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Unverified Commit 965b7ba4 authored by Illia Silin's avatar Illia Silin Committed by GitHub
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Merge pull request #229 from ROCm/promote_ocp_fp8 

Promote ocp fp8
parents 5dff1b14 62e3c582
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test/data_type/test_fp8_ocp.cpp 0 → 100644
View file @ 965b7ba4
// SPDX-License-Identifier: MIT
// Copyright (c) 2024, Advanced Micro Devices, Inc. All rights reserved.
#include "gtest/gtest.h"
#include "ck/utility/data_type.hpp"
#include "ck/utility/type_convert.hpp"
using ck::f8_convert_rne;
using ck::f8_convert_sr;
using ck::f8_ocp_t;
using ck::half_t;
using ck::type_convert;
TEST(FP8OCP, NumericLimits)
{
// constants given for OCP FP8
EXPECT_EQ(ck::NumericLimits<f8_ocp_t>::Min(),
type_convert<f8_ocp_t>(0x08)); // 0b00001000 = 2^-6
EXPECT_EQ(ck::NumericLimits<f8_ocp_t>::Max(), type_convert<f8_ocp_t>(0x7E)); // 0b01111110 = 448
EXPECT_EQ(ck::NumericLimits<f8_ocp_t>::Lowest(),
type_convert<f8_ocp_t>(0xFE)); // 0b11111110 = -448
EXPECT_EQ(ck::NumericLimits<f8_ocp_t>::QuietNaN().data,
type_convert<f8_ocp_t>(0x7F).data); // 0b01111111
EXPECT_FALSE(ck::NumericLimits<f8_ocp_t>::QuietNaN() ==
ck::NumericLimits<f8_ocp_t>::QuietNaN());
}
TEST(FP8OCP, ConvertFP32Nearest)
{
// fix the tolerance value
float abs_tol = 1e-6;
// convert 0 float to fp8 and back, check if holds
ASSERT_NEAR(0.0f, type_convert<float>(f8_convert_rne<f8_ocp_t>(0.0f)), 0.0f);
// convert minimal float to fp8 and back, check if holds
ASSERT_NEAR(std::numeric_limits<float>::min(),
type_convert<float>(f8_convert_rne<f8_ocp_t>(std::numeric_limits<float>::min())),
abs_tol);
const auto max_f8_t_float = type_convert<float>(ck::NumericLimits<f8_ocp_t>::Max());
// convert maximal f8_ocp_t to float and check if equal to fp8 max
ASSERT_NEAR(
max_f8_t_float, type_convert<float>(f8_convert_rne<f8_ocp_t>(max_f8_t_float)), 0.0f);
// convert maximal float to fp8 and back, check if clipped to fp8 max (saturation to finite)
ASSERT_NEAR(max_f8_t_float,
type_convert<float>(f8_convert_rne<f8_ocp_t>(std::numeric_limits<float>::max())),
0.0f);
// convert float infinity to f8_ocp_t and check if it is max value (saturation to finite)
ASSERT_EQ(ck::NumericLimits<f8_ocp_t>::Max(),
f8_convert_rne<f8_ocp_t>(std::numeric_limits<float>::infinity()));
// positive norm float value to fp8 and back, check if holds
float pos_float = 0.017578125f;
ASSERT_NEAR(pos_float, type_convert<float>(f8_convert_rne<f8_ocp_t>(pos_float)), abs_tol);
// smallest normal fp8 value to fp8 and back, check if holds
float neg_float = -0.015625f; //-2^-6
ASSERT_NEAR(neg_float, type_convert<float>(f8_convert_rne<f8_ocp_t>(neg_float)), 0.0f);
// positive subnorm float value to fp8 and back, check if holds
pos_float = 0.00390625f;
ASSERT_NEAR(pos_float, type_convert<float>(f8_convert_rne<f8_ocp_t>(pos_float)), abs_tol);
// min subnorm fp8 value to fp8 and back, check if holds
neg_float = -0.001953125f; //-2^-9
ASSERT_NEAR(neg_float, type_convert<float>(f8_convert_rne<f8_ocp_t>(neg_float)), 0.0f);
// smaller than min subnorm fp8 value to fp8 must be zero
