dnl mpn_mul_basecase for Pentium 4 and P6 models with SSE2 (i.e., 9,D,E,F). dnl Copyright 2001, 2002, 2005, 2007 Free Software Foundation, Inc. dnl This file is part of the GNU MP Library. dnl dnl The GNU MP Library is free software; you can redistribute it and/or modify dnl it under the terms of either: dnl dnl * the GNU Lesser General Public License as published by the Free dnl Software Foundation; either version 3 of the License, or (at your dnl option) any later version. dnl dnl or dnl dnl * the GNU General Public License as published by the Free Software dnl Foundation; either version 2 of the License, or (at your option) any dnl later version. dnl dnl or both in parallel, as here. dnl dnl The GNU MP Library is distributed in the hope that it will be useful, but dnl WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY dnl or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License dnl for more details. dnl dnl You should have received copies of the GNU General Public License and the dnl GNU Lesser General Public License along with the GNU MP Library. If not, dnl see https://www.gnu.org/licenses/. include(`../config.m4') C TODO: C * Improve ad-hoc outer loop code and register handling. Some feed-in C scheduling could improve things by several cycles per outer iteration. C * In code for un <= 3, try keeping accumulation operands in registers, C without storing intermediates to rp. C * We might want to keep 32 in a free mm register, since the register form is C 3 bytes and the immediate form is 4 bytes. About 70 bytes to save. C * Look into different loop alignment, we now expand the code about 50 bytes C with possibly needless alignment. C * Perhaps rewrap loops 00,01,02 (6 loops) to allow fall-through entry. C * Use OSP, should solve feed-in latency problems. C * Save a few tens of bytes by doing cross-jumping for Loel0, etc. C * Save around 120 bytes by remapping "m 0", "m 1", "m 2" and "m 3" registers C so that they can share feed-in code, and changing the branch targets from C L to Lm. C cycles/limb C P6 model 9 (Banias) ? C P6 model 13 (Dothan) 5.24 C P6 model 14 (Yonah) ? C P4 model 0-1 (Willamette): 5 C P4 model 2 (Northwood): 4.60 at 32 limbs C P4 model 3-4 (Prescott): 4.94 at 32 limbs C INPUT PARAMETERS C rp sp + 4 C up sp + 8 C un sp + 12 C vp sp + 16 C vn sp + 20 TEXT ALIGN(16) PROLOGUE(mpn_mul_basecase) push %esi push %ebx mov 12(%esp), %edx C rp mov 16(%esp), %eax C up mov 20(%esp), %ecx C un mov 24(%esp), %esi C vp mov 28(%esp), %ebx C vn movd (%esi), %mm7 C L(ent): cmp $3, %ecx ja L(big) movd (%eax), %mm6 pmuludq %mm7, %mm6 jz L(un3) cmp $2, %ecx jz L(un2) L(un1): movd %mm6, (%edx) C un=1 psrlq $32, %mm6 C un=1 movd %mm6, 4(%edx) C un=1 jmp L(rtr) C un=1 L(un2): movd 4(%eax), %mm1 C un=2 pmuludq %mm7, %mm1 C un=2 movd %mm6, (%edx) C un=2 psrlq $32, %mm6 C un=2 paddq %mm1, %mm6 C un=2 movd %mm6, 4(%edx) C un=2 psrlq $32, %mm6 C un=2 movd %mm6, 8(%edx) C un=2 dec %ebx C un=2 jz L(rtr) C un=2 movd 4(%esi), %mm7 C un=2 movd (%eax), %mm6 C un=2 pmuludq %mm7, %mm6 C un=2 movd 4(%eax), %mm1 C un=2 movd 4(%edx), %mm4 C un=2 pmuludq %mm7, %mm1 C un=2 movd 8(%edx), %mm5 C un=2 paddq %mm4, %mm6 C un=2 paddq %mm1, %mm5 C un=2 movd %mm6, 4(%edx) C un=2 psrlq $32, %mm6 C un=2 paddq %mm5, %mm6 C un=2 movd %mm6, 8(%edx) C un=2 psrlq $32, %mm6 C un=2 movd %mm6, 12(%edx) C un=2 L(rtr): emms pop %ebx pop %esi ret L(un3): movd 4(%eax), %mm1 C un=3 pmuludq %mm7, %mm1 C un=3 movd 8(%eax), %mm2 C un=3 pmuludq %mm7, %mm2 C un=3 movd %mm6, (%edx) C un=3 psrlq $32, %mm6 C un=3 paddq %mm1, %mm6 C un=3 movd %mm6, 4(%edx) C un=3 psrlq $32, %mm6 C un=3 paddq %mm2, %mm6 C un=3 movd %mm6, 8(%edx) C un=3 psrlq $32, %mm6 C un=3 movd %mm6, 12(%edx) C un=3 dec %ebx C un=3 jz L(rtr) C un=3 movd 4(%esi), %mm7 C un=3 movd (%eax), %mm6 C un=3 pmuludq %mm7, %mm6 C un=3 movd 4(%eax), %mm1 C un=3 movd 4(%edx), %mm4 C un=3 pmuludq %mm7, %mm1 C un=3 movd 8(%eax), %mm2 C un=3 movd 8(%edx), %mm5 C un=3 pmuludq %mm7, %mm2 C un=3 paddq %mm4, %mm6 C un=3 paddq %mm1, %mm5 C un=3 movd 12(%edx), %mm4 C un=3 movd %mm6, 4(%edx) C un=3 psrlq $32, %mm6 C un=3 paddq %mm5, %mm6 C un=3 paddq %mm2, %mm4 C un=3 movd %mm6, 8(%edx) C un=3 psrlq $32, %mm6 C un=3 paddq %mm4, %mm6 C un=3 movd %mm6, 12(%edx) C un=3 psrlq $32, %mm6 C un=3 movd %mm6, 16(%edx) C un=3 dec %ebx C un=3 jz L(rtr) C un=3 movd 8(%esi), %mm7 C un=3 movd (%eax), %mm6 C un=3 pmuludq %mm7, %mm6 C un=3 movd 4(%eax), %mm1 C un=3 movd 8(%edx), %mm4 C un=3 pmuludq %mm7, %mm1 C un=3 movd 8(%eax), %mm2 C un=3 movd 12(%edx), %mm5 C un=3 pmuludq %mm7, %mm2 C un=3 paddq %mm4, %mm6 C un=3 paddq %mm1, %mm5 C un=3 movd 16(%edx), %mm4 C un=3 movd %mm6, 8(%edx) C un=3 psrlq $32, %mm6 C un=3 paddq %mm5, %mm6 C un=3 paddq %mm2, %mm4 C un=3 movd %mm6, 12(%edx) C un=3 psrlq $32, %mm6 C un=3 paddq %mm4, %mm6 C un=3 movd %mm6, 16(%edx) C un=3 psrlq $32, %mm6 C un=3 movd %mm6, 20(%edx) C un=3 jmp L(rtr) L(big): push %edi pxor %mm6, %mm6 lea 4(%esi), %esi and $3, %ecx jz L(0) cmp $2, %ecx jc L(1) jz L(2) jmp L(3) C FIXME: one case should fall through L(0): movd (%eax), %mm3 C m 0 sub 24(%esp), %ecx C inner loop count m 0 mov %ecx, 24(%esp) C update loop count for later m 0 pmuludq %mm7, %mm3 C m 0 movd 4(%eax), %mm0 C m 0 pmuludq %mm7, %mm0 C m 0 movd 8(%eax), %mm1 C m 0 