📄 nb_kernel310_ia32_3dnow.s
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#### $Id: nb_kernel310_ia32_3dnow.s,v 1.1.2.2 2007/11/28 09:34:39 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##.globl nb_kernel310_ia32_3dnow.globl _nb_kernel310_ia32_3dnownb_kernel310_ia32_3dnow: _nb_kernel310_ia32_3dnow: .set nb310_p_nri, 8.set nb310_iinr, 12.set nb310_jindex, 16.set nb310_jjnr, 20.set nb310_shift, 24.set nb310_shiftvec, 28.set nb310_fshift, 32.set nb310_gid, 36.set nb310_pos, 40.set nb310_faction, 44.set nb310_charge, 48.set nb310_p_facel, 52.set nb310_p_krf, 56.set nb310_p_crf, 60.set nb310_Vc, 64.set nb310_type, 68.set nb310_p_ntype, 72.set nb310_vdwparam, 76.set nb310_Vvdw, 80.set nb310_p_tabscale, 84.set nb310_VFtab, 88.set nb310_invsqrta, 92.set nb310_dvda, 96.set nb310_p_gbtabscale, 100.set nb310_GBtab, 104.set nb310_p_nthreads, 108.set nb310_count, 112.set nb310_mtx, 116.set nb310_outeriter, 120.set nb310_inneriter, 124.set nb310_work, 128 ## stack offsets for local variables .set nb310_is3, 0.set nb310_ii3, 4.set nb310_ix, 8.set nb310_iy, 12.set nb310_iz, 16.set nb310_iq, 20.set nb310_vctot, 28.set nb310_Vvdwtot, 36.set nb310_c6, 44.set nb310_c12, 52.set nb310_six, 60.set nb310_twelve, 68.set nb310_two, 76.set nb310_n1, 84.set nb310_tsc, 92.set nb310_ntia, 100.set nb310_innerjjnr, 104.set nb310_innerk, 108.set nb310_fix, 112.set nb310_fiy, 116.set nb310_fiz, 120.set nb310_dx1, 124.set nb310_dy1, 128.set nb310_dz1, 132.set nb310_dx2, 136.set nb310_dy2, 140.set nb310_dz2, 144.set nb310_n, 148 ## idx for outer loop.set nb310_nn1, 152 ## number of outer iterations.set nb310_nri, 156.set nb310_facel, 160.set nb310_ntype, 164.set nb310_nouter, 168.set nb310_ninner, 172 pushl %ebp movl %esp,%ebp pushl %eax pushl %ebx pushl %ecx pushl %edx pushl %esi pushl %edi subl $176,%esp ## local stack space femms ## move data to local stack movl nb310_p_nri(%ebp),%ecx movl nb310_p_ntype(%ebp),%edx movl nb310_p_facel(%ebp),%esi movl nb310_p_tabscale(%ebp),%edi movl (%ecx),%ecx movl (%edx),%edx movl (%esi),%esi movl %ecx,nb310_nri(%esp) movl %edx,nb310_ntype(%esp) movl %esi,nb310_facel(%esp) movd (%edi),%mm3 punpckldq %mm3,%mm3 movq %mm3,nb310_tsc(%esp) movl $0x40000000,%eax ## 2.0 movl %eax,nb310_two(%esp) movl %eax,nb310_two+4(%esp) movl $0x40c00000,%ebx ## 6.0 movl %ebx,nb310_six(%esp) movl %ebx,nb310_six+4(%esp) movl $0x41400000,%ecx ## 12.0 movl %ecx,nb310_twelve(%esp) movl %ecx,nb310_twelve+4(%esp) ## zero iteration counters movl $0,%eax movl %eax,nb310_nouter(%esp) movl %eax,nb310_ninner(%esp)_nb_kernel310_ia32_3dnow.nb310_threadloop: movl nb310_count(%ebp),%esi ## pointer to sync counter movl (%esi),%eax_nb_kernel310_ia32_3dnow.nb310_spinlock: movl %eax,%ebx ## ebx=*count=nn0 addl $1,%ebx ## ebx=nn1=nn0+10 lock cmpxchgl %ebx,(%esi) ## write nn1 to *counter, ## if it hasnt changed. ## or reread *counter to eax. pause ## -> better p4 performance jnz _nb_kernel310_ia32_3dnow.nb310_spinlock ## if(nn1>nri) nn1=nri movl nb310_nri(%esp),%ecx movl %ecx,%edx subl %ebx,%ecx cmovlel %edx,%ebx ## if(nn1>nri) nn1=nri ## Cleared the