule_map.add( "my_gate", (0,), self.my_gate_q0, arguments=["P0"] ) # Add gate to backend configuration backend.configuration().basis_gates.append("my_gate") - dummy_config = GateConfig(name="my_gate", parameters=[], qasm_def="", coupling_map=[(0,)]) + with self.assertWarns(DeprecationWarning): + dummy_config = GateConfig( + name="my_gate", parameters=[], qasm_def="", coupling_map=[(0,)] + ) backend.configuration().gates.append(dummy_config) # Remove timing constraints to avoid triggering # scheduling passes. @@ -231,7 +269,12 @@ def test_transpile_with_parameterized_custom_gate(self): qc = circuit.QuantumCircuit(1) qc.append(circuit.Gate("my_gate", 1, [param]), [0]) - transpiled_qc = transpile(qc, backend, basis_gates=["my_gate"], initial_layout=[0]) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + transpiled_qc = transpile(qc, backend, basis_gates=["my_gate"], initial_layout=[0]) my_gate_q0_p = self.my_gate_q0.assign_parameters({self.sched_param: param}, inplace=False) @@ -244,13 +287,18 @@ def test_transpile_with_parameterized_custom_gate(self): def test_transpile_with_multiple_circuits(self): """Test transpile with multiple circuits with custom gate.""" - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + # TODO move this test to backendV2 + backend = Fake27QPulseV1() backend.defaults().instruction_schedule_map.add( "my_gate", (0,), self.my_gate_q0, arguments=["P0"] ) # Add gate to backend configuration backend.configuration().basis_gates.append("my_gate") - dummy_config = GateConfig(name="my_gate", parameters=[], qasm_def="", coupling_map=[(0,)]) + with self.assertWarns(DeprecationWarning): + dummy_config = GateConfig( + name="my_gate", parameters=[], qasm_def="", coupling_map=[(0,)] + ) backend.configuration().gates.append(dummy_config) # Remove timing constraints to avoid triggering # scheduling passes. @@ -263,7 +311,12 @@ def test_transpile_with_multiple_circuits(self): qc.append(circuit.Gate("my_gate", 1, [param]), [0]) circs.append(qc) - transpiled_qcs = transpile(circs, backend, basis_gates=["my_gate"], initial_layout=[0]) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + transpiled_qcs = transpile(circs, backend, basis_gates=["my_gate"], initial_layout=[0]) for param, transpiled_qc in zip(params, transpiled_qcs): my_gate_q0_x = self.my_gate_q0.assign_parameters( @@ -274,13 +327,18 @@ def test_transpile_with_multiple_circuits(self): def test_multiple_instructions_with_different_parameters(self): """Test adding many instruction with different parameter binding.""" - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + # TODO Move this test to backendV2 + backend = Fake27QPulseV1() backend.defaults().instruction_schedule_map.add( "my_gate", (0,), self.my_gate_q0, arguments=["P0"] ) # Add gate to backend configuration backend.configuration().basis_gates.append("my_gate") - dummy_config = GateConfig(name="my_gate", parameters=[], qasm_def="", coupling_map=[(0,)]) + with self.assertWarns(DeprecationWarning): + dummy_config = GateConfig( + name="my_gate", parameters=[], qasm_def="", coupling_map=[(0,)] + ) backend.configuration().gates.append(dummy_config) # Remove timing constraints to avoid triggering # scheduling passes. @@ -291,7 +349,12 @@ def test_multiple_instructions_with_different_parameters(self): qc.append(circuit.Gate("my_gate", 1, [2.0]), [0]) qc.append(circuit.Gate("my_gate", 1, [3.0]), [0]) - transpiled_qc = transpile(qc, backend, basis_gates=["my_gate"], initial_layout=[0]) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + transpiled_qc = transpile(qc, backend, basis_gates=["my_gate"], initial_layout=[0]) my_gate_q0_1_0 = self.my_gate_q0.assign_parameters({self.sched_param: 1.0}, inplace=False) my_gate_q0_2_0 = self.my_gate_q0.assign_parameters({self.sched_param: 2.0}, inplace=False) @@ -308,7 +371,9 @@ def test_multiple_instructions_with_different_parameters(self): def test_transpile_with_different_qubit(self): """Test transpile with qubit without custom gate.""" - backend = Fake27QPulseV1() + with self.assertWarns(DeprecationWarning): + # TODO Move this test to backendV2 + backend = Fake27QPulseV1() backend.defaults().instruction_schedule_map.add("sx", (0,), self.custom_sx_q0) # Remove timing constraints to avoid triggering # scheduling passes. @@ -318,7 +383,12 @@ def test_transpile_with_different_qubit(self): qc.sx(0) qc.measure_all() - transpiled_qc = transpile(qc, backend, initial_layout=[3]) + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + transpiled_qc = transpile(qc, backend, initial_layout=[3]) self.assertDictEqual(transpiled_qc.calibrations, {}) @@ -329,16 +399,20 @@ def test_transpile_with_both_instmap_and_empty_target(self, opt_level): Test case from Qiskit/qiskit-terra/#9489 """ - instmap = Fake27QPulseV1().defaults().instruction_schedule_map + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() + instmap = backend.defaults().instruction_schedule_map instmap.add("sx", (0,), self.custom_sx_q0) instmap.add("sx", (1,), self.custom_sx_q1) instmap.add("cx", (0, 1), self.custom_cx_q01) + with self.assertWarns(DeprecationWarning): + backend_pulse = Fake27QPulseV1() # This doesn't have custom schedule definition target = GenericBackendV2( num_qubits=5, coupling_map=BOGOTA_CMAP, - calibrate_instructions=Fake27QPulseV1().defaults().instruction_schedule_map, + calibrate_instructions=backend_pulse.defaults().instruction_schedule_map, seed=42, ).target @@ -371,7 +445,10 @@ def test_transpile_with_instmap_with_v2backend(self, opt_level): Test case from Qiskit/qiskit-terra/#9489 """ - instmap = Fake27QPulseV1().defaults().instruction_schedule_map + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() + + instmap = backend.defaults().instruction_schedule_map instmap.add("sx", (0,), self.custom_sx_q0) instmap.add("sx", (1,), self.custom_sx_q1) instmap.add("cx", (0, 