/*===--------------------- amxavx512intrin.h - AMXAVX512 --------------------=== * * Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. * See https://llvm.org/LICENSE.txt for license information. * SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception * *===------------------------------------------------------------------------=== */ #ifndef __IMMINTRIN_H #error "Never use directly; include instead." #endif // __IMMINTRIN_H #ifndef __AMX_AVX512INTRIN_H #define __AMX_AVX512INTRIN_H #if defined(__x86_64__) && defined(__SSE2__) #define __DEFAULT_FN_ATTRS_AVX512 \ __attribute__((__always_inline__, __nodebug__, \ __target__("amx-avx512,avx10.2-512"))) /// Moves a row from a tile register to a zmm destination register, converting /// the int32 source elements to fp32. The row of the tile is selected by a /// 32b GPR. /// /// \headerfile /// /// \code /// __m512i _tile_cvtrowd2ps(__tile tsrc, unsigned int row); /// \endcode /// /// \code{.operation} /// VL := 512 /// VL_bytes := VL >> 3 /// row_index := row & 0xffff /// row_chunk := ((row >> 16) & 0xffff) * VL_bytes /// FOR i := 0 TO (VL_bytes / 4) - 1 /// IF i + row_chunk / 4 >= tsrc.colsb / 4 /// dst.dword[i] := 0 /// ELSE /// dst.f32[i] := CONVERT_INT32_TO_FP32(tsrc.row[row_index].dword[row_chunk/4+i], RNE) /// FI /// ENDFOR /// dst[MAX_VL-1:VL] := 0 /// zero_tileconfig_start() /// \endcode /// /// This intrinsic corresponds to the \c TCVTROWD2PS instruction. /// /// \param tsrc /// The source tile. Max size is 1024 Bytes. /// \param row /// The row of the source tile #define _tile_cvtrowd2ps(tsrc, row) __builtin_ia32_tcvtrowd2ps(tsrc, row) /// Moves a row from a tile register to a zmm destination register, converting /// the fp32 source elements to bf16. It places the resulting bf16 elements /// in the high 16 bits within each dword. The row of the tile is selected /// by a 32b GPR. /// /// \headerfile /// /// \code /// __m512i _tile_cvtrowps2bf16h(__tile tsrc, unsigned int row); /// \endcode /// /// \code{.operation} /// VL := 512 /// VL_bytes := VL >> 3 /// row_index := row & 0xffff /// row_chunk := ((row >> 16) & 0xffff) * VL_bytes /// FOR i := 0 TO (VL_bytes / 4) - 1 /// IF i + row_chunk / 4 >= tsrc.colsb / 4 /// dst.dword[i] := 0 /// ELSE /// dst.word[2*i+0] := 0 /// dst.bf16[2*i+1] := CONVERT_FP32_TO_BF16(tsrc.row[row_index].fp32[row_chunk/4+i], RNE) /// FI /// ENDFOR /// dst[MAX_VL-1:VL] := 0 /// zero_tileconfig_start() /// \endcode /// /// This intrinsic corresponds to the \c TCVTROWPS2BF16H instruction. /// /// \param tsrc /// The source tile. Max size is 1024 Bytes. /// \param row /// The the row of the source tile. #define _tile_cvtrowps2bf16h(tsrc, row) \ __builtin_ia32_tcvtrowps2bf16h(tsrc, row) /// Moves a row from a tile register to a zmm destination register, converting /// the fp32 source elements to bf16. It places the resulting bf16 elements /// in the low 16 bits within each dword. The row of the tile is selected /// by a 32b GPR. /// /// \headerfile /// /// \code /// __m512i _tile_cvtrowps2bf16l(__tile tsrc, unsigned int row); /// \endcode /// /// \code{.operation} /// VL := 512 /// VL_bytes := VL >> 3 /// row_index := row & 0xffff /// row_chunk := ((row >> 16) & 0xffff) * VL_bytes /// FOR i := 0 TO (VL_bytes / 4) - 1 /// IF i + row_chunk / 4 >= tsrc.colsb / 4 /// dst.dword[i] := 0 /// ELSE /// dst.word[2*i+1] := 0 /// dst.bf16[2*i+0] := CONVERT_FP32_TO_BF16(tsrc.row[row_index].fp32[row_chunk/4+i], RNE) /// FI /// ENDFOR /// dst[MAX_VL-1:VL] := 0 /// zero_tileconfig_start() /// \endcode /// /// This intrinsic corresponds to the \c TCVTROWPS2BF16L instruction. /// /// \param tsrc /// The source tile. Max size is 1024 Bytes. /// \param row /// The the row of the source tile. #define _tile_cvtrowps2bf16l(tsrc, row) \ __builtin_ia32_tcvtrowps2bf16l(tsrc, row) /// Moves a row from a tile register to a zmm destination register, converting /// the fp32 source elements to fp16. It places the resulting fp16 elements /// in the high 16 bits within each dword. The row of the