📄 qgemv_t.s

📁 Optimized GotoBLAS libraries
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/*********************************************************************//*                                                                   *//*             Optimized BLAS libraries                              *//*                     By Kazushige Goto <kgoto@tacc.utexas.edu>     *//*                                                                   *//* Copyright (c) The University of Texas, 2005. All rights reserved. *//* UNIVERSITY EXPRESSLY DISCLAIMS ANY AND ALL WARRANTIES CONCERNING  *//* THIS SOFTWARE AND DOCUMENTATION, INCLUDING ANY WARRANTIES OF      *//* MERCHANTABILITY, FITNESS FOR ANY PARTICULAR PURPOSE,              *//* NON-INFRINGEMENT AND WARRANTIES OF PERFORMANCE, AND ANY WARRANTY  *//* THAT MIGHT OTHERWISE ARISE FROM COURSE OF DEALING OR USAGE OF     *//* TRADE. NO WARRANTY IS EITHER EXPRESS OR IMPLIED WITH RESPECT TO   *//* THE USE OF THE SOFTWARE OR DOCUMENTATION.                         *//* Under no circumstances shall University be liable for incidental, *//* special, indirect, direct or consequential damages or loss of     *//* profits, interruption of business, or related expenses which may  *//* arise from use of Software or Documentation, including but not    *//* limited to those resulting from defects in Software and/or        *//* Documentation, or loss or inaccuracy of data of any kind.         *//*********************************************************************/#define ASSEMBLER#include "common.h"#define STACKSIZE	80#define P		4096	#define ALPHA		 8 + STACKSIZE(%rsp)#define OLD_INCX	24 + STACKSIZE(%rsp)#define OLD_Y		32 + STACKSIZE(%rsp)#define OLD_INCY	40 + STACKSIZE(%rsp)#define BUFFER		48 + STACKSIZE(%rsp)#define NLDA	        56            (%rsp)#define IS		64	      (%rsp)#define XP		72	      (%rsp)#define M	  %rdi#define N	  %rsi#define A	  %rcx#define LDA	  %r8#define X	  %r9#define INCX	  %rdx#define Y	  %rbp#define INCY	  %r10#define TEMP	%rax#define I	%rax#define J	%r11#define A1	%r12#define A2	%r15#define X1	%r13#define Y1	%r14#define MIN_M	%rbx		PROLOGUE	PROFCODE	subq	$STACKSIZE, %rsp	movq	%rbx,  0(%rsp)	movq	%rbp,  8(%rsp)	movq	%r12, 16(%rsp)	movq	%r13, 24(%rsp)	movq	%r14, 32(%rsp)	movq	%r15, 40(%rsp)	movq	OLD_INCX,   INCX	movq	OLD_Y,      Y	movq	OLD_INCY,   INCY	FLD	ALPHA	salq	$BASE_SHIFT, INCX	salq	$BASE_SHIFT, INCY	movq	$0, IS	test	M, M	jle	.L79			# goto