cutlass/test/unit/core/matrix_coord.cu

/***************************************************************************************************
* Copyright (c) 2017-2021, NVIDIA CORPORATION.  All rights reserved.
*
* Redistribution and use in source and binary forms, with or without modification, are permitted
* provided that the following conditions are met:
*     * Redistributions of source code must retain the above copyright notice, this list of
*       conditions and the following disclaimer.
*     * 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.
*     * Neither the name of the NVIDIA CORPORATION 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 NVIDIA CORPORATION 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 TOR (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
**************************************************************************************************/
/*! \file
\brief unit tests for matrix_coord
*/

#include "../common/cutlass_unit_test.h"

#include "cutlass/matrix_coord.h"
/////////////////////////////////////////////////////////////////////////////////////////////////
namespace test {
namespace core {

  void test_matrix_coord(cutlass::MatrixCoord::Index row, cutlass::MatrixCoord::Index column) {
    cutlass::MatrixCoord matrix_coord(row, column);

    EXPECT_EQ(matrix_coord.row(), row);
    EXPECT_EQ(matrix_coord.column(), column);
  }

  void test_matrix_coord_operator_addition() {
    cutlass::MatrixCoord::Index row_a = 13;
    cutlass::MatrixCoord::Index column_a = 42;
    cutlass::MatrixCoord::Index row_b = 20;
    cutlass::MatrixCoord::Index column_b = 15;

    cutlass::MatrixCoord matrix_coord_a(row_a, column_a);
    cutlass::MatrixCoord matrix_coord_b(row_b, column_b);

    auto matrix_coord_c = matrix_coord_a + matrix_coord_b;

    EXPECT_EQ(matrix_coord_c.row(), row_a + row_b);
    EXPECT_EQ(matrix_coord_c.column(), column_a + column_b);
  }

  void test_matrix_coord_operator_subtraction() {
    cutlass::MatrixCoord::Index row_a = 13;
    cutlass::MatrixCoord::Index column_a = 42;
    cutlass::MatrixCoord::Index row_b = 20;
    cutlass::MatrixCoord::Index column_b = 15;

    cutlass::MatrixCoord matrix_coord_a(row_a, column_a);
    cutlass::MatrixCoord matrix_coord_b(row_b, column_b);

    auto matrix_coord_c = matrix_coord_a - matrix_coord_b;

    EXPECT_EQ(matrix_coord_c.row(), row_a - row_b);
    EXPECT_EQ(matrix_coord_c.column(), column_a - column_b);
  }

  void test_matrix_coord_operator_multiply() {
    cutlass::MatrixCoord::Index row_a = 13;
    cutlass::MatrixCoord::Index column_a = 42;
    cutlass::MatrixCoord::Index row_b = 20;
    cutlass::MatrixCoord::Index column_b = 15;

    cutlass::MatrixCoord matrix_coord_a(row_a, column_a);
    cutlass::MatrixCoord matrix_coord_b(row_b, column_b);

    auto matrix_coord_c = matrix_coord_a * matrix_coord_b;

    EXPECT_EQ(matrix_coord_c.row(), row_a * row_b);
    EXPECT_EQ(matrix_coord_c.column(), column_a * column_b);
  }

  void test_matrix_coord_operator_division() {
    cutlass::MatrixCoord::Index row_a = 13;
    cutlass::MatrixCoord::Index column_a = 42;
    cutlass::MatrixCoord::Index row_b = 20;
    cutlass::MatrixCoord::Index column_b = 15;

    cutlass::MatrixCoord matrix_coord_a(row_a, column_a);
    cutlass::MatrixCoord matrix_coord_b(row_b, column_b);

    auto matrix_coord_c = matrix_coord_a / matrix_coord_b;