1), self.custom_cx_q01) @@ -380,9 +457,12 @@ def test_transpile_with_instmap_with_v2backend(self, opt_level): qc.append(random_unitary(4, seed=123), [0, 1]) qc.measure_all() + with self.assertWarns(DeprecationWarning): + backend_pulse = Fake27QPulseV1() + backend = GenericBackendV2( num_qubits=5, - calibrate_instructions=Fake27QPulseV1().defaults().instruction_schedule_map, + calibrate_instructions=backend_pulse.defaults().instruction_schedule_map, seed=42, ) @@ -416,8 +496,9 @@ def test_transpile_with_instmap_with_v2backend_with_custom_gate(self, opt_level) """ with pulse.build(name="custom") as rabi12: pulse.play(pulse.Constant(100, 0.4), pulse.DriveChannel(0)) - - instmap = Fake27QPulseV1().defaults().instruction_schedule_map + with self.assertWarns(DeprecationWarning): + backend = Fake27QPulseV1() + instmap = backend.defaults().instruction_schedule_map instmap.add("rabi12", (0,), rabi12) gate = circuit.Gate("rabi12", 1, []) @@ -425,10 +506,7 @@ def test_transpile_with_instmap_with_v2backend_with_custom_gate(self, opt_level) qc.append(gate, [0]) qc.measure_all() - backend = GenericBackendV2( - num_qubits=5, - calibrate_instructions=True, - ) + backend = GenericBackendV2(num_qubits=5, calibrate_instructions=True, seed=42) transpiled_qc = transpile( qc, backend, @@ -451,13 +529,13 @@ def test_transpile_with_instmap_not_mutate_backend(self): This should not override the source object since the same backend may be used for future transpile without intention of instruction overriding. """ - backend = GenericBackendV2( - num_qubits=5, - calibrate_instructions=True, - ) + backend = GenericBackendV2(num_qubits=5, calibrate_instructions=True, seed=42) original_sx0 = backend.target["sx"][(0,)].calibration - instmap = Fake27QPulseV1().defaults().instruction_schedule_map + with self.assertWarns(DeprecationWarning): + backend_pulse = Fake27QPulseV1() + + instmap = backend_pulse.defaults().instruction_schedule_map instmap.add("sx", (0,), self.custom_sx_q0) qc = circuit.QuantumCircuit(1) diff --git a/test/python/transpiler/test_sabre_layout.py b/test/python/transpiler/test_sabre_layout.py index 0a7b977162a3..5ab8fe5c10b2 100644 --- a/test/python/transpiler/test_sabre_layout.py +++ b/test/python/transpiler/test_sabre_layout.py @@ -24,12 +24,12 @@ from qiskit.transpiler.exceptions import TranspilerError from qiskit.converters import circuit_to_dag from qiskit.compiler.transpiler import transpile -from qiskit.providers.fake_provider import Fake27QPulseV1, GenericBackendV2 +from qiskit.providers.fake_provider import GenericBackendV2 from qiskit.transpiler.passes.layout.sabre_pre_layout import SabrePreLayout from qiskit.transpiler.preset_passmanagers import generate_preset_pass_manager from test import QiskitTestCase # pylint: disable=wrong-import-order -from ..legacy_cmaps import ALMADEN_CMAP +from ..legacy_cmaps import ALMADEN_CMAP, MUMBAI_CMAP class TestSabreLayout(QiskitTestCase): @@ -195,7 +195,15 @@ def test_layout_with_classical_bits(self): rz(0) q4835[1]; """ ) - res = transpile(qc, Fake27QPulseV1(), layout_method="sabre", seed_transpiler=1234) + backend = GenericBackendV2( + num_qubits=27, + basis_gates=["id", "rz", "sx", "x", "cx", "reset"], + coupling_map=MUMBAI_CMAP, + seed=42, + ) + res = transpile( + qc, backend, layout_method="sabre", seed_transpiler=1234, optimization_level=1 + ) self.assertIsInstance(res, QuantumCircuit) layout = res._layout.initial_layout self.assertEqual( @@ -245,12 +253,19 @@ def test_layout_many_search_trials(self): barrier q18585[5],q18585[2],q18585[8],q18585[3],q18585[6]; """ ) + backend = GenericBackendV2( + num_qubits=27, + basis_gates=["id", "rz", "sx", "x", "cx", "reset"], + coupling_map=MUMBAI_CMAP, + seed=42, + ) res = transpile( qc, - Fake27QPulseV1(), + backend, layout_method="sabre", routing_method="stochastic", seed_transpiler=12345, + optimization_level=1, ) self.assertIsInstance(res, QuantumCircuit) layout = res._layout.initial_layout diff --git a/test/python/transpiler/test_sabre_swap.py b/test/python/transpiler/test_sabre_swap.py index bf2ef5b1f9c4..856b5ff09f5b 100644 --- a/test/python/transpiler/test_sabre_swap.py +++ b/test/python/transpiler/test_sabre_swap.py @@ -25,7 +25,7 @@ from qiskit.circuit.random import random_circuit from qiskit.compiler.transpiler import transpile from qiskit.converters import circuit_to_dag, dag_to_circuit -from qiskit.providers.fake_provider import Fake27QPulseV1, GenericBackendV2 +from qiskit.providers.fake_provider import GenericBackendV2 from qiskit.transpiler.passes import SabreSwap, TrivialLayout, CheckMap from qiskit.transpiler import CouplingMap, Layout, PassManager, Target, TranspilerError from qiskit import ClassicalRegister, QuantumRegister, QuantumCircuit @@ -1327,11 +1327,15 @@ class TestSabreSwapRandomCircuitValidOutput(QiskitTestCase): @classmethod def setUpClass(cls): super().setUpClass() - cls.backend = Fake27QPulseV1() - cls.backend.configuration().coupling_map = MUMBAI_CMAP - cls.backend.configuration().basis_gates += ["for_loop", "while_loop", "if_else"] - cls.coupling_edge_set = {tuple(x) for x in cls.backend.configuration().coupling_map} - cls.basis_gates = set(cls.backend.configuration().basis_gates) + cls.backend = GenericBackendV2( + num_qubits=27, + calibrate_instructions=True, + control_flow=True, + coupling_map=MUMBAI_CMAP, + seed=42, + ) + cls.coupling_edge_set = {tuple(x) for x in cls.backend.coupling_map} + cls.basis_gates = set(cls.backend.operation_names) def assert_valid_circuit(self, transpiled): """Assert circuit complies with constraints of backend.""" @@ -1389,7 +1393,7 @@ def test_random_circuit_no_control_flow_target(self, size): routing_method="sabre", layout_method="sabre", seed_transpiler=12342, - target=GenericBackendV2(num_qubits=27, coupling_map=MUMBAI_CMAP).target, + target=GenericBackendV2(num_qubits=27, coupling_map=MUMBAI_CMAP, seed=42).target, ) self.assert_valid_circuit(tqc) diff --git a/test/python/transpiler/test_star_prerouting.py b/test/python/transpiler/test_star_prerouting.py index e244d97a45aa..2744113f13cb 100644 --- a/test/python/transpiler/test_star_prerouting.py +++ b/test/python/transpiler/test_star_prerouting.py @@ -21,12 +21,10 @@ from qiskit.circuit.library import QFT from qiskit.circuit.quantumcircuit import QuantumCircuit -from qiskit.converters import ( - circuit_to_dag, - dag_to_circuit, -) +from qiskit.converters import circuit_to_dag, dag_to_circuit from qiskit.quantum_info import Operator from qiskit.transpiler.passes import VF2Layout, ApplyLayout, SabreSwap, SabreLayout +from qiskit.transpiler.passes.layout.vf2_utils import build_interaction_graph from qiskit.transpiler.passes.routing.star_prerouting import StarPreRouting from qiskit.transpiler.coupling import CouplingMap from qiskit.transpiler.passmanager import PassManager @@ -483,3 +481,23 @@ def test_routing_after_star_prerouting(self): self.assertTrue(Operator.from_circuit(res_sabre), qc) self.assertTrue(Operator.from_circuit(res_star), qc) self.assertTrue(Operator.from_circuit(res_star), Operator.from_circuit(res_sabre)) + + @ddt.data(4, 8, 16, 32) + def test_qft_linearization(self, num_qubits): + """Test the QFT circuit to verify if it is linearized and requires n-2 swaps.""" + + qc = QFT(num_qubits, do_swaps=False, insert_barriers=True).decompose() + dag = circuit_to_dag(qc) + new_dag = StarPreRouting().run(dag) + new_qc = dag_to_circuit(new_dag) + + # Check that resulting result has n-2 swaps, where n is the number of cp gates + swap_count = new_qc.count_ops().get("swap", 0) + cp_count = new_qc.count_ops().get("cp", 0) + self.assertEqual(swap_count, cp_count - 2) + + # Confirm linearization by checking that the number of edges is equal to the number of nodes + interaction_graph = build_interaction_graph(new_dag, strict_direction=False)[0] + num_edges = interaction_graph.num_edges() + num_nodes = interaction_graph.num_nodes() + self.assertEqual(num_edges, num_nodes - 1) diff --git a/test/python/transpiler/test_stochastic_swap.py b/test/python/transpiler/test_stochastic_swap.py index 8c96150ae8ff..4843bac8baf5 100644 --- a/test/python/transpiler/test_stochastic_swap.py +++ b/test/python/transpiler/test_stochastic_swap.py @@ -24,7 +24,7 @@ from qiskit import QuantumRegister, ClassicalRegister, QuantumCircuit from qiskit.transpiler.passes.utils import CheckMap from qiskit.circuit.random import random_circuit -from qiskit.providers.fake_provider import Fake27QPulseV1, GenericBackendV2 +from qiskit.providers.fake_provider import GenericBackendV2 from qiskit.compiler.transpiler import transpile from qiskit.circuit import ControlFlowOp, Clbit, CASE_DEFAULT from qiskit.circuit.classical import expr, types @@ -1488,10 +1488,11 @@ class TestStochasticSwapRandomCircuitValidOutput(QiskitTestCase): @classmethod def setUpClass(cls): super().setUpClass() - cls.backend = Fake27QPulseV1() - cls.backend.configuration().basis_gates += ["for_loop", "while_loop", "if_else"] - cls.coupling_edge_set = {tuple(x) for x in cls.backend.configuration().coupling_map} - cls.basis_gates = set(cls.backend.configuration().basis_gates) + cls.backend = GenericBackendV2( + num_qubits=27, calibrate_instructions=True, control_flow=True, seed=42 + ) + cls.coupling_edge_set = {tuple(x) for x in cls.backend.coupling_map} + cls.basis_gates = set(cls.backend.operation_names) def assert_valid_circuit(self, transpiled): """Assert circuit complies with constraints of backend.""" diff --git a/test/python/transpiler/test_target.py b/test/python/transpiler/test_target.py index f63ed5061cc7..928cd09c8dd1 100644 --- a/test/python/transpiler/test_target.py +++ b/test/python/transpiler/test_target.py @@ -1937,7 +1937,8 @@ def test_basis_gates_coupling_map(self): self.assertEqual({(0, 1), (1, 2), (2, 0)}, target["cx"].keys()) def test_properties(self): - fake_backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + fake_backend = Fake5QV1() config = fake_backend.configuration() properties = fake_backend.properties() target = Target.from_configuration( @@ -1950,7 +1951,8 @@ def test_properties(self): self.assertEqual(0, target["rz"][(0,)].duration) def test_properties_with_durations(self): - fake_backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + fake_backend = Fake5QV1() config = fake_backend.configuration() properties = fake_backend.properties() durations = InstructionDurations([("rz", 0, 0.5)], dt=1.0) @@ -1965,7 +1967,8 @@ def test_properties_with_durations(self): self.assertEqual(0.5, target["rz"][(0,)].duration) def test_inst_map(self): - fake_backend = Fake7QPulseV1() + with self.assertWarns(DeprecationWarning): + fake_backend = Fake7QPulseV1() config = fake_backend.configuration() properties = fake_backend.properties() defaults = fake_backend.defaults() @@ -1986,7 +1989,8 @@ def test_inst_map(self): self.assertEqual(target.acquire_alignment, constraints.acquire_alignment) def test_concurrent_measurements(self): - fake_backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + fake_backend = Fake5QV1() config = fake_backend.configuration() target = Target.from_configuration( basis_gates=config.basis_gates, diff --git a/test/python/transpiler/test_unitary_synthesis.py b/test/python/transpiler/test_unitary_synthesis.py index 0f4423426a8a..4abf6511d8d2 100644 --- a/test/python/transpiler/test_unitary_synthesis.py +++ b/test/python/transpiler/test_unitary_synthesis.py @@ -65,6 +65,7 @@ from test.python.providers.fake_mumbai_v2 import ( # pylint: disable=wrong-import-order FakeMumbaiFractionalCX, ) +from ..legacy_cmaps import YORKTOWN_CMAP class FakeBackend2QV2(GenericBackendV2): @@ -148,7 +149,8 @@ def test_two_qubit_synthesis_to_directional_cx_from_gate_errors(self): """Verify