nb_kernel200_ia32_sse2.intel_syntax.s

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;#;# $Id: nb_kernel200_ia32_sse2.intel_syntax.s,v 1.1.2.2 2007/11/28 18:35:34 spoel Exp $;#;# Gromacs 4.0                         Copyright (c) 1991-2003 ;# David van der Spoel, Erik Lindahl;#;# This program is free software; you can redistribute it and/or;# modify it under the terms of the GNU General Public License;# as published by the Free Software Foundation; either version 2;# of the License, or (at your option) any later version.;#;# To help us fund GROMACS development, we humbly ask that you cite;# the research papers on the package. Check out http://www.gromacs.org;# ;# And Hey:;# Gnomes, ROck Monsters And Chili Sauce;#;# These files require GNU binutils 2.10 or later, since we;# use intel syntax for portability, or a recent version ;# of NASM that understands Extended 3DNow and SSE2 instructions.;# (NASM is normally only used with MS Visual C++).;# Since NASM and gnu as disagree on some definitions and use ;# completely different preprocessing options I have to introduce a;# trick: NASM uses ';' for comments, while gnu as uses '#' on x86.;# Gnu as treats ';' as a line break, i.e. ignores it. This is the;# reason why all comments need both symbols...;# The source is written for GNU as, with intel syntax. When you use;# NASM we redefine a couple of things. The false if-statement around ;# the following code is seen by GNU as, but NASM doesn't see it, so ;# the code inside is read by NASM but not gcc.; .if 0    # block below only read by NASM%define .section	section%define .long		dd%define .align		align%define .globl		global;# NASM only wants 'dword', not 'dword ptr'.%define ptr.equiv          .equiv                  2   %1 equ %2%endmacro; .endif                   # End of NASM-specific block; .intel_syntax noprefix   # Line only read by gnu as.globl nb_kernel200_ia32_sse2.globl _nb_kernel200_ia32_sse2nb_kernel200_ia32_sse2:	_nb_kernel200_ia32_sse2:	.equiv          nb200_p_nri,            8.equiv          nb200_iinr,             12.equiv          nb200_jindex,           16.equiv          nb200_jjnr,             20.equiv          nb200_shift,            24.equiv          nb200_shiftvec,         28.equiv          nb200_fshift,           32.equiv          nb200_gid,              36.equiv          nb200_pos,              40.equiv          nb200_faction,          44.equiv          nb200_charge,           48.equiv          nb200_p_facel,          52.equiv          nb200_argkrf,           56.equiv          nb200_argcrf,           60.equiv          nb200_Vc,               64.equiv          nb200_type,             68.equiv          nb200_p_ntype,          72.equiv          nb200_vdwparam,         76.equiv          nb200_Vvdw,             80.equiv          nb200_p_tabscale,       84.equiv          nb200_VFtab,            88.equiv          nb200_invsqrta,         92.equiv          nb200_dvda,             96.equiv          nb200_p_gbtabscale,     100.equiv          nb200_GBtab,            