    EXPECT_EQ(matrix_coord_c.row(), row_a / row_b);
    EXPECT_EQ(matrix_coord_c.column(), column_a / column_b);
  }

  void test_matrix_coord_operator_addition_assignment() {
    cutlass::MatrixCoord::Index row_a = 13;
    cutlass::MatrixCoord::Index column_a = 42;
    cutlass::MatrixCoord::Index row_b = 20;
    cutlass::MatrixCoord::Index column_b = 15;

    cutlass::MatrixCoord matrix_coord_a(row_a, column_a);
    cutlass::MatrixCoord matrix_coord_b(row_b, column_b);

    matrix_coord_a += matrix_coord_b;

    EXPECT_EQ(matrix_coord_a.row(), row_a + row_b);
    EXPECT_EQ(matrix_coord_a.column(), column_a + column_b);
  }

  void test_matrix_coord_operator_subtraction_assignment() {
    cutlass::MatrixCoord::Index row_a = 13;
    cutlass::MatrixCoord::Index column_a = 42;
    cutlass::MatrixCoord::Index row_b = 20;
    cutlass::MatrixCoord::Index column_b = 15;

    cutlass::MatrixCoord matrix_coord_a(row_a, column_a);
    cutlass::MatrixCoord matrix_coord_b(row_b, column_b);

    matrix_coord_a -= matrix_coord_b;

    EXPECT_EQ(matrix_coord_a.row(), row_a - row_b);
    EXPECT_EQ(matrix_coord_a.column(), column_a - column_b);
  }

  void test_matrix_coord_operator_multiply_assignment() {
    cutlass::MatrixCoord::Index row_a = 13;
    cutlass::MatrixCoord::Index column_a = 42;
    cutlass::MatrixCoord::Index row_b = 20;
    cutlass::MatrixCoord::Index column_b = 15;

    cutlass::MatrixCoord matrix_coord_a(row_a, column_a);
    cutlass::MatrixCoord matrix_coord_b(row_b, column_b);

    matrix_coord_a *= matrix_coord_b;

    EXPECT_EQ(matrix_coord_a.row(), row_a * row_b);
    EXPECT_EQ(matrix_coord_a.column(), column_a * column_b);
  }

  void test_matrix_coord_operator_division_assignment() {
    cutlass::MatrixCoord::Index row_a = 13;
    cutlass::MatrixCoord::Index column_a = 42;
    cutlass::MatrixCoord::Index row_b = 20;
    cutlass::MatrixCoord::Index column_b = 15;

    cutlass::MatrixCoord matrix_coord_a(row_a, column_a);
    cutlass::MatrixCoord matrix_coord_b(row_b, column_b);

    matrix_coord_a /= matrix_coord_b;

    EXPECT_EQ(matrix_coord_a.row(), row_a / row_b);
    EXPECT_EQ(matrix_coord_a.column(), column_a / column_b);
  }
}
} // namespace test

/////////////////////////////////////////////////////////////////////////////////////////////////

TEST(Matrix_Coord, basic_row12_column24) {
  cutlass::MatrixCoord::Index row = 12;
  cutlass::MatrixCoord::Index column = 24;
  test::core::test_matrix_coord(row, column);
}

/////////////////////////////////////////////////////////////////////////////////////////////////

TEST(Matrix_Coord, basic_operator_addition) {
  test::core::test_matrix_coord_operator_addition();
}

/////////////////////////////////////////////////////////////////////////////////////////////////

TEST(Matrix_Coord, basic_operator_subtraction) {
  test::core::test_matrix_coord_operator_subtraction();
}

/////////////////////////////////////////////////////////////////////////////////////////////////

TEST(Matrix_Coord, basic_operator_multiply) {
  test::core::test_matrix_coord_operator_multiply();
}

/////////////////////////////////////////////////////////////////////////////////////////////////

TEST(Matrix_Coord, basic_operator_division) {
  test::core::test_matrix_coord_operator_division();
}

/////////////////////////////////////////////////////////////////////////////////////////////////

TEST(Matrix_Coord, basic_operator_addition_assignment) {
  test::core::test_matrix_coord_operator_addition_assignment();
}

/////////////////////////////////////////////////////////////////////////////////////////////////

TEST(Matrix_Coord, basic_operator_subtraction_assignment) {
  test::core::test_matrix_coord_operator_subtraction_assignment();
}

