📄 trsm_kernel_rt_1x4.s

📁 Optimized GotoBLAS libraries
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#ifdef LT       FLD	0 * SIZE - 16 * SIZE(A)       fmul	%st, %st(1)       fmulp	%st, %st(2)#endif#ifdef RN       FMUL	 0 * SIZE - 16 * SIZE(B)       FLD	 1 * SIZE - 16 * SIZE(B)       fmul	 %st(1), %st       fsubrp	 %st, %st(2)       FLD	 3 * SIZE - 16 * SIZE(B)       fmulp	 %st, %st(2)#endif#ifdef RT       FLD	 3 * SIZE - 16 * SIZE(B)       fmulp	 %st, %st(2)       FLD	 2 * SIZE - 16 * SIZE(B)       fmul	 %st(2), %st       fsubrp	 %st, %st(1)       FLD	 0 * SIZE - 16 * SIZE(B)       fmulp	 %st, %st(1)#endif#ifdef LN	subl	$1 * SIZE, %edi#endif#if defined(LN) || defined(LT)	FSTU	0 * SIZE - 16 * SIZE(B)	fxch	%st(1)	FSTU	1 * SIZE - 16 * SIZE(B)#else	FSTU	0 * SIZE - 16 * SIZE(A)	fxch	%st(1)	FSTU	1 * SIZE - 16 * SIZE(A)#endif	FST	0 * SIZE(%edi, LDC)	FST	0 * SIZE(%edi)#ifndef LN	addl	$1 * SIZE, %edi#endif#if defined(LT) || defined(RN)	movl	K,  %eax	subl	KK, %eax	leal	(,%eax, SIZE), %eax	leal	(A, %eax, 1), A	leal	(B, %eax, 2), B#endif#ifdef LN	subl	$1, KK#endif#ifdef LT	addl	$1, KK#endif#ifdef RT       movl	K, %eax       sall	$BASE_SHIFT, %eax       addl	%eax, AORIG#endif	decl	I	jne	.L24#ifdef LN       movl	K, %eax       leal	(    , %eax, SIZE), %eax       leal	(B_ORIG, %eax, 2), B_ORIG#endif#if defined(LT) || defined(RN)	movl	B, B_ORIG#endif#ifdef RN	addl	$2, KK#endif#ifdef RT	subl	$2, KK#endif	ALIGN_4.L30:	movl	N,   %eax	sarl	$2,  %eax	movl	%eax, J	je	.L999	ALIGN_3.L11:#if defined(LT) || defined(RN)	movl	STACK_A, A#else	movl	STACK_A, %eax	movl	%eax, AORIG#endif#ifdef RT	movl	K, %eax	sall	$2 + BASE_SHIFT, %eax	subl	%eax, B_ORIG#endif	leal	(, LDC, 4), %eax#ifdef RT	subl	%eax, C#endif	movl	C, %edi#ifndef RT	addl	%eax, C#endif#ifdef LN	movl	OFFSET, %eax	addl	M, %eax	movl	%eax, KK#endif	#ifdef LT	movl	OFFSET, %eax	movl	%eax, KK#endif	movl	B_ORIG, B#if defined(LT) || defined(RN)	movl	KK, %eax#else	movl	K,  %eax	subl	KK, %eax#endif	sarl	$4, %eax	jle	.L13	ALIGN_4.L12:		movl	 -16 * SIZE(B), %esi	movl	  -8 * SIZE(B), %esi	movl	   0 * SIZE(B), %esi	movl	   8 * SIZE(B), %esi	movl	  16 * SIZE(B), %esi	movl	  24 * SIZE(B), %esi	movl	  32 * SIZE(B), %esi	movl	  40 * SIZE(B), %esi	subl	 $-64 * SIZE, B	decl	  %eax	jne	  .L12	ALIGN_3.L13:	movl	M, %esi	movl	%esi, I	ALIGN_3.L14:#ifdef LN       movl	K, %eax       sall	$BASE_SHIFT, %eax       subl	%eax, AORIG#endif#if defined(LN) || defined(RT)	movl	KK, %eax	leal	(, %eax, SIZE), %eax	movl	AORIG, A	leal	(A     , %eax, 1), A	leal	(B_ORIG, %eax, 4), B#else	movl	B_ORIG, B#endif		leal	(%edi, LDC, 2), %eax	fldz	fldz	fldz	fldz	FLD	  -8 * SIZE(A)	FLD	 -16 * SIZE(A)	FLD	 -16 * SIZE(B)	movl	$32 * SIZE, %esi	prefetchw	1 * SIZE(%edi)	prefetchw	1 * SIZE(%edi, LDC)	prefetchw	1 * SIZE(%eax)	prefetchw	1 * SIZE(%eax, LDC)#if defined(LT) || defined(RN)	movl	KK, %eax#else	movl	K,  %eax	subl	KK, %eax#endif	sarl	$3, %eax 	je	.L16	ALIGN_3.L15:	fmul	%st(1), %st	faddp	%st, %st(3)	PADDING	FLD	-15 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(4)	PADDING	FLD	-14 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(5)	