104.equiv          nb200_p_nthreads,       108.equiv          nb200_count,            112.equiv          nb200_mtx,              116.equiv          nb200_outeriter,        120.equiv          nb200_inneriter,        124.equiv          nb200_work,             128	;# stack offsets for local variables  	;# bottom of stack is cache-aligned for sse2 use .equiv          nb200_ix,               0.equiv          nb200_iy,               16.equiv          nb200_iz,               32.equiv          nb200_iq,               48.equiv          nb200_dx,               64.equiv          nb200_dy,               80.equiv          nb200_dz,               96.equiv          nb200_vctot,            112.equiv          nb200_fix,              128.equiv          nb200_fiy,              144.equiv          nb200_fiz,              160.equiv          nb200_half,             176.equiv          nb200_three,            192.equiv          nb200_two,              208.equiv          nb200_krf,              224.equiv          nb200_crf,              240.equiv          nb200_facel,            256 ;# uses 8 bytes.equiv          nb200_is3,              264.equiv          nb200_ii3,              268.equiv          nb200_innerjjnr,        272.equiv          nb200_innerk,           276.equiv          nb200_n,                280.equiv          nb200_nn1,              284.equiv          nb200_nri,              288.equiv          nb200_nouter,           292.equiv          nb200_ninner,           296.equiv          nb200_salign,           300	push ebp	mov ebp,esp	    	push eax    	push ebx    	push ecx    	push edx	push esi	push edi	sub esp,  304		;# local stack space 	mov  eax, esp	and  eax, 0xf	sub esp, eax	mov [esp + nb200_salign], eax	emms	;# Move args passed by reference to stack	mov ecx, [ebp + nb200_p_nri]	mov esi, [ebp + nb200_p_facel]	mov ecx, [ecx]	movsd xmm7, [esi]	mov [esp + nb200_nri], ecx	movsd [esp + nb200_facel], xmm7	;# zero iteration counters	mov eax, 0	mov [esp + nb200_nouter], eax	mov [esp + nb200_ninner], eax	;# create constant floating-point factors on stack	mov eax, 0x00000000     ;# lower half of double 0.5 IEEE (hex)	mov ebx, 0x3fe00000	mov [esp + nb200_half], eax	mov [esp + nb200_half+4], ebx	movsd xmm1, [esp + nb200_half]	shufpd xmm1, xmm1, 0    ;# splat to all elements	movapd xmm3, xmm1	addpd  xmm3, xmm3       ;# 1.0	movapd xmm2, xmm3	addpd  xmm2, xmm2       ;# 2.0	addpd  xmm3, xmm2	;# 3.0	movapd [esp + nb200_half], xmm1	movapd [esp + nb200_two], xmm2	movapd [esp + nb200_three], xmm3	mov esi, [ebp + nb200_argkrf]	mov edi, [ebp + nb200_argcrf]	movsd xmm5, [esi]	movsd xmm6, [edi]	shufpd xmm5, xmm5, 0	movapd [esp + nb200_krf], xmm5	shufpd xmm6, xmm6, 0	movapd [esp + nb200_crf], xmm6.nb200_threadloop:        mov   esi, [ebp + nb200_count]          ;# pointer to sync counter        mov   eax, [esi].nb200_spinlock:        mov   ebx, eax                          ;# ebx=*count=nn0        add   ebx, 1                           ;# ebx=nn1=nn0+10        lock        cmpxchg [esi], ebx                      ;# write nn1 to *counter,                                                ;# if it hasnt changed.                                                ;# or reread *counter to eax.        pause                                   ;# -> better p4 performance        jnz .nb200_spinlock        ;# if(nn1>nri) nn1=nri        mov ecx, [esp + nb200_nri]        mov edx, ecx        sub ecx, ebx        cmovle ebx, edx                         ;# if(nn1>nri) nn1=nri        ;# Cleared the spinlock if we got here.        ;# eax contains nn0, ebx contains nn1.        mov [esp + nb200_n], eax        mov [esp + nb200_nn1], ebx        sub ebx, eax                            ;# calc number of outer lists	mov esi, eax				;# copy n to esi        jg  .nb200_outerstart        jmp .nb200_end.nb200_outerstart:	;# ebx contains number of outer iterations	add ebx, [esp + nb200_nouter]	mov [esp + nb200_nouter], ebx.nb200_outer:	mov   eax, [ebp + nb200_shift]      ;# eax = pointer into shift[] 	mov   ebx, [eax + esi*4]		;# ebx=shift[n] 		lea   ebx, [ebx + ebx*2]    ;# ebx=3*is 	mov   [esp + nb200_is3],ebx    	;# store is3 	mov   eax, [ebp + nb200_shiftvec]   ;# eax = base of shiftvec[] 	movsd xmm0, [eax + ebx*8]	movsd xmm1, [eax + ebx*8 + 8]	movsd xmm2, [eax + ebx*8 + 16] 	mov   ecx, [ebp + nb200_iinr]       ;# ecx = pointer into iinr[] 		mov   ebx, [ecx+esi*4]	    ;# ebx =ii 	mov   edx, [ebp + nb200_charge]	movsd xmm3, [edx + ebx*8]		mulsd xmm3, [esp + nb200_facel]	shufpd xmm3, xmm3, 0			lea   ebx, [ebx + ebx*2]	;# ebx = 3*ii=ii3 	mov   eax, [ebp + nb200_pos]    ;# eax = base of pos[]  	addsd xmm0, [eax + ebx*8]	addsd xmm1, [eax + ebx*8 + 8]	addsd xmm2, [eax + ebx*8 + 16]	movapd [esp + nb200_iq], xmm3		shufpd xmm0, xmm0, 0	shufpd xmm1, xmm1, 0	shufpd xmm2, xmm2, 0	movapd [esp + nb200_ix], xmm0	movapd [esp + nb200_iy], xmm1	movapd [esp + nb200_iz], xmm2	mov   [esp + nb200_ii3], ebx		;# clear vctot and i forces 	xorpd xmm4, xmm4	movapd [esp + nb200_vctot], xmm4	movapd [esp + nb200_fix], xmm4	movapd [esp + nb200_fiy], xmm4	movapd [esp + nb200_fiz], xmm4		mov   eax, [ebp + nb200_jindex]	mov   ecx, [eax + esi*4]	     ;# jindex[n] 	mov   edx, [eax + esi*4 + 4]	     ;# jindex[n+1] 	sub   edx, ecx               ;# number of innerloop atoms 	mov   esi, [ebp + nb200_pos]	mov   edi, [ebp + nb200_faction]		mov   eax, [ebp + nb200_jjnr]	shl   ecx, 2	add   eax, ecx	mov   [esp + nb200_innerjjnr], eax     ;# pointer to jjnr[nj0] 	mov   ecx, edx	sub   edx,  2	add   ecx, [esp + nb200_ninner]	mov   [esp + nb200_ninner], ecx	add   edx, 0	mov   [esp + nb200_innerk], edx    ;# number of innerloop atoms 	jge   .nb200_unroll_loop	jmp   .nb200_checksingle.nb200_unroll_loop:	;# twice unrolled innerloop here 	mov   edx, [esp + nb200_innerjjnr]     ;# pointer to jjnr[k] 	mov   eax, [edx]		mov   ebx, [edx + 4]              	add dword ptr [esp + nb200_innerjjnr],  8	;# advance pointer (unrolled 2) 	mov esi, [ebp + nb200_charge]    ;# base of charge[] 		movlpd xmm3, [esi + eax*8]	movhpd xmm3, [esi + ebx*8]	movapd xmm5, [esp + nb200_iq]	mulpd xmm3, xmm5		;# qq 	lea   eax, [eax + eax*2]     ;# replace jnr with j3 	lea   ebx, [ebx + ebx*2]		mov esi, [ebp + nb200_pos]       ;# base of pos[] 	;# move two coordinates to xmm0-xmm2 		movlpd xmm0, [esi + eax*8]	movlpd xmm1, [esi + eax*8 + 8]	movlpd xmm2, [esi + eax*8 + 16]	movhpd xmm0, [esi + ebx*8]	movhpd xmm1, [esi + ebx*8 + 8]	movhpd xmm2, [esi + ebx*8 + 16]				;# move ix-iz to xmm4-xmm6 	movapd xmm4, [esp + nb200_ix]	movapd xmm5, [esp + nb200_iy]	movapd xmm6, [esp + nb200_iz]	;# calc dr 	subpd xmm4, xmm0	subpd xmm5, xmm1	subpd xmm6, xmm2	;# store dr 	movapd [esp + nb200_dx], xmm4	movapd [esp + nb200_dy], xmm5	movapd [esp + nb200_dz], xmm6	;# square it 	mulpd xmm4,xmm4	mulpd xmm5,xmm5	mulpd xmm6,xmm6	addpd xmm4, xmm5	addpd xmm4, xmm6	;# rsq in xmm4 	cvtpd2ps xmm5, xmm4		rsqrtps xmm5, xmm5	cvtps2pd xmm2, xmm5	;# lu in low xmm2 	movapd xmm7, [esp + nb200_krf]		;# lookup seed in xmm2 	movapd xmm5, xmm2	;# copy of lu 	mulpd xmm2, xmm2	;# lu*lu 	movapd xmm1, [esp + nb200_three]	mulpd xmm7, xmm4	;# krsq 	mulpd xmm2, xmm4	;# rsq*lu*lu 				movapd xmm0, [esp + nb200_half]	subpd xmm1, xmm2	;# 30-rsq*lu*lu 	mulpd xmm1, xmm5		mulpd xmm1, xmm0	;# xmm0=iter1 of rinv (new lu) 	movapd xmm5, xmm1	;# copy of lu 	mulpd xmm1, xmm1	;# lu*lu 	movapd xmm2, [esp + nb200_three]	mulpd xmm1, xmm4	;# rsq*lu*lu 				movapd xmm0, [esp + nb200_half]	subpd xmm2, xmm1	;# 30-rsq*lu*lu 	mulpd xmm2, xmm5		mulpd xmm0, xmm2	;# xmm0=rinv 	movapd xmm4, xmm0	mulpd  xmm4, xmm4	;# xmm4=rinvsq 	movapd xmm6, xmm0	addpd  xmm6, xmm7	;# xmm6=rinv+ krsq 	movapd xmm1, xmm4	subpd  xmm6, [esp + nb200_crf]	mulpd  xmm6, xmm3	;# xmm6=vcoul=qq*(rinv+ krsq) 		mulpd  xmm7, [esp + nb200_two]	subpd  xmm0, xmm7	mulpd  xmm3, xmm0		mulpd  xmm4, xmm3	;# xmm4=total fscal 	addpd  xmm6, [esp + nb200_vctot]	movapd xmm0, [esp + nb200_dx]	movapd xmm1, [esp + nb200_dy]	movapd xmm2, [esp + nb200_dz]	movapd [esp + nb200_vctot], xmm6	mov    edi, [ebp + nb200_faction]	mulpd  xmm0, xmm4	mulpd  xmm1, xmm4	mulpd  xmm2, xmm4	;# xmm0-xmm2 contains tx-tz (partial force) 	;# now update f_i 	movapd xmm3, [esp + nb200_fix]	movapd xmm4, [esp + nb200_fiy]	movapd xmm5, [esp + nb200_fiz]	addpd  xmm3, xmm0	addpd  xmm4, xmm1	addpd  xmm5, xmm2	movapd [esp + nb200_fix], xmm3	movapd [esp + nb200_fiy], xmm4	movapd [esp + nb200_fiz], xmm5	;# the fj's - start by accumulating forces from memory 	movlpd xmm3, [edi + eax*8]	movlpd xmm4, [edi + eax*8 + 8]	movlpd xmm5, [edi + eax*8 + 16]	movhpd xmm3, [edi + ebx*8]	movhpd xmm4, [edi + ebx*8 + 8]	movhpd xmm5, [edi + ebx*8 + 16]	subpd xmm3, xmm0	subpd xmm4, xmm1	subpd xmm5, xmm2	movlpd [edi + eax*8], xmm3	movlpd [edi + eax*8 + 8], xmm4	movlpd [edi + eax*8 + 16], xmm5	movhpd [edi + ebx*8], xmm3	movhpd [edi + ebx*8 + 8], xmm4	movhpd [edi + ebx*8 + 16], xmm5		;# should we do one more iteration? 	