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//
// Copyright © 2017 Arm Ltd. All rights reserved.
// SPDX-License-Identifier: MIT
//
#include <armnnUtils/FloatingPointConverter.hpp>
#include <BFloat16.hpp>
#include <Half.hpp>
#include <boost/test/unit_test.hpp>
BOOST_AUTO_TEST_SUITE(TestFPConversion)
BOOST_AUTO_TEST_CASE(TestConvertFp32ToFp16)
{
using namespace half_float::literal;
float floatArray[] = { 1.0f, 2.0f, 0.5f, 3.1f, 2.4f,
5.666f, 6.444f, 7.1f, 432.121f, 12.22f };
size_t numFloats = sizeof(floatArray) / sizeof(floatArray[0]);
std::vector<armnn::Half> convertedBuffer(numFloats, 0.0_h);
armnnUtils::FloatingPointConverter::ConvertFloat32To16(floatArray, numFloats, convertedBuffer.data());
for (size_t i = 0; i < numFloats; i++)
{
armnn::Half expected(floatArray[i]);
armnn::Half actual = convertedBuffer[i];
BOOST_CHECK_EQUAL(expected, actual);
float convertedHalf = actual;
BOOST_CHECK_CLOSE(floatArray[i], convertedHalf, 0.07);
}
}
BOOST_AUTO_TEST_CASE(TestConvertFp16ToFp32)
{
using namespace half_float::literal;
armnn::Half halfArray[] = { 1.0_h, 2.0_h, 0.5_h, 3.1_h, 2.4_h,
5.666_h, 6.444_h, 7.1_h, 432.121_h, 12.22_h };
size_t numFloats = sizeof(halfArray) / sizeof(halfArray[0]);
std::vector<float> convertedBuffer(numFloats, 0.0f);
armnnUtils::FloatingPointConverter::ConvertFloat16To32(halfArray, numFloats, convertedBuffer.data());
for (size_t i = 0; i < numFloats; i++)
{
float expected(halfArray[i]);
float actual = convertedBuffer[i];
BOOST_CHECK_EQUAL(expected, actual);
}
}
BOOST_AUTO_TEST_CASE(TestConvertFloat32ToBFloat16)
{
float floatArray[] = { 1.704735E38f, // 0x7F004000 round down
0.0f, // 0x00000000 round down
2.2959E-41f, // 0x00004000 round down
1.7180272E38f, // 0x7F014000 round down
9.18355E-41f, // 0x00010000 round down
1.14794E-40f, // 0x00014000 round down
4.5918E-41f, // 0x00008000 round down
-1.708058E38f, // 0xFF008000 round down
-4.3033756E37f, // 0xFE018000 round up
1.60712E-40f, // 0x0001C000 round up
-2.0234377f, // 0xC0018001 round up
-1.1800863E-38f,// 0x80808001 round up
4.843037E-35f, // 0x0680C000 round up
3.9999998f, // 0x407FFFFF round up
3.4028235E38f, // 0x7F7FFFFF max positive value
-3.4028235E38f, // 0xFF7FFFFF max negative value
1.1754942E-38f, // 0x007FFFFF min positive value
-1.1754942E-38f // 0x807FFFFF min negative value
};
uint16_t expectedResult[] = { 0x7F00,
0x0000,
0x0000,
0x7F01,
0x0001,
0x0001,
0x0000,
0xFF00,
0xFE02,
0x0002,
0xC002,
0x8081,
0x0681,
0x4080,
0x7F80,
0xFF80,
0x0080,
0x8080
};
size_t numFloats = sizeof(floatArray) / sizeof(floatArray[0]);
std::vector<armnn::BFloat16> convertedBuffer(numFloats);
armnnUtils::FloatingPointConverter::ConvertFloat32ToBFloat16(floatArray, numFloats, convertedBuffer.data());
for (size_t i = 0; i < numFloats; i++)
{
armnn::BFloat16 actual = convertedBuffer[i];
BOOST_CHECK_EQUAL(expectedResult[i], actual.Val());
}
}
BOOST_AUTO_TEST_CASE(TestConvertBFloat16ToFloat32)
{
uint16_t bf16Array[] = { 16256, 16320, 38699, 16384, 49156, 32639 };
size_t numFloats = sizeof(bf16Array) / sizeof(bf16Array[0]);
float expectedResult[] = { 1.0f, 1.5f, -5.525308E-25f, 2.0f, -2.0625f, 3.3895314E38f };
std::vector<float> convertedBuffer(numFloats, 0.0f);
armnnUtils::FloatingPointConverter::ConvertBFloat16ToFloat32(bf16Array, numFloats, convertedBuffer.data());
for (size_t i = 0; i < numFloats; i++)
{
float actual = convertedBuffer[i];
BOOST_CHECK_EQUAL(expectedResult[i], actual);
}
}
BOOST_AUTO_TEST_SUITE_END()
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