/////////////////////////////////////////////////////////////////////////////////////////////////

TEST(Matrix_Coord, basic_operator_multiply_assignment) {
  test::core::test_matrix_coord_operator_multiply_assignment();
}

/////////////////////////////////////////////////////////////////////////////////////////////////

TEST(Matrix_Coord, basic_operator_division_assignment) {
  test::core::test_matrix_coord_operator_division_assignment();
}

/////////////////////////////////////////////////////////////////////////////////////////////////
CUTLASS 2.0 (#62) CUTLASS 2.0 Substantially refactored for - Better performance, particularly for native Turing Tensor Cores - Robust and durable templates spanning the design space - Encapsulated functionality embodying modern C++11 programming techniques - Optimized containers and data types for efficient, generic, portable device code Updates to: - Quick start guide - Documentation - Utilities - CUTLASS Profiler Native Turing Tensor Cores - Efficient GEMM kernels targeting Turing Tensor Cores - Mixed-precision floating point, 8-bit integer, 4-bit integer, and binarized operands Coverage of existing CUTLASS functionality: - GEMM kernels targeting CUDA and Tensor Cores in NVIDIA GPUs - Volta Tensor Cores through native mma.sync and through WMMA API - Optimizations such as parallel reductions, threadblock rasterization, and intra-threadblock reductions - Batched GEMM operations - Complex-valued GEMMs Note: this commit and all that follow require a host compiler supporting C++11 or greater. 2019-11-20 08:55:34 +08:00			`/***************************************************************************************************`
CUTLASS 2.5 2021-02-26 22:58:26 +08:00			`* Copyright (c) 2017-2021, NVIDIA CORPORATION. All rights reserved.`
CUTLASS 2.0 (#62) CUTLASS 2.0 Substantially refactored for - Better performance, particularly for native Turing Tensor Cores - Robust and durable templates spanning the design space - Encapsulated functionality embodying modern C++11 programming techniques - Optimized containers and data types for efficient, generic, portable device code Updates to: - Quick start guide - Documentation - Utilities - CUTLASS Profiler Native Turing Tensor Cores - Efficient GEMM kernels targeting Turing Tensor Cores - Mixed-precision floating point, 8-bit integer, 4-bit integer, and binarized operands Coverage of existing CUTLASS functionality: - GEMM kernels targeting CUDA and Tensor Cores in NVIDIA GPUs - Volta Tensor Cores through native mma.sync and through WMMA API - Optimizations such as parallel reductions, threadblock rasterization, and intra-threadblock reductions - Batched GEMM operations - Complex-valued GEMMs Note: this commit and all that follow require a host compiler supporting C++11 or greater. 2019-11-20 08:55:34 +08:00			`*`
			`* Redistribution and use in source and binary forms, with or without modification, are permitted`
			`* provided that the following conditions are met:`
			`* * Redistributions of source code must retain the above copyright notice, this list of`
			`* conditions and the following disclaimer.`
			`* * 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.`
			`* * Neither the name of the NVIDIA CORPORATION 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 NVIDIA CORPORATION 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 TOR (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE`
			`* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.`
			`*`
			`**************************************************************************************************/`
			`/*! \file`
			`\brief unit tests for matrix_coord`
			`*/`

			`#include "../common/cutlass_unit_test.h"`

			`#include "cutlass/matrix_coord.h"`
			`/////////////////////////////////////////////////////////////////////////////////////////////////`
			`namespace test {`
			`namespace core {`

			`void test_matrix_coord(cutlass::MatrixCoord::Index row, cutlass::MatrixCoord::Index column) {`
			`cutlass::MatrixCoord matrix_coord(row, column);`

			`EXPECT_EQ(matrix_coord.row(), row);`
			`EXPECT_EQ(matrix_coord.column(), column);`
			`}`

