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cutlass/test/unit/cute/hopper/tma_store.cu

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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.
*
**************************************************************************************************/
#include "cutlass_unit_test.h"
#include "../hopper/tma_store_testbed.hpp"
using namespace cute;
using namespace cutlass::test;
#if CUDA_12_0_SM90_FEATURES_SUPPORTED
template <class T, class TmaType = T, class GMEM_Layout, class SMEM_Layout, class CTA_Tile>
void
test_tma_store(GMEM_Layout const& gmem_layout,
SMEM_Layout const& smem_layout,
CTA_Tile const& cta_tile)
{
using namespace cute;
return test_tma_store<T, TmaType>(SM90_TMA_STORE{}, gmem_layout, smem_layout, cta_tile);
}
template <class T, class TmaType = T, class GMEM_Layout, class SMEM_Layout>
void
test_tma_store(GMEM_Layout const& gmem_layout,
SMEM_Layout const& smem_layout)
{
using namespace cute;
return test_tma_store<T, TmaType>(gmem_layout, smem_layout, product_each(shape(smem_layout)));
}
TEST(SM90_CuTe_Hopper, Tma_Load_1D)
{
Layout smem_layout = Layout<_256, _1>{};
{
Layout gmem_layout = smem_layout;
test_tma_store<int8_t>(gmem_layout, smem_layout);
test_tma_store<half_t>(gmem_layout, smem_layout);
test_tma_store< float>(gmem_layout, smem_layout);
test_tma_store<double>(gmem_layout, smem_layout);
}
{
Layout gmem_layout = make_layout(128, GenColMajor{});
test_tma_store<int8_t>(gmem_layout, smem_layout);
test_tma_store<half_t>(gmem_layout, smem_layout);
test_tma_store< float>(gmem_layout, smem_layout);
test_tma_store<double>(gmem_layout, smem_layout);
}
}
TEST(SM90_CuTe_Hopper, Tma_Store_32x32_Col)
{
Layout smem_layout = Layout<Shape<_32,_32>, Stride<_1,_32>>{};
{
Layout gmem_layout = smem_layout;
test_tma_store<int8_t>(gmem_layout, smem_layout);
test_tma_store<half_t>(gmem_layout, smem_layout);
test_tma_store< float>(gmem_layout, smem_layout);
test_tma_store<double>(gmem_layout, smem_layout);
}
{
Layout gmem_layout = make_layout(make_shape(32,32), GenColMajor{});
test_tma_store<int8_t>(gmem_layout, smem_layout);
test_tma_store<half_t>(gmem_layout, smem_layout);
test_tma_store< float>(gmem_layout, smem_layout);
test_tma_store<double>(gmem_layout, smem_layout);
}
{
Layout gmem_layout = make_layout(make_shape(32,32), make_stride(Int<1>{}, 1024));
test_tma_store<int8_t>(gmem_layout, smem_layout);
test_tma_store<half_t>(gmem_layout, smem_layout);
test_tma_store< float>(gmem_layout, smem_layout);
test_tma_store<double>(gmem_layout, smem_layout);
}
}
TEST(SM90_CuTe_Hopper, Tma_Store_32x32_Row)
{
Layout smem_layout = Layout<Shape<_32,_32>, Stride<_32,_1>>{};
{
Layout gmem_layout = smem_layout;
test_tma_store<int8_t>(gmem_layout, smem_layout);
test_tma_store<half_t>(gmem_layout, smem_layout);
test_tma_store< float>(gmem_layout, smem_layout);
test_tma_store<double>(gmem_layout, smem_layout);
}
{
Layout gmem_layout = make_layout(make_shape(32,32), GenRowMajor{});
test_tma_store<int8_t>(gmem_layout, smem_layout);
test_tma_store<half_t>(gmem_layout, smem_layout);
test_tma_store< float>(gmem_layout, smem_layout);
test_tma_store<double>(gmem_layout, smem_layout);
}
{
Layout gmem_layout = make_layout(make_shape(32,32), make_stride(1024, Int<1>{}));
test_tma_store<int8_t>(gmem_layout, smem_layout);
test_tma_store<half_t>(gmem_layout, smem_layout);
test_tma_store< float>(gmem_layout, smem_layout);
test_tma_store<double>(gmem_layout, smem_layout);
}
}
template <class T, template <typename> typename SWIZZLE_ATOM>
