lib/Headers/amxtf32intrin.h - llvm-project/clang - Git at Google

 /*===------------- amxtf32intrin.h - AMX_TF32 intrinsics -*- C++ -*---------===
  *
  * 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 <amxtf32intrin.h> directly; include <immintrin.h> instead."
 #endif // __IMMINTRIN_H

 #ifndef __AMX_TF32INTRIN_H
 #define __AMX_TF32INTRIN_H
 #ifdef __x86_64__

 #define __DEFAULT_FN_ATTRS_TF32                                                \
   __attribute__((__always_inline__, __nodebug__, __target__("amx-tf32")))

 /// Do Matrix Multiplication of \a a and \a b, and then do Matrix Plus
 /// with \a srcdst.
 /// All the calculation is base on float32 but with the lower 13-bit set to 0.
 ///
 /// \headerfile <immintrin.h>
 ///
 /// \code
 /// void _tile_mmultf32ps(constexpr int srcdst, constexpr int a, \
 ///                       constexpr int b);
 /// \endcode
 ///
 /// This intrinsic corresponds to the <c> TMMULTF32PS </c> instruction.
 ///
 /// \param srcdst
 /// 	The destination tile. Max size is 1024 Bytes.
 /// \param a
 /// 	The 1st source tile. Max size is 1024 Bytes.
 /// \param b
 /// 	The 2nd source tile. Max size is 1024 Bytes.
 ///
 /// \code{.operation}
 /// DEFINE zero_lower_mantissa_bits_fp32(x[31:0]) {
 ///	dword[12:0] := 0
 ///	dword[31:13] := x[31:13]
 ///	return dword
 /// }
 ///
 /// DEFINE silence_snan_fp32(x[31:0]) {
 /// 	IF (x.exponent == 255 and x.fraction != 0 and x.fraction[22] == 0)
 /// 		x.fraction[22] := 1
 /// 	return x
 /// }
 ///
 /// elements_a := a.colsb / 4
 /// elements_dest := srcdst.colsb / 4
 ///
 /// FOR m = 0 TO (srcdst.rows-1)
 /// 	tmp[511:0] := 0
 /// 	FOR k = 0 TO (elements_a-1)
 /// 		FOR n = 0 TO (elements_dest-1)
 /// 			af := silence_snan_fp32(a.row[m].fp32[k])
 /// 			bf := silence_snan_fp32(b.row[k].fp32[n])
 /// 			tmp.fp32[n] += zero_lower_mantissa_bits_fp32(af)
 /// 					* zero_lower_mantissa_bits_fp32(bf)
 /// 		ENDFOR
 /// 	ENDFOR
 ///
 /// 	FOR n = 0 TO (elements_dest-1)
 /// 		tmp.fp32[n] += srcdst.row[m].fp32[n]
 /// 	ENDFOR
 ///	write_row_and_zero(srcdst, m, tmp, srcdst.colsb)
 ///
 /// ENDFOR
 ///
 /// zero_upper_rows(srcdst, srcdst.rows)
 /// zero_tileconfig_start()
 /// \endcode
 #define _tile_mmultf32ps(srcdst, a, b)                                         \
   __builtin_ia32_tmmultf32ps((srcdst), (a), (b))

 static __inline__ _tile1024i __DEFAULT_FN_ATTRS_TF32
 _tile_mmultf32ps_internal(unsigned short m, unsigned short n, unsigned short k,
                           _tile1024i dst, _tile1024i src1, _tile1024i src2) {
   return __builtin_ia32_tmmultf32ps_internal(m, n, k, dst, src1, src2);
 }

 /// Do Matrix Multiplication of src0 and src1, and then do Matrix Plus with dst.
 /// All the calculation is base on float32 but with the lower 13-bit set to 0.
 ///
 /// \headerfile <immintrin.h>
 ///
 /// This intrinsic corresponds to the <c> TMMULTF32PS </c> instruction.
 ///
 /// \param dst
 ///    The destination tile. Max size is 1024 Bytes.
 /// \param src0
 ///    The 1st source tile. Max size is 1024 Bytes.
 /// \param src1
 ///    The 2nd source tile. Max size is 1024 Bytes.
 __DEFAULT_FN_ATTRS_TF32
 static void __tile_mmultf32ps(__tile1024i *dst, __tile1024i src0,
                               __tile1024i src1) {
   dst->tile = _tile_mmultf32ps_internal(src0.row, src1.col, src0.col, dst->tile,
                                         src0.tile, src1.tile);
 }

