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rank_k_operation.py
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rank_k_operation.py
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#################################################################################################
#
# Copyright (c) 2017 - 2024 NVIDIA CORPORATION & AFFILIATES. All rights reserved.
# SPDX-License-Identifier: BSD-3-Clause
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
#
# 1. Redistributions of source code must retain the above copyright notice, this
# list of conditions and the following disclaimer.
#
# 2. Redistributions in binary form must reproduce the above copyright notice,
# this list of conditions and the following disclaimer in the documentation
# and/or other materials provided with the distribution.
#
# 3. Neither the name of the copyright holder nor the names of its
# contributors may be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
# DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
# FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
# SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
# CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
# OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
#################################################################################################
"""
Utilities for emitting RankK kernels
"""
import enum
import functools
import operator
import os.path
import shutil
try:
import builtins
if hasattr(builtins, "CUTLASS_IGNORE_PACKAGE") and CUTLASS_IGNORE_PACKAGE == True:
raise ImportError("Disabling attempt to import cutlass_library")
from cutlass_library.library import *
except ImportError:
from library import *
###################################################################################################
#
# Data structure modeling a Rank K update operation
#
###################################################################################################
#
class RankKOperation:
#
def __init__(self, rank_k_kind, arch, tile_description, A, C, element_epilogue, \
epilogue_functor = EpilogueFunctor.LinearCombination, swizzling_functor = SwizzlingFunctor.Identity8, \
blas_mode = BlasMode.symmetric):
self.blas_mode = blas_mode
self.operation_kind = OperationKind.RankK
self.arch = arch
self.tile_description = tile_description
self.rank_k_kind = rank_k_kind
self.A = A
self.C = C
self.element_epilogue = element_epilogue
self.epilogue_functor = epilogue_functor
self.swizzling_functor = swizzling_functor
#
def is_complex(self):
complex_operators = [
MathOperation.multiply_add_complex,
MathOperation.multiply_add_complex_gaussian,
MathOperation.multiply_add_complex_fast_f32
]
return self.tile_description.math_instruction.math_operation in complex_operators
return False
#
def is_mixed_input(self):
return False
#
def is_planar_complex(self):
return False
#
def accumulator_type(self):
accum = self.tile_description.math_instruction.element_accumulator
if self.is_complex():
return get_complex_from_real(accum)
return accum
#
def short_math_name(self):
if self.tile_description.math_instruction.math_operation == MathOperation.multiply_add_complex_gaussian:
return "g%s" % ShortDataTypeNames[self.accumulator_type()]
return ShortDataTypeNames[self.accumulator_type()]
#
def core_name(self):
''' The basic operation kind is prefixed with a letter indicating the accumulation type. '''
inst_shape = ''
inst_operation = ''
intermediate_type = ''
math_operations_map = {
MathOperation.xor_popc: 'xor',
MathOperation.and_popc: 'and'
}
if self.tile_description.math_instruction.opcode_class == OpcodeClass.TensorOp or \
self.tile_description.math_instruction.opcode_class == OpcodeClass.WmmaTensorOp:
math_op = self.tile_description.math_instruction.math_operation
math_op_string = math_operations_map[math_op] if math_op in math_operations_map.keys() else ''
inst_shape = "%d%d%d" % tuple(self.tile_description.math_instruction.instruction_shape)
inst_shape += math_op_string
if self.tile_description.math_instruction.element_a != self.A.element and \
self.tile_description.math_instruction.element_a != self.tile_description.math_instruction.element_accumulator:
intermediate_type = DataTypeNames[self.tile_description.math_instruction.element_a]
operation_name = 'syrk' if self.blas_mode == BlasMode.symmetric else 'herk'
return "%s%s%s%s" % (self.short_math_name(), inst_shape, intermediate_type, operation_name)
#
def extended_name(self):
''' Append data types if they differ from compute type. '''
if self.is_complex():
extended_name = "${core_name}"
else:
if self.C.element != self.tile_description.math_instruction.element_accumulator and \