sub dword ptr [esp + nb200_innerk],  2	jl    .nb200_checksingle	jmp   .nb200_unroll_loop.nb200_checksingle:					mov   edx, [esp + nb200_innerk]	and   edx, 1	jnz    .nb200_dosingle	jmp    .nb200_updateouterdata.nb200_dosingle:				mov esi, [ebp + nb200_charge]	mov edi, [ebp + nb200_pos]	mov   ecx, [esp + nb200_innerjjnr]		xorpd xmm3, xmm3	mov   eax, [ecx]	movlpd xmm3, [esi + eax*8]	movapd xmm5, [esp + nb200_iq]	mulpd xmm3, xmm5		;# qq 		mov esi, [ebp + nb200_pos]       ;# base of pos[] 	lea eax, [eax + eax*2]     ;# replace jnr with j3 	;# move two coordinates to xmm0-xmm2 		movlpd xmm0, [esi + eax*8]	movlpd xmm1, [esi + eax*8 + 8]	movlpd xmm2, [esi + eax*8 + 16]		;# move ix-iz to xmm4-xmm6 	movapd xmm4, [esp + nb200_ix]	movapd xmm5, [esp + nb200_iy]	movapd xmm6, [esp + nb200_iz]	;# calc dr 	subsd xmm4, xmm0	subsd xmm5, xmm1	subsd xmm6, xmm2	;# store dr 	movapd [esp + nb200_dx], xmm4	movapd [esp + nb200_dy], xmm5	movapd [esp + nb200_dz], xmm6	;# square it 	mulsd xmm4,xmm4	mulsd xmm5,xmm5	mulsd xmm6,xmm6	addsd xmm4, xmm5	addsd xmm4, xmm6	;# rsq in xmm4 	cvtsd2ss xmm5, xmm4		rsqrtss xmm5, xmm5	cvtss2sd xmm2, xmm5	;# lu in low xmm2 	movapd xmm7, [esp + nb200_krf]		;# lookup seed in xmm2 	movapd xmm5, xmm2	;# copy of lu 	mulsd xmm2, xmm2	;# lu*lu 	movapd xmm1, [esp + nb200_three]	mulsd xmm7, xmm4	;# krsq 	mulsd xmm2, xmm4	;# rsq*lu*lu 				movapd xmm0, [esp + nb200_half]	subsd xmm1, xmm2	;# 30-rsq*lu*lu 	mulsd xmm1, xmm5		mulsd xmm1, xmm0	;# xmm0=iter1 of rinv (new lu) 	movapd xmm5, xmm1	;# copy of lu 	mulsd xmm1, xmm1	;# lu*lu 	movapd xmm2, [esp + nb200_three]	mulsd xmm1, xmm4	;# rsq*lu*lu 				movapd xmm0, [esp + nb200_half]	subsd xmm2, xmm1	;# 30-rsq*lu*lu 	mulsd xmm2, xmm5		mulsd xmm0, xmm2	;# xmm0=rinv 	movapd xmm4, xmm0	mulsd  xmm4, xmm4	;# xmm4=rinvsq 	movapd xmm6, xmm0	addsd  xmm6, xmm7	;# xmm6=rinv+ krsq 	movapd xmm1, xmm4	subsd  xmm6, [esp + nb200_crf]	mulsd  xmm1, xmm4	mulsd  xmm1, xmm4	;# xmm1=rinvsix 	movapd xmm2, xmm1	mulsd  xmm2, xmm2	;# xmm2=rinvtwelve 	mulsd  xmm6, xmm3	;# xmm6=vcoul=qq*(rinv+ krsq) 	mulsd  xmm7, [esp + nb200_two]	subsd  xmm0, xmm7	mulsd  xmm3, xmm0	mulsd  xmm4, xmm3	;# xmm4=total fscal 	addsd  xmm6, [esp + nb200_vctot]	movlpd xmm0, [esp + nb200_dx]	movlpd xmm1, [esp + nb200_dy]	movlpd xmm2, [esp + nb200_dz]	movlpd [esp + nb200_vctot], xmm6	mov    edi, [ebp + nb200_faction]	mulsd  xmm0, xmm4	mulsd  xmm1, xmm4	mulsd  xmm2, xmm4	;# xmm0-xmm2 contains tx-tz (partial force) 	;# now update f_i 	movlpd xmm3, [esp + nb200_fix]	movlpd xmm4, [esp + nb200_fiy]	movlpd xmm5, [esp + nb200_fiz]	addsd  xmm3, xmm0	addsd  xmm4, xmm1	addsd  xmm5, xmm2	movlpd [esp + nb200_fix], xmm3	movlpd [esp + nb200_fiy], xmm4	movlpd [esp + nb200_fiz], xmm5	;# the fj's - start by accumulating forces from memory 	movlpd xmm3, [edi + eax*8]	movlpd xmm4, [edi + eax*8 + 8]	movlpd xmm5, [edi + eax*8 + 16]	subsd xmm3, xmm0	subsd xmm4, xmm1	subsd xmm5, xmm2	movlpd [edi + eax*8], xmm3	movlpd [edi + eax*8 + 8], xmm4	movlpd [edi + eax*8 + 16], xmm5.nb200_updateouterdata:	mov   ecx, [esp + nb200_ii3]	mov   edi, [ebp + nb200_faction]	mov   esi, [ebp + nb200_fshift]	mov   edx, [esp + nb200_is3]	;# accumulate i forces in xmm0, xmm1, xmm2 

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