jmp L(m00) C m 0 ALIGN(16) C m 0 L(lpm0): pmuludq %mm7, %mm4 C m 0 paddq %mm0, %mm6 C m 0 movd (%eax), %mm3 C m 0 movd %mm6, -12(%edx) C m 0 psrlq $32, %mm6 C m 0 pmuludq %mm7, %mm3 C m 0 paddq %mm1, %mm6 C m 0 movd 4(%eax), %mm0 C m 0 movd %mm6, -8(%edx) C m 0 psrlq $32, %mm6 C m 0 pmuludq %mm7, %mm0 C m 0 paddq %mm4, %mm6 C m 0 movd 8(%eax), %mm1 C m 0 movd %mm6, -4(%edx) C m 0 psrlq $32, %mm6 C m 0 L(m00): pmuludq %mm7, %mm1 C m 0 paddq %mm3, %mm6 C m 0 movd 12(%eax), %mm4 C m 0 movd %mm6, (%edx) C m 0 psrlq $32, %mm6 C m 0 lea 16(%eax), %eax C m 0 lea 16(%edx), %edx C m 0 add $4, %ecx C m 0 ja L(lpm0) C m 0 pmuludq %mm7, %mm4 C m 0 paddq %mm0, %mm6 C m 0 movd %mm6, -12(%edx) C m 0 psrlq $32, %mm6 C m 0 paddq %mm1, %mm6 C m 0 mov 16(%esp), %edi C rp 0 jmp L(x0) L(olp0): lea 4(%edi), %edi C am 0 movd (%esi), %mm7 C am 0 lea 4(%esi), %esi C am 0 mov %edi, %edx C rp am 0 mov 20(%esp), %eax C up am 0 movd (%eax), %mm3 C am 0 mov 24(%esp), %ecx C inner loop count am 0 pxor %mm6, %mm6 C am 0 pmuludq %mm7, %mm3 C am 0 movd 4(%eax), %mm0 C am 0 movd (%edx), %mm5 C am 0 pmuludq %mm7, %mm0 C am 0 movd 8(%eax), %mm1 C am 0 paddq %mm3, %mm5 C am 0 movd 4(%edx), %mm4 C am 0 jmp L(am00) C am 0 ALIGN(16) C mm 0 L(lam0): pmuludq %mm7, %mm2 C am 0 paddq %mm4, %mm6 C am 0 movd (%eax), %mm3 C am 0 paddq %mm1, %mm5 C am 0 movd -4(%edx), %mm4 C am 0 movd %mm6, -12(%edx) C am 0 psrlq $32, %mm6 C am 0 pmuludq %mm7, %mm3 C am 0 paddq %mm5, %mm6 C am 0 movd 4(%eax), %mm0 C am 0 paddq %mm2, %mm4 C am 0 movd (%edx), %mm5 C am 0 movd %mm6, -8(%edx) C am 0 psrlq $32, %mm6 C am 0 pmuludq %mm7, %mm0 C am 0 paddq %mm4, %mm6 C am 0 movd 8(%eax), %mm1 C am 0 paddq %mm3, %mm5 C am 0 movd 4(%edx), %mm4 C am 0 movd %mm6, -4(%edx) C am 0 psrlq $32, %mm6 C am 0 L(am00): pmuludq %mm7, %mm1 C am 0 paddq %mm5, %mm6 C am 0 movd 12(%eax), %mm2 C am 0 paddq %mm0, %mm4 C am 0 movd 8(%edx), %mm5 C am 0 movd %mm6, (%edx) C am 0 psrlq $32, %mm6 C am 0 lea 16(%eax), %eax C am 0 lea 16(%edx), %edx C am 0 add $4, %ecx C am 0 jnz L(lam0) C am 0 pmuludq %mm7, %mm2 C am 0 paddq %mm4, %mm6 C am 0 paddq %mm1, %mm5 C am 0 movd -4(%edx), %mm4 C am 0 movd %mm6, -12(%edx) C am 0 psrlq $32, %mm6 C am 0 paddq %mm5, %mm6 C am 0 paddq %mm2, %mm4 C am 0 L(x0): movd %mm6, -8(%edx) C am 0 psrlq $32, %mm6 C am 0 paddq %mm4, %mm6 C am 0 movd %mm6, -4(%edx) C am 0 psrlq $32, %mm6 C am 0 movd %mm6, (%edx) C am 0 dec %ebx C am 0 jnz L(olp0) C am 0 L(oel0): emms C 0 pop %edi C 0 pop %ebx C 0 pop %esi C 0 ret C 0 L(1): movd (%eax), %mm4 C m 1 sub 24(%esp), %ecx C m 1 mov %ecx, 24(%esp) C update loop count for later m 1 pmuludq %mm7, %mm4 C m 1 movd 4(%eax), %mm3 