two qubit unitaries are synthesized to match basis gates.""" # TODO: should make check more explicit e.g. explicitly set gate # direction in test instead of using specific fake backend - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() conf = backend.configuration() qr = QuantumRegister(2) coupling_map = CouplingMap(conf.coupling_map) @@ -182,7 +184,8 @@ def test_swap_synthesis_to_directional_cx(self): """Verify two qubit unitaries are synthesized to match basis gates.""" # TODO: should make check more explicit e.g. explicitly set gate # direction in test instead of using specific fake backend - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() conf = backend.configuration() qr = QuantumRegister(2) coupling_map = CouplingMap(conf.coupling_map) @@ -218,7 +221,8 @@ def test_two_qubit_synthesis_to_directional_cx_multiple_registers(self): across multiple registers.""" # TODO: should make check more explicit e.g. explicitly set gate # direction in test instead of using specific fake backend - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() conf = backend.configuration() qr0 = QuantumRegister(1) qr1 = QuantumRegister(1) @@ -253,7 +257,8 @@ def test_two_qubit_synthesis_to_directional_cx_from_coupling_map(self): """Verify natural cx direction is used when specified in coupling map.""" # TODO: should make check more explicit e.g. explicitly set gate # direction in test instead of using specific fake backend - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() conf = backend.configuration() qr = QuantumRegister(2) coupling_map = CouplingMap([[0, 1], [1, 2], [1, 3], [3, 4]]) @@ -296,7 +301,8 @@ def test_two_qubit_synthesis_to_directional_cx_from_coupling_map_natural_none(se when natural_direction is None.""" # TODO: should make check more explicit e.g. explicitly set gate # direction in test instead of using specific fake backend - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() conf = backend.configuration() qr = QuantumRegister(2) coupling_map = CouplingMap([[0, 1], [1, 2], [1, 3], [3, 4]]) @@ -339,7 +345,8 @@ def test_two_qubit_synthesis_to_directional_cx_from_coupling_map_natural_false(s when natural_direction is None.""" # TODO: should make check more explicit e.g. explicitly set gate # direction in test instead of using specific fake backend - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() conf = backend.configuration() qr = QuantumRegister(2) coupling_map = CouplingMap([[0, 1], [1, 2], [1, 3], [3, 4]]) @@ -379,7 +386,8 @@ def test_two_qubit_synthesis_to_directional_cx_from_coupling_map_natural_false(s def test_two_qubit_synthesis_not_pulse_optimal(self): """Verify not attempting pulse optimal decomposition when pulse_optimize==False.""" - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() conf = backend.configuration() qr = QuantumRegister(2) qc = QuantumCircuit(qr) @@ -415,7 +423,8 @@ def test_two_qubit_synthesis_not_pulse_optimal(self): def test_two_qubit_pulse_optimal_true_raises(self): """Verify raises if pulse optimal==True but cx is not in the backend basis.""" - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() conf = backend.configuration() # this assumes iswawp pulse optimal decomposition doesn't exist conf.basis_gates = [gate if gate != "cx" else "iswap" for gate in conf.basis_gates] @@ -438,7 +447,8 @@ def test_two_qubit_pulse_optimal_true_raises(self): def test_two_qubit_natural_direction_true_duration_fallback(self): """Verify not attempting pulse optimal decomposition when pulse_optimize==False.""" # this assumes iswawp pulse optimal decomposition doesn't exist - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() conf = backend.configuration() # conf.basis_gates = [gate if gate != "cx" else "iswap" for gate in conf.basis_gates] qr = QuantumRegister(2) @@ -462,7 +472,8 @@ def test_two_qubit_natural_direction_true_duration_fallback(self): def test_two_qubit_natural_direction_true_gate_length_raises(self): """Verify not attempting pulse optimal decomposition when pulse_optimize==False.""" # this assumes iswawp pulse optimal decomposition doesn't exist - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() conf = backend.configuration() for _, nduv in backend.properties()._gates["cx"].items(): nduv["gate_length"] = (4e-7, nduv["gate_length"][1]) @@ -485,7 +496,8 @@ def test_two_qubit_natural_direction_true_gate_length_raises(self): def test_two_qubit_pulse_optimal_none_optimal(self): """Verify pulse optimal decomposition when pulse_optimize==None.""" # this assumes iswawp pulse optimal decomposition doesn't exist - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() conf = backend.configuration() qr = QuantumRegister(2) coupling_map = CouplingMap([[0, 1], [1, 2], [1, 3], [3, 4]]) @@ -512,7 +524,8 @@ def test_two_qubit_pulse_optimal_none_no_raise(self): """Verify pulse optimal decomposition when pulse_optimize==None doesn't raise when pulse optimal decomposition unknown.""" # this assumes iswawp pulse optimal decomposition doesn't exist - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() conf = backend.configuration() conf.basis_gates = [gate if gate != "cx" else "iswap" for gate in conf.basis_gates] qr = QuantumRegister(2) @@ -662,7 +675,14 @@ def test_coupling_map_unequal_durations(self, opt): qr = QuantumRegister(2) circ = QuantumCircuit(qr) circ.append(random_unitary(4, seed=1), [1, 0]) - backend = Fake5QV1() + backend = GenericBackendV2( + num_qubits=5, + coupling_map=YORKTOWN_CMAP, + basis_gates=["id", "rz", "sx", "x", "cx", "reset"], + calibrate_instructions=True, + pulse_channels=True, + seed=42, + ) tqc = transpile( circ, backend=backend, @@ -674,7 +694,7 @@ def test_coupling_map_unequal_durations(self, opt): self.assertTrue( all( ( - (0, 1) == (tqc_index[instr.qubits[0]], tqc_index[instr.qubits[1]]) + (1, 0) == (tqc_index[instr.qubits[0]], tqc_index[instr.qubits[1]]) for