			`void test_matrix_coord_operator_addition() {`
			`cutlass::MatrixCoord::Index row_a = 13;`
			`cutlass::MatrixCoord::Index column_a = 42;`
			`cutlass::MatrixCoord::Index row_b = 20;`
			`cutlass::MatrixCoord::Index column_b = 15;`

			`cutlass::MatrixCoord matrix_coord_a(row_a, column_a);`
			`cutlass::MatrixCoord matrix_coord_b(row_b, column_b);`

			`auto matrix_coord_c = matrix_coord_a + matrix_coord_b;`

			`EXPECT_EQ(matrix_coord_c.row(), row_a + row_b);`
			`EXPECT_EQ(matrix_coord_c.column(), column_a + column_b);`
			`}`

			`void test_matrix_coord_operator_subtraction() {`
			`cutlass::MatrixCoord::Index row_a = 13;`
			`cutlass::MatrixCoord::Index column_a = 42;`
			`cutlass::MatrixCoord::Index row_b = 20;`
			`cutlass::MatrixCoord::Index column_b = 15;`

			`cutlass::MatrixCoord matrix_coord_a(row_a, column_a);`
			`cutlass::MatrixCoord matrix_coord_b(row_b, column_b);`

			`auto matrix_coord_c = matrix_coord_a - matrix_coord_b;`

			`EXPECT_EQ(matrix_coord_c.row(), row_a - row_b);`
			`EXPECT_EQ(matrix_coord_c.column(), column_a - column_b);`
			`}`

			`void test_matrix_coord_operator_multiply() {`
			`cutlass::MatrixCoord::Index row_a = 13;`
			`cutlass::MatrixCoord::Index column_a = 42;`
			`cutlass::MatrixCoord::Index row_b = 20;`
			`cutlass::MatrixCoord::Index column_b = 15;`

			`cutlass::MatrixCoord matrix_coord_a(row_a, column_a);`
			`cutlass::MatrixCoord matrix_coord_b(row_b, column_b);`

			`auto matrix_coord_c = matrix_coord_a * matrix_coord_b;`

			`EXPECT_EQ(matrix_coord_c.row(), row_a * row_b);`
			`EXPECT_EQ(matrix_coord_c.column(), column_a * column_b);`
			`}`

			`void test_matrix_coord_operator_division() {`
			`cutlass::MatrixCoord::Index row_a = 13;`
			`cutlass::MatrixCoord::Index column_a = 42;`
			`cutlass::MatrixCoord::Index row_b = 20;`
			`cutlass::MatrixCoord::Index column_b = 15;`

			`cutlass::MatrixCoord matrix_coord_a(row_a, column_a);`
			`cutlass::MatrixCoord matrix_coord_b(row_b, column_b);`

			`auto matrix_coord_c = matrix_coord_a / matrix_coord_b;`

			`EXPECT_EQ(matrix_coord_c.row(), row_a / row_b);`
			`EXPECT_EQ(matrix_coord_c.column(), column_a / column_b);`
			`}`

			`void test_matrix_coord_operator_addition_assignment() {`
			`cutlass::MatrixCoord::Index row_a = 13;`
			`cutlass::MatrixCoord::Index column_a = 42;`
			`cutlass::MatrixCoord::Index row_b = 20;`
			`cutlass::MatrixCoord::Index column_b = 15;`

			`cutlass::MatrixCoord matrix_coord_a(row_a, column_a);`
			`cutlass::MatrixCoord matrix_coord_b(row_b, column_b);`

			`matrix_coord_a += matrix_coord_b;`

			`EXPECT_EQ(matrix_coord_a.row(), row_a + row_b);`
			`EXPECT_EQ(matrix_coord_a.column(), column_a + column_b);`
			`}`

			`void test_matrix_coord_operator_subtraction_assignment() {`
			`cutlass::MatrixCoord::Index row_a = 13;`
			`cutlass::MatrixCoord::Index column_a = 42;`
			`cutlass::MatrixCoord::Index row_b = 20;`
			`cutlass::MatrixCoord::Index column_b = 15;`

			`cutlass::MatrixCoord matrix_coord_a(row_a, column_a);`
			`cutlass::MatrixCoord matrix_coord_b(row_b, column_b);`