self.A.element != self.tile_description.math_instruction.element_accumulator:
extended_name = "${element_c}_${core_name}_${element_a}"
elif self.C.element == self.tile_description.math_instruction.element_accumulator and \
self.A.element != self.tile_description.math_instruction.element_accumulator:
extended_name = "${core_name}_${element_a}"
else:
extended_name = "${core_name}"
extended_name = SubstituteTemplate(extended_name, {
'element_a': DataTypeNames[self.A.element],
'element_c': DataTypeNames[self.C.element],
'core_name': self.core_name()
})
return extended_name
#
def layout_name(self):
if self.is_complex() or self.is_planar_complex():
return "%s" % (
ShortComplexLayoutNames[(self.A.layout, self.A.complex_transform)]
)
return "%s" % (ShortLayoutTypeNames[self.A.layout])
#
def fill_mode_name(self):
return "%s" % (ShortFillModeNames[self.C.fill_mode])
#
def procedural_name(self):
''' The full procedural name indicates architecture, extended name, tile size, and layout. '''
threadblock = self.tile_description.procedural_name()
opcode_class_name = OpcodeClassNames[self.tile_description.math_instruction.opcode_class]
alignment = max([self.A.alignment, self.C.alignment])
return SubstituteTemplate(
"cutlass_${opcode_class}_${extended_name}_${threadblock}_${layout}_${fill_mode}_align${alignment}",
{
'opcode_class': opcode_class_name,
'extended_name': self.extended_name(),
'threadblock': threadblock,
'layout': self.layout_name(),
'fill_mode': self.fill_mode_name(),
'alignment': "%d" % self.A.alignment,
}
)
#
def configuration_name(self):
''' The full procedural name indicates architecture, extended name, tile size, and layout. '''
return self.procedural_name()
###################################################################################################
#
# Emits single instances of a CUTLASS device-wide operator
#
###################################################################################################
#
class EmitRankKUniversalInstance:
''' Responsible for emitting a CUTLASS template definition'''
def __init__(self):
self.rank_k_template = """
// Rank K operator ${operation_name}
using Operation_${operation_name} =
typename cutlass::gemm::device::RankK<
${element_a}, ${layout_a},
${element_c}, ${layout_c}, ${fill_mode},
${element_accumulator},
${opcode_class},
${arch},
cutlass::gemm::GemmShape<${threadblock_shape_m}, ${threadblock_shape_n}, ${threadblock_shape_k}>,
cutlass::gemm::GemmShape<${warp_shape_m}, ${warp_shape_n}, ${warp_shape_k}>,
cutlass::gemm::GemmShape<${instruction_shape_m}, ${instruction_shape_n}, ${instruction_shape_k}>,
${epilogue_functor}<
${element_c},
${epilogue_vector_length},
${element_accumulator},
${element_epilogue}
>,
${swizzling_functor},
${stages},
${align_a},
${split_k_serial},
${math_operation}
>;
"""
self.rank_k_complex_template = """
// Rank K operator ${operation_name}
using Operation_${operation_name} =
typename cutlass::gemm::device::RankK<
${element_a}, ${layout_a},
${element_c}, ${layout_c}, ${fill_mode},
${element_accumulator},
${opcode_class},
${arch},
cutlass::gemm::GemmShape<${threadblock_shape_m}, ${threadblock_shape_n}, ${threadblock_shape_k}>,
cutlass::gemm::GemmShape<${warp_shape_m}, ${warp_shape_n}, ${warp_shape_k}>,
cutlass::gemm::GemmShape<${instruction_shape_m}, ${instruction_shape_n}, ${instruction_shape_k}>,
${epilogue_functor}<
${element_c},
${epilogue_vector_length},
${element_accumulator},
${element_epilogue}
>,
${swizzling_functor},
${stages},
${align_a},
${split_k_serial},
${math_operation},
${transform_a},
${blas_mode}
>;
"""
def emit(self, operation):
threadblock_shape = operation.tile_description.threadblock_shape
warp_count = operation.tile_description.warp_count
warp_shape = [threadblock_shape[idx] // warp_count[idx] for idx in range(3)]
epilogue_vector_length = int(min(operation.C.alignment * DataTypeSize[operation.C.element], 128) / DataTypeSize[operation.C.element])
values = {
'operation_name': operation.procedural_name(),
'element_a': DataTypeTag[operation.A.element],
'layout_a': LayoutTag[operation.A.layout],
'element_c': DataTypeTag[operation.C.element],
'layout_c': LayoutTag[operation.C.layout],
'fill_mode': FillModeTag[operation.C.fill_mode],
'element_accumulator': DataTypeTag[operation.accumulator_type()],
'opcode_class': OpcodeClassTag[operation.tile_description.math_instruction.opcode_class],
'arch': "cutlass::arch::Sm%d" % operation.arch,
'threadblock_shape_m': str(operation.tile_description.threadblock_shape[0]),
'threadblock_shape_n': str(operation.tile_description.threadblock_shape[1]),
'threadblock_shape_k': str(operation.tile_description.threadblock_shape[2]),
'warp_shape_m': str(warp_shape[0]),
'warp_shape_n': str(warp_shape[1]),
'warp_shape_k': str(warp_shape[2]),
