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Add descriptions to new patterns pages #1473

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Jun 3, 2024
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16 changes: 8 additions & 8 deletions scripts/patterns-reorg/page_content.py
Original file line number Diff line number Diff line change
Expand Up @@ -18,7 +18,7 @@ def map_content(index: str) -> str:
"""\
---
title: Map problem to circuits
description: TODO - 50+ characters long to ignore metadata check for now!
description: Take a classical problem and map it to run on a quantum computer.
---

# Map problem to circuits
Expand Down Expand Up @@ -50,7 +50,7 @@ def postprocess_index_content(index: str) -> str:
"""\
---
title: Post-process results
description: TODO - 50+ characters long to ignore metadata check for now!
description: Post-process the results obtained by running on a quantum computer.
---

# Post-process results
Expand All @@ -73,7 +73,7 @@ def optimize_content(index: str) -> str:
"""\
---
title: Optimize for target hardware
description: TODO - 50+ characters long to ignore metadata check for now!
description: Optimize abstract circuits and operators so they can run on quantum hardware.
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---

# Optimize for target hardware
Expand Down Expand Up @@ -101,7 +101,7 @@ def execute_index_content(index: str) -> str:
"""\
---
title: Execute on hardware
description: TODO - 50+ characters long to ignore metadata check for now!
description: Run circuits on hardware and return output from a quantum computer.
---

# Execute on hardware
Expand Down Expand Up @@ -132,13 +132,13 @@ def patterns_index_content() -> str:
return dedent(
"""\
---
title: Introduction to Qiskit Patterns
description: TODO - 50+ characters long to ignore metadata check for now!
title: Introduction to Qiskit patterns
description: Qiskit patterns are the broad steps employed when running a domain-specific problem on quantum hardware.
---

# Introduction to Qiskit Patterns
# Introduction to Qiskit patterns

Qiskit Patterns is a general framework for breaking down domain-specific problems and contextualizing required capabilities in stages. This allows for the seamless composability of new capabilities developed by IBM Quantum researchers (and others) and enables a future in which quantum computing tasks are performed by powerful heterogenous (CPU/GPU/QPU) computing infrastructure. Blocks or groups of blocks perform the steps of a pattern, with the Qiskit SDK providing an important foundational layer, supported by other tools or services developed by IBM Quantum or the quantum open-source community. Qiskit Patterns allows domain experts to specify a problem and compose the tooling (blocks) that achieves a Qiskit pattern, then that pattern could be executed locally, through cloud services, or deployed with Quantum Serverless.
Qiskit patterns is a general framework for breaking down domain-specific problems and contextualizing required capabilities in stages. This allows for the seamless composability of new capabilities developed by IBM Quantum researchers (and others) and enables a future in which quantum computing tasks are performed by powerful heterogenous (CPU/GPU/QPU) computing infrastructure. Blocks or groups of blocks perform the steps of a pattern, with the Qiskit SDK providing an important foundational layer, supported by other tools or services developed by IBM Quantum or the quantum open-source community. Qiskit Patterns allows domain experts to specify a problem and compose the tooling (blocks) that achieves a Qiskit pattern, then that pattern could be executed locally, through cloud services, or deployed with Quantum Serverless.
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The four steps of a Qiskit Pattern are as follows:
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