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composable_kernel/test/ck_tile/pooling/test_pooling.cpp
Yashvardhan Agarwal 7b6451b68e [CK_TILE] Pooling FWD (Lwpck 3683) (#2956) 
* Pooling 2D/3D with refernce

* Tests & cleanup

- added test for ppoling
- cleanup
- removed 2d example

* Comment resolution

- README added
- example target name rectified
- appropriate arg description and comments added

* clang-format

* appropriate blocksize calc

* modifications for future indexing addition

- instead of transforming views we now transform the descriptors, so
that the same descriptor can be re-used for index tensor in the future

* some basic fixes

* comment resolutions

* comment resolutions

---------

Co-authored-by: Illia Silin <98187287+illsilin@users.noreply.github.com>
2025-10-09 16:13:26 +02:00

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// SPDX-License-Identifier: MIT
// Copyright (c) 2025, Advanced Micro Devices, Inc. All rights reserved.
#include <gtest/gtest.h>
#include <vector>
#include <cmath>
#include <tuple>
#include <iostream>
#include "ck_tile/core.hpp"
#include "ck_tile/host.hpp"
#include "ck_tile/ops/pool.hpp"
#include "ck_tile/host/reference/reference_pool.hpp"
#include "ck_tile/host/kernel_launch.hpp"
template <typename Tuple>
class TestCkTilePooling : public ::testing::Test
{
protected:
using InDataType = std::tuple_element_t<0, Tuple>;
using OutDataType = std::tuple_element_t<1, Tuple>;
using ComputeDataType = std::tuple_element_t<2, Tuple>;
using ReduceOpType = std::tuple_element_t<3, Tuple>;
using BlockWarps_ = std::tuple_element_t<4, Tuple>;
using BlockTile_ = std::tuple_element_t<5, Tuple>;
using WarpTile_ = std::tuple_element_t<6, Tuple>;
using ThreadTile_ = std::tuple_element_t<7, Tuple>;
using TestPoolShape = ck_tile::PoolShape<BlockWarps_, BlockTile_, WarpTile_, ThreadTile_>;
// 3D pooling configuration
struct Config3D
{
ck_tile::index_t N, D, H, W, C;
ck_tile::index_t Z, Y, X;
ck_tile::index_t Sz, Sy, Sx;
ck_tile::index_t Dz, Dy, Dx;
ck_tile::index_t LeftPz, LeftPy, LeftPx;
ck_tile::index_t RightPz, RightPy, RightPx;
std::string name;
};
bool RunPool3D(const Config3D& config)
{
std::cout << "Testing 3D: " << config.name << " ... ";
const ck_tile::index_t Zs = (config.Z - 1) * config.Dz + 1;
const ck_tile::index_t Ys = (config.Y - 1) * config.Dy + 1;
const ck_tile::index_t Xs = (config.X - 1) * config.Dx + 1;
const ck_tile::index_t Do =
(config.D + config.LeftPz + config.RightPz - Zs) / config.Sz + 1;
const ck_tile::index_t Ho =
(config.H + config.LeftPy + config.RightPy - Ys) / config.Sy + 1;
const ck_tile::index_t Wo =
(config.W + config.LeftPx + config.RightPx - Xs) / config.Sx + 1;
const auto input_shape =
ck_tile::make_tuple(config.N, config.D, config.H, config.W, config.C);
const auto output_shape = ck_tile::make_tuple(config.N, Do, Ho, Wo, config.C);
const auto input_strides = ck_tile::make_tuple(config.D * config.H * config.W * config.C,
config.H * config.W * config.C,
config.W * config.C,
config.C,
1);
const auto output_strides = ck_tile::make_tuple(
Do * Ho * Wo * config.C, Ho * Wo * config.C, Wo * config.C, config.C, 1);
const auto window_spatial_lengths = ck_tile::make_tuple(config.Z, config.Y, config.X);
const auto window_strides = ck_tile::make_tuple(config.Sz, config.Sy, config.Sx);
const auto window_dilations = ck_tile::make_tuple(config.Dz, config.Dy, config.Dx);
const auto input_left_pads =
ck_tile::make_tuple(config.LeftPz, config.LeftPy, config.LeftPx);
const auto input_right_pads =
ck_tile::make_tuple(config.RightPz, config.RightPy, config.RightPx);
ck_tile::HostTensor<InDataType> h_in({config.N, config.D, config.H, config.W, config.C},
{config.D * config.H * config.W * config.C,
config.H * config.W * config.C,
config.W * config.C,
config.C,
1});
ck_tile::HostTensor<OutDataType> h_out(
{config.N, Do, Ho, Wo, config.C},
{Do * Ho * Wo * config.C, Ho * Wo * config.C, Wo * config.C, config.C, 1});
ck_tile::HostTensor<OutDataType> h_out_ref(
{config.N, Do, Ho, Wo, config.C},
{Do * Ho * Wo * config.C, Ho * Wo * config.C, Wo * config.C, config.C, 1});
ck_tile::FillUniformDistribution<InDataType>{-5.f, 5.f}(h_in);
h_out.SetZero();
h_out_ref.SetZero();
ck_tile::DeviceMem d_in_mem(h_in.get_element_space_size_in_bytes());
