📄 qtrsm_kernel_ln_2x2.s

📁 Optimized GotoBLAS libraries
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       fmul	%st, %st(3)       fmulp	%st, %st(4)#endif#ifdef RN       FLD	-8 * SIZE(BO)       fmul	%st, %st(1)       fmulp	%st, %st(3)       FLD	-7 * SIZE(BO)       fmul	%st(1), %st       FLD	-7 * SIZE(BO)       fmul	%st(4), %st       fsubrp	%st, %st(5)       fsubrp	%st, %st(2)       FLD	-5 * SIZE(BO)       fmul	%st, %st(2)       fmulp	%st, %st(4)#endif#ifdef RT       FLD	-5 * SIZE(BO)       fmul	%st, %st(2)       fmulp	%st, %st(4)       FLD	-6 * SIZE(BO)       fmul	%st(2), %st       FLD	-6 * SIZE(BO)       fmul	%st(5), %st       fsubrp	%st, %st(4)       fsubrp	%st, %st(1)       FLD	-8 * SIZE(BO)       fmul	%st, %st(1)       fmulp	%st, %st(3)#endif#ifdef LN	subq	$2 * SIZE, CO#endif#if defined(LN) || defined(LT)	fld	%st	FST	-8 * SIZE(BO)	fxch	%st(1)	fld	%st	FST	-7 * SIZE(BO)	fxch	%st(2)	fld	%st	FST	-6 * SIZE(BO)	fxch	%st(3)	fld	%st	FST	-5 * SIZE(BO)	FST	1 * SIZE(CO, LDC)	FST	0 * SIZE(CO)	FST	0 * SIZE(CO, LDC)	FST	1 * SIZE(CO)#else	fld	%st	FST	-8 * SIZE(AO)	fxch	%st(2)	fld	%st	FST	-7 * SIZE(AO)	fxch	%st(1)	fld	%st	FST	-6 * SIZE(AO)	fxch	%st(3)	fld	%st	FST	-5 * SIZE(AO)	FST	1 * SIZE(CO, LDC)	FST	1 * SIZE(CO)	FST	0 * SIZE(CO)	FST	0 * SIZE(CO, LDC)#endif#ifndef LN	addq	$2 * SIZE, CO#endif#if defined(LT) || defined(RN)	movq	K,  %rax	subq	KK, %rax	salq	$BASE_SHIFT, %rax	leaq	(AO, %rax, 2), AO	leaq	(BO, %rax, 2), BO#endif#ifdef LN	subq	$2, KK#endif#ifdef LT	addq	$2, KK#endif#ifdef RT       movq	K, %rax       salq	$1 + BASE_SHIFT, %rax       addq	%rax, AORIG#endif	decq	I	jne	.L11	ALIGN_4.L29:#ifdef LN       movq	K, %rax       salq	$BASE_SHIFT, %rax       leaq	(B, %rax, 2), B#endif#if defined(LT) || defined(RN)	movq	BO, B#endif#ifdef RN	addq	$2, KK#endif#ifdef RT	subq	$2, KK#endif	decq	J	jne	.L01	ALIGN_4.L30:	movq	N,  %rax	testq	$1, %rax		je	.L999#if defined(LT) || defined(RN)	movq	A, AO#else	movq	A, %rax	movq	%rax, AORIG#endif#ifdef RT	movq	K, %rax	salq	$0 + BASE_SHIFT, %rax	subq	%rax, B#endif#ifdef RT	subq	LDC, C#endif	movq	C, CO#ifndef RT	addq	LDC, C#endif#ifdef LN	movq	OFFSET, %rax	addq	M, %rax	movq	%rax, KK#endif	#ifdef LT	movq	OFFSET, %rax	movq	%rax, KK#endif	movq	 M, %rax	andq	$1, %rax	je	.L40	ALIGN_4.L41:#ifdef LN       movq	K, %rax       salq	$0 + BASE_SHIFT, %rax       subq	%rax, AORIG#endif#if defined(LN) || defined(RT)	movq	KK, %rax	salq	$BASE_SHIFT, %rax	movq	AORIG, AO	leaq	(AO, %rax, 1), AO	leaq	(B,  %rax, 1), BO#else	movq	B, BO#endif		fldz#if defined(LT) || defined(RN)	movq	KK, %rax#else	movq	K,  %rax	