nb_kernel030_ia32_3dnow.intel_syntax.s

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	mov [esp + nb030nf_ninner], eax.nb030nf_threadloop:        mov   esi, [ebp + nb030nf_count]          ;# pointer to sync counter        mov   eax, [esi].nb030nf_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 .nb030nf_spinlock        ;# if(nn1>nri) nn1=nri        mov ecx, [esp + nb030nf_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 + nb030nf_n], eax        mov [esp + nb030nf_nn1], ebx        sub ebx, eax                            ;# calc number of outer lists	mov esi, eax				;# copy n to esi        jg  .nb030nf_outerstart        jmp .nb030nf_end.nb030nf_outerstart:		;# ebx contains number of outer iterations	add ebx, [esp + nb030nf_nouter]        mov [esp + nb030nf_nouter], ebx	.nb030nf_outer:	mov   eax, [ebp + nb030nf_shift]      ;# eax = pointer into shift[] 	mov   ebx, [eax + esi*4]		;# ebx=shift[n] 		lea   ebx, [ebx + ebx*2]    ;# ebx=3*is 	mov   [esp + nb030nf_is3],ebx    	;# store is3 	mov   eax, [ebp + nb030nf_shiftvec]   ;# eax = base of shiftvec[] 		movq  mm0, [eax + ebx*4]	;# move shX/shY to mm0 and shZ to mm1 	movd  mm1, [eax + ebx*4 + 8]	mov   ecx, [ebp + nb030nf_iinr]       ;# ecx = pointer into iinr[] 		mov   ebx, [ecx + esi*4]	    ;# ebx=ii 	mov   edx, [ebp + nb030nf_type] 		mov   edx, [edx + ebx*4]		imul  edx, [esp + nb030nf_ntype]	shl   edx, 1	mov   [esp + nb030nf_ntia], edx	lea   ebx, [ebx + ebx*2]	;# ebx = 3*ii=ii3 	mov   eax, [ebp + nb030nf_pos]    ;# eax = base of pos[] 		pfadd mm0, [eax + ebx*4]    ;# ix = shX + posX (and iy too) 	movd  mm3, [eax + ebx*4 + 8]    ;# cant use direct memory add for 4 bytes (iz) 	mov   [esp + nb030nf_ii3], ebx	pfadd mm1, mm3	movq  [esp + nb030nf_ix], mm0		movd  [esp + nb030nf_iz], mm1						;# clear total potential 	pxor  mm7,mm7	movq  [esp + nb030nf_Vvdwtot], mm7	mov   eax, [ebp + nb030nf_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 + nb030nf_pos]	mov   eax, [ebp + nb030nf_jjnr]	shl   ecx, 2	add   eax, ecx	mov   [esp + nb030nf_innerjjnr], eax     ;# pointer to jjnr[nj0] 	mov   ecx, edx	sub   edx,  2	add   ecx, [esp + nb030nf_ninner]	mov   [esp + nb030nf_ninner], ecx	mov   [esp + nb030nf_innerk], edx    ;# number of innerloop atoms 	add   edx, 0	jge   .nb030nf_unroll_loop	jmp   .nb030nf_finish_inner.nb030nf_unroll_loop:	;# paired innerloop starts here 	mov   ecx, [esp + nb030nf_innerjjnr]     ;# pointer to jjnr[k] 	mov   eax, [ecx]		mov   ebx, [ecx + 4]         ;# eax/ebx=jnr 	add dword ptr [esp + nb030nf_innerjjnr],  8 ;# advance pointer (unrolled 2) 	prefetch [ecx + 16]	     ;# prefetch data - trial and error says 16 is best  		mov ecx, [ebp + nb030nf_type]	mov edx, [ecx + eax*4]        	 ;# type [jnr1] 	mov ecx, [ecx + ebx*4]       ;# type [jnr2] 	mov esi, [ebp + nb030nf_vdwparam]		