tile is selected /// by a 32b GPR. /// /// \headerfile /// /// \code /// __m512i _tile_cvtrowps2phh(__tile tsrc, unsigned int row); /// \endcode /// /// \code{.operation} /// VL := 512 /// VL_bytes := VL >> 3 /// row_index := row & 0xffff /// row_chunk := ((row >> 16) & 0xffff) * VL_bytes /// FOR i := 0 TO (VL_bytes / 4) - 1 /// IF i + row_chunk / 4 >= tsrc.colsb / 4 /// dst.dword[i] := 0 /// ELSE /// dst.word[2*i+0] := 0 /// dst.fp16[2*i+1] := CONVERT_FP32_TO_FP16(tsrc.row[row_index].fp32[row_chunk/4+i], RNE) /// FI /// ENDFOR /// dst[MAX_VL-1:VL] := 0 /// zero_tileconfig_start() /// \endcode /// /// This intrinsic corresponds to the \c TCVTROWPS2PHH instruction. /// /// \param tsrc /// The source tile. Max size is 1024 Bytes. /// \param row /// The the row of the source tile. #define _tile_cvtrowps2phh(tsrc, row) __builtin_ia32_tcvtrowps2phh(tsrc, row) /// Moves a row from a tile register to a zmm destination register, converting /// the fp32 source elements to fp16. It places the resulting fp16 elements /// in the low 16 bits within each dword. The row of the tile is selected /// by a 32b GPR. /// /// \headerfile /// /// \code /// __m512i _tile_cvtrowps2phl(__tile tsrc, unsigned int row); /// \endcode /// /// \code{.operation} /// VL := 512 /// VL_bytes := VL >> 3 /// row_index := row & 0xffff /// row_chunk := ((row >> 16) & 0xffff) * VL_bytes /// FOR i := 0 TO (VL_bytes / 4) - 1 /// IF i + row_chunk / 4 >= tsrc.colsb / 4 /// dst.dword[i] := 0 /// ELSE /// dst.word[2*i+1] := 0 /// dst.fp16[2*i+0] := CONVERT_FP32_TO_FP16(tsrc.row[row_index].fp32[row_chunk/4+i], RNE) /// FI /// ENDFOR /// dst[MAX_VL-1:VL] := 0 /// zero_tileconfig_start() /// \endcode /// /// This intrinsic corresponds to the \c TCVTROWPS2PHL instruction. /// /// \param tsrc /// The source tile. Max size is 1024 Bytes. /// \param row /// The the row of the source tile. #define _tile_cvtrowps2phl(tsrc, row) __builtin_ia32_tcvtrowps2phl(tsrc, row) /// Move one row of a tile data to a v16f32 data. /// The row of the tile is selected by a 32b GPR. /// /// \headerfile /// /// \code /// __m512 _tile_movrow(__tile a, unsigned b); /// \endcode /// /// This intrinsic corresponds to the TILEMOVROW instruction. /// /// \param a /// The 1st source tile. Max size is 1024 Bytes. /// \param b /// The 2nd source r32. Size is 4 Bytes. /// \returns /// The destination v16f32 data. Size is 64 Bytes. /// /// \code{.operation} /// VL := 512 /// VL_bytes := VL>>3 /// row_index := b&0xffff /// row_chunk := ((b>>16)&0xffff) * VL_bytes /// FOR i := 0 TO (VL_bytes-1) /// IF (row_chunk + i >= a.colsb) /// dst.byte[i] := 0 /// ELSE /// dst.byte[i] := a.row[row_index].byte[row_chunk+i] /// ENDFOR /// \endcode #define _tile_movrow(a, b) ((__m512i)__builtin_ia32_tilemovrow(a, b)) /// This is internal intrinsic. C/C++ user should avoid calling it directly. static __inline__ __m512 __DEFAULT_FN_ATTRS_AVX512 _tile_cvtrowd2ps_internal( unsigned short m, unsigned short n, _tile1024i src, unsigned u) { return __builtin_ia32_tcvtrowd2ps_internal(m, n, src, u); } static __inline__ __m512bh __DEFAULT_FN_ATTRS_AVX512 _tile_cvtrowps2bf16h_internal(unsigned short m, unsigned short n, _tile1024i src, unsigned u) { return __builtin_ia32_tcvtrowps2bf16h_internal(m, n, src, u); } static __inline__ __m512bh __DEFAULT_FN_ATTRS_AVX512 _tile_cvtrowps2bf16l_internal(unsigned short m, unsigned short n, _tile1024i src, unsigned u) { return __builtin_ia32_tcvtrowps2bf16l_internal(m, n, src, u); } static __inline__ __m512h __DEFAULT_FN_ATTRS_AVX512 _tile_cvtrowps2phh_internal( unsigned short m, unsigned short n, _tile1024i src, unsigned u) { return __builtin_ia32_tcvtrowps2phh_internal(m, n, src, u); } static __inline__ __m512h __DEFAULT_FN_ATTRS_AVX512 _tile_cvtrowps2phl_internal( unsigned short m, unsigned short n, _tile1024i src, unsigned u) { return __builtin_ia32_tcvtrowps2phl_internal(m, n, src, u); } static __inline__ __m512i __DEFAULT_FN_ATTRS_AVX512 _tile_movrow_internal( unsigned short m, unsigned short n, _tile1024i