void
test_tma_store_swizzle_atom_mn()
{
auto smem_layout = SWIZZLE_ATOM<T>{};
Layout gmem_layout = make_layout(make_shape(2*size<0>(smem_layout), 2*size<1>(smem_layout)), GenColMajor{});
return test_tma_store<T>(gmem_layout, smem_layout);
}
template <class T, template <typename> typename SWIZZLE_ATOM>
void
test_tma_store_swizzle_atom_k()
{
auto smem_layout = SWIZZLE_ATOM<T>{};
Layout gmem_layout = make_layout(make_shape(2*size<0>(smem_layout), 2*size<1>(smem_layout)), GenRowMajor{});
return test_tma_store<T>(gmem_layout, smem_layout);
}
TEST(SM90_CuTe_Hopper, Tma_Store_Swizzle_Atoms)
{
test_tma_store_swizzle_atom_mn<int8_t, GMMA::Layout_MN_SW128_Atom>();
test_tma_store_swizzle_atom_mn<half_t, GMMA::Layout_MN_SW128_Atom>();
test_tma_store_swizzle_atom_mn< float, GMMA::Layout_MN_SW128_Atom>();
test_tma_store_swizzle_atom_mn<double, GMMA::Layout_MN_SW128_Atom>();
test_tma_store_swizzle_atom_mn<int8_t, GMMA::Layout_MN_SW64_Atom>();
test_tma_store_swizzle_atom_mn<half_t, GMMA::Layout_MN_SW64_Atom>();
test_tma_store_swizzle_atom_mn< float, GMMA::Layout_MN_SW64_Atom>();
test_tma_store_swizzle_atom_mn<double, GMMA::Layout_MN_SW64_Atom>();
test_tma_store_swizzle_atom_mn<int8_t, GMMA::Layout_MN_SW32_Atom>();
test_tma_store_swizzle_atom_mn<half_t, GMMA::Layout_MN_SW32_Atom>();
test_tma_store_swizzle_atom_mn< float, GMMA::Layout_MN_SW32_Atom>();
test_tma_store_swizzle_atom_mn<double, GMMA::Layout_MN_SW32_Atom>();
test_tma_store_swizzle_atom_mn<int8_t, GMMA::Layout_MN_INTER_Atom>();
test_tma_store_swizzle_atom_mn<half_t, GMMA::Layout_MN_INTER_Atom>();
test_tma_store_swizzle_atom_mn< float, GMMA::Layout_MN_INTER_Atom>();
test_tma_store_swizzle_atom_mn<double, GMMA::Layout_MN_INTER_Atom>();
test_tma_store_swizzle_atom_k<int8_t, GMMA::Layout_K_SW128_Atom>();
test_tma_store_swizzle_atom_k<half_t, GMMA::Layout_K_SW128_Atom>();
test_tma_store_swizzle_atom_k< float, GMMA::Layout_K_SW128_Atom>();
test_tma_store_swizzle_atom_k<double, GMMA::Layout_K_SW128_Atom>();
test_tma_store_swizzle_atom_k<int8_t, GMMA::Layout_K_SW64_Atom>();
test_tma_store_swizzle_atom_k<half_t, GMMA::Layout_K_SW64_Atom>();
test_tma_store_swizzle_atom_k< float, GMMA::Layout_K_SW64_Atom>();
test_tma_store_swizzle_atom_k<double, GMMA::Layout_K_SW64_Atom>();
test_tma_store_swizzle_atom_k<int8_t, GMMA::Layout_K_SW32_Atom>();
test_tma_store_swizzle_atom_k<half_t, GMMA::Layout_K_SW32_Atom>();
test_tma_store_swizzle_atom_k< float, GMMA::Layout_K_SW32_Atom>();
test_tma_store_swizzle_atom_k<double, GMMA::Layout_K_SW32_Atom>();
test_tma_store_swizzle_atom_k<int8_t, GMMA::Layout_K_INTER_Atom>();
test_tma_store_swizzle_atom_k<half_t, GMMA::Layout_K_INTER_Atom>();
test_tma_store_swizzle_atom_k< float, GMMA::Layout_K_INTER_Atom>();
test_tma_store_swizzle_atom_k<double, GMMA::Layout_K_INTER_Atom>();
}
template <class T, template <typename> typename SWIZZLE_ATOM>
void
test_tma_store_swizzle_tile_mn()
{
auto smem_layout = tile_to_shape(SWIZZLE_ATOM<T>{}, Shape<_128,_128>{});
Layout gmem_layout = make_layout(make_shape(2*size<0>(smem_layout), 2*size<1>(smem_layout)), GenColMajor{});
return test_tma_store<T>(gmem_layout, smem_layout);
}
template <class T, template <typename> typename SWIZZLE_ATOM>
void
test_tma_store_swizzle_tile_k()
{
auto smem_layout = tile_to_shape(SWIZZLE_ATOM<T>{}, Shape<_128,_128>{});
Layout gmem_layout = make_layout(make_shape(2*size<0>(smem_layout), 2*size<1>(smem_layout)), GenRowMajor{});
return test_tma_store<T>(gmem_layout, smem_layout);
}