END	test	N, N	jle	.L79			# goto END	movq	N,    %rax	imulq	LDA,  %rax	movq	$P,   NLDA	subq	%rax, NLDA	salq	$BASE_SHIFT, NLDA	salq	$BASE_SHIFT, LDA	ALIGN_2.L32:	movq	$P,   %rax	movq	M,    MIN_M	subq	IS  , MIN_M	cmpq	%rax, MIN_M	cmovg	%rax, MIN_M	movq	IS, X1	salq	$BASE_SHIFT, X1	leaq	(X,X1, 1), X1	movq	X1, XP	cmpq	$SIZE, INCX	je	.L34	movq	BUFFER, X1	movq	X1, XP	movq	MIN_M, I	sarq	$2, I	jle	.L35	ALIGN_3.L36:	FLD	(X)	addq	INCX, X	FST	0 * SIZE(X1)	FLD	(X)	addq	INCX, X	FST	1 * SIZE(X1)	FLD	(X)	addq	INCX, X	FST	2 * SIZE(X1)	FLD	(X)	addq	INCX, X	FST	3 * SIZE(X1)	addq	$4 * SIZE, X1	decq	I	jg	.L36	ALIGN_3.L35:	movq	MIN_M, I	andq	$3,I	jle	.L34	ALIGN_2.L42:	FLD	(X)	addq	INCX,  X	FST	(X1)	addq	$SIZE, X1	decq	I	jg	.L42	ALIGN_3/* Main Routine */.L34:	movq	Y, Y1			# coffset = y	movq	N,  J	sarq	$2, J	jle	.L47	ALIGN_3.L48:	movq	A,  A1	leaq	(A, LDA), A2	leaq	(A, LDA, 4), A	fldz	fldz	fldz	fldz	movq	XP, X1	FLD	(X1)	movq	MIN_M, I	sarq	$2,I	jle	.L51	ALIGN_3.L80:	FLD	0 * SIZE(A1)		# at   = *(a_offset  + 0 * lda)	fmul	%st(1),%st		# at1 *= bt1	faddp	%st,%st(2)		# ct1 += at1	FLD	0 * SIZE(A2)		# at1  = *(a_offset2 + 0 * lda)	fmul	%st(1),%st		# at1 *= bt1	faddp	%st,%st(3)		# ct2 += at1	FLD	0 * SIZE(A1, LDA, 2)	# at   = *(a_offset  + 2 * lda)	fmul	%st(1),%st	faddp	%st,%st(4)	FLD	0 * SIZE(A2, LDA, 2)	# at1  = *(a_offset2 + 2 * lda)	fmulp	%st, %st(1)	faddp	%st,%st(4)	FLD	1 * SIZE(X1)	FLD	1 * SIZE(A1)		# at   = *(a_offset  + 0 * lda)	fmul	%st(1),%st		# at1 *= bt1	faddp	%st,%st(2)		# ct1 += at1	FLD	1 * SIZE(A2)		# at1  = *(a_offset2 + 0 * lda)	fmul	%st(1),%st		# at1 *= bt1	faddp	%st,%st(3)		# ct2 += at1	FLD	1 * SIZE(A1, LDA, 2)	# at   = *(a_offset  + 2 * lda)	fmul	%st(1),%st	faddp	%st,%st(4)	FLD	1 * SIZE(A2, LDA, 2)	# at1  = *(a_offset2 + 2 * lda)	fmulp	%st, %st(1)	faddp	%st,%st(4)	FLD	2 * SIZE(X1)	FLD	2 * SIZE(A1)		# at   = *(a_offset  + 0 * lda)	fmul	%st(1),%st		# at1 *= bt1	faddp	%st,%st(2)		# ct1 += at1	FLD	2 * SIZE(A2)		# at1  = *(a_offset2 + 0 * lda)	fmul	%st(1),%st		# at1 *= bt1	faddp	%st,%st(3)		# ct2 += at1	FLD	2 * SIZE(A1, LDA, 2)	# at   = *(a_offset  + 2 * lda)	fmul	%st(1),%st	faddp	%st,%st(4)	FLD	2 * SIZE(A2, LDA, 2)	# at1  = *(a_offset2 + 2 * lda)	fmulp	%st, %st(1)	faddp	%st,%st(4)	FLD	3 * SIZE(X1)	FLD	3 * SIZE(A1)		# at   = *(a_offset  + 0 * lda)	fmul	%st(1),%st		# at1 *= bt1	faddp	%st,%st(2)		# ct1 += at1	FLD	3 * SIZE(A2)		# at1  = *(a_offset2 + 0 * lda)	fmul	%st(1),%st		# at1 *= bt1	faddp	%st,%st(3)		# ct2 += at1	FLD	3 * SIZE(A1, LDA, 2)	# at   = *(a_offset  + 2 * lda)	fmul	%st(1),%st	faddp	%st,%st(4)	FLD	3 * SIZE(A2, LDA, 2)	# at1  = *(a_offset2 + 2 * lda)	fmulp	%st, %st(1)	addq	$4 * SIZE, A1	faddp	%st,%st(4)	addq	$4 * SIZE, A2	FLD	4 * SIZE(X1)	addq	$4 * SIZE, X1	decq	I	jg	.L80	ALIGN_3.L51:	movq	MIN_M, I	andq	$3,    I	je	.L81	ALIGN_3.L52:	FLD	(A1)			# at   = *(a_offset  + 0 * lda)	fmul	%st(1),%st		# at1 *= bt1	faddp	%st,%st(2)		# ct1 += at1	FLD	(A2)			# at1  = *(a_offset2 + 0 * lda)	fmul	%st(1),%st		# at1 *= bt1	faddp	%st,%st(3)		# ct2 += at1	FLD	(A1, LDA, 2)		# at   = *(a_offset  + 2 * lda)	fmul	%st(1),%st	faddp	%st,%st(4)	FLD	(A2, LDA, 2)		# at1  = *(a_offset2 + 2 * lda)	fmulp	%st, %st(1)	faddp	%st,%st(4)	FLD	1 * SIZE(X1)	addq	$SIZE, A1	addq	$SIZE, A2	addq	$SIZE, X1	decq	I	jg	.L52	ALIGN_3.L81:	ffreep	%st(0)	fxch	%st(4)	fmul	%st, %st(4)	fmul	%st, %st(1)	fmul	%st, %st(2)	fmul	%st, %st(3)	fxch	%st(4)	FLD	(Y1)	faddp	%st, %st(1)	FST	(Y1)	addq	INCY, Y1	FLD	(Y1)	faddp	%st, %st(1)	FST	(Y1)	addq	INCY, Y1	FLD	(Y1)	faddp	%st, %st(1)	FST	(Y1)	addq	INCY, Y1	FLD	(Y1)	faddp	%st, %st(1)	FST	(Y1)	addq	INCY, Y1	decq	J	jg	.L48	ALIGN_3.L47:	movq	N,  J	andq	$3, J	jle	.L60	ALIGN_2.L61:	movq	A, A1			# a_offset = a	fldz				# ct1 = ZERO	fldz				# ct1 = ZERO	addq	LDA, A	fldz				# ct1 = ZERO	fldz				# ct1 = ZERO	movq	XP, X1	movq	MIN_M, I	sarq	$3,I	jle	.L64	ALIGN_3.L65:	FLD	0 * SIZE(X1)	FLD	0 * SIZE(A1)	fmulp	%st, %st(1)	faddp	%st,%st(1)	FLD	1 * SIZE(X1)	FLD	1 * SIZE(A1)	fmulp	%st, %st(1)	faddp	%st,%st(2)	FLD	2 * SIZE(X1)	FLD	2 * SIZE(A1)	fmulp	%st, %st(1)	faddp	%st,%st(3)	FLD	3 * SIZE(X1)	FLD	3 * SIZE(A1)	fmulp	%st, %st(1)	faddp	%st,%st(4)	FLD	4 * SIZE(X1)	FLD	4 * SIZE(A1)	fmulp	%st, %st(1)	faddp	%st,%st(1)	FLD	5 * SIZE(X1)	FLD	5 * SIZE(A1)	fmulp	%st, %st(1)	faddp	%st,%st(2)	FLD	6 * SIZE(X1)	FLD	6 * SIZE(A1)	fmulp	%st, %st(1)	faddp	%st,%st(3)	FLD	7 * SIZE(X1)	FLD	7 * SIZE(A1)	fmulp	%st, %st(1)	faddp	%st,%st(4)	addq	$8 * SIZE, X1	addq	$8 * SIZE, A1	decq	I	jg	.L65	ALIGN_3.L64:	movq	MIN_M, I	andq	$7, I	jle	.L70	ALIGN_3.L71:	FLD	(X1)	FLD	(A1)	fmulp	%st, %st(1)	faddp	%st,%st(1)	addq	$SIZE, X1	addq	$SIZE, A1	decq	I	jg	.L71	ALIGN_3.L70:	faddp	%st, %st(1)	faddp	%st, %st(1)	faddp	%st, %st(1)	fmul	%st(1),%st	FLD	(Y1)	faddp	%st, %st(1)	FST	(Y1)	addq	INCY, Y1	decq	J	jg	.L61	ALIGN_3.L60:	addq	NLDA, A	addq	$P, IS	cmpq	M,  IS	jl	.L32	ALIGN_3.L79:	EMMS	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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