 #endif // __x86_64__
 #endif // __AMX_TF32INTRIN_H
	/===------------- amxtf32intrin.h - AMX_TF32 intrinsics -- C++ -*---------===
	*
	* 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 <amxtf32intrin.h> directly; include <immintrin.h> instead."
	#endif // __IMMINTRIN_H

	#ifndef __AMX_TF32INTRIN_H
	#define __AMX_TF32INTRIN_H
	#ifdef __x86_64__

	#define __DEFAULT_FN_ATTRS_TF32 \
	__attribute__((__always_inline__, __nodebug__, __target__("amx-tf32")))

	/// Do Matrix Multiplication of \a a and \a b, and then do Matrix Plus
	/// with \a srcdst.
	/// All the calculation is base on float32 but with the lower 13-bit set to 0.
	///
	/// \headerfile <immintrin.h>
	///
	/// \code
	/// void _tile_mmultf32ps(constexpr int srcdst, constexpr int a, \
	/// constexpr int b);
	/// \endcode
	///
	/// This intrinsic corresponds to the <c> TMMULTF32PS </c> instruction.
	///
	/// \param srcdst
	/// The destination tile. Max size is 1024 Bytes.
	/// \param a
	/// The 1st source tile. Max size is 1024 Bytes.
	/// \param b
	/// The 2nd source tile. Max size is 1024 Bytes.
	///
	/// \code{.operation}
	/// DEFINE zero_lower_mantissa_bits_fp32(x[31:0]) {
	/// dword[12:0] := 0
	/// dword[31:13] := x[31:13]
	/// return dword
	/// }
	///
	/// DEFINE silence_snan_fp32(x[31:0]) {
	/// IF (x.exponent == 255 and x.fraction != 0 and x.fraction[22] == 0)
	/// x.fraction[22] := 1
	/// return x
	/// }
	///
	/// elements_a := a.colsb / 4
	/// elements_dest := srcdst.colsb / 4
	///
	/// FOR m = 0 TO (srcdst.rows-1)
	/// tmp[511:0] := 0
	/// FOR k = 0 TO (elements_a-1)
	/// FOR n = 0 TO (elements_dest-1)
	/// af := silence_snan_fp32(a.row[m].fp32[k])
	/// bf := silence_snan_fp32(b.row[k].fp32[n])
	/// tmp.fp32[n] += zero_lower_mantissa_bits_fp32(af)
	/// * zero_lower_mantissa_bits_fp32(bf)
	/// ENDFOR
	/// ENDFOR
	///
	/// FOR n = 0 TO (elements_dest-1)
	/// tmp.fp32[n] += srcdst.row[m].fp32[n]
	/// ENDFOR
	/// write_row_and_zero(srcdst, m, tmp, srcdst.colsb)
	///
	/// ENDFOR
	///
	/// zero_upper_rows(srcdst, srcdst.rows)
	/// zero_tileconfig_start()
	/// \endcode
	#define _tile_mmultf32ps(srcdst, a, b) \
	__builtin_ia32_tmmultf32ps((srcdst), (a), (b))

	static __inline__ _tile1024i __DEFAULT_FN_ATTRS_TF32
	_tile_mmultf32ps_internal(unsigned short m, unsigned short n, unsigned short k,
	_tile1024i dst, _tile1024i src1, _tile1024i src2) {
	return __builtin_ia32_tmmultf32ps_internal(m, n, k, dst, src1, src2);
	}

	/// Do Matrix Multiplication of src0 and src1, and then do Matrix Plus with dst.
	/// All the calculation is base on float32 but with the lower 13-bit set to 0.
	///
	/// \headerfile <immintrin.h>
	///
	/// This intrinsic corresponds to the <c> TMMULTF32PS </c> instruction.
	///
	/// \param dst
	/// The destination tile. Max size is 1024 Bytes.
	/// \param src0
	/// The 1st source tile. Max size is 1024 Bytes.
	/// \param src1
	/// The 2nd source tile. Max size is 1024 Bytes.
	__DEFAULT_FN_ATTRS_TF32
	static void __tile_mmultf32ps(__tile1024i *dst, __tile1024i src0,
	__tile1024i src1) {
	dst->tile = _tile_mmultf32ps_internal(src0.row, src1.col, src0.col, dst->tile,
	src0.tile, src1.tile);
	}

	#endif // __x86_64__
	#endif // __AMX_TF32INTRIN_H