PADDING	FMUL	-13 * SIZE(B)	faddp	%st, %st(5)	FLD	-15 * SIZE(A)	FLD	-12 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(3)	PADDING	FLD	-11 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(4)	PADDING	FLD	-10 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(5)	PADDING	FMUL	 -9 * SIZE(B)	faddp	%st, %st(5)	FLD	-14 * SIZE(A)	FLD	 -8 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(3)	PADDING	FLD	 -7 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(4)	PADDING	FLD	 -6 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(5)	PADDING	FMUL	 -5 * SIZE(B)	faddp	%st, %st(5)	FLD	-13 * SIZE(A)	FLD	 -4 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(3)	PADDING	FLD	 -3 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(4)	PADDING	FLD	 -2 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(5)	PADDING	FMUL	 -1 * SIZE(B)	faddp	%st, %st(5)	FLD	-12 * SIZE(A)	FLD	  0 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(3)	PADDING	FLD	  1 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(4)	PADDING	FLD	  2 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(5)	PADDING	FMUL	  3 * SIZE(B)	faddp	%st, %st(5)	FLD	-11 * SIZE(A)	FLD	  4 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(3)	PADDING	FLD	  5 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(4)	PADDING	FLD	  6 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(5)	PADDING	FMUL	  7 * SIZE(B)	faddp	%st, %st(5)	FLD	-10 * SIZE(A)	FLD	  8 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(3)	PADDING	FLD	  9 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(4)	PADDING	FLD	 10 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(5)	PADDING	FMUL	 11 * SIZE(B)	faddp	%st, %st(5)	FLD	 -9 * SIZE(A)	FLD	 12 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(3)	PADDING	FLD	 13 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(4)	PADDING	FLD	 14 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(5)	PADDING	FMUL	 15 * SIZE(B)	faddp	%st, %st(5)	FLD	  0 * SIZE(A)	PADDING prefetch	PREFETCHSIZE * SIZE(A)	addl	$8 * SIZE, A	fxch	%st(1)	addl	$32 * SIZE, B	FLD	-16 * SIZE(B)	decl	%eax	jne	.L15	ALIGN_4.L16:#if defined(LT) || defined(RN)	movl	KK, %eax#else	movl	K,  %eax	subl	KK, %eax#endif	and	$7, %eax	je	.L19	ALIGN_4.L17:	fmul	%st(1), %st	faddp	%st, %st(3)	FLD	-15 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(4)	FLD	-14 * SIZE(B)	fmul	%st(1), %st	faddp	%st, %st(5)	FMUL	-13 * SIZE(B)	faddp	%st, %st(5)	FLD	-15 * SIZE(A)	FLD	-12 * SIZE(B)	addl	$1 * SIZE,A	addl	$4 * SIZE,B	decl	%eax	jne	 .L17	ALIGN_4.L19:	ffreep	%st	ffreep	%st	ffreep	%st#if defined(LN) || defined(RT)	movl	KK, %eax#ifdef LN	subl	$1, %eax#else	subl	$4, %eax#endif	leal	(, %eax, SIZE), %eax	movl	AORIG, A	leal	(A,      %eax, 1), A	leal	(B_ORIG, %eax, 4), B#endif#if defined(LN) || defined(LT)	FLD	0 * SIZE - 16 * SIZE(B)	fsubp	%st, %st(1)	FLD	1 * SIZE - 16 * SIZE(B)	fsubp	%st, %st(2)	FLD	2 * SIZE - 16 * SIZE(B)	fsubp	%st, %st(3)	FLD	3 * SIZE - 16 * SIZE(B)	fsubp	%st, %st(4)#else	FLD	0 * SIZE - 16 * SIZE(A)	fsubp	%st, %st(1)	FLD	1 * SIZE - 16 * SIZE(A)	fsubp	%st, %st(2)	