C m 1 pmuludq %mm7, %mm3 C m 1 movd 8(%eax), %mm0 C m 1 jmp L(m01) C m 1 ALIGN(16) C m 1 L(lpm1): pmuludq %mm7, %mm4 C m 1 paddq %mm0, %mm6 C m 1 movd 4(%eax), %mm3 C m 1 movd %mm6, -8(%edx) C m 1 psrlq $32, %mm6 C m 1 pmuludq %mm7, %mm3 C m 1 paddq %mm1, %mm6 C m 1 movd 8(%eax), %mm0 C m 1 movd %mm6, -4(%edx) C m 1 psrlq $32, %mm6 C m 1 L(m01): pmuludq %mm7, %mm0 C m 1 paddq %mm4, %mm6 C m 1 movd 12(%eax), %mm1 C m 1 movd %mm6, (%edx) C m 1 psrlq $32, %mm6 C m 1 pmuludq %mm7, %mm1 C m 1 paddq %mm3, %mm6 C m 1 movd 16(%eax), %mm4 C m 1 movd %mm6, 4(%edx) C m 1 psrlq $32, %mm6 C m 1 lea 16(%eax), %eax C m 1 lea 16(%edx), %edx C m 1 add $4, %ecx C m 1 ja L(lpm1) C m 1 pmuludq %mm7, %mm4 C m 1 paddq %mm0, %mm6 C m 1 movd %mm6, -8(%edx) C m 1 psrlq $32, %mm6 C m 1 paddq %mm1, %mm6 C m 1 mov 16(%esp), %edi C rp 1 jmp L(x1) L(olp1): lea 4(%edi), %edi C am 1 movd (%esi), %mm7 C am 1 lea 4(%esi), %esi C am 1 mov %edi, %edx C rp am 1 mov 20(%esp), %eax C up am 1 movd (%eax), %mm2 C am 1 mov 24(%esp), %ecx C inner loop count am 1 pxor %mm6, %mm6 C am 1 pmuludq %mm7, %mm2 C am 1 movd 4(%eax), %mm3 C am 1 movd (%edx), %mm4 C am 1 pmuludq %mm7, %mm3 C am 1 movd 8(%eax), %mm0 C am 1 paddq %mm2, %mm4 C am 1 movd 4(%edx), %mm5 C am 1 jmp L(am01) C am 1 ALIGN(16) C am 1 L(lam1): pmuludq %mm7, %mm2 C am 1 paddq %mm4, %mm6 C am 1 movd 4(%eax), %mm3 C am 1 paddq %mm1, %mm5 C am 1 movd (%edx), %mm4 C am 1 movd %mm6, -8(%edx) C am 1 psrlq $32, %mm6 C am 1 pmuludq %mm7, %mm3 C am 1 paddq %mm5, %mm6 C am 1 movd 8(%eax), %mm0 C am 1 paddq %mm2, %mm4 C am 1 movd 4(%edx), %mm5 C am 1 movd %mm6, -4(%edx) C am 1 psrlq $32, %mm6 C am 1 L(am01): pmuludq %mm7, %mm0 C am 1 paddq %mm4, %mm6 C am 1 movd 12(%eax), %mm1 C am 1 paddq %mm3, %mm5 C am 1 movd 8(%edx), %mm4 C am 1 movd %mm6, (%edx) C am 1 psrlq $32, %mm6 C am 1 pmuludq %mm7, %mm1 C am 1 paddq %mm5, %mm6 C am 1 movd 16(%eax), %mm2 C am 1 paddq %mm0, %mm4 C am 1 movd 12(%edx), %mm5 C am 1 movd %mm6, 4(%edx) C am 1 psrlq $32, %mm6 C am 1 lea 16(%eax), %eax C am 1 lea 16(%edx), %edx C am 1 add $4, %ecx C am 1 jnz L(lam1) C am 1 pmuludq %mm7, %mm2 C am 1 paddq %mm4, %mm6 C am 1 paddq %mm1, %mm5 C am 1 movd (%edx), %mm4 C am 1 movd %mm6, -8(%edx) C am 1 psrlq $32, %mm6 C am 1 paddq %mm5, %mm6 C am 1 paddq %mm2, %mm4 C am 1 L(x1): movd %mm6, -4(%edx) C am 1 psrlq $32, %mm6 C am 1 paddq %mm4, %mm6 C am 1 movd %mm6, (%edx) C am 1 psrlq $32, %mm6 C am 1 movd %mm6, 4(%edx) C am 1 dec %ebx C am 1 jnz L(olp1) C am 1 L(oel1): emms C 1 pop %edi C 1 pop %ebx C 1 pop %esi C 1 ret C 1 L(2): movd (%eax), %mm1 C m 2 sub 24(%esp), %ecx C m 2 mov %ecx, 24(%esp) C update loop count for later