auto less_than_min_subnorm = 0.0009765625f; // 2^-10
ASSERT_EQ(0.0f, type_convert<float>(f8_convert_rne<f8_ocp_t>(less_than_min_subnorm)));
// convert quiet NaN to f8_ocp_t and check if it is quiet NaN
auto f8_nan = f8_convert_rne<f8_ocp_t>(std::numeric_limits<float>::quiet_NaN());
ASSERT_TRUE((f8_nan.data & 0x7f) == 0x7f);
}
TEST(FP8OCP, ConvertFP32Stochastic)
{
// fix the tolerance value
float abs_tol = 1e-6;
// convert 0 float to fp8 and back, check if holds
ASSERT_NEAR(0.0f, type_convert<float>(f8_convert_sr<f8_ocp_t>(0.0f)), 0.0f);
// convert minimal float to fp8 and back, check if holds
ASSERT_NEAR(std::numeric_limits<float>::min(),
type_convert<float>(f8_convert_sr<f8_ocp_t>(std::numeric_limits<float>::min())),
abs_tol);
const auto max_f8_t_float = type_convert<float>(ck::NumericLimits<f8_ocp_t>::Max());
// convert maximal f8_ocp_t to float and check if equal to fp8 max
ASSERT_NEAR(max_f8_t_float, type_convert<float>(f8_convert_sr<f8_ocp_t>(max_f8_t_float)), 0.0f);
// convert maximal float to fp8 and back, check if clipped to fp8 max (saturation to finite)
ASSERT_NEAR(max_f8_t_float,
type_convert<float>(f8_convert_sr<f8_ocp_t>(std::numeric_limits<float>::max())),
0.0f);
// convert float infinity to f8_ocp_t and check if it is max value (saturation to finite)
ASSERT_EQ(ck::NumericLimits<f8_ocp_t>::Max(),
f8_convert_sr<f8_ocp_t>(std::numeric_limits<float>::infinity()));
// positive norm float value to fp8 and back, check if holds
float pos_float = 0.017578125f;
ASSERT_NEAR(pos_float, type_convert<float>(f8_convert_sr<f8_ocp_t>(pos_float)), abs_tol);
// smallest normal fp8 value to fp8 and back, check if holds
float neg_float = -0.015625f; //-2^-6
ASSERT_NEAR(neg_float, type_convert<float>(f8_convert_sr<f8_ocp_t>(neg_float)), 0.0f);
// positive subnorm float value to fp8 and back, check if holds
pos_float = 0.00390625f;
ASSERT_NEAR(pos_float, type_convert<float>(f8_convert_sr<f8_ocp_t>(pos_float)), abs_tol);
// min subnorm fp8 value to fp8 and back, check if holds
constexpr auto min_subnorm_fp8 = -0.001953125f; //-2^-9
ASSERT_NEAR(
min_subnorm_fp8, type_convert<float>(f8_convert_sr<f8_ocp_t>(min_subnorm_fp8)), 0.0f);
// smaller than min subnorm fp8 value to fp8 alternates between 0 and 2^-9
auto less_than_min_subnorm = 0.0009765625f; // 2^-10
ASSERT_NEAR(
0.0f, type_convert<float>(f8_convert_sr<f8_ocp_t>(less_than_min_subnorm)), 0.001953125f);
// convert quiet NaN to f8_ocp_t and check if it is quiet NaN
auto f8_nan = f8_convert_sr<f8_ocp_t>(std::numeric_limits<float>::quiet_NaN());
ASSERT_TRUE((f8_nan.data & 0x7f) == 0x7f);
}
TEST(FP8OCP, ConvertFP16Nearest)
{
// fix the tolerance value
constexpr half_t half_t_tol = 1e-3;
constexpr half_t half_t_zero = 0.0;
// convert 0 half_t to fp8 and back, check if holds
ASSERT_NEAR(
half_t_zero, type_convert<half_t>(f8_convert_rne<f8_ocp_t>(half_t_zero)), half_t_zero);
// convert minimal half_t to fp8 and back, check if holds
ASSERT_NEAR(ck::NumericLimits<half_t>::Min(),
type_convert<half_t>(f8_convert_rne<f8_ocp_t>(ck::NumericLimits<half_t>::Min())),
half_t_tol);
const auto max_f8_t_half_t = type_convert<half_t>(ck::NumericLimits<f8_ocp_t>::Max());