subq	KK, %rax#endif	sarq	$2, %rax 	je	.L45	ALIGN_4.L42:	PREFETCH	(PREFETCHSIZE + 0) * SIZE(AO)	FLD	 -8 * SIZE(AO)	FLD	 -8 * SIZE(BO)	fmulp	 %st, %st(1)	faddp	 %st, %st(1)	FLD	 -7 * SIZE(AO)	FLD	 -7 * SIZE(BO)	fmulp	 %st, %st(1)	faddp	 %st, %st(1)	FLD	 -6 * SIZE(AO)	FLD	 -6 * SIZE(BO)	fmulp	 %st, %st(1)	faddp	 %st, %st(1)	FLD	 -5 * SIZE(AO)	FLD	 -5 * SIZE(BO)	fmulp	 %st, %st(1)	faddp	 %st, %st(1)	addq	$4 * SIZE,AO	addq	$4 * SIZE,BO	decq	%rax	jne	.L42	ALIGN_4.L45:#if defined(LT) || defined(RN)	movq	KK, %rax#else	movq	K,  %rax	subq	KK, %rax#endif	and	$3,  %rax	je	.L48	ALIGN_4.L46:	FLD	 -8 * SIZE(AO)	FLD	 -8 * SIZE(BO)	fmulp	 %st, %st(1)	faddp	 %st, %st(1)	addq	$1 * SIZE,AO	addq	$1 * SIZE,BO	decq	%rax	jne	 .L46	ALIGN_4.L48:#if defined(LN) || defined(RT)	movq	KK, %rax#ifdef LN	subq	$1, %rax#else	subq	$1, %rax#endif	salq	$BASE_SHIFT, %rax	movq	AORIG, AO	leaq	(AO, %rax, 1), AO	leaq	(B,  %rax, 1), BO#endif#if defined(LN) || defined(LT)	FLD	-8 * SIZE(BO)	fsubp	%st, %st(1)#else	FLD	-8 * SIZE(AO)	fsubp	%st, %st(1)#endif#ifdef LN       FLD	-8 * SIZE(AO)       fmulp	%st, %st(1)#endif#ifdef LT       FLD	-8 * SIZE(AO)       fmulp	%st, %st(1)#endif#ifdef RN       FLD	-8 * SIZE(BO)       fmulp	%st, %st(1)#endif#ifdef RT       FLD	-8 * SIZE(BO)       fmulp	%st, %st(1)#endif#ifdef LN	subq	$1 * SIZE, CO#endif#if defined(LN) || defined(LT)	fld	%st	FST	-8 * SIZE(BO)#else	fld	%st	FST	-8 * SIZE(AO)#endif	FST	0 * SIZE(CO)#ifndef LN	addq	$1 * SIZE, CO#endif#if defined(LT) || defined(RN)	movq	K,  %rax	subq	KK, %rax	salq	$BASE_SHIFT, %rax	leaq	(AO, %rax, 1), AO	leaq	(BO, %rax, 1), BO#endif#ifdef LN	subq	$1, KK#endif#ifdef LT	addq	$1, KK#endif#ifdef RT       movq	K, %rax       salq	$0 + BASE_SHIFT, %rax       addq	%rax, AORIG#endif	ALIGN_4.L40:	movq	M,  I	sarq	$1, I	je	.L49	ALIGN_4.L31:#ifdef LN       movq	K, %rax       salq	$1 + BASE_SHIFT, %rax       subq	%rax, AORIG#endif#if defined(LN) || defined(RT)	movq	KK, %rax	salq	$BASE_SHIFT, %rax	movq	AORIG, AO	leaq	(AO, %rax, 2), AO	leaq	(B,  %rax, 1), BO#else	movq	B, BO#endif		fldz	fldz#if   defined(HAVE_3DNOW)	prefetchw	2 * SIZE(CO)#elif defined(HAVE_SSE)	prefetchnta	2 * SIZE(CO)#endif#if defined(LT) || defined(RN)	movq	KK, %rax#else	movq	K,  %rax	subq	KK, %rax#endif	sarq	$2, %rax 	je	.L35	ALIGN_4.L32:	PREFETCH	(PREFETCHSIZE + 0) * SIZE(AO)	FLD	 -8 * SIZE(BO)	FLD	 -8 * SIZE(AO)	fmul	 %st(1), %st	faddp	 %st, %st(2)	FLD	 -7 * SIZE(AO)	fmulp	 %st, %st(1)	faddp	 %st, %st(2)	FLD	 -7 * SIZE(BO)	FLD	 -6 * SIZE(AO)	fmul	 %st(1), %st	faddp	 %st, %st(2)	FLD	 -5 * SIZE(AO)	fmulp	 %st, %st(1)	faddp	 %st, %st(2)	