// Copyright (c) 2024 PaddlePaddle Authors. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #pragma once #include #include #include #include #include #include "paddle/common/hostdevice.h" #include "paddle/phi/common/float16.h" #ifdef PADDLE_WITH_CUDA #include #endif #if defined(__CUDACC__) && CUDA_VERSION >= 11080 #define PADDLE_CUDA_FP8 #include #endif #ifndef PADDLE_WITH_HIP #if !defined(_WIN32) #define PADDLE_ALIGN(x) __attribute__((aligned(x))) #else #define PADDLE_ALIGN(x) __declspec(align(x)) #endif #else #define PADDLE_ALIGN(x) #endif namespace phi { namespace dtype { struct PADDLE_ALIGN(1) float8_e5m2 { public: uint8_t x; // Constructors float8_e5m2() = default; float8_e5m2(const float8_e5m2& o) = default; float8_e5m2& operator=(const float8_e5m2& o) = default; float8_e5m2(float8_e5m2&& o) = default; float8_e5m2& operator=(float8_e5m2&& o) = default; ~float8_e5m2() = default; HOSTDEVICE inline float8_e5m2(float val) { #if defined(PADDLE_CUDA_FP8) __nv_fp8_e5m2 tmp = __nv_fp8_e5m2(val); x = *reinterpret_cast(&tmp); #else // CPU implementation. Bits fb, denorm_mask; fb.f = val; constexpr uint32_t fp32_inf = UINT32_C(255) << 23; constexpr uint32_t fp8_max = UINT32_C(143) << 23; denorm_mask.ui = UINT32_C(134) << 23; uint8_t result = 0u; const uint32_t sign = fb.ui & UINT32_C(0x80000000); fb.ui ^= sign; if (fb.ui >= fp8_max) { result = fb.ui > fp32_inf ? UINT8_C(0x7F) : UINT8_C(0x7B); } else { if (fb.ui < (UINT32_C(113) << 23)) { fb.f = fb.f + denorm_mask.f; result = static_cast(fb.ui - denorm_mask.ui); } else { uint32_t mant_odd = (fb.ui >> 21) & 1; fb.ui += ((uint32_t)(15 - 127) << 23) + 0xFFFFF; fb.ui += mant_odd; result = static_cast(fb.ui >> 21); } } result |= static_cast(sign >> 24); x = result; #endif } #if defined(PADDLE_CUDA_FP8) HOSTDEVICE inline explicit float8_e5m2(const __nv_fp8_e5m2& val) { x = *reinterpret_cast(&val); // NOLINT } #endif template HOSTDEVICE inline explicit float8_e5m2(const T& val) : x(float8_e5m2(static_cast(val)).x) {} // Assignment operators #if defined(PADDLE_CUDA_FP8) HOSTDEVICE inline float8_e5m2& operator=(const __nv_fp8_e5m2& val) { x = *reinterpret_cast(&val); // NOLINT return *this; } #endif HOSTDEVICE inline float8_e5m2& operator=(int8_t val) { x = float8_e5m2(val).x; return *this; } HOSTDEVICE inline float8_e5m2& operator=(uint8_t val) { x = float8_e5m2(val).x; return *this; } HOSTDEVICE inline float8_e5m2& operator=(int16_t val) { x = float8_e5m2(val).x; return *this; } HOSTDEVICE inline float8_e5m2& operator=(uint16_t val) { x = float8_e5m2(val).x; return *this; } HOSTDEVICE inline float8_e5m2& operator=(int32_t val) { x = float8_e5m2(val).x; return *this; } HOSTDEVICE inline float8_e5m2& operator=(uint32_t val) { x = float8_e5m2(val).x; return *this; } HOSTDEVICE inline float8_e5m2& operator=(int64_t val) { x = float8_e5m2(val).x; return *this; } HOSTDEVICE inline float8_e5m2& operator=(uint64_t val) { x = float8_e5m2(val).x; return *this; } HOSTDEVICE inline float8_e5m2& operator=(float val) { x = float8_e5m2(val).x; return *this; } HOSTDEVICE inline float8_e5m2& operator=(double val) { x = float8_e5m2(val).x; return *this; } // Conversion operators HOSTDEVICE inline