m 2 pmuludq %mm7, %mm1 C m 2 movd 4(%eax), %mm4 C m 2 pmuludq %mm7, %mm4 C m 2 movd 8(%eax), %mm3 C m 2 jmp L(m10) C m 2 ALIGN(16) C m 2 L(lpm2): pmuludq %mm7, %mm4 C m 2 paddq %mm0, %mm6 C m 2 movd 8(%eax), %mm3 C m 2 movd %mm6, -4(%edx) C m 2 psrlq $32, %mm6 C m 2 L(m10): pmuludq %mm7, %mm3 C m 2 paddq %mm1, %mm6 C m 2 movd 12(%eax), %mm0 C m 2 movd %mm6, (%edx) C m 2 psrlq $32, %mm6 C m 2 pmuludq %mm7, %mm0 C m 2 paddq %mm4, %mm6 C m 2 movd 16(%eax), %mm1 C m 2 movd %mm6, 4(%edx) C m 2 psrlq $32, %mm6 C m 2 pmuludq %mm7, %mm1 C m 2 paddq %mm3, %mm6 C m 2 movd 20(%eax), %mm4 C m 2 movd %mm6, 8(%edx) C m 2 psrlq $32, %mm6 C m 2 lea 16(%eax), %eax C m 2 lea 16(%edx), %edx C m 2 add $4, %ecx C m 2 ja L(lpm2) C m 2 pmuludq %mm7, %mm4 C m 2 paddq %mm0, %mm6 C m 2 movd %mm6, -4(%edx) C m 2 psrlq $32, %mm6 C m 2 paddq %mm1, %mm6 C m 2 mov 16(%esp), %edi C rp 2 jmp L(x2) L(olp2): lea 4(%edi), %edi C am 2 movd (%esi), %mm7 C am 2 lea 4(%esi), %esi C am 2 mov %edi, %edx C rp am 2 mov 20(%esp), %eax C up am 2 movd (%eax), %mm1 C am 2 mov 24(%esp), %ecx C inner loop count am 2 pxor %mm6, %mm6 C am 2 pmuludq %mm7, %mm1 C am 2 movd 4(%eax), %mm2 C am 2 movd (%edx), %mm5 C am 2 pmuludq %mm7, %mm2 C am 2 movd 8(%eax), %mm3 C am 2 paddq %mm1, %mm5 C am 2 movd 4(%edx), %mm4 C am 2 jmp L(am10) C am 2 ALIGN(16) C am 2 L(lam2): pmuludq %mm7, %mm2 C am 2 paddq %mm4, %mm6 C am 2 movd 8(%eax), %mm3 C am 2 paddq %mm1, %mm5 C am 2 movd 4(%edx), %mm4 C am 2 movd %mm6, -4(%edx) C am 2 psrlq $32, %mm6 C am 2 L(am10): pmuludq %mm7, %mm3 C am 2 paddq %mm5, %mm6 C am 2 movd 12(%eax), %mm0 C am 2 paddq %mm2, %mm4 C am 2 movd 8(%edx), %mm5 C am 2 movd %mm6, (%edx) C am 2 psrlq $32, %mm6 C am 2 pmuludq %mm7, %mm0 C am 2 paddq %mm4, %mm6 C am 2 movd 16(%eax), %mm1 C am 2 paddq %mm3, %mm5 C am 2 movd 12(%edx), %mm4 C am 2 movd %mm6, 4(%edx) C am 2 psrlq $32, %mm6 C am 2 pmuludq %mm7, %mm1 C am 2 paddq %mm5, %mm6 C am 2 movd 20(%eax), %mm2 C am 2 paddq %mm0, %mm4 C am 2 movd 16(%edx), %mm5 C am 2 movd %mm6, 8(%edx) C am 2 psrlq $32, %mm6 C am 2 lea 16(%eax), %eax C am 2 lea 16(%edx), %edx C am 2 add $4, %ecx C am 2 jnz L(lam2) C am 2 pmuludq %mm7, %mm2 C am 2 paddq %mm4, %mm6 C am 2 paddq %mm1, %mm5 C am 2 movd 4(%edx), %mm4 C am 2 movd %mm6, -4(%edx) C am 2 psrlq $32, %mm6 C am 2 paddq %mm5, %mm6 C am 2 paddq %mm2, %mm4 C am 2 L(x2): movd %mm6, (%edx) C am 2 psrlq $32, %mm6 C am 2 paddq %mm4, %mm6 C am 2 movd %mm6, 4(%edx) C am 2 psrlq $32, %mm6 C am 2 movd %mm6, 8(%edx) C am 2 dec %ebx C am 2 jnz L(olp2) C am 2 L(oel2): emms C 2 pop %edi C 2 pop %ebx C 2 pop %esi C 2 ret C 2 L(3): movd (%eax), %mm0 C m 3 sub 24(%esp), %ecx