FLD	 -6 * SIZE(BO)	FLD	 -4 * SIZE(AO)	fmul	 %st(1), %st	faddp	 %st, %st(2)	FLD	 -3 * SIZE(AO)	fmulp	 %st, %st(1)	faddp	 %st, %st(2)	FLD	 -5 * SIZE(BO)	FLD	 -2 * SIZE(AO)	fmul	 %st(1), %st	faddp	 %st, %st(2)	FLD	 -1 * SIZE(AO)	fmulp	 %st, %st(1)	faddp	 %st, %st(2)	addq	$8 * SIZE,AO	addq	$4 * SIZE,BO	decq	%rax	jne	.L32	ALIGN_4.L35:#if defined(LT) || defined(RN)	movq	KK, %rax#else	movq	K,  %rax	subq	KK, %rax#endif	and	$3,  %rax	je	.L38	ALIGN_4.L36:	FLD	 -8 * SIZE(BO)	FLD	 -8 * SIZE(AO)	fmul	 %st(1), %st	faddp	 %st, %st(2)	FLD	 -7 * SIZE(AO)	fmulp	 %st, %st(1)	faddp	 %st, %st(2)	addq	$2 * SIZE,AO	addq	$1 * SIZE,BO	decq	%rax	jne	 .L36	ALIGN_4.L38:#if defined(LN) || defined(RT)	movq	KK, %rax#ifdef LN	subq	$2, %rax#else	subq	$1, %rax#endif	salq	$BASE_SHIFT, %rax	movq	AORIG, AO	leaq	(AO, %rax, 2), AO	leaq	(B,  %rax, 1), BO#endif#if defined(LN) || defined(LT)	FLD	-8 * SIZE(BO)	fsubp	%st, %st(1)	FLD	-7 * SIZE(BO)	fsubp	%st, %st(2)#else	FLD	-8 * SIZE(AO)	fsubp	%st, %st(1)	FLD	-7 * SIZE(AO)	fsubp	%st, %st(2)#endif#ifdef LN       FLD	-5 * SIZE(AO)       fmulp	%st, %st(2)       FLD	-6 * SIZE(AO)       fmul	%st(2), %st       fsubrp	%st, %st(1)       FLD	-8 * SIZE(AO)       fmulp	%st, %st(1)#endif#ifdef LT       FLD	-8 * SIZE(AO)       fmulp	%st, %st(1)       FLD	-7 * SIZE(AO)       fmul	%st(1), %st       fsubrp	%st, %st(2)       FLD	-5 * SIZE(AO)       fmulp	%st, %st(2)#endif#ifdef RN       FLD	-8 * SIZE(BO)       fmul	%st, %st(1)       fmulp	%st, %st(2)#endif#ifdef RT       FLD	-8 * SIZE(BO)       fmul	%st, %st(1)       fmulp	%st, %st(2)#endif#ifdef LN	subq	$2 * SIZE, CO#endif#if defined(LN) || defined(LT)	fld	%st	FST	-8 * SIZE(BO)	fxch	%st(1)	fld	%st	FST	-7 * SIZE(BO)#else	fld	%st	FST	-8 * SIZE(AO)	fxch	%st(1)	fld	%st	FST	-7 * SIZE(AO)#endif	FST	1 * SIZE(CO)	FST	0 * SIZE(CO)#ifndef LN	addq	$2 * SIZE, CO#endif#if defined(LT) || defined(RN)	movq	K,  %rax	subq	KK, %rax	salq	$BASE_SHIFT, %rax	leaq	(AO, %rax, 2), AO	leaq	(BO, %rax, 1), BO#endif#ifdef LN	subq	$2, KK#endif#ifdef LT	addq	$2, KK#endif#ifdef RT       movq	K, %rax       salq	$1 + BASE_SHIFT, %rax       addq	%rax, AORIG#endif	decq	I	jne	.L31	ALIGN_4.L49:#ifdef LN       movq	K, %rax       salq	$BASE_SHIFT, %rax       leaq	(B, %rax, 1), B#endif#if defined(LT) || defined(RN)	movq	BO, B#endif#ifdef RN	addq	$1, KK#endif#ifdef RT	subq	$1, KK#endif	ALIGN_4.L999:	movq	  0(%rsp), %rbx	movq	  8(%rsp), %rbp	movq	 16(%rsp), %r12	movq	 24(%rsp), %r13	movq	 32(%rsp), %r14	movq	 40(%rsp), %r15	addq	$STACKSIZE, %rsp	ret	EPILOGUE
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