// convert maximal f8_ocp_t to half_t and check if equal to fp8 max
ASSERT_NEAR(max_f8_t_half_t,
type_convert<half_t>(f8_convert_rne<f8_ocp_t>(max_f8_t_half_t)),
half_t_zero);
// convert maximal half_t to fp8 and back, check if clipped to fp8 max (saturation to finite)
ASSERT_NEAR(max_f8_t_half_t,
type_convert<half_t>(f8_convert_rne<f8_ocp_t>(ck::NumericLimits<half_t>::Max())),
half_t_zero);
// convert half_t infinity to f8_ocp_t and check if it is max value (saturation to finite)
ASSERT_EQ(
ck::NumericLimits<f8_ocp_t>::Max(),
f8_convert_rne<f8_ocp_t>(type_convert<half_t>(std::numeric_limits<float>::infinity())));
// positive norm half_t value to fp8 and back, check if holds
half_t pos_half_t{0.017578125f};
ASSERT_NEAR(pos_half_t, type_convert<half_t>(f8_convert_rne<f8_ocp_t>(pos_half_t)), half_t_tol);
// smallest normal fp8 value to fp8 and back, check if holds
half_t neg_half_t{-0.015625f}; //-2^-6
ASSERT_NEAR(
neg_half_t, type_convert<half_t>(f8_convert_rne<f8_ocp_t>(neg_half_t)), half_t_zero);
// positive subnorm half_t value to fp8 and back, check if holds
pos_half_t = half_t{0.00390625f};
ASSERT_NEAR(pos_half_t, type_convert<half_t>(f8_convert_rne<f8_ocp_t>(pos_half_t)), half_t_tol);
// min subnorm fp8 value to fp8 and back, check if holds
neg_half_t = half_t{-0.001953125f}; //-2^-9
ASSERT_NEAR(
neg_half_t, type_convert<half_t>(f8_convert_rne<f8_ocp_t>(neg_half_t)), half_t_zero);
// smaller than min subnorm fp8 value to fp8 must be zero
auto less_than_min_subnorm = half_t{0.0009765625f}; // 2^-10
ASSERT_EQ(half_t_zero, type_convert<half_t>(f8_convert_rne<f8_ocp_t>(less_than_min_subnorm)));
// convert quiet NaN to f8_ocp_t and check if it is quiet NaN
auto f8_nan = f8_convert_rne<f8_ocp_t>(ck::NumericLimits<half_t>::QuietNaN());
ASSERT_TRUE(ck::fp8_impl::ocp_f8_is_nan(f8_nan.data));
}
TEST(FP8OCP, ConvertFP16Stochastic)
{
// fix the tolerance value
constexpr half_t half_t_tol = 1e-3;
constexpr half_t half_t_zero = 0.0;
constexpr auto min_subnorm_fp8 = 0.001953125f; // 2^-9
// convert 0 half_t to fp8 and back, check if holds
ASSERT_NEAR(
half_t_zero, type_convert<half_t>(f8_convert_sr<f8_ocp_t>(half_t_zero)), half_t_zero);
// convert minimal half_t (6.103515625e-05) to fp8 and back
// alternates between 0 and 2^-9 (0.001953125)
ASSERT_NEAR(ck::NumericLimits<half_t>::Min(),
type_convert<half_t>(f8_convert_sr<f8_ocp_t>(ck::NumericLimits<half_t>::Min())),
type_convert<half_t>(min_subnorm_fp8));
const auto max_f8_t_half_t = type_convert<half_t>(ck::NumericLimits<f8_ocp_t>::Max());
// convert maximal f8_ocp_t to half_t and check if equal to fp8 max
ASSERT_NEAR(max_f8_t_half_t,
type_convert<half_t>(f8_convert_sr<f8_ocp_t>(max_f8_t_half_t)),
half_t_zero);
// convert maximal half_t to fp8 and back, check if clipped to fp8 max (saturation to finite)
ASSERT_NEAR(max_f8_t_half_t,
type_convert<half_t>(f8_convert_sr<f8_ocp_t>(ck::NumericLimits<half_t>::Max())),
half_t_zero);
// convert half_t infinity to f8_ocp_t and check if it is max value (saturation to finite)
ASSERT_EQ(
ck::NumericLimits<f8_ocp_t>::Max(),
f8_convert_sr<f8_ocp_t>(type_convert<half_t>(std::numeric_limits<float>::infinity())));
