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Commit 1c02848d authored by Astha Rai's avatar Astha Rai
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added updated version of 3d device op - changed descriptors/dims

parent 949de23b
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include/ck/tensor_operation/gpu/device/impl/device_elementwise_3d_impl.hpp 0 → 100644
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// SPDX-License-Identifier: MIT
// Copyright (c) 2018-2023, Advanced Micro Devices, Inc. All rights reserved.
#pragma once
#include <iostream>
#include <sstream>
#include "ck/utility/math.hpp"
#include "ck/utility/sequence.hpp"
#include "ck/tensor_operation/gpu/device/device_elementwise.hpp"
#include "ck/tensor_operation/gpu/grid/gridwise_elementwise_3d.hpp"
#include "ck/tensor_description/tensor_descriptor_helper.hpp"
#include "ck/host_utility/kernel_launch.hpp"
#include "ck/host_utility/stream_utility.hpp"
namespace ck {
namespace tensor_operation {
namespace device {
template <typename InDataTypeTuple,
typename OutDataTypeTuple,
typename ElementwiseOperation,
index_t NumDim_m,//choose how to set dims
index_t NumDim_n,
index_t NumDim_k,
index_t MPerThread,
index_t NPerThread,
index_t KPerThread,
typename InScalarPerVectorSeq,
typename OutScalarPerVectorSeq>
struct DeviceElementwise3dImpl : public DeviceElementwise<InDataTypeTuple,
OutDataTypeTuple,
ElementwiseOperation,
NumDim_m + NumDim_n + NumDim_k>
{
static constexpr index_t NumDim = NumDim_m + NumDim_n + NumDim_k;
static constexpr int NumInput = InDataTypeTuple::Size();
static constexpr int NumOutput = OutDataTypeTuple::Size();
static constexpr auto I0 = Number<0>{};
static constexpr auto I1 = Number<1>{};
static constexpr auto I2 = Number<2>{};
static constexpr auto I3 = Number<3>{};
static constexpr auto I4 = Number<4>{};
static_assert(NumInput == InScalarPerVectorSeq::Size() &&
NumOutput == OutScalarPerVectorSeq::Size(),
"Tuple size is inconsistent with the number of in/out!");
static auto GenerateInDataTypePointerTuple()
{
return generate_tuple(
[&](auto I) {
using DataType = remove_cvref_t<decltype(InDataTypeTuple{}[I])>;
return static_cast<const DataType*>(nullptr);
},
Number<NumInput>{});
};
static auto GenerateOutDataTypePointerTuple()
{
return generate_tuple(
[&](auto I) {
using DataType = remove_cvref_t<decltype(OutDataTypeTuple{}[I])>;
return static_cast<DataType*>(nullptr);
},
Number<NumOutput>{});
};
using InDataTypePointerTuple = decltype(GenerateInDataTypePointerTuple());
using OutDataTypePointerTuple = decltype(GenerateOutDataTypePointerTuple());
template <typename Desc_MNK>
static auto PadDescriptor_MNK(Desc_MNK desc_mnk,
index_t gridSize,
index_t blockSize,
index_t num_threads_m,
index_t num_threads_n,
index_t num_threads_k)
{
std::ignore = blockSize;
std::ignore = gridSize;
const auto m = desc_mnk.GetLength(I0);
const auto n = desc_mnk.GetLength(I1);
const auto k = desc_mnk.GetLength(I2);
const index_t loop_step_m = num_threads_m * MPerThread;
const index_t loop_step_n = num_threads_n * NPerThread;
const index_t loop_step_k = num_threads_k * KPerThread;
const auto pad_m = math::integer_least_multiple(m, loop_step_m) - m;
const auto pad_n = math::integer_least_multiple(n, loop_step_n) - n;
const auto pad_k = math::integer_least_multiple(k, loop_step_k) - k;
const auto desc_mnk_pad = transform_tensor_descriptor(
desc_mnk,
make_tuple(make_right_pad_transform(m, pad_m), make_right_pad_transform(n, pad_n), make_right_pad_transform(k, pad_k)),
make_tuple(Sequence<0>{}, Sequence<1>{}, Sequence<2>{}),
make_tuple(Sequence<0>{}, Sequence<1>{}, Sequence<2>{}),
make_tuple(Sequence<0>{}, Sequence<1>{}, Sequence<2>{}));
return desc_mnk_pad;
}
static auto MakeDescriptor_MNK(const std::array<index_t, NumDim>& lengths,
const std::array<index_t, NumDim>& stride,
index_t gridSize,
index_t blockSize,
index_t num_threads_m,
index_t num_threads_n,
index_t num_threads_k)
{
auto tupleOfShape = generate_tuple([&](auto I) { return lengths[I]; }, Number<NumDim>{});
auto tupleOfStride = generate_tuple([&](auto I) { return stride[I]; }, Number<NumDim>{});
// nd desc - [s0, s1, s2, ...]