operator float() const { #ifdef PADDLE_CUDA_FP8 return float(*reinterpret_cast(&x)); // NOLINT #else // refer to // https://github.com/pytorch/pytorch/blob/main/c10/util/Float8_e5m2.h uint16_t half_representation = x; half_representation <<= 8; return static_cast( phi::dtype::raw_uint16_to_float16(half_representation)); #endif } #ifdef PADDLE_CUDA_FP8 HOSTDEVICE inline __nv_fp8_e5m2 to_nv_fp8_e5m2() const { return *reinterpret_cast(&x); } #endif HOSTDEVICE inline explicit operator int8_t() const { return static_cast(static_cast(*this)); } HOSTDEVICE inline explicit operator uint8_t() const { return static_cast(static_cast(*this)); } HOSTDEVICE inline explicit operator int16_t() const { return static_cast(static_cast(*this)); } HOSTDEVICE inline explicit operator uint16_t() const { return static_cast(static_cast(*this)); } HOSTDEVICE inline explicit operator int32_t() const { return static_cast(static_cast(*this)); } HOSTDEVICE inline explicit operator uint32_t() const { return static_cast(static_cast(*this)); } HOSTDEVICE inline explicit operator int64_t() const { return static_cast(static_cast(*this)); } HOSTDEVICE inline explicit operator uint64_t() const { return static_cast(static_cast(*this)); } private: union Bits { float f; uint32_t ui; }; }; HOSTDEVICE inline float8_e5m2 operator+(const float8_e5m2& a, const float8_e5m2& b) { return float8_e5m2(static_cast(a) + static_cast(b)); } HOSTDEVICE inline float8_e5m2 operator-(const float8_e5m2& a, const float8_e5m2& b) { return float8_e5m2(static_cast(a) - static_cast(b)); } HOSTDEVICE inline float8_e5m2 operator*(const float8_e5m2& a, const float8_e5m2& b) { return float8_e5m2(static_cast(a) * static_cast(b)); } HOSTDEVICE inline float8_e5m2 operator/(const float8_e5m2& a, const float8_e5m2& b) { return float8_e5m2(static_cast(a) / static_cast(b)); } HOSTDEVICE inline float8_e5m2 operator-(const float8_e5m2& a) { return float8_e5m2(-static_cast(a)); } HOSTDEVICE inline float8_e5m2& operator+=(float8_e5m2& a, // NOLINT const float8_e5m2& b) { a = float8_e5m2(static_cast(a) + static_cast(b)); return a; } HOSTDEVICE inline float8_e5m2& operator-=(float8_e5m2& a, // NOLINT const float8_e5m2& b) { a = float8_e5m2(static_cast(a) - static_cast(b)); return a; } HOSTDEVICE inline float8_e5m2& operator*=(float8_e5m2& a, // NOLINT const float8_e5m2& b) { a = float8_e5m2(static_cast(a) * static_cast(b)); return a; } HOSTDEVICE inline float8_e5m2& operator/=(float8_e5m2& a, // NOLINT const float8_e5m2& b) { a = float8_e5m2(static_cast(a) / static_cast(b)); return a; } HOSTDEVICE inline float8_e5m2 raw_uint8_to_float8_e5m2(uint8_t a) { float8_e5m2 res; res.x = a; return res; } // Comparison operators HOSTDEVICE inline bool operator==(const float8_e5m2& a, const float8_e5m2& b) { return static_cast(a) == static_cast(b); } HOSTDEVICE inline bool operator!