Skip to content
New issue

Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.

By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.

Already on GitHub? Sign in to your account

[TIR] Handle DeclBuffer in LowerCustomDatatypes #15041

Merged
merged 3 commits into from
Jun 10, 2023
Merged
Show file tree
Hide file tree
Changes from all commits
Commits
File filter

Filter by extension

Filter by extension

Conversations
Failed to load comments.
Loading
Jump to
Jump to file
Failed to load files.
Loading
Diff view
Diff view
5 changes: 5 additions & 0 deletions src/tir/transforms/lower_custom_datatypes.cc
Original file line number Diff line number Diff line change
Expand Up @@ -103,6 +103,11 @@ class CustomDatatypesLowerer : public StmtExprMutator {
}
}

Stmt VisitStmt_(const DeclBufferNode* op) final {
auto node = Downcast<DeclBuffer>(StmtExprMutator::VisitStmt_(op));
return VisitBufferAccess(std::move(node));
}

PrimExpr VisitExpr_(const BufferLoadNode* op) final {
auto node = Downcast<BufferLoad>(StmtExprMutator::VisitExpr_(op));
auto modified = VisitBufferAccess(node);
Expand Down
260 changes: 175 additions & 85 deletions tests/python/unittest/test_custom_datatypes.py
Original file line number Diff line number Diff line change
Expand Up @@ -34,6 +34,7 @@
register_op,
)
from tvm.tir.op import call_pure_extern
from tvm.script import tir as T


# note: we can't use relay.testing models because params are randomly initialized,
Expand Down Expand Up @@ -116,88 +117,105 @@ def setup_myfloat():
Own Datatypes framework.
"""

# To use datatype operations in an external library, you should first load
# the library containing the datatype implementation:
# CDLL("libposit.so", RTLD_GLOBAL)
# In this case, the datatype library we are using is built right into TVM,
# so we do not need to explicitly load any library.
def _setup_myfloat_inner():
# To use datatype operations in an external library, you should first load
# the library containing the datatype implementation:
# CDLL("libposit.so", RTLD_GLOBAL)
# In this case, the datatype library we are using is built right into TVM,
# so we do not need to explicitly load any library.

# You can pick a code for your datatype arbitrarily, as long as it is
# greater than 128 and has not already been chosen.
register("myfloat", 131)
# You can pick a code for your datatype arbitrarily, as long as it is
# greater than 128 and has not already been chosen.
register("myfloat", 131)

register_op(
create_lower_func({(32, 32): "FloatToCustom32"}), "Cast", "llvm", "float", "myfloat"
)
register_op(
create_lower_func({(32, 32): "Custom32ToFloat"}), "Cast", "llvm", "myfloat", "float"
)
register_op(create_lower_func({32: "Custom32Add"}), "Add", "llvm", "myfloat")
register_op(
create_lower_func(
{
32: "Custom32Sub",
}
),
"Sub",
"llvm",
"myfloat",
)
register_op(create_lower_func({32: "Custom32Mul"}), "Mul", "llvm", "myfloat")
register_op(
create_lower_func(
{
32: "FloatToCustom32",
}
),
"FloatImm",
"llvm",
"myfloat",
)
register_op(
create_lower_func(
{
32: "Custom32Div",
}
),
"Div",
"llvm",
"myfloat",
)
register_op(create_lower_func({32: "Custom32Max"}), "Max", "llvm", "myfloat")
register_op(
create_lower_func({32: "Custom32Sqrt"}),
"Call",
"llvm",
"myfloat",
intrinsic_name="tir.sqrt",
)
register_op(
create_lower_func({32: "Custom32Exp"}), "Call", "llvm", "myfloat", intrinsic_name="tir.exp"
)
register_op(
create_lower_func({32: "Custom32Log"}), "Call", "llvm", "myfloat", intrinsic_name="tir.log"
)
register_op(
create_lower_func({32: "Custom32Sigmoid"}),
"Call",
"llvm",
"myfloat",
intrinsic_name="tir.sigmoid",
)
register_op(
create_lower_func({32: "Custom32Tanh"}),
"Call",
"llvm",
"myfloat",
intrinsic_name="tir.tanh",
)
register_op(lower_ite, "Call", "llvm", "myfloat", intrinsic_name="tir.if_then_else")
register_op(
lower_call_pure_extern, "Call", "llvm", "myfloat", intrinsic_name="tir.call_pure_extern"
)
register_op(
create_lower_func({(32, 32): "FloatToCustom32"}), "Cast", "llvm", "float", "myfloat"
)
register_op(
create_lower_func({(32, 32): "Custom32ToFloat"}), "Cast", "llvm", "myfloat", "float"
)
register_op(create_lower_func({32: "Custom32Add"}), "Add", "llvm", "myfloat")
register_op(
create_lower_func(
{
32: "Custom32Sub",
}
),
"Sub",
"llvm",
"myfloat",
)
register_op(create_lower_func({32: "Custom32Mul"}), "Mul", "llvm", "myfloat")
register_op(
create_lower_func(
{
32: "FloatToCustom32",
}
),
"FloatImm",
"llvm",
"myfloat",
)
register_op(
create_lower_func(
{
32: "Custom32Div",
}
),
"Div",
"llvm",
"myfloat",
)
register_op(create_lower_func({32: "Custom32Max"}), "Max", "llvm", "myfloat")
register_op(
create_lower_func({32: "Custom32Sqrt"}),
"Call",
"llvm",
"myfloat",
intrinsic_name="tir.sqrt",
)
register_op(
create_lower_func({32: "Custom32Exp"}),
"Call",
"llvm",
"myfloat",
intrinsic_name="tir.exp",
)
register_op(
create_lower_func({32: "Custom32Log"}),
"Call",
"llvm",
"myfloat",
intrinsic_name="tir.log",
)
register_op(
create_lower_func({32: "Custom32Sigmoid"}),
"Call",
"llvm",
"myfloat",
intrinsic_name="tir.sigmoid",
)
register_op(
create_lower_func({32: "Custom32Tanh"}),
"Call",
"llvm",
"myfloat",
intrinsic_name="tir.tanh",
)
register_op(lower_ite, "Call", "llvm", "myfloat", intrinsic_name="tir.if_then_else")
register_op(
lower_call_pure_extern, "Call", "llvm", "myfloat", intrinsic_name="tir.call_pure_extern"
)