ck_tile::DeviceMem d_out_mem(h_out.get_element_space_size_in_bytes());
d_in_mem.ToDevice(h_in.data());
d_out_mem.ToDevice(h_out.data());
using Problem = ck_tile::PoolProblem<InDataType,
OutDataType,
ComputeDataType,
OutDataType,
ReduceOpType,
false,
false,
TestPoolShape>;
using Kernel = ck_tile::PoolKernel<Problem>;
constexpr ck_tile::index_t kBlockPerCu = 1;
const ck_tile::index_t kBlockSize = Kernel::BlockSize();
auto host_args =
ck_tile::PoolHostArgs<decltype(input_shape), decltype(window_spatial_lengths)>{
static_cast<InDataType*>(d_in_mem.GetDeviceBuffer()),
static_cast<OutDataType*>(d_out_mem.GetDeviceBuffer()),
input_shape,
output_shape,
input_strides,
output_strides,
window_spatial_lengths,
window_strides,
window_dilations,
input_left_pads,
input_right_pads};
auto kernel_args = Kernel::MakeKernelArgs(host_args);
const ck_tile::index_t kGridSize = Kernel::CalculateGridSize(kernel_args);
if(!Kernel::IsSupportedArgument(kernel_args))
{
return true;
}
// Run kernel
ck_tile::launch_kernel(
ck_tile::stream_config{nullptr, false, 0},
ck_tile::make_kernel<kBlockPerCu>(Kernel{}, kGridSize, kBlockSize, 0, kernel_args));
// Run reference implementation
ck_tile::reference_pool3d<InDataType, ComputeDataType, OutDataType>(
h_in, h_out_ref, kernel_args, ReduceOpType{});
d_out_mem.FromDevice(h_out.data());
// Validate results
bool pass = ck_tile::check_err(h_out, h_out_ref);
std::cout << (pass ? "PASS" : "FAIL") << std::endl;
return pass;
}
};
using Shape1_BlockWarps = ck_tile::sequence<4, 1>;
using Shape1_BlockTile = ck_tile::sequence<128, 128>;
using Shape1_WarpTile = ck_tile::sequence<32, 128>;
using Shape1_ThreadTile = ck_tile::sequence<8, 8>;
// Cross-warp configuration
using Shape2_BlockWarps = ck_tile::sequence<2, 2>;
using Shape2_BlockTile = ck_tile::sequence<2, 1024>;
using Shape2_WarpTile = ck_tile::sequence<1, 512>;
using Shape2_ThreadTile = ck_tile::sequence<1, 8>;
// Test configurations for different data types and operations
using TestConfig_F32_Max = std::tuple<float,
float,
float,
ck_tile::ReduceOp::Max,
Shape1_BlockWarps,
Shape1_BlockTile,
Shape1_WarpTile,
Shape1_ThreadTile>;
using TestConfig_F16_Max = std::tuple<ck_tile::half_t,
ck_tile::half_t,
float,
ck_tile::ReduceOp::Max,
Shape1_BlockWarps,
Shape1_BlockTile,
Shape1_WarpTile,
Shape1_ThreadTile>;
using TestConfig_F32_CrossWarp = std::tuple<float,
float,
float,
ck_tile::ReduceOp::Max,
Shape2_BlockWarps,
Shape2_BlockTile,
Shape2_WarpTile,
Shape2_ThreadTile>;
using TestTypes =
::testing::Types<TestConfig_F32_Max, TestConfig_F16_Max, TestConfig_F32_CrossWarp>;
TYPED_TEST_SUITE(TestCkTilePooling, TestTypes);
TYPED_TEST(TestCkTilePooling, Pool3D_2x2x2)
{
typename TestFixture::Config3D config = {1, // N - batch size
4, // D - depth dimension
4, // H - height dimension
4, // W - width dimension
32, // C - channel dimension
2, // Z - pooling window depth
2, // Y - pooling window height
2, // X - pooling window width
2, // Sz - window stride depth
2, // Sy - window stride height
2, // Sx - window stride width
1, // Dz - window dilation depth
1, // Dy - window dilation height
1, // Dx - window dilation width
0, // LeftPz - left padding depth
0, // LeftPy - left padding height
0, // LeftPx - left padding width
0, // RightPz - right padding depth
0, // RightPy - right padding height
0, // RightPx - right padding width
"2x2x2 pooling"};
bool pass = this->RunPool3D(config);
EXPECT_TRUE(pass);
}
TYPED_TEST(TestCkTilePooling, Pool3D_3x3x3)
{
typename TestFixture::Config3D config = {2, // N - batch size
16, // D - depth dimension
16, // H - height dimension
16, // W - width dimension
128, // C - channel dimension
3, // Z - pooling window depth
3, // Y - pooling window height
3, // X - pooling window width
2, // Sz - window stride depth
2, // Sy - window stride height
2, // Sx - window stride width
1, // Dz - window dilation depth
1, // Dy - window dilation height
1, // Dx - window dilation width
1, // LeftPz - left padding depth
1, // LeftPy - left padding height
1, // LeftPx - left padding width
1, // RightPz - right padding depth
1, // RightPy - right padding height
1, // RightPx - right padding width
"3x3x3 pooling"};
bool pass = this->RunPool3D(config);
EXPECT_TRUE(pass);
}
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