=(const float8_e5m2& a, const float8_e5m2& b) { return static_cast(a) != static_cast(b); } HOSTDEVICE inline bool operator<(const float8_e5m2& a, const float8_e5m2& b) { return static_cast(a) < static_cast(b); } HOSTDEVICE inline bool operator<=(const float8_e5m2& a, const float8_e5m2& b) { return static_cast(a) <= static_cast(b); } HOSTDEVICE inline bool operator>(const float8_e5m2& a, const float8_e5m2& b) { return static_cast(a) > static_cast(b); } HOSTDEVICE inline bool operator>=(const float8_e5m2& a, const float8_e5m2& b) { return static_cast(a) >= static_cast(b); } HOSTDEVICE inline bool(isnan)(const float8_e5m2& a) { return (a.x & 0b01111111) > 0b01111100; } HOSTDEVICE inline bool(isinf)(const float8_e5m2& a) { return (a.x & 0b01111111) == 0b01111100; } HOSTDEVICE inline bool(isfinite)(const float8_e5m2& a) { return !((isnan)(a)) && !((isinf)(a)); } HOSTDEVICE inline float8_e5m2(abs)(const float8_e5m2& a) { return float8_e5m2(std::abs(static_cast(a))); } inline std::ostream& operator<<(std::ostream& os, const float8_e5m2& a) { os << static_cast(a); return os; } } // namespace dtype } // namespace phi namespace std { template <> struct is_pod { static const bool value = is_trivial::value && is_standard_layout::value; }; template <> struct is_floating_point : std::integral_constant< bool, std::is_same< phi::dtype::float8_e5m2, typename std::remove_cv::type>::value> { }; template <> struct is_signed { static const bool value = true; }; template <> struct is_unsigned { static const bool value = false; }; inline bool isnan(const phi::dtype::float8_e5m2& a) { return phi::dtype::isnan(a); } inline bool isinf(const phi::dtype::float8_e5m2& a) { return phi::dtype::isinf(a); } template <> struct numeric_limits { static constexpr bool is_signed = true; static constexpr bool is_integer = false; static constexpr bool is_specialized = true; static constexpr bool is_exact = false; static constexpr bool has_infinity = true; static constexpr bool has_quiet_NaN = false; static constexpr bool has_signaling_NaN = false; static constexpr auto has_denorm = true; static constexpr auto has_denorm_loss = true; static constexpr auto round_style = numeric_limits::round_style; static constexpr bool is_iec559 = false; static constexpr bool is_bounded = true; static constexpr bool is_modulo = false; static constexpr int digits = 3; static constexpr int digits10 = 0; static constexpr int max_digits10 = 2; static constexpr int radix = 2; static constexpr int min_exponent = -13; static constexpr int min_exponent10 = -4; static constexpr int max_exponent = 16; static constexpr int max_exponent10 = 4; static constexpr auto traps = numeric_limits::traps; static constexpr auto tinyness_before = numeric_limits::tinyness_before; HOSTDEVICE static phi::dtype::float8_e5m2(min)() { return phi::dtype::raw_uint8_to_float8_e5m2(0x4); } HOSTDEVICE static phi::dtype::float8_e5m2 lowest() { return phi::dtype::raw_uint8_to_float8_e5m2(0xFB); } HOSTDEVICE static phi::dtype::float8_e5m2(max)() { return phi::dtype::raw_uint8_to_float8_e5m2(0x7B); } HOSTDEVICE static phi::dtype::float8_e5m2 epsilon() { return phi::dtype::raw_uint8_to_float8_e5m2(0x34); } HOSTDEVICE static phi::dtype::float8_e5m2 round_error() { return phi::dtype::raw_uint8_to_float8_e5m2(0x38); } HOSTDEVICE static phi::dtype::float8_e5m2 infinity() { return phi::dtype::raw_uint8_to_float8_e5m2(0x7C); } HOSTDEVICE static phi::dtype::float8_e5m2 denorm_min() { return phi::dtype::raw_uint8_to_float8_e5m2(0x01); } }; } // namespace std