;# base of vdwparam  	shl edx, 1	shl ecx, 1	add edx, [esp + nb030nf_ntia]	     ;# tja = ntia + 2*type  	add ecx, [esp + nb030nf_ntia]	movq mm5, [esi + edx*4]		;# mm5 = 1st c6 / c12 			movq mm7, [esi + ecx*4]		;# mm7 = 2nd c6 / c12 		movq mm6,mm5				punpckldq mm5,mm7		;# mm5 = 1st c6 / 2nd c6 	punpckhdq mm6,mm7		;# mm6 = 1st c12 / 2nd c12 	movq [esp + nb030nf_c6], mm5	movq [esp + nb030nf_c12], mm6	lea   eax, [eax + eax*2]     ;# replace jnr with j3 	lea   ebx, [ebx + ebx*2]			mov   esi, [ebp + nb030nf_pos]	movq  mm0, [esp + nb030nf_ix]	movd  mm1, [esp + nb030nf_iz]	 		movq  mm4, [esi + eax*4]     ;# fetch first j coordinates 	movd  mm5, [esi + eax*4 + 8]			pfsubr mm4,mm0		     ;# dr = ir - jr  	pfsubr mm5,mm1	pfmul mm4,mm4	             ;# square dx,dy,dz 		         	pfmul mm5,mm5			pfacc mm4, mm5               ;# accumulate to get dx*dx+ dy*dy+ dz*dz 	pfacc mm4, mm5		     ;# first rsq in lower mm4 	movq  mm6, [esi + ebx*4]     ;# fetch second j coordinates  	movd  mm7, [esi + ebx*4 + 8]		pfsubr mm6,mm0	             ;# dr = ir - jr  	pfsubr mm7,mm1	pfmul mm6,mm6	             ;# square dx,dy,dz 	pfmul mm7,mm7	pfacc mm6, mm7		     ;# accumulate to get dx*dx+ dy*dy+ dz*dz 	pfacc mm6, mm7	             ;# second rsq in lower mm6     pfrsqrt mm0, mm4	     ;# lookup inverse square root seed     pfrsqrt mm1, mm6 	punpckldq mm0,mm1	punpckldq mm4,mm6        	;# now 4 has rsq and 0 the seed for both pairs     movq mm2,mm0	        	;# amd 3dnow N-R iteration to get full precision 	pfmul mm0,mm0    pfrsqit1 mm0,mm4				    pfrcpit2 mm0,mm2		pfmul mm4, mm0	movq mm1, mm4	;# mm0 is invsqrt, and mm1 r 	;# do potential and fscal 	pfmul mm1, [esp + nb030nf_tsc]	;# mm1=rt 	pf2iw mm4,mm1	movq [esp + nb030nf_n1], mm4	pi2fd mm4,mm4	pfsub mm1, mm4               ;# now mm1 is eps and mm4 is n0 		movq mm2,mm1	pfmul mm2,mm2	;# mm1 is eps, mm2 is eps2 		mov edx, [ebp + nb030nf_VFtab]	;# dispersion table 	mov ecx, [esp + nb030nf_n1]	shl ecx, 3	;# load all the table values we need 	movd mm4, [edx + ecx*4]	movd mm5, [edx + ecx*4 + 4]	movd mm6, [edx + ecx*4 + 8]	movd mm7, [edx + ecx*4 + 12]	mov ecx, [esp + nb030nf_n1+4]	shl ecx, 3	punpckldq mm4, [edx + ecx*4]	punpckldq mm5, [edx + ecx*4 + 4]	punpckldq mm6, [edx + ecx*4 + 8]	punpckldq mm7, [edx + ecx*4 + 12]	pfmul mm6, mm1  ;# mm6 = Geps 			pfmul mm7, mm2	;# mm7 = Heps2 	pfadd mm5, mm6	pfadd mm5, mm7	;# mm5 = Fp 	pfmul mm5, mm1  ;# mm5=eps*Fp 	pfadd mm5, mm4	;#  mm5= VV 		movq mm4, [esp + nb030nf_c6]	pfmul mm5, mm4	;# Vvdw6        	;# update Vvdwtot to release mm5! 	