src, unsigned u) { return (__m512i)__builtin_ia32_tilemovrow_internal(m, n, src, u); } /// Move a row from a tile (src0) to a v16f32 dst, converting the int32 source /// elements to fp32. No SIMD exceptions are generated. Rounding is done as if /// MXCSR.RC=RNE. Embedded rounding is not supported. /// The row and chunk elements of tile is fetched from 32bit src1. /// /// \headerfile /// /// This intrinsic corresponds to the TCVTROWD2PS instruction. /// /// \param src0 /// The 1st source tile. Max size is 1024 Bytes. /// \param src1 /// The 2nd source r32. Size is 4 Bytes. /// \returns /// The destination v16f32 data. Size is 64 Bytes. __DEFAULT_FN_ATTRS_AVX512 static __m512 __tile_cvtrowd2ps(__tile1024i src0, unsigned src1) { return _tile_cvtrowd2ps_internal(src0.row, src0.col, src0.tile, src1); } /// Move a row from a tile (src0) to a v32bf16 dst, converting the fp32 source /// elements to bf16 at high 16-bits of each dword. /// The row and chunk elements of tile is fetched from 32bit src1. /// /// \headerfile /// /// This intrinsic corresponds to the TCVTROWPS2BF16H instruction. /// /// \param src0 /// The 1st source tile. Max size is 1024 Bytes. /// \param src1 /// The 2nd source r32. Size is 4 Bytes. /// \returns /// The destination v32bf16 data. Size is 64 Bytes. __DEFAULT_FN_ATTRS_AVX512 static __m512bh __tile_cvtrowps2bf16h(__tile1024i src0, unsigned src1) { return _tile_cvtrowps2bf16h_internal(src0.row, src0.col, src0.tile, src1); } /// Move a row from a tile (src0) to a v32bf16 dst, converting the fp32 source /// elements to bf16 at low 16-bits of each dword. /// The row and chunk elements of tile is fetched from 32bit src1. /// /// \headerfile /// /// This intrinsic corresponds to the TCVTROWPS2BF16L instruction. /// /// \param src0 /// The 1st source tile. Max size is 1024 Bytes. /// \param src1 /// The 2nd source r32. Size is 4 Bytes. /// \returns /// The destination v32bf16 data. Size is 64 Bytes. __DEFAULT_FN_ATTRS_AVX512 static __m512bh __tile_cvtrowps2bf16l(__tile1024i src0, unsigned src1) { return _tile_cvtrowps2bf16l_internal(src0.row, src0.col, src0.tile, src1); } /// Move a row from a tile (src0) to a v32fp16 dst, converting the fp32 source /// elements to fp16 at high 16-bits of each dword. /// The row and chunk elements of tile is fetched from 32bit src1. /// /// \headerfile /// /// This intrinsic corresponds to the TCVTROWPS2PHH instruction. /// /// \param src0 /// The 1st source tile. Max size is 1024 Bytes. /// \param src1 /// The 2nd source r32. Size is 4 Bytes. /// \returns /// The destination v32fp16 data. Size is 64 Bytes. __DEFAULT_FN_ATTRS_AVX512 static __m512h __tile_cvtrowps2phh(__tile1024i src0, unsigned src1) { return _tile_cvtrowps2phh_internal(src0.row, src0.col, src0.tile, src1); } /// Move a row from a tile (src0) to a v32fp16 dst, converting the fp32 source /// elements to fp16 at low 16-bits of each dword. /// The row and chunk elements of tile is fetched from 32bit src1. /// /// \headerfile /// /// This intrinsic corresponds to the TCVTROWPS2PHL instruction. /// /// \param src0 /// The 1st source tile. Max size is 1024 Bytes. /// \param src1 /// The 2nd source r32. Size is 4 Bytes. /// \returns /// The destination v32fp16 data. Size is 64 Bytes. __DEFAULT_FN_ATTRS_AVX512 static __m512h __tile_cvtrowps2phl(__tile1024i src0, unsigned src1) { return _tile_cvtrowps2phl_internal(src0.row, src0.col, src0.tile, src1); } /// Move one row of a tile data to a v16f32 data. /// The row of the tile is selected by a 32b GPR. /// /// \headerfile /// /// This intrinsic corresponds to the TILEMOVROW instruction. /// /// \param src0 /// The 1st source tile. Max size is 1024 Bytes. /// \param src1 /// The 2nd source r32. Size is 4 Bytes. /// \returns /// The destination v16i32 data. Size is 64 Bytes. __DEFAULT_FN_ATTRS_AVX512 static __m512i __tile_movrow(__tile1024i src0, unsigned src1) { return (__m512i)_tile_movrow_internal(src0.row, src0.col, src0.tile, src1); } #endif // __x86_64__ && __SSE2__ #endif // __AMX_AVX512INTRIN_H