################################################################################################# # # Copyright (c) 2023 - 2025 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. # ################################################################################################# """ Load nodes and implementations """ import ctypes from cutlass.backend.c_types import tuple_factory from cutlass.backend.epilogue import dtype2ctype, to_ctype_value from cutlass.backend.evt.ir.node import NodeBase, ImplBase class LoadImplBase(ImplBase): """ Base class for load node implementations """ reserved_names = ["accum", "C"] def __init__(self, node) -> None: super().__init__(node) self.element = node.element self.element_output = node.element_output self.stride = node.tensor.stride class AccumulatorImpl(LoadImplBase): """ Accumulator node implementation """ @staticmethod def match(node, problem_size: tuple): return node.name == "accum" and node.tensor.shape == problem_size class LoadSrcImpl(LoadImplBase): """ Load C implementation """ @property def name_camel(self) -> str: return "TensorC" @property def argument_type_c(self): stride_mnl = self.get_stride_mnl() tuple_type = tuple_factory(stride_mnl, self.stride_dtype) class _Argument(ctypes.Structure): _fields_ = [ ("ptr_C", ctypes.c_void_p), ("stride_C", tuple_type) ] def __init__(self, ptr) -> None: self.ptr_C = ptr self.stride_C = tuple_type(stride_mnl) return _Argument @staticmethod def match(node, problem_size: tuple): return node.name == "C" and node.tensor.shape == problem_size class AuxLoadImpl(LoadImplBase): """ Load arbitrary tensor """ @property def argument_type(self): stride_mnl = self.get_stride_mnl() name = self.name tuple_type = tuple_factory(stride_mnl, self.stride_dtype) element_type = self.element class _Argument(ctypes.Structure): _fields_ = [ ("ptr_aux", ctypes.c_void_p), ("null_default", dtype2ctype[element_type]), ("dAux", tuple_type) ] def __init__(self, kwargs) -> None: ptr = kwargs[name] self.ptr_aux = ptr self.null_default = to_ctype_value(0, element_type) self.dAux = tuple_type(stride_mnl) return _Argument @staticmethod def match(node, problem_size: tuple): if node.name in LoadImplBase.reserved_names: return False strideMN = node.tensor.stride[-2:] if (strideMN[0] == 1 and strideMN[1] != 0 or strideMN[0] != 0 and strideMN[1] == 1 ): return True else: return False class RowBroadcastImpl(LoadImplBase): """ Broadcast a row vector """ def __init__(self, node) -> None: super().__init__(node) self.stride_dtype = "int" @property def argument_type(self): stride_mnl = self.get_stride_mnl() name = self.name tuple_type = tuple_factory(stride_mnl, self.stride_dtype) element_type = self.element class _Argument(ctypes.Structure): _fields_ = [ ("ptr_row", ctypes.c_void_p), ("null_default", dtype2ctype[element_type]), ("dRow", tuple_type) ] def __init__(self, kwargs) -> None: ptr = kwargs[name] self.ptr_row = ptr self.null_default = to_ctype_value(0, element_type) self.dRow = tuple_type(stride_mnl) return _Argument @staticmethod def match(node, problem_size: tuple): if node.name in LoadImplBase.reserved_names: return False strideMN = node.tensor.stride[-2:] if strideMN == (0, 1): return True else: return False class ColumnBroadcastImpl(LoadImplBase): """ Broadcast a column vector """ def __init__(self, node) -> None: super().__init__(node) self.stride_dtype = "int" @property def argument_type(self): stride_mnl = self.get_stride_mnl() name = self.name tuple_type = tuple_factory(stride_mnl, self.stride_dtype) element_type = self.element class _Argument(ctypes.Structure): _fields_ = [ ("ptr_col", ctypes.c_void_p), ("null_default", dtype2ctype[element_type]), ("dCol", tuple_type) ] def __init__(self, kwargs) -> None: ptr = kwargs[name] self.ptr_col = int(ptr) self.null_default = to_ctype_value(0, element_type) self.dCol = tuple_type(stride_mnl) return _Argument @staticmethod def match(node, problem_size: tuple): if node.name in LoadImplBase.reserved_names: return False strideMN = node.tensor.stride[-2:] if strideMN == (1, 0): return True else: return False class ScalarBroadcastImpl(LoadImplBase): """ Broadcast a scalar """ def __init__(self, node) -> None: super().__init__(node) self.stride_dtype = "int" @property def argument_type(self): stride_mnl = self.get_stride_mnl() name = self.name tuple_type = tuple_factory(stride_mnl, self.stride_dtype) element_type = self.element if self.tensor.is_constant: value = self.tensor.value class _Argument(ctypes.Structure): _fields_ = [ ("scalars", dtype2ctype[element_type]), ("scalar_ptrs", ctypes.c_void_p), ("dScalar", tuple_type) ] def __init__(self, kwargs) -> None: self.scalars = to_ctype_value(value, element_type) self.scalar_ptrs = 0 self.dScalar = tuple_type(stride_mnl) else: class _Argument(ctypes.Structure): _fields_ = [ ("scalars", dtype2ctype[element_type]), ("scalar_ptrs", ctypes.c_void_p), ("dScalar", tuple_type) ] def __init__(self, kwargs) -> None: scalar_or_ptr = kwargs[name] if isinstance(scalar_or_ptr, float): self.scalars = to_ctype_value(scalar_or_ptr, element_type) self.scalar_ptrs = 0 else: self.scalar_ptrs = int(scalar_or_ptr) self.dScalar = tuple_type(stride_mnl) return _Argument @staticmethod def match(node, problem_size: tuple): if node.name in LoadImplBase.reserved_names: return False strideMN = node.tensor.stride[-2:] if strideMN == (0, 0): return True else: return False class LoadNode(NodeBase): """ Load Node """ cnt = 0 possible_impls = [ AccumulatorImpl, LoadSrcImpl, AuxLoadImpl, RowBroadcastImpl, ColumnBroadcastImpl, ScalarBroadcastImpl ] def __init__(self, name: str) -> None: if name is None: name = f"load{LoadNode.cnt}" LoadNode.cnt += 1 super().__init__(name) self.op = "load" def type_propagation(self, *args, **kwargs): """ Load node loads tensor under type `tensor.element` and returns an array of type `tensor.element`. """ if self.tensor is None: raise RuntimeError(f"The tensor of node {self.name} is unknown.") self.element = self.tensor.element self.element_output = self.tensor.element