const auto desc = make_naive_tensor_descriptor(tupleOfShape, tupleOfStride);
constexpr auto mDimIds = typename arithmetic_sequence_gen<0, NumDim_m, 1>::type();
constexpr auto nDimIds =
typename arithmetic_sequence_gen<NumDim_m, NumDim_m + NumDim_n, 1>::type();
constexpr auto kDimIds =
typename arithmetic_sequence_gen<NumDim_m + NumDim_n, NumDim, 1>::type();
const auto mLengths = get_container_subset(tupleOfShape, mDimIds);
const auto nLengths = get_container_subset(tupleOfShape, nDimIds);
const auto kLengths = get_container_subset(tupleOfShape, kDimIds);
// merge nd to 3d desc - [s0 * s1 * ...]
if constexpr(NumDim > 3)
{
const auto desc_mnk = transform_tensor_descriptor(
desc,
make_tuple(make_merge_transform(mLengths), make_merge_transform(nLengths), make_merge_transform(kLengths)),
make_tuple(mDimIds, nDimIds, kDimIds),
make_tuple(Sequence<0>{}, Sequence<1>{}, Sequence<2>{}));
return PadDescriptor_MNK(desc_mnk, gridSize, blockSize, num_threads_m, num_threads_n, num_threads_k);
}
else
return PadDescriptor_MNK(desc, gridSize, blockSize, num_threads_m, num_threads_n, num_threads_k);
}
template <index_t TupleSize>
static auto GenerateInOutGrid3dDescTuple(Number<TupleSize>)
{
return generate_tuple(
[&](auto) {
if constexpr(NumDim > 3)
{
return MakeDescriptor_MNK({1, 1, 1}, {1, 1, 1}, 1, 1, 1, 1, 1);
}
else
{
return MakeDescriptor_MNK({1}, {1}, 1, 1, 1, 1, 1);
};
},
Number<TupleSize>{});
};
using OutGrid3dDescTuple = decltype(GenerateInOutGrid3dDescTuple(Number<NumOutput>{}));
using InGrid3dDescTuple = decltype(GenerateInOutGrid3dDescTuple(Number<NumInput>{}));
using GridwiseElementwise = GridwiseElementwise_3D<InGrid3dDescTuple,
OutGrid3dDescTuple,
InDataTypePointerTuple,
OutDataTypePointerTuple,
ElementwiseOperation,
MPerThread,
NPerThread,
KPerThread,
InScalarPerVectorSeq,
OutScalarPerVectorSeq>;
struct Argument : public BaseArgument
{
Argument(const std::array<index_t, NumDim> lengths,
const std::array<std::array<index_t, NumDim>, NumInput> inStridesArray,
const std::array<std::array<index_t, NumDim>, NumOutput> outStridesArray,
const std::array<const void*, NumInput> in_dev_buffers,
const std::array<void*, NumOutput> out_dev_buffers,
ElementwiseOperation elementwise_op)
: lengths_(lengths),
inStridesArray_(inStridesArray),
outStridesArray_(outStridesArray),
elementwise_op_(elementwise_op),
blockSize_(256)
{
static_assert(NumDim_m > 0, "");
static_assert(NumDim_n > 0, "");
static_assert(NumDim_k > 0, "");
in_dev_buffers_ = generate_tuple(
[&](auto I) {
using DataType = remove_cvref_t<decltype(InDataTypeTuple{}[I])>;
return static_cast<const DataType*>(in_dev_buffers[I.value]);
},
Number<NumInput>{});
out_dev_buffers_ = generate_tuple(
[&](auto I) {
using DataType = remove_cvref_t<decltype(OutDataTypeTuple{}[I])>;
return static_cast<DataType*>(out_dev_buffers[I.value]);
},
Number<NumOutput>{});
}
InDataTypePointerTuple in_dev_buffers_;
OutDataTypePointerTuple out_dev_buffers_;
std::array<index_t, NumDim> lengths_;
std::array<std::array<index_t, NumDim>, NumInput> inStridesArray_;
std::array<std::array<index_t, NumDim>, NumOutput> outStridesArray_;
ElementwiseOperation elementwise_op_;
index_t blockSize_;
};
struct Invoker : public BaseInvoker
{
float Run(const Argument& arg, const StreamConfig& stream_config = StreamConfig{})
{
index_t gridSize = getAvailableComputeUnitCount(stream_config);
index_t num_threads_m = (gridSize * arg.blockSize_) / 16;