			`matrix_coord_a -= matrix_coord_b;`

			`EXPECT_EQ(matrix_coord_a.row(), row_a - row_b);`
			`EXPECT_EQ(matrix_coord_a.column(), column_a - column_b);`
			`}`

			`void test_matrix_coord_operator_multiply_assignment() {`
			`cutlass::MatrixCoord::Index row_a = 13;`
			`cutlass::MatrixCoord::Index column_a = 42;`
			`cutlass::MatrixCoord::Index row_b = 20;`
			`cutlass::MatrixCoord::Index column_b = 15;`

			`cutlass::MatrixCoord matrix_coord_a(row_a, column_a);`
			`cutlass::MatrixCoord matrix_coord_b(row_b, column_b);`

			`matrix_coord_a *= matrix_coord_b;`

			`EXPECT_EQ(matrix_coord_a.row(), row_a * row_b);`
			`EXPECT_EQ(matrix_coord_a.column(), column_a * column_b);`
			`}`

			`void test_matrix_coord_operator_division_assignment() {`
			`cutlass::MatrixCoord::Index row_a = 13;`
			`cutlass::MatrixCoord::Index column_a = 42;`
			`cutlass::MatrixCoord::Index row_b = 20;`
			`cutlass::MatrixCoord::Index column_b = 15;`

			`cutlass::MatrixCoord matrix_coord_a(row_a, column_a);`
			`cutlass::MatrixCoord matrix_coord_b(row_b, column_b);`

			`matrix_coord_a /= matrix_coord_b;`

			`EXPECT_EQ(matrix_coord_a.row(), row_a / row_b);`
			`EXPECT_EQ(matrix_coord_a.column(), column_a / column_b);`
			`}`
			`}`
			`} // namespace test`

			`/////////////////////////////////////////////////////////////////////////////////////////////////`

			`TEST(Matrix_Coord, basic_row12_column24) {`
			`cutlass::MatrixCoord::Index row = 12;`
			`cutlass::MatrixCoord::Index column = 24;`
			`test::core::test_matrix_coord(row, column);`
			`}`

			`/////////////////////////////////////////////////////////////////////////////////////////////////`

			`TEST(Matrix_Coord, basic_operator_addition) {`
			`test::core::test_matrix_coord_operator_addition();`
			`}`

			`/////////////////////////////////////////////////////////////////////////////////////////////////`

			`TEST(Matrix_Coord, basic_operator_subtraction) {`
			`test::core::test_matrix_coord_operator_subtraction();`
			`}`

			`/////////////////////////////////////////////////////////////////////////////////////////////////`

			`TEST(Matrix_Coord, basic_operator_multiply) {`
			`test::core::test_matrix_coord_operator_multiply();`
			`}`

			`/////////////////////////////////////////////////////////////////////////////////////////////////`

			`TEST(Matrix_Coord, basic_operator_division) {`
			`test::core::test_matrix_coord_operator_division();`
			`}`

			`/////////////////////////////////////////////////////////////////////////////////////////////////`

			`TEST(Matrix_Coord, basic_operator_addition_assignment) {`
			`test::core::test_matrix_coord_operator_addition_assignment();`
			`}`

			`/////////////////////////////////////////////////////////////////////////////////////////////////`

			`TEST(Matrix_Coord, basic_operator_subtraction_assignment) {`
			`test::core::test_matrix_coord_operator_subtraction_assignment();`
			`}`

			`/////////////////////////////////////////////////////////////////////////////////////////////////`

			`TEST(Matrix_Coord, basic_operator_multiply_assignment) {`
			`test::core::test_matrix_coord_operator_multiply_assignment();`
			`}`

			`/////////////////////////////////////////////////////////////////////////////////////////////////`

			`TEST(Matrix_Coord, basic_operator_division_assignment) {`
			`test::core::test_matrix_coord_operator_division_assignment();`
			`}`

			`/////////////////////////////////////////////////////////////////////////////////////////////////`