C m 3 mov %ecx, 24(%esp) C update loop count for later m 3 pmuludq %mm7, %mm0 C m 3 movd 4(%eax), %mm1 C m 3 pmuludq %mm7, %mm1 C m 3 movd 8(%eax), %mm4 C m 3 jmp L(lpm3) C m 3 ALIGN(16) C m 3 L(lpm3): pmuludq %mm7, %mm4 C m 3 paddq %mm0, %mm6 C m 3 movd 12(%eax), %mm3 C m 3 movd %mm6, (%edx) C m 3 psrlq $32, %mm6 C m 3 pmuludq %mm7, %mm3 C m 3 paddq %mm1, %mm6 C m 3 movd 16(%eax), %mm0 C m 3 movd %mm6, 4(%edx) C m 3 psrlq $32, %mm6 C m 3 pmuludq %mm7, %mm0 C m 3 paddq %mm4, %mm6 C m 3 movd 20(%eax), %mm1 C m 3 movd %mm6, 8(%edx) C m 3 psrlq $32, %mm6 C m 3 pmuludq %mm7, %mm1 C m 3 paddq %mm3, %mm6 C m 3 movd 24(%eax), %mm4 C m 3 movd %mm6, 12(%edx) C m 3 psrlq $32, %mm6 C m 3 lea 16(%eax), %eax C m 3 lea 16(%edx), %edx C m 3 add $4, %ecx C m 3 ja L(lpm3) C m 3 pmuludq %mm7, %mm4 C m 3 paddq %mm0, %mm6 C m 3 movd %mm6, (%edx) C m 3 psrlq $32, %mm6 C m 3 paddq %mm1, %mm6 C m 3 mov 16(%esp), %edi C rp 3 jmp L(x3) L(olp3): lea 4(%edi), %edi C am 3 movd (%esi), %mm7 C am 3 lea 4(%esi), %esi C am 3 mov %edi, %edx C rp am 3 mov 20(%esp), %eax C up am 3 movd (%eax), %mm0 C am 3 mov 24(%esp), %ecx C inner loop count am 3 pxor %mm6, %mm6 C am 3 pmuludq %mm7, %mm0 C am 3 movd 4(%eax), %mm1 C am 3 movd (%edx), %mm4 C am 3 pmuludq %mm7, %mm1 C am 3 movd 8(%eax), %mm2 C am 3 paddq %mm0, %mm4 C am 3 movd 4(%edx), %mm5 C am 3 jmp L(lam3) C am 3 ALIGN(16) C am 3 L(lam3): pmuludq %mm7, %mm2 C am 3 paddq %mm4, %mm6 C am 3 movd 12(%eax), %mm3 C am 3 paddq %mm1, %mm5 C am 3 movd 8(%edx), %mm4 C am 3 movd %mm6, (%edx) C am 3 psrlq $32, %mm6 C am 3 pmuludq %mm7, %mm3 C am 3 paddq %mm5, %mm6 C am 3 movd 16(%eax), %mm0 C am 3 paddq %mm2, %mm4 C am 3 movd 12(%edx), %mm5 C am 3 movd %mm6, 4(%edx) C am 3 psrlq $32, %mm6 C am 3 pmuludq %mm7, %mm0 C am 3 paddq %mm4, %mm6 C am 3 movd 20(%eax), %mm1 C am 3 paddq %mm3, %mm5 C am 3 movd 16(%edx), %mm4 C am 3 movd %mm6, 8(%edx) C am 3 psrlq $32, %mm6 C am 3 pmuludq %mm7, %mm1 C am 3 paddq %mm5, %mm6 C am 3 movd 24(%eax), %mm2 C am 3 paddq %mm0, %mm4 C am 3 movd 20(%edx), %mm5 C am 3 movd %mm6, 12(%edx) C am 3 psrlq $32, %mm6 C am 3 lea 16(%eax), %eax C am 3 lea 16(%edx), %edx C am 3 add $4, %ecx C am 3 jnz L(lam3) C am 3 pmuludq %mm7, %mm2 C am 3 paddq %mm4, %mm6 C am 3 paddq %mm1, %mm5 C am 3 movd 8(%edx), %mm4 C am 3 movd %mm6, (%edx) C am 3 psrlq $32, %mm6 C am 3 paddq %mm5, %mm6 C am 3 paddq %mm2, %mm4 C am 3 L(x3): movd %mm6, 4(%edx) C am 3 psrlq $32, %mm6 C am 3 paddq %mm4, %mm6 C am 3 movd %mm6, 8(%edx) C am 3 psrlq $32, %mm6 C am 3 movd %mm6, 12(%edx) C am 3 dec %ebx C am 3 jnz L(olp3) C am 3 L(oel3): emms C 3 pop %edi C 3 pop %ebx C 3 pop %esi C 3 ret C 3 EPILOGUE()