instr in tqc.get_instructions("cx") ) ) @@ -895,7 +915,7 @@ def test_single_qubit_with_target(self): qc = QuantumCircuit(1) qc.append(ZGate(), [qc.qubits[0]]) dag = circuit_to_dag(qc) - backend = GenericBackendV2(num_qubits=5) + backend = GenericBackendV2(num_qubits=5, seed=42) unitary_synth_pass = UnitarySynthesis(target=backend.target) result_dag = unitary_synth_pass.run(dag) result_qc = dag_to_circuit(result_dag) diff --git a/test/python/transpiler/test_vf2_layout.py b/test/python/transpiler/test_vf2_layout.py index 716e49d35009..4e4844f5f701 100644 --- a/test/python/transpiler/test_vf2_layout.py +++ b/test/python/transpiler/test_vf2_layout.py @@ -629,7 +629,8 @@ def test_no_properties(self): def test_with_properties(self): """Test it finds the least noise perfect layout with no properties.""" - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() qr = QuantumRegister(2) qc = QuantumCircuit(qr) qc.x(qr) @@ -643,7 +644,8 @@ def test_with_properties(self): def test_max_trials_exceeded(self): """Test it exits when max_trials is reached.""" - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() qr = QuantumRegister(2) qc = QuantumCircuit(qr) qc.x(qr) @@ -663,7 +665,8 @@ def test_max_trials_exceeded(self): def test_time_limit_exceeded(self): """Test the pass stops after time_limit is reached.""" - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() qr = QuantumRegister(2) qc = QuantumCircuit(qr) qc.x(qr) @@ -685,9 +688,11 @@ def test_time_limit_exceeded(self): self.assertEqual(set(property_set["layout"].get_physical_bits()), {2, 0}) - def test_reasonable_limits_for_simple_layouts(self): - """Test that the default trials is set to a reasonable number.""" - backend = Fake127QPulseV1() + def test_reasonable_limits_for_simple_layouts_v1(self): + """Test that the default trials is set to a reasonable number. + REMOVE ONCE Fake127QPulseV1 IS GONE""" + with self.assertWarns(DeprecationWarning): + backend = Fake127QPulseV1() qc = QuantumCircuit(5) qc.cx(2, 3) qc.cx(0, 1) @@ -704,9 +709,28 @@ def test_reasonable_limits_for_simple_layouts(self): ) self.assertEqual(set(property_set["layout"].get_physical_bits()), {57, 58, 61, 62, 0}) + def test_reasonable_limits_for_simple_layouts(self): + """Test that the default trials is set to a reasonable number.""" + backend = GenericBackendV2(27, calibrate_instructions=True, seed=42) + qc = QuantumCircuit(5) + qc.cx(2, 3) + qc.cx(0, 1) + + # Run without any limits set + vf2_pass = VF2Layout(target=backend.target, seed=42) + property_set = {} + with self.assertLogs("qiskit.transpiler.passes.layout.vf2_layout", level="DEBUG") as cm: + vf2_pass(qc, property_set) + self.assertIn( + "DEBUG:qiskit.transpiler.passes.layout.vf2_layout:Trial 717 is >= configured max trials 717", + cm.output, + ) + self.assertEqual(set(property_set["layout"].get_physical_bits()), {16, 24, 6, 7, 0}) + def test_no_limits_with_negative(self): """Test that we're not enforcing a trial limit if set to negative.""" - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() qc = QuantumCircuit(3) qc.h(0) cmap = CouplingMap(backend.configuration().coupling_map) diff --git a/test/python/transpiler/test_vf2_post_layout.py b/test/python/transpiler/test_vf2_post_layout.py index 3df2fefcc73b..5acdd3ba6ebc 100644 --- a/test/python/transpiler/test_vf2_post_layout.py +++ b/test/python/transpiler/test_vf2_post_layout.py @@ -26,7 +26,7 @@ from qiskit.transpiler.target import Target, InstructionProperties from test import QiskitTestCase # pylint: disable=wrong-import-order -from ..legacy_cmaps import LIMA_CMAP, YORKTOWN_CMAP +from ..legacy_cmaps import LIMA_CMAP, YORKTOWN_CMAP, BOGOTA_CMAP class TestVF2PostLayout(QiskitTestCase): @@ -102,8 +102,9 @@ def test_no_backend_properties(self): def test_empty_circuit(self): """Test no solution found for empty circuit""" + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() qc = QuantumCircuit(2, 2) - backend = Fake5QV1() cmap = CouplingMap(backend.configuration().coupling_map) props = backend.properties() vf2_pass = VF2PostLayout(coupling_map=cmap, properties=props) @@ -128,9 +129,10 @@ def test_empty_circuit_v2(self): def test_skip_3q_circuit(self): """Test that the pass is a no-op on circuits with >2q gates.""" + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() qc = QuantumCircuit(3) qc.ccx(0, 1, 2) - backend = Fake5QV1() cmap = CouplingMap(backend.configuration().coupling_map) props = backend.properties() vf2_pass = VF2PostLayout(coupling_map=cmap, properties=props) @@ -141,10 +143,11 @@ def test_skip_3q_circuit(self): def test_skip_3q_circuit_control_flow(self): """Test that the pass is a no-op on circuits with >2q gates.""" + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() qc = QuantumCircuit(3) with qc.for_loop((1,)): qc.ccx(0, 1, 2) - backend = Fake5QV1() cmap = CouplingMap(backend.configuration().coupling_map) props = backend.properties() vf2_pass = VF2PostLayout(coupling_map=cmap, properties=props) @@ -180,39 +183,23 @@ def test_skip_3q_circuit_control_flow_v2(self): vf2_pass.property_set["VF2PostLayout_stop_reason"], VF2PostLayoutStopReason.MORE_THAN_2Q ) - def test_best_mapping_ghz_state_full_device_multiple_qregs(self): - """Test best mappings with multiple registers""" - backend = Fake5QV1() - qr_a = QuantumRegister(2) - qr_b = QuantumRegister(3) - qc = QuantumCircuit(qr_a, qr_b) - qc.h(qr_a[0]) - qc.cx(qr_a[0], qr_a[1]) - qc.cx(qr_a[0], qr_b[0]) - qc.cx(qr_a[0], qr_b[1]) - qc.cx(qr_a[0], qr_b[2]) - qc.measure_all() - tqc = transpile(qc, backend, seed_transpiler=self.seed, layout_method="trivial") - initial_layout = tqc._layout - dag = circuit_to_dag(tqc) - cmap = CouplingMap(backend.configuration().coupling_map) - props = backend.properties() - pass_ = VF2PostLayout(coupling_map=cmap, properties=props, seed=self.seed) - pass_.run(dag) - self.assertLayout(dag, cmap, pass_.property_set) - self.assertNotEqual(pass_.property_set["post_layout"], initial_layout) - def test_2q_circuit_5q_backend(self): """A simple example, without considering the direction 0 - 1 qr1 - qr0 """ - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() qr = QuantumRegister(2, "qr") circuit = QuantumCircuit(qr) circuit.cx(qr[1], qr[0]) # qr1 -> qr0 - tqc = transpile(circuit, backend, layout_method="dense") + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + tqc = transpile(circuit, backend, layout_method="dense") initial_layout = tqc._layout dag = circuit_to_dag(tqc) cmap = CouplingMap(backend.configuration().coupling_map) @@ -227,7 +214,8 @@ def test_2q_circuit_5q_backend_controlflow(self): 0 - 1 qr1 - qr0 """ - backend = Fake5QV1() + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() circuit = QuantumCircuit(2, 1) with circuit.for_loop((1,)): @@ -253,7 +241,12 @@ def test_2q_circuit_5q_backend_max_trials(self): qr1 - qr0 """ max_trials = 11 - backend = Fake5QV1() + backend = GenericBackendV2( + num_qubits=5, + coupling_map=YORKTOWN_CMAP, + basis_gates=["id", "rz", "sx", "x", "cx", "reset"], + seed=1, + ) qr = QuantumRegister(2, "qr") circuit = QuantumCircuit(qr) @@ -261,6 +254,41 @@ def test_2q_circuit_5q_backend_max_trials(self): tqc = transpile(circuit, backend, layout_method="dense") initial_layout = tqc._layout dag = circuit_to_dag(tqc) + cmap = CouplingMap(backend.coupling_map) + pass_ = VF2PostLayout(target=backend.target, seed=self.seed, max_trials=max_trials) + with self.assertLogs( + "qiskit.transpiler.passes.layout.vf2_post_layout", level="DEBUG" + ) as cm: + pass_.run(dag) + self.assertIn( + f"DEBUG:qiskit.transpiler.passes.layout.vf2_post_layout:Trial {max_trials} " + f"is >= configured max trials {max_trials}", + cm.output, + ) + print(pass_.property_set["VF2PostLayout_stop_reason"]) + self.assertLayout(dag, cmap, pass_.property_set) + self.assertNotEqual(pass_.property_set["post_layout"], initial_layout) + + def test_2q_circuit_5q_backend_max_trials_v1(self): + """A simple example, without considering the direction + 0 - 1 + qr1 - qr0 + """ + max_trials = 11 + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() + + qr = QuantumRegister(2, "qr") + circuit = QuantumCircuit(qr) + circuit.cx(qr[1], qr[0]) # qr1 -> qr0 + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + tqc = transpile(circuit, backend, layout_method="dense") + initial_layout = tqc._layout + dag = circuit_to_dag(tqc) cmap = CouplingMap(backend.configuration().coupling_map) props = backend.properties() pass_ = VF2PostLayout( @@ -280,7 +308,7 @@ def test_2q_circuit_5q_backend_max_trials(self): self.assertLayout(dag, cmap, pass_.property_set) self.assertNotEqual(pass_.property_set["post_layout"], initial_layout) - def test_best_mapping_ghz_state_full_device_multiple_qregs_v2(self): + def test_best_mapping_ghz_state_full_device_multiple_qregs(self): """Test best mappings with multiple registers""" backend = GenericBackendV2( num_qubits=5, @@ -564,8 +592,10 @@ def test_no_backend_properties(self): def test_empty_circuit(self): """Test no solution found for empty circuit""" + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() + qc = QuantumCircuit(2, 2) - backend = Fake5QV1() cmap = CouplingMap(backend.configuration().coupling_map) props = backend.properties() vf2_pass = VF2PostLayout(coupling_map=cmap, properties=props, strict_direction=False) @@ -593,9 +623,11 @@ def test_empty_circuit_v2(self): def test_skip_3q_circuit(self): """Test that the pass is a no-op on circuits with >2q gates.""" + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() + qc = QuantumCircuit(3) qc.ccx(0, 1, 2) - backend = Fake5QV1() cmap = CouplingMap(backend.configuration().coupling_map) props = backend.properties() vf2_pass = VF2PostLayout(coupling_map=cmap, properties=props, strict_direction=False) @@ -624,7 +656,12 @@ def test_skip_3q_circuit_v2(self): def test_best_mapping_ghz_state_full_device_multiple_qregs(self): """Test best mappings with multiple registers""" - backend = Fake5QV1() + backend = GenericBackendV2( + num_qubits=5, + coupling_map=YORKTOWN_CMAP, + basis_gates=["id", "rz", "sx", "x", "cx", "reset"], + seed=8, + ) qr_a = QuantumRegister(2) qr_b = QuantumRegister(3) qc = QuantumCircuit(qr_a, qr_b) @@ -634,7 +671,34 @@ def test_best_mapping_ghz_state_full_device_multiple_qregs(self): qc.cx(qr_a[0], qr_b[1]) qc.cx(qr_a[0], qr_b[2]) qc.measure_all() - tqc = transpile(qc, backend, seed_transpiler=self.seed, layout_method="trivial") + tqc = transpile(qc, seed_transpiler=self.seed, layout_method="trivial") + initial_layout = tqc._layout + dag = circuit_to_dag(tqc) + cmap = CouplingMap(backend.coupling_map) + pass_ = VF2PostLayout(target=backend.target, seed=self.seed, strict_direction=False) + pass_.run(dag) + self.assertLayout(dag, cmap, pass_.property_set) + self.assertNotEqual(pass_.property_set["post_layout"], initial_layout) + + def test_best_mapping_ghz_state_full_device_multiple_qregs_v1(self): + """Test best mappings with multiple registers""" + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() + qr_a = QuantumRegister(2) + qr_b = QuantumRegister(3) + qc = QuantumCircuit(qr_a, qr_b) + qc.h(qr_a[0]) + qc.cx(qr_a[0], qr_a[1]) + qc.cx(qr_a[0], qr_b[0]) + qc.cx(qr_a[0], qr_b[1]) + qc.cx(qr_a[0], qr_b[2]) + qc.measure_all() + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + tqc = transpile(qc, backend, seed_transpiler=self.seed, layout_method="trivial") initial_layout = tqc._layout dag = circuit_to_dag(tqc) cmap = CouplingMap(backend.configuration().coupling_map) @@ -651,14 +715,43 @@ def test_2q_circuit_5q_backend(self): 0 - 1 qr1 - qr0 """ - backend = Fake5QV1() - + backend = GenericBackendV2( + num_qubits=5, + coupling_map=BOGOTA_CMAP, + basis_gates=["id", "u1", "u2", "u3", "cx"], + seed=42, + ) qr = QuantumRegister(2, "qr") circuit = QuantumCircuit(qr) circuit.cx(qr[1], qr[0]) # qr1 -> qr0 tqc = transpile(circuit, backend, layout_method="dense") initial_layout = tqc._layout dag = circuit_to_dag(tqc) + cmap = CouplingMap(backend.coupling_map) + pass_ = VF2PostLayout(target=backend.target, seed=self.seed, strict_direction=False) + pass_.run(dag) + self.assertLayout(dag, cmap, pass_.property_set) + self.assertNotEqual(pass_.property_set["post_layout"], initial_layout) + + def test_2q_circuit_5q_backend_v1(self): + """A simple example, without considering the direction + 0 - 1 + qr1 - qr0 + """ + with self.assertWarns(DeprecationWarning): + backend = Fake5QV1() + + qr = QuantumRegister(2, "qr") + circuit = QuantumCircuit(qr) + circuit.cx(qr[1], qr[0]) # qr1 -> qr0 + with self.assertWarnsRegex( + DeprecationWarning, + expected_regex="The `transpile` function will " + "stop supporting inputs of type `BackendV1`", + ): + tqc = transpile(circuit, backend, layout_method="dense") + initial_layout = tqc._layout + dag = circuit_to_dag(tqc) cmap = CouplingMap(backend.configuration().coupling_map) props = backend.properties() pass_ = VF2PostLayout( diff --git a/test/python/visualization/test_circuit_drawer.py b/test/python/visualization/test_circuit_drawer.py index d459bd945046..dd69faac02cb 100644 --- a/test/python/visualization/test_circuit_drawer.py +++ b/test/python/visualization/test_circuit_drawer.py @@ -249,7 +249,7 @@ def test_warning_for_bad_justify_argument(self): error_message = re.escape( f"Setting QuantumCircuit.draw()’s or circuit_drawer()'s justify argument: {bad_arg}, to a " "value other than 'left', 'right', 'none' or None (='left'). Default 'left' will be used. " - "Support for invalid justify arguments is deprecated as of qiskit 1.2.0. Starting no " + "Support for invalid justify arguments is deprecated as of Qiskit 1.2.0. Starting no " "earlier than 3 months after the release date, invalid arguments will error.", ) diff --git a/test/python/visualization/test_circuit_latex.py b/test/python/visualization/test_circuit_latex.py index 5490648fd6bf..bcf5b77d51bd 100644 --- a/test/python/visualization/test_circuit_latex.py +++ b/test/python/visualization/test_circuit_latex.py @@ -20,7 +20,7 @@ from qiskit.visualization import circuit_drawer from qiskit import QuantumCircuit, QuantumRegister, ClassicalRegister, transpile -from qiskit.providers.fake_provider import Fake5QV1 +from qiskit.providers.fake_provider import GenericBackendV2 from qiskit.circuit.library import ( XGate, MCXGate, @@ -36,6 +36,7 @@ from qiskit.quantum_info.random import random_unitary from qiskit.utils import optionals from .visualization import QiskitVisualizationTestCase +from ..legacy_cmaps import YORKTOWN_CMAP pi = np.pi @@ -480,11 +481,19 @@ def test_partial_layout(self): """Tests partial_layout See: https://github.com/Qiskit/qiskit-terra/issues/4757""" filename = self._get_resource_path("test_latex_partial_layout.tex") + + backend = GenericBackendV2( + num_qubits=5, + coupling_map=YORKTOWN_CMAP, + basis_gates=["id", "rz", "sx", "x", "cx", "reset"], + seed=42, + ) + circuit = QuantumCircuit(3) circuit.h(1) transpiled = transpile( circuit, - backend=Fake5QV1(), + backend=backend, optimization_level=0, initial_layout=[1, 2, 0], seed_transpiler=0, diff --git a/test/python/visualization/test_gate_map.py b/test/python/visualization/test_gate_map.py index bf9b1ca80d79..fcac1e71c400 100644 --- a/test/python/visualization/test_gate_map.py +++ b/test/python/visualization/test_gate_map.py @@ -19,8 +19,6 @@ Fake5QV1, Fake20QV1, Fake7QPulseV1, - Fake27QPulseV1, - Fake127QPulseV1, GenericBackendV2, ) from qiskit.visualization import ( @@ -33,6 +31,7 @@ from qiskit import QuantumRegister, QuantumCircuit from qiskit.transpiler.layout import Layout, TranspileLayout from .visualization import path_to_diagram_reference, QiskitVisualizationTestCase +from ..legacy_cmaps import KYOTO_CMAP, MUMBAI_CMAP if optionals.HAS_MATPLOTLIB: import matplotlib.pyplot as plt @@ -108,7 +107,11 @@ def test_plot_gate_map_no_backend(self): @unittest.skipUnless(optionals.HAS_SEABORN, "Seaborn not installed") def test_plot_error_map_backend_v1(self): """Test plotting error map with fake backend v1.""" - backend = Fake27QPulseV1() + backend = GenericBackendV2( + num_qubits=27, + pulse_channels=True, + coupling_map=MUMBAI_CMAP, + ) img_ref = path_to_diagram_reference("fake_27_q_error.png") fig = plot_error_map(backend) with BytesIO() as img_buffer: @@ -122,9 +125,11 @@ def test_plot_error_map_backend_v1(self): @unittest.skipUnless(optionals.HAS_SEABORN, "Seaborn not installed") def test_plot_error_map_backend_v2(self): """Test plotting error map with fake backend v2.""" + coupling_map = MUMBAI_CMAP backend = GenericBackendV2( num_qubits=27, - coupling_map=Fake27QPulseV1().configuration().coupling_map, + pulse_channels=True, + coupling_map=coupling_map, ) img_ref = path_to_diagram_reference("fake_27_q_v2_error.png") fig = plot_error_map(backend) @@ -139,7 +144,10 @@ def test_plot_error_map_backend_v2(self): @unittest.skipUnless(optionals.HAS_SEABORN, "Seaborn not installed") def test_plot_error_map_over_100_qubit(self): """Test plotting error map with large fake backend.""" - backend = Fake127QPulseV1() + coupling_map = KYOTO_CMAP + backend = GenericBackendV2( + num_qubits=127, coupling_map=coupling_map, pulse_channels=True, seed=42 + ) img_ref = path_to_diagram_reference("fake_127_q_error.png") fig = plot_error_map(backend) with BytesIO() as img_buffer: @@ -153,9 +161,294 @@ def test_plot_error_map_over_100_qubit(self): @unittest.skipUnless(optionals.HAS_SEABORN, "Seaborn not installed") def test_plot_error_map_over_100_qubit_backend_v2(self): """Test plotting error map with large fake backendv2.""" + coupling_map = [ + [0, 1], + [0, 14], + [1, 0], + [1, 