spinlock if we got here. ## eax contains nn0, ebx contains nn1. movl %eax,nb310_n(%esp) movl %ebx,nb310_nn1(%esp) subl %eax,%ebx ## calc number of outer lists movl %eax,%esi ## copy n to esi jg _nb_kernel310_ia32_3dnow.nb310_outerstart jmp _nb_kernel310_ia32_3dnow.nb310_end_nb_kernel310_ia32_3dnow.nb310_outerstart: ## ebx contains number of outer iterations addl nb310_nouter(%esp),%ebx movl %ebx,nb310_nouter(%esp)_nb_kernel310_ia32_3dnow.nb310_outer: movl nb310_shift(%ebp),%eax ## eax = pointer into shift[] movl (%eax,%esi,4),%ebx ## ebx=shift[n] leal (%ebx,%ebx,2),%ebx ## ebx=3*is movl %ebx,nb310_is3(%esp) ## store is3 movl nb310_shiftvec(%ebp),%eax ## eax = base of shiftvec[] movq (%eax,%ebx,4),%mm0 ## move shX/shY to mm0 and shZ to mm1 movd 8(%eax,%ebx,4),%mm1 movl nb310_iinr(%ebp),%ecx ## ecx = pointer into iinr[] movl (%ecx,%esi,4),%ebx ## ebx=ii movl nb310_charge(%ebp),%edx movd (%edx,%ebx,4),%mm2 ## mm2=charge[ii] pfmul nb310_facel(%esp),%mm2 punpckldq %mm2,%mm2 ## spread to both halves movq %mm2,nb310_iq(%esp) ## iq =facel*charge[ii] movl nb310_type(%ebp),%edx movl (%edx,%ebx,4),%edx imull nb310_ntype(%esp),%edx shll %edx movl %edx,nb310_ntia(%esp) leal (%ebx,%ebx,2),%ebx ## ebx = 3*ii=ii3 movl nb310_pos(%ebp),%eax ## eax = base of pos[] pfadd (%eax,%ebx,4),%mm0 ## ix = shX + posX (and iy too) movd 8(%eax,%ebx,4),%mm3 ## cant use direct memory add for 4 bytes (iz) movl %ebx,nb310_ii3(%esp) pfadd %mm3,%mm1 movq %mm0,nb310_ix(%esp) movd %mm1,nb310_iz(%esp) ## clear total potential and i forces pxor %mm7,%mm7 movq %mm7,nb310_vctot(%esp) movq %mm7,nb310_Vvdwtot(%esp) movq %mm7,nb310_fix(%esp) movd %mm7,nb310_fiz(%esp) movl nb310_jindex(%ebp),%eax movl (%eax,%esi,4),%ecx ## jindex[n] movl 4(%eax,%esi,4),%edx ## jindex[n+1] subl %ecx,%edx ## number of innerloop atoms movl nb310_pos(%ebp),%esi movl nb310_faction(%ebp),%edi movl nb310_jjnr(%ebp),%eax shll $2,%ecx addl %ecx,%eax movl %eax,nb310_innerjjnr(%esp) ## pointer to jjnr[nj0] movl %edx,%ecx subl $2,%edx addl nb310_ninner(%esp),%ecx movl %ecx,nb310_ninner(%esp) movl %edx,nb310_innerk(%esp) ## number of innerloop atoms addl $0,%edx jge _nb_kernel310_ia32_3dnow.nb310_unroll_loop jmp _nb_kernel310_ia32_3dnow.nb310_finish_inner_nb_kernel310_ia32_3dnow.nb310_unroll_loop: ## paired innerloop starts here movl nb310_innerjjnr(%esp),%ecx ## pointer to jjnr[k] movl (%ecx),%eax movl 4(%ecx),%ebx ## eax/ebx=jnr addl $8,nb310_innerjjnr(%esp) ## advance pointer (unrolled 2) prefetch 16(%ecx) ## prefetch data - trial and error says 16 is best movl nb310_charge(%ebp),%ecx ## base of charge[] movq nb310_iq(%esp),%mm5 movd (%ecx,%eax,4),%mm3 ## charge[jnr1] punpckldq (%ecx,%ebx,4),%mm3 ## move charge 2 to high part of mm3 pfmul %mm5,%mm3 ## mm3 now has qq for both particles movl nb310_type(%ebp),%ecx movl (%ecx,%eax,4),%edx ## type [jnr1] movl (%ecx,%ebx,4),%ecx ## type [jnr2] movl nb310_vdwparam(%ebp),%esi ## base of vdwparam shll %edx shll %ecx addl nb310_ntia(%esp),%edx ## tja = ntia + 2*type addl nb310_ntia(%esp),%ecx movq (%esi,%edx,4),%mm5 ## mm5 = 1st c6 / c12 movq (%esi,%ecx,4),%mm7 ## mm7 = 2nd c6 / c12 movq %mm5,%mm6 punpckldq %mm7,%mm5 ## mm5 = 1st c6 / 2nd c6 punpckhdq %mm7,%mm6 ## mm6 = 1st c12 / 2nd c12 movq %mm5,nb310_c6(%esp) movq %mm6,nb310_c12(%esp) leal (%eax,%eax,2),%eax ## replace jnr with j3 leal (%ebx,%ebx,2),%ebx movl nb310_pos(%ebp),%esi movq nb310_ix(%esp),%mm0 movd nb310_iz(%esp),%mm1 movq (%esi,%eax,4),%mm4 ## fetch first j coordinates movd 8(%esi,%eax,4),%mm5 pfsubr %mm0,%mm4 ## dr = ir - jr pfsubr %mm1,%mm5 movq %mm4,nb310_dx1(%esp) ## store dr movd %mm5,nb310_dz1(%esp) pfmul %mm4,%mm4 ## square dx,dy,dz pfmul %mm5,%mm5 pfacc %mm5,%mm4 ## accumulate to get dx*dx+ dy*dy+ dz*dz pfacc %mm5,%mm4 ## first rsq in lower mm4 movq (%esi,%ebx,4),%mm6 ## fetch second j coordinates movd 8(%esi,%ebx,4),%mm7 pfsubr %mm0,%mm6 ## dr = ir - jr pfsubr %mm1,%mm7 movq %mm6,nb310_dx2(%esp) ## store dr movd %mm7,nb310_dz2(%esp) pfmul %mm6,%mm6 ## square dx,dy,dz pfmul %mm7,%mm7 pfacc %mm7,%mm6 ## accumulate to get dx*dx+ dy*dy+ dz*dz pfacc %mm7,%mm6 ## second rsq in lower mm6 pfrsqrt %mm4,%mm0 ## lookup inverse square root seed pfrsqrt %mm6,%mm1 punpckldq %mm1,%mm0 punpckldq %mm6,%mm4 ## now 4 has rsq and 0 the seed for both pairs. movq %mm0,%mm2 ## amd 3dnow N-R iteration to get full precision. pfmul %mm0,%mm0 pfrsqit1 %mm4,%mm0 pfrcpit2 %mm2,%mm0 pfmul %mm0,%mm4 movq %mm4,%mm1 ## mm0 is invsqrt, and mm1 r. ## do potential and fscal pfmul nb310_tsc(%esp),%mm1 ## mm1=rt pf2iw %mm1,%mm4 movq %mm4,nb310_n1(%esp) pi2fd %mm4,%mm4 pfsub %mm4,%mm1 ## now mm1 is eps and mm4 is n0 movq %mm1,%mm2 pfmul %mm2,%mm2 ## mm1 is eps, mm2 is eps2 movl nb310_VFtab(%ebp),%edx movl nb310_n1(%esp),%ecx shll $2,%ecx ## coulomb table ## load all the table values we need movd (%edx,%ecx,4),%mm4 movd 4(%edx,%ecx,4),%mm5 movd 8(%edx,%ecx,4),%mm6 movd 12(%edx,%ecx,4),%mm7 movl nb310_n1+4(%esp),%ecx shll $2,%ecx punpckldq (%edx,%ecx,4),%mm4 punpckldq 4(%edx,%ecx,4),%mm5 punpckldq 8(%edx,%ecx,4),%mm6 punpckldq 12(%edx,%ecx,4),%mm7 pfmul %mm1,%mm6 ## mm6 = Geps pfmul %mm2,%mm7 ## mm7 = Heps2 pfadd %mm6,%mm5 pfadd %mm7,%mm5 ## mm5 = Fp pfmul nb310_two(%esp),%mm7 ## two*Heps2 pfadd %mm6,%mm7 pfadd %mm5,%mm7 ## mm7=FF pfmul %mm1,%mm5 ## mm5=eps*Fp pfadd %mm4,%mm5 ## mm5= VV pfmul %mm3,%mm5 ## vcoul=qq*VV pfmul %mm7,%mm3 ## fijC=FF*qq movq %mm0,%mm1 pfmul %mm1,%mm1 ## mm1=invsq movq %mm1,%mm2 pfmul %mm1,%mm2 pfmul %mm1,%mm2 ## mm2=rinvsix movq %mm2,%mm1 pfmul %mm1,%mm1 ## mm1=rinvtwelve pfmul nb310_tsc(%esp),%mm3 pfmul nb310_c12(%esp),%mm1 pfmul nb310_c6(%esp),%mm2 movq %mm1,%mm4 pfsub %mm2,%mm4 ## mm4 = Vvdw12-Vvdw6 pfmul nb310_six(%esp),%mm2 pfmul nb310_twelve(%esp),%mm1 pfsub %mm2,%mm1 pfmul %mm0,%mm1 ## mm1= (12*Vvdw12-6*Vvdw6)*rinv11 pfsub %mm3,%mm1 ## update vctot pfadd nb310_vctot(%esp),%mm5 ## add the earlier value movq %mm5,nb310_vctot(%esp) ## store the sum pfmul %mm1,%mm0 ## mm0 is total fscal now prefetchw nb310_dx1(%esp) ## prefetch i forces to cache ## spread fscalar to both positions movq %mm0,%mm1 punpckldq %mm0,%mm0 punpckhdq %mm1,%mm1 ## calc vector force ⌨️ 快捷键说明
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