register_min_func(create_min_lower_func({32: "MinCustom32"}, "myfloat"), "myfloat")

register_min_func(create_min_lower_func({32: "MinCustom32"}, "myfloat"), "myfloat")
try:
_setup_myfloat_inner()
except tvm._ffi.base.TVMError as e:
# Ignore this specific error which can happen if another test
# that uses "myfloat" has already run.
if "float is already registered" not in str(e):
raise e


def setup_posites2():
Expand Down Expand Up @@ -513,12 +531,8 @@ def run_batchnorm(src_dtype, dst_dtype, rtol=1e-6, atol=1e-6):


def test_myfloat():
try:
setup_myfloat()
except tvm._ffi.base.TVMError as e:
if "float is already registered" not in str(e):
# Ignore this specific error which can happen if this test runs twice within the same process
raise e
setup_myfloat()

run_ops("float32", "custom[myfloat]32", rtol=1e-6, atol=1e-6)
run_conv2d("float32", "custom[myfloat]32", rtol=1e-6, atol=1e-6)
run_batchnorm("float32", "custom[myfloat]32", rtol=1e-6, atol=1e-6)
Expand All @@ -529,6 +543,82 @@ def test_myfloat():
# 'custom[myfloat]32')


class TestMyfloatLowering(tvm.testing.CompareBeforeAfter):
setup_myfloat()

transform = tvm.tir.transform.LowerCustomDatatypes()

def before(self):
dtype = "custom[myfloat]32"

@T.prim_func
def func(A_data: T.handle(dtype)):
T.func_attr({"target": T.target("llvm")})
A = T.Buffer(16, dtype=dtype, data=A_data)
B_data = T.allocate([16], dtype=dtype)
B = T.Buffer(16, dtype=dtype, data=B_data)
for i in range(16):
B[i] = A[i] + 1.0

return func

def expected(self):
dtype = "custom[myfloat]32"

@T.prim_func
def func(A_data: T.handle(dtype)):
T.func_attr({"target": T.target("llvm")})
A_uint32 = T.Buffer(16, "uint32", data=A_data)
B_data = T.allocate([16], dtype="uint32")
B_uint32 = T.Buffer(16, "uint32", data=B_data)
for i in range(16):
B_uint32[i] = T.call_pure_extern(
"uint32",
"FloatToCustom32",
T.call_pure_extern("float32", "Custom32ToFloat", A_uint32[i]) + T.float32(1),
)

return func


class TestMyfloatLoweringDeclBuffer(tvm.testing.CompareBeforeAfter):
"""Like TestMyfloatLoweringDeclBuffer, but using DeclBuffer"""

setup_myfloat()

transform = tvm.tir.transform.LowerCustomDatatypes()

def before(self):
dtype = "custom[myfloat]32"

@T.prim_func
def func(A_data: T.handle(dtype)):
T.func_attr({"target": T.target("llvm")})
A = T.decl_buffer(16, dtype=dtype, data=A_data)
B = T.decl_buffer(16, dtype=dtype)
for i in range(16):
B[i] = A[i] + 1.0

return func

def expected(self):
dtype = "custom[myfloat]32"

@T.prim_func
def func(A_data: T.handle(dtype)):
T.func_attr({"target": T.target("llvm")})
A_uint32 = T.decl_buffer(16, "uint32", data=A_data)
B_uint32 = T.decl_buffer(16, dtype="uint32")
for i in range(16):
B_uint32[i] = T.call_pure_extern(
"uint32",
"FloatToCustom32",
T.call_pure_extern("float32", "Custom32ToFloat", A_uint32[i]) + T.float32(1),
)

return func


def _has_posit():
return tvm.support.libinfo()["USE_BYODT_POSIT"] == "ON"

Expand Down