FLD	2 * SIZE - 16 * SIZE(A)	fsubp	%st, %st(3)	FLD	3 * SIZE - 16 * SIZE(A)	fsubp	%st, %st(4)#endif#ifdef LN       FLD	0 * SIZE - 16 * SIZE(A)       fmul	%st, %st(1)       fmul	%st, %st(2)       fmul	%st, %st(3)       fmulp	%st, %st(4)#endif#ifdef LT       FLD	0 * SIZE - 16 * SIZE(A)       fmul	%st, %st(1)       fmul	%st, %st(2)       fmul	%st, %st(3)       fmulp	%st, %st(4)#endif#ifdef RN       FMUL	 0 * SIZE - 16 * SIZE(B)       FLD	 1 * SIZE - 16 * SIZE(B)       fmul	 %st(1), %st       fsubrp	 %st, %st(2)       FLD	 2 * SIZE - 16 * SIZE(B)       fmul	 %st(1), %st       fsubrp	 %st, %st(3)       FLD	 3 * SIZE - 16 * SIZE(B)       fmul	 %st(1), %st       fsubrp	 %st, %st(4)       FLD	 5 * SIZE - 16 * SIZE(B)       fmulp	 %st, %st(2)       FLD	 6 * SIZE - 16 * SIZE(B)       fmul	 %st(2), %st       fsubrp	 %st, %st(3)       FLD	 7 * SIZE - 16 * SIZE(B)       fmul	 %st(2), %st       fsubrp	 %st, %st(4)       FLD	10 * SIZE - 16 * SIZE(B)       fmulp	 %st, %st(3)       FLD	11 * SIZE - 16 * SIZE(B)       fmul	 %st(3), %st       fsubrp	 %st, %st(4)       FLD	15 * SIZE - 16 * SIZE(B)       fmulp	 %st, %st(4)#endif#ifdef RT       FLD	15 * SIZE - 16 * SIZE(B)       fmulp	 %st, %st(4)       FLD	14 * SIZE - 16 * SIZE(B)       fmul	 %st(4), %st       fsubrp	 %st, %st(3)       FLD	13 * SIZE - 16 * SIZE(B)       fmul	 %st(4), %st       fsubrp	 %st, %st(2)       FLD	12 * SIZE - 16 * SIZE(B)       fmul	 %st(4), %st       fsubrp	 %st, %st(1)       FLD	10 * SIZE - 16 * SIZE(B)       fmulp	 %st, %st(3)       FLD	 9 * SIZE - 16 * SIZE(B)       fmul	 %st(3), %st       fsubrp	 %st, %st(2)       FLD	 8 * SIZE - 16 * SIZE(B)       fmul	 %st(3), %st       fsubrp	 %st, %st(1)       FLD	 5 * SIZE - 16 * SIZE(B)       fmulp	 %st, %st(2)       FLD	 4 * SIZE - 16 * SIZE(B)       fmul	 %st(2), %st       fsubrp	 %st, %st(1)       FLD	 0 * SIZE - 16 * SIZE(B)       fmulp	 %st, %st(1)#endif#ifdef LN	subl	$1 * SIZE, %edi#endif#if defined(LN) || defined(LT)	FSTU	0 * SIZE - 16 * SIZE(B)	fxch	%st(1)	FSTU	1 * SIZE - 16 * SIZE(B)	fxch	%st(2)	FSTU	2 * SIZE - 16 * SIZE(B)	fxch	%st(3)	FSTU	3 * SIZE - 16 * SIZE(B)#else	FSTU	0 * SIZE - 16 * SIZE(A)	fxch	%st(1)	FSTU	1 * SIZE - 16 * SIZE(A)	fxch	%st(2)	FSTU	2 * SIZE - 16 * SIZE(A)	fxch	%st(3)	FSTU	3 * SIZE - 16 * SIZE(A)#endif	leal	(%edi, LDC, 2), %eax	FST	0 * SIZE(%eax, LDC)	FST	0 * SIZE(%edi)	FST	0 * SIZE(%edi, LDC)	FST	0 * SIZE(%eax)#ifndef LN	addl	$1 * SIZE, %edi#endif#if defined(LT) || defined(RN)	movl	K,  %eax	subl	KK, %eax	leal	(,%eax, SIZE), %eax	leal	(A, %eax, 1), A	leal	(B, %eax, 4), B#endif#ifdef LN	subl	$1, KK#endif#ifdef LT	addl	$1, KK#endif#ifdef RT       movl	K, %eax       sall	$BASE_SHIFT, %eax       addl	%eax, AORIG#endif	decl	I	jne	.L14#ifdef LN       movl	K, %eax       leal	(    , %eax, SIZE), %eax       leal	(B_ORIG, %eax, 4), B_ORIG#endif#if defined(LT) || defined(RN)	movl	B, B_ORIG#endif#ifdef RN	addl	$4, KK#endif#ifdef RT	subl	$4, KK#endif	decl	J	jne	.L11	ALIGN_4.L999:	popl	%ebx	popl	%esi	popl	%edi	popl	%ebp	addl	$ARGS, %esp	ret	EPILOGUE
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