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conv3x_emitter.py
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conv3x_emitter.py
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#################################################################################################
#
# Copyright (c) 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 CUTLASS >= 3 convolution kernels
"""
import enum
import os.path
import shutil
import logging
from string import Template
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 *
_LOGGER = logging.getLogger(__name__)
###################################################################################################
#
# Emits single instances of a CUTLASS device-wide operator
#
###################################################################################################
class EmitConv3xInstance:
def __init__(self):
_LOGGER.debug("*** EmitConv3xInstance::__init__")
# Define epilogue type first, so that the mainloop type
# can use it with StageCountAutoCarveout.
self.template = """
// CUTLASS >= 3 convolution ${conv_kind_name} kernel instance "${operation_name}"
using ${operation_name}_epilogue =
typename cutlass::epilogue::collective::CollectiveBuilder<
${arch},
${opcode_class_epi},
${output_cta_tile_shape}, // output cta tile shape
${cluster_shape}, // cluster shape
${epi_tile_mn},
${element_accumulator},
${element_compute},
${element_c}, ${layout_c}, 128 / cute::sizeof_bits_v<${element_c}>,
${element_d}, ${layout_d}, 128 / cute::sizeof_bits_v<${element_d}>,
${epilogue_schedule}
// , class FusionOpOrCallbacks = cutlass::epilogue::fusion::LinearCombination<ElementD,ElementCompute>
>::CollectiveOp;
using ${operation_name}_mainloop =
typename cutlass::conv::collective::CollectiveBuilder<
${arch},
${opcode_class_main},
${conv_kind}, // kFprop, kDgrad, or kWgrad
${element_a}, ${layout_a}, 128 / cute::sizeof_bits_v<${element_a}>,
${element_b}, ${layout_b}, 128 / cute::sizeof_bits_v<${element_b}>,
${element_accumulator},
${mma_tile_shape}, // mma tile shape
${cluster_shape}, // cluster shape
${stages},
${kernel_schedule}
>::CollectiveOp;
// Unit tests call this "ConvKernel".
// Conv operator ${operation_name}
using ${operation_name}_base = cutlass::conv::kernel::ConvUniversal<
${operation_name}_mainloop,
${operation_name}_epilogue,
${tile_scheduler}
>;
"""
def arch_number_to_type(self, arch: int) -> str:
return f"cutlass::arch::Sm{arch}"
def output_cta_tile_shape(self, operation, cta_m, cta_n, cta_k) -> str:
# For all three kinds of convolutions, the tile shape's K mode
# differs from GEMM in that needs to be wrapped in a Shape.
# For Wgrad convolutions specifically,
# the N tile shape also needs to be wrapped in a Shape.
m_template = 'cute::_${cta_m}'
if operation.conv_kind == ConvKind.Wgrad:
n_template = 'cute::Shape<cute::_${cta_n}>'
else:
n_template = 'cute::_${cta_n}'
k_template = 'cute::Shape<cute::_${cta_k}>'
output_cta_tile_shape_template = f'cute::Shape<{m_template}, {n_template}, {k_template}>'
values = {
'cta_m': cta_m,
'cta_n': cta_n,
'cta_k': cta_k
}
return Template(output_cta_tile_shape_template).substitute(values)
def mma_tile_shape(self, operation, cta_m, cta_n, cta_k) -> str:
mma_m = cta_m
mma_n = cta_n
mma_k = cta_k
# For all three kinds of convolutions, the tile shape's K mode
# differs from GEMM in that needs to be wrapped in a Shape.
# For Wgrad convolutions specifically,
# the N tile shape also needs to be wrapped in a Shape.
m_template = 'cute::_${mma_m}'
if operation.conv_kind == ConvKind.Wgrad:
n_template = 'cute::Shape<cute::_${mma_n}>'
else:
n_template = 'cute::_${mma_n}'
k_template = 'cute::Shape<cute::_${mma_k}>'
mma_tile_shape_template = f'cute::Shape<{m_template}, {n_template}, {k_template}>'
values = {
'mma_m': mma_m,
'mma_n': mma_n,
'mma_k': mma_k
}
return Template(mma_tile_shape_template).substitute(values)
def cluster_shape(self, operation) -> str:
m_template = 'cute::_${cluster_shape_m}' if operation.tile_description.cluster_shape[0] > 0 else 'int(0)'
n_template = 'cute::_${cluster_shape_n}' if operation.tile_description.cluster_shape[1] > 0 else 'int(0)'
k_template = 'cute::_${cluster_shape_k}' if operation.tile_description.cluster_shape[2] > 0 else 'int(0)'
cluster_shape_template = f'cute::Shape<{m_template}, {n_template}, {k_template}>'
values = {
'cluster_shape_m': operation.tile_description.cluster_shape[0],
'cluster_shape_n': operation.tile_description.cluster_shape[1],
'cluster_shape_k': operation.tile_description.cluster_shape[2],
}
return Template(cluster_shape_template).substitute(values)
def stage_count(self, operation) -> str:
# stages == 0 tells builder to pick the number of stages automatically
namespace_prefix = 'cutlass::conv::collective::'
if operation.tile_description.stages > 0:
return f"{namespace_prefix}StageCount<{str(operation.tile_description.stages)}>"
else:
return f"{namespace_prefix}StageCountAutoCarveout<sizeof(typename {operation.procedural_name()}_epilogue::SharedStorage)>"
def emit(self, operation) -> str:
_LOGGER.debug("*** EmitConv3xInstance::emit")
_LOGGER.debug("*** operation: procedural_name()=" + operation.procedural_name())
# Identify the operation as CUTLASS 3 by its is_3x field
if (not hasattr(operation, 'is_3x')) or (not operation.is_3x):
raise RuntimeError("operation must be a CUTLASS 3 operation")
epi_tile_mn = "cutlass::epilogue::collective::EpilogueTileAuto"
opcode_class_main = OpcodeClassTag[operation.tile_description.math_instruction.opcode_class]
opcode_class_epi = opcode_class_main
tile_shape = operation.tile_description.tile_shape
cluster_m = operation.tile_description.cluster_shape[0]
cluster_n = operation.tile_description.cluster_shape[1]
cta_m, cta_n, cta_k = tile_shape
warp_count = operation.tile_description.warp_count
epilogue_schedule = EpilogueScheduleTag[operation.epilogue_schedule]
# KernelScheduleTag and TileSchedulerTag both hard-code the
# namespace qualification of KernelScheduleAuto as
# "cutlass::gemm::collective::" (unless the tag is 'void').
#
# For TileSchedulerTag, this namespace is fine, since CUTLASS 3
# convolutions use the same tile schedulers (from the same
# cutlass::gemm::collective namespace) as GEMMs.
kernel_schedule = KernelScheduleTag[operation.kernel_schedule].replace('gemm::', 'conv::')
tile_scheduler = TileSchedulerTag[operation.tile_scheduler]
opcode_class = OpcodeClassTag[operation.tile_description.math_instruction.opcode_class]
values = {
'operation_name': operation.procedural_name(),
'conv_kind': ConvKindTag[operation.conv_kind],
'conv_kind_name': ConvKindNames[operation.conv_kind].capitalize(),
'element_a': DataTypeTag[operation.A.element],
'layout_a': LayoutTag[operation.A.layout],
'align_a': int(operation.A.alignment),
'element_b': DataTypeTag[operation.B.element],
'layout_b': LayoutTag[operation.B.layout],
'align_b': int(operation.B.alignment),
'element_c': DataTypeTag[operation.C.element],
'layout_c': LayoutTag[operation.C.layout],
'align_c': int(operation.C.alignment),
'element_d': DataTypeTag[operation.D.element],
'layout_d': LayoutTag[operation.D.layout],
'align_d': int(operation.D.alignment),
'element_accumulator': DataTypeTag[operation.accumulator_type()],
'opcode_class': opcode_class,
'arch': self.arch_number_to_type(operation.arch),
'output_cta_tile_shape': self.output_cta_tile_shape(operation, cta_m, cta_n, cta_k),
'mma_tile_shape': self.mma_tile_shape(operation, cta_m, cta_n, cta_k),
'cluster_shape': self.cluster_shape(operation),
'opcode_class_epi': opcode_class_epi,
'opcode_class_main': opcode_class_main,
'epi_tile_mn': epi_tile_mn,
'stages': self.stage_count(operation),
'kernel_schedule': kernel_schedule,
'epilogue_schedule': epilogue_schedule,
'tile_scheduler': tile_scheduler,
'element_compute': DataTypeTag[operation.element_compute]
}
return Template(self.template).substitute(values)
class EmitConv3xIncludes:
def __init__(self):
_LOGGER.debug("*** EmitConv3xIncludes::__init__")
self.includes = ['conv_operation_3x.hpp',
'cutlass/conv/device/conv_universal_adapter.hpp',
'cutlass/conv/kernel/conv_universal.hpp',
'cutlass/conv/collective/collective_builder.hpp',
'cutlass/epilogue/collective/collective_builder.hpp']
def emit(self, operation) -> str:
_LOGGER.debug("*** EmitConv3xIncludes::emit")
return '\n'.join(f"#include \"{incl}\"" for incl in self.includes) + \
"\n\n///////////////////////////////////////////////////////////////////////////////////////////////////"