TEST(SM90_CuTe_Hopper, Tma_Store_Swizzle_Tiles)
{
// Other T-types use too much smem
test_tma_store_swizzle_tile_mn<int8_t, GMMA::Layout_MN_SW128_Atom>();
test_tma_store_swizzle_tile_mn<half_t, GMMA::Layout_MN_SW128_Atom>();
test_tma_store_swizzle_tile_mn<int8_t, GMMA::Layout_MN_SW64_Atom>();
test_tma_store_swizzle_tile_mn<half_t, GMMA::Layout_MN_SW64_Atom>();
test_tma_store_swizzle_tile_mn<int8_t, GMMA::Layout_MN_SW32_Atom>();
test_tma_store_swizzle_tile_mn<half_t, GMMA::Layout_MN_SW32_Atom>();
test_tma_store_swizzle_tile_mn<int8_t, GMMA::Layout_MN_INTER_Atom>();
test_tma_store_swizzle_tile_mn<half_t, GMMA::Layout_MN_INTER_Atom>();
test_tma_store_swizzle_tile_k<int8_t, GMMA::Layout_K_SW128_Atom>();
test_tma_store_swizzle_tile_k<half_t, GMMA::Layout_K_SW128_Atom>();
test_tma_store_swizzle_tile_k<int8_t, GMMA::Layout_K_SW64_Atom>();
test_tma_store_swizzle_tile_k<half_t, GMMA::Layout_K_SW64_Atom>();
test_tma_store_swizzle_tile_k<int8_t, GMMA::Layout_K_SW32_Atom>();
test_tma_store_swizzle_tile_k<half_t, GMMA::Layout_K_SW32_Atom>();
test_tma_store_swizzle_tile_k<int8_t, GMMA::Layout_K_INTER_Atom>();
test_tma_store_swizzle_tile_k<half_t, GMMA::Layout_K_INTER_Atom>();
}
// Tensor by-mode
TEST(SM90_CuTe_Hopper, Tma_Store_Tensor)
{
// 3-mode TMA
{
Layout gmem_layout = make_layout(make_shape(128, 64, 5));
auto cta_tile = Shape<_64, _32>{}; // GMEM Tiling:
// Take 64-elem from m
// Take 32-elem from k
auto smem_layout = make_layout(Shape<_64,_32>{});
test_tma_store<half_t>(gmem_layout, smem_layout, cta_tile);
}
// 4-mode TMA
{
Layout gmem_layout = make_layout(make_shape(make_shape(80,40),make_shape(32,12)));
auto cta_tile = Shape<Shape<_16,_8>,Shape<_32,_2>>{}; // GMEM Tiling:
// Take 16-elem from m0, 8-elem from m1,
// Take 32-elem from k0, 2-elem from k1
auto smem_layout = make_layout(Shape<_128,_64>{});
test_tma_store<half_t>(gmem_layout, smem_layout, cta_tile);
}
// 5-mode TMA
{
Layout gmem_layout = make_layout(make_shape(make_shape(32,32,32),make_shape(32,12)));
auto cta_tile = Shape<Shape<_16,_4,_2>,Shape<_16,_2>>{}; // GMEM Tiling:
// Take 4-elem from m0, 4-elem from m1, 5-elem from m2
// Take 32-elem from k0, 2-elem from k1
auto smem_layout = make_layout(Shape<_128,_32>{});
test_tma_store<half_t>(gmem_layout, smem_layout, cta_tile);
}
}
// Tensor Multimode -- TMA with more than 5 modes in GMEM (packs residual modes into last TMA mode)
TEST(SM90_CuTe_Hopper, Tma_Store_Tensor_Multimode)
{
{
Layout gmem_layout = make_layout(make_shape(make_shape(32,3,2,2),make_shape(32,4,2)));
auto cta_tile = Shape<Shape<_32>, Shape<_32,_2>>{}; // GMEM Tiling:
// Take 32-elem from m0
// Take 32-elem from k0, 2-elem from k1
auto smem_layout = make_layout(Shape<_32,_64>{});
test_tma_store<half_t>(gmem_layout, smem_layout, cta_tile);
}
{
Layout gmem_layout = make_layout(make_shape(make_shape(64,3,2,2),make_shape(32,4,2)));
auto cta_tile = Shape<Shape<_32,_3>, Shape<_32,_2>>{}; // GMEM Tiling:
// Take 32-elem from m0, 3-elem from m1
// Take 32-elem from k0, 2-elem from k1
auto smem_layout = make_layout(Shape<_96,_64>{});
test_tma_store<half_t>(gmem_layout, smem_layout, cta_tile);
}
{
Layout gmem_layout = make_layout(make_shape(make_shape(64,3,2,3,2),make_shape(32,4,2,2)));
auto cta_tile = Shape<Shape<_32>, Shape<_16,_2>>{}; // GMEM Tiling:
// Take 32-elem from m0
// Take 16-elem from k0, 2-elem from k1
auto smem_layout = make_layout(Shape<_32,_32>{});
test_tma_store<half_t>(gmem_layout, smem_layout, cta_tile);
}
}
#endif
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