// positive norm half_t value to fp8 and back, check if holds
half_t pos_half_t{0.017578125f};
ASSERT_NEAR(pos_half_t, type_convert<half_t>(f8_convert_sr<f8_ocp_t>(pos_half_t)), half_t_tol);
// smallest normal fp8 value to fp8 and back, check if holds
half_t neg_half_t{-0.015625f}; //-2^-6
ASSERT_NEAR(neg_half_t, type_convert<half_t>(f8_convert_sr<f8_ocp_t>(neg_half_t)), half_t_zero);
// positive subnorm half_t value to fp8 and back, check if holds
pos_half_t = half_t{0.00390625f};
ASSERT_NEAR(pos_half_t, type_convert<half_t>(f8_convert_sr<f8_ocp_t>(pos_half_t)), half_t_tol);
// min subnorm fp8 value to fp8 and back, check if holds
neg_half_t = half_t{-min_subnorm_fp8}; //-2^-9
ASSERT_NEAR(neg_half_t, type_convert<half_t>(f8_convert_sr<f8_ocp_t>(neg_half_t)), half_t_zero);
// smaller than min subnorm fp8 value to fp8 alternates between 0 and 2^-9
auto less_than_min_subnorm = half_t{0.0009765625f}; // 2^-10
ASSERT_NEAR(
type_convert<float>(half_t_zero),
type_convert<float>(type_convert<half_t>(f8_convert_sr<f8_ocp_t>(less_than_min_subnorm))),
min_subnorm_fp8);
// convert quiet NaN to f8_ocp_t and check if it is quiet NaN
auto f8_nan = f8_convert_sr<f8_ocp_t>(ck::NumericLimits<half_t>::QuietNaN());
ASSERT_TRUE(ck::fp8_impl::ocp_f8_is_nan(f8_nan.data));
}
test/pool/test_avg_pool2d_fwd.cpp
View file @ 965b7ba4
...@@ -138,7 +138,7 @@ TYPED_TEST_SUITE(AvgPool2D_BF16, AvgPool2D_BF16_Types); ...@@ -138,7 +138,7 @@ TYPED_TEST_SUITE(AvgPool2D_BF16, AvgPool2D_BF16_Types);
TYPED_TEST_SUITE(AvgPool2D_I8, AvgPool2D_I8_Types); TYPED_TEST_SUITE(AvgPool2D_I8, AvgPool2D_I8_Types);
TYPED_TEST_SUITE(AvgPool2D_F8, AvgPool2D_F8_Types); TYPED_TEST_SUITE(AvgPool2D_F8, AvgPool2D_F8_Types);
TYPED_TEST(AvgPool2D_F32, AvgPool2D_I8_Test) { this->Run(); } TYPED_TEST(AvgPool2D_F32, AvgPool2D_F32_Test) { this->Run(); }
TYPED_TEST(AvgPool2D_F16, AvgPool2D_F16_Test) { this->Run(); } TYPED_TEST(AvgPool2D_F16, AvgPool2D_F16_Test) { this->Run(); }
TYPED_TEST(AvgPool2D_BF16, AvgPool2D_BF16_Test) { this->Run(); } TYPED_TEST(AvgPool2D_BF16, AvgPool2D_BF16_Test) { this->Run(); }
TYPED_TEST(AvgPool2D_I8, AvgPool2D_I8_Test) { this->Run(); } TYPED_TEST(AvgPool2D_I8, AvgPool2D_I8_Test) { this->Run(); }
......
test/pool/test_max_pool2d_fwd.cpp
View file @ 965b7ba4
...@@ -143,7 +143,7 @@ TYPED_TEST_SUITE(MaxPool2D_BF16, MaxPool2D_BF16_Types); ...@@ -143,7 +143,7 @@ TYPED_TEST_SUITE(MaxPool2D_BF16, MaxPool2D_BF16_Types);
TYPED_TEST_SUITE(MaxPool2D_I8, MaxPool2D_I8_Types); TYPED_TEST_SUITE(MaxPool2D_I8, MaxPool2D_I8_Types);
TYPED_TEST_SUITE(MaxPool2D_F8, MaxPool2D_F8_Types); TYPED_TEST_SUITE(MaxPool2D_F8, MaxPool2D_F8_Types);
TYPED_TEST(MaxPool2D_F32, MaxPool2D_I8_Test) { this->Run(); } TYPED_TEST(MaxPool2D_F32, MaxPool2D_F32_Test) { this->Run(); }
TYPED_TEST(MaxPool2D_F16, MaxPool2D_F16_Test) { this->Run(); } TYPED_TEST(MaxPool2D_F16, MaxPool2D_F16_Test) { this->Run(); }
TYPED_TEST(MaxPool2D_BF16, MaxPool2D_BF16_Test) { this->Run(); } TYPED_TEST(MaxPool2D_BF16, MaxPool2D_BF16_Test) { this->Run(); }
TYPED_TEST(MaxPool2D_I8, MaxPool2D_I8_Test) { this->Run(); } TYPED_TEST(MaxPool2D_I8, MaxPool2D_I8_Test) { this->Run(); }
......
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