pfadd mm5, [esp + nb030nf_Vvdwtot]      ;# add the earlier value 	movq [esp + nb030nf_Vvdwtot], mm5       ;# store the sum       	;# repulsion table 	mov ecx, [esp + nb030nf_n1]	shl ecx, 3	;# load all the table values we need 	movd mm4, [edx + ecx*4 + 16]	movd mm5, [edx + ecx*4 + 20]	movd mm6, [edx + ecx*4 + 24]	movd mm7, [edx + ecx*4 + 28]	mov ecx, [esp + nb030nf_n1+4]	shl ecx, 3	punpckldq mm4, [edx + ecx*4 + 16]	punpckldq mm5, [edx + ecx*4 + 20]	punpckldq mm6, [edx + ecx*4 + 24]	punpckldq mm7, [edx + ecx*4 + 28]	pfmul mm6, mm1  ;# mm6 = Geps 			pfmul mm7, mm2	;# mm7 = Heps2 	pfadd mm5, mm6	pfadd mm5, mm7	;# mm5 = Fp 	pfmul mm5, mm1  ;# mm5=eps*Fp 	pfadd mm5, mm4	;#  mm5= VV 	movq mm6, [esp + nb030nf_c12]	pfmul mm5, mm6	;# Vvdw12 	;# update Vvdwtot 	pfadd mm5, [esp + nb030nf_Vvdwtot]      ;# add the earlier value 	movq [esp + nb030nf_Vvdwtot], mm5       ;# store the sum       		;# should we do one more iteration? 	sub dword ptr [esp + nb030nf_innerk],  2	jl    .nb030nf_finish_inner	jmp   .nb030nf_unroll_loop.nb030nf_finish_inner:		and dword ptr [esp + nb030nf_innerk],  1	jnz  .nb030nf_single_inner	jmp  .nb030nf_updateouterdata		.nb030nf_single_inner:	;# a single j particle iteration here - compare with the unrolled code for comments 	mov   eax, [esp + nb030nf_innerjjnr]	mov   eax, [eax]	;# eax=jnr offset 	mov esi, [ebp + nb030nf_vdwparam]	mov ecx, [ebp + nb030nf_type]	mov edx, [ecx + eax*4]        	 ;# type [jnr1] 	shl edx, 1	add edx, [esp + nb030nf_ntia]	     ;# tja = ntia + 2*type 	movd mm5, [esi + edx*4]		;# mm5 = 1st c6  			movq [esp + nb030nf_c6], mm5	movd mm5, [esi + edx*4 + 4]	;# mm5 = 1st c12  			movq [esp + nb030nf_c12], mm5	mov   esi, [ebp + nb030nf_pos]	lea   eax, [eax + eax*2]	movq  mm0, [esp + nb030nf_ix]	movd  mm1, [esp + nb030nf_iz]	movq  mm4, [esi + eax*4]	movd  mm5, [esi + eax*4 + 8]	pfsubr mm4, mm0	pfsubr mm5, mm1	pfmul mm4,mm4	pfmul mm5,mm5	pfacc mm4, mm5	pfacc mm4, mm5		;# mm0=rsq 	    pfrsqrt mm0,mm4    movq mm2,mm0    pfmul mm0,mm0    pfrsqit1 mm0,mm4				    pfrcpit2 mm0,mm2	;# mm1=invsqrt 	pfmul mm4, mm0	movq mm1, mm4	;# mm0 is invsqrt, and mm1 r 	;# calculate potentials and scalar force 	pfmul mm1, [esp + nb030nf_tsc]	;# mm1=rt 	pf2iw mm4,mm1	movd [esp + nb030nf_n1], mm4	pi2fd mm4,mm4	pfsub mm1, mm4               ;# now mm1 is eps and mm4 is n0 	movq mm2,mm1	pfmul mm2,mm2	;# mm1 is eps, mm2 is eps2 		mov edx, [ebp + nb030nf_VFtab]	mov ecx, [esp + nb030nf_n1]	shl ecx, 3	;# dispersion table 	;# load all the table values we need 	movd mm4, [edx + ecx*4]	movd mm5, [edx + ecx*4 + 4]	movd mm6, [edx + ecx*4 + 8]	movd mm7, [edx + ecx*4 + 12]	pfmul mm6, mm1  ;# mm6 = Geps 			pfmul mm7, mm2	;# mm7 = Heps2 	pfadd mm5, mm6	pfadd mm5, mm7	;# mm5 = Fp 	pfmul mm5, mm1  ;# mm5=eps*Fp 	pfadd mm5, mm4	;#  mm5= VV 		movq mm4, [esp + nb030nf_c6]	pfmul mm5, mm4	;# Vvdw6            	;# update Vvdwtot to release mm5! 	pfadd mm5, [esp + nb030nf_Vvdwtot]      ;# add the earlier value 	movq [esp + nb030nf_Vvdwtot], mm5       ;# store the sum       	;# repulsion table 	;# load all the table values we need 