2], + [2, 1], + [2, 3], + [3, 2], + [3, 4], + [4, 3], + [4, 5], + [4, 15], + [5, 4], + [5, 6], + [6, 5], + [6, 7], + [7, 6], + [7, 8], + [8, 7], + [8, 16], + [9, 10], + [10, 9], + [10, 11], + [11, 10], + [11, 12], + [12, 11], + [12, 13], + [12, 17], + [13, 12], + [14, 0], + [14, 18], + [15, 4], + [15, 22], + [16, 8], + [16, 26], + [17, 12], + [17, 30], + [18, 14], + [18, 19], + [19, 18], + [19, 20], + [20, 19], + [20, 21], + [20, 33], + [21, 20], + [21, 22], + [22, 15], + [22, 21], + [22, 23], + [23, 22], + [23, 24], + [24, 23], + [24, 25], + [24, 34], + [25, 24], + [25, 26], + [26, 16], + [26, 25], + [26, 27], + [27, 26], + [27, 28], + [28, 27], + [28, 29], + [28, 35], + [29, 28], + [29, 30], + [30, 17], + [30, 29], + [30, 31], + [31, 30], + [31, 32], + [32, 31], + [32, 36], + [33, 20], + [33, 39], + [34, 24], + [34, 43], + [35, 28], + [35, 47], + [36, 32], + [36, 51], + [37, 38], + [37, 52], + [38, 37], + [38, 39], + [39, 33], + [39, 38], + [39, 40], + [40, 39], + [40, 41], + [41, 40], + [41, 42], + [41, 53], + [42, 41], + [42, 43], + [43, 34], + [43, 42], + [43, 44], + [44, 43], + [44, 45], + [45, 44], + [45, 46], + [45, 54], + [46, 45], + [46, 47], + [47, 35], + [47, 46], + [47, 48], + [48, 47], + [48, 49], + [49, 48], + [49, 50], + [49, 55], + [50, 49], + [50, 51], + [51, 36], + [51, 50], + [52, 37], + [52, 56], + [53, 41], + [53, 60], + [54, 45], + [54, 64], + [55, 49], + [55, 68], + [56, 52], + [56, 57], + [57, 56], + [57, 58], + [58, 57], + [58, 59], + [58, 71], + [59, 58], + [59, 60], + [60, 53], + [60, 59], + [60, 61], + [61, 60], + [61, 62], + [62, 61], + [62, 63], + [62, 72], + [63, 62], + [63, 64], + [64, 54], + [64, 63], + [64, 65], + [65, 64], + [65, 66], + [66, 65], + [66, 67], + [66, 73], + [67, 66], + [67, 68], + [68, 55], + [68, 67], + [68, 69], + [69, 68], + [69, 70], + [70, 69], + [70, 74], + [71, 58], + [71, 77], + [72, 62], + [72, 81], + [73, 66], + [73, 85], + [74, 70], + [74, 89], + [75, 76], + [75, 90], + [76, 75], + [76, 77], + [77, 71], + [77, 76], + [77, 78], + [78, 77], + [78, 79], + [79, 78], + [79, 80], + [79, 91], + [80, 79], + [80, 81], + [81, 72], + [81, 80], + [81, 82], + [82, 81], + [82, 83], + [83, 82], + [83, 84], + [83, 92], + [84, 83], + [84, 85], + [85, 73], + [85, 84], + [85, 86], + [86, 85], + [86, 87], + [87, 86], + [87, 88], + [87, 93], + [88, 87], + [88, 89], + [89, 74], + [89, 88], + [90, 75], + [90, 94], + [91, 79], + [91, 98], + [92, 83], + [92, 102], + [93, 87], + [93, 106], + [94, 90], + [94, 95], + [95, 94], + [95, 96], + [96, 95], + [96, 97], + [96, 109], + [97, 96], + [97, 98], + [98, 91], + [98, 97], + [98, 99], + [99, 98], + [99, 100], + [100, 99], + [100, 101], + [100, 110], + [101, 100], + [101, 102], + [102, 92], + [102, 101], + [102, 103], + [103, 102], + [103, 104], + [104, 103], + [104, 105], + [104, 111], + [105, 104], + [105, 106], + [106, 93], + [106, 105], + [106, 107], + [107, 106], + [107, 108], + [108, 107], + [108, 112], + [109, 96], + [110, 100], + [110, 118], + [111, 104], + [111, 122], + [112, 108], + [112, 126], + [113, 114], + [114, 113], + [114, 115], + [115, 114], + [115, 116], + [116, 115], + [116, 117], + [117, 116], + [117, 118], + [118, 110], + [118, 117], + [118, 119], + [119, 118], + [119, 120], + [120, 119], + [120, 121], + [121, 120], + [121, 122], + [122, 111], + [122, 121], + [122, 123], + [123, 122], + [123, 124], + [124, 123], + [124, 125], + [125, 124], + [125, 126], + [126, 112], + [126, 125], + ] backend = GenericBackendV2( - num_qubits=127, - coupling_map=Fake127QPulseV1().configuration().coupling_map, + num_qubits=127, coupling_map=coupling_map, pulse_channels=True, seed=42 ) img_ref = path_to_diagram_reference("fake_127_q_v2_error.png") fig = plot_error_map(backend) diff --git a/test/utils/base.py b/test/utils/base.py index 6d0c917ace30..78d5aceb58f2 100644 --- a/test/utils/base.py +++ b/test/utils/base.py @@ -129,6 +129,15 @@ def setUpClass(cls): module=r"qiskit_aer(\.[a-zA-Z0-9_]+)*", ) + # Safe to remove once https://github.com/Qiskit/qiskit-aer/issues/2197 is in a release version + # of Aer. + warnings.filterwarnings( + "ignore", # If "default", it floods the CI output + category=DeprecationWarning, + message=r"The class ``qiskit\.providers\.models\..*`", + module=r"qiskit_aer(\.[a-zA-Z0-9_]+)*", + ) + # Safe to remove once https://github.com/Qiskit/qiskit-aer/issues/2065 is in a release version # of Aer. warnings.filterwarnings( diff --git a/tools/pgo_scripts/test_utility_scale.py b/tools/pgo_scripts/test_utility_scale.py index 0e9e94655692..4c2d44caac2a 100755 --- a/tools/pgo_scripts/test_utility_scale.py +++ b/tools/pgo_scripts/test_utility_scale.py @@ -18,6 +18,7 @@ from qiskit import qasm2 from qiskit.providers.fake_provider import GenericBackendV2 from qiskit.transpiler import CouplingMap +from qiskit.circuit.library import QuantumVolume from qiskit.transpiler.preset_passmanagers import generate_preset_pass_manager QASM_DIR = os.path.join( @@ -78,12 +79,11 @@ def _main(): strict=False, ) qaoa_circ.name = "qaoa_barabasi_albert_N100_3reps" - # Uncomment when this is fast enough to run during release builds - # qv_circ = QuantumVolume(100, seed=123456789) - # qv_circ.measure_all() - # qv_circ.name = "QV1267650600228229401496703205376" + qv_circ = QuantumVolume(100, seed=123456789) + qv_circ.measure_all() + qv_circ.name = "QV1267650600228229401496703205376" for pm in [cz_pm, ecr_pm, cx_pm]: - for circ in [qft_circ, square_heisenberg_circ, qaoa_circ]: + for circ in [qft_circ, square_heisenberg_circ, qaoa_circ, qv_circ]: print(f"Compiling: {circ.name}") pm.run(circ) diff --git a/tox.ini b/tox.ini index 3ee544538a09..89dc84d1758a 100644 --- a/tox.ini +++ b/tox.ini @@ -16,6 +16,7 @@ setenv = QISKIT_TEST_CAPTURE_STREAMS=1 QISKIT_PARALLEL=FALSE passenv = + RUSTUP_TOOLCHAIN RAYON_NUM_THREADS OMP_NUM_THREADS QISKIT_PARALLEL