index_t num_threads_n = 4;
index_t num_threads_k = 4;
auto in_grid_3d_desc_tuple = generate_tuple(
[&](auto I) {
return MakeDescriptor_MNK(arg.lengths_,
arg.inStridesArray_[I.value],
gridSize,
arg.blockSize_,
num_threads_m,
num_threads_n,);
num_threads_k);
},
Number<NumInput>{});
auto out_grid_3d_desc_tuple = generate_tuple(
[&](auto I) {
return MakeDescriptor_MNK(arg.lengths_,
arg.outStridesArray_[I.value],
gridSize,
arg.blockSize_,
num_threads_m,
num_threads_n,);
num_threads_k);
},
Number<NumOutput>{});
const auto kernel = kernel_elementwise_3d<GridwiseElementwise,
InGrid3dDescTuple,
OutGrid3dDescTuple,
InDataTypePointerTuple,
OutDataTypePointerTuple,
ElementwiseOperation>;
float elapsed_time = launch_and_time_kernel(stream_config,
kernel,
dim3(gridSize),
dim3(arg.blockSize_),
0,
in_grid_3d_desc_tuple,
out_grid_3d_desc_tuple,
arg.in_dev_buffers_,
arg.out_dev_buffers_,
arg.elementwise_op_,
num_threads_m,
num_threads_n,
num_threads_k);
return elapsed_time;
}
// polymorphic
float Run(const BaseArgument* p_arg,
const StreamConfig& stream_config = StreamConfig{}) override
{
return Run(*dynamic_cast<const Argument*>(p_arg), stream_config);
}
};
bool IsSupportedArgument(const BaseArgument* p_arg) override
{
const Argument* pArg = dynamic_cast<const Argument*>(p_arg);
if(pArg == nullptr)
return false;
if(pArg->lengths_.back() % MPerThread != 0)
return false;
auto IsScalarPerVectorValid = [&](const std::array<index_t, NumDim>& lengths,
const std::array<index_t, NumDim>& strides,
index_t scalarPerVector,
index_t vectorDim) {
if(strides[vectorDim] == 1 &&
(lengths[vectorDim] % scalarPerVector == 0 ||
lengths[vectorDim] % scalarPerVector == lengths[vectorDim]))
{
return true;
}
if(strides[vectorDim] != 1 && scalarPerVector == strides[vectorDim])
{
return true;
}
return false;
};
bool valid = true;
static_for<0, NumInput, 1>{}([&](auto I) {
if(!IsScalarPerVectorValid(pArg->lengths_,
pArg->inStridesArray_[I.value],
InScalarPerVectorSeq::At(I),
NumDim_m - 1))
//LogRangeAsType<float>(std::cout << "in scalarperveq : ", InScalarPerVectorSeq::At(I), ",") << std::endl;
//LogRangeAsType<float>(std::cout << "vecdim : ", NumDim_m - 1, ",") << std::endl;
valid = false;
});
static_for<0, NumOutput, 1>{}([&](auto I) {
if(!IsScalarPerVectorValid(pArg->lengths_,
pArg->outStridesArray_[I.value],
OutScalarPerVectorSeq::At(I),
NumDim - 1))
//LogRangeAsType<float>(std::cout << "out scalarperveq : ", OutScalarPerVectorSeq::At(I), ",") << std::endl;
//LogRangeAsType<float>(std::cout << "vecdim : ", NumDim - 1, ",") << std::endl;
valid = false;
});
return valid;
};
std::unique_ptr<BaseArgument>
MakeArgumentPointer(const std::array<index_t, NumDim> lengths,
const std::array<std::array<index_t, NumDim>, NumInput> inStridesArray,
const std::array<std::array<index_t, NumDim>, NumOutput> outStridesArray,
const std::array<const void*, NumInput> in_dev_buffers,
const std::array<void*, NumOutput> out_dev_buffers,
ElementwiseOperation elementwise_op) override
{
return std::make_unique<Argument>(lengths,
inStridesArray,
outStridesArray,
in_dev_buffers,
out_dev_buffers,
elementwise_op);
}
static auto MakeInvoker() { return Invoker{}; }
std::unique_ptr<BaseInvoker> MakeInvokerPointer() override
{
return std::make_unique<Invoker>();
};
}; // namespace device
} // namespace device
} // namespace tensor_operation
} // namespace ck
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