'instruction_shape_m': str(operation.tile_description.math_instruction.instruction_shape[0]),
'instruction_shape_n': str(operation.tile_description.math_instruction.instruction_shape[1]),
'instruction_shape_k': str(operation.tile_description.math_instruction.instruction_shape[2]),
'epilogue_vector_length': str(epilogue_vector_length),
'element_epilogue': str(DataTypeTag[operation.element_epilogue]),
'epilogue_functor': EpilogueFunctorTag[operation.epilogue_functor],
'swizzling_functor': SwizzlingFunctorTag[operation.swizzling_functor],
'stages': str(operation.tile_description.stages),
'align_a': str(operation.A.alignment),
'split_k_serial': 'false',
'math_operation': MathOperationTag[operation.tile_description.math_instruction.math_operation],
'transform_a': ComplexTransformTag[operation.A.complex_transform],
'blas_mode': BlasModeTag[operation.blas_mode]
}
rank_k_template = self.rank_k_complex_template if operation.is_complex() else self.rank_k_template
return SubstituteTemplate(rank_k_template, values)
###################################################################################################
###################################################################################################
#
# Emitters functions for all targets
#
###################################################################################################
class EmitRankKConfigurationLibrary:
def __init__(self, operation_path, configuration_name):
self.configuration_name = configuration_name
self.configuration_path = os.path.join(operation_path, "%s.cu" % configuration_name).replace('\\', '/')
self.instance_emitter = {
RankKKind.Universal: EmitRankKUniversalInstance,
}
self.rank_k_kind_wrappers = {
RankKKind.Universal: 'RankKOperation',
}
self.instance_template = {
RankKKind.Universal: """
${compile_guard_start}
manifest.append(new ${rank_k_kind}<
Operation_${operation_name}
>("${operation_name}"));
${compile_guard_end}
"""
}
self.header_template = """
/*
Generated by rank_k_operation.py - Do not edit.
*/
///////////////////////////////////////////////////////////////////////////////////////////////////
#include "cutlass/cutlass.h"
#include "cutlass/library/library.h"
#include "cutlass/library/manifest.h"
#include "library_internal.h"
#include "rank_k_operation.h"
///////////////////////////////////////////////////////////////////////////////////////////////////
"""
self.initialize_function_template = """
///////////////////////////////////////////////////////////////////////////////////////////////////
namespace cutlass {
namespace library {
///////////////////////////////////////////////////////////////////////////////////////////////////
void initialize_${configuration_name}(Manifest &manifest) {
"""
self.epilogue_template = """
}
///////////////////////////////////////////////////////////////////////////////////////////////////
} // namespace library
} // namespace cutlass
///////////////////////////////////////////////////////////////////////////////////////////////////
"""
def __enter__(self):
self.configuration_file = open(self.configuration_path, "w")
self.configuration_file.write(self.header_template)
self.instance_definitions = []
self.instance_wrappers = []
self.operations = []
return self
def emit(self, operation):
emitter = self.instance_emitter[operation.rank_k_kind]()
self.operations.append(operation)
self.instance_definitions.append(emitter.emit(operation))
self.instance_wrappers.append(SubstituteTemplate(self.instance_template[operation.rank_k_kind], {
'configuration_name': self.configuration_name,
'operation_name': operation.procedural_name(),
'rank_k_kind': self.rank_k_kind_wrappers[operation.rank_k_kind],
'compile_guard_start': SubstituteTemplate(self.wmma_guard_start, {'sm_number': str(operation.arch)}) \
if operation.tile_description.math_instruction.opcode_class == OpcodeClass.WmmaTensorOp else "",
'compile_guard_end': "#endif" \
if operation.tile_description.math_instruction.opcode_class == OpcodeClass.WmmaTensorOp else ""
}))
def __exit__(self, exception_type, exception_value, traceback):
# Write instance definitions in top-level namespace
for instance_definition in self.instance_definitions:
self.configuration_file.write(instance_definition)
# Add wrapper objects within initialize() function
self.configuration_file.write(SubstituteTemplate(self.initialize_function_template, {
'configuration_name': self.configuration_name
}))
for instance_wrapper in self.instance_wrappers:
self.configuration_file.write(instance_wrapper)
self.configuration_file.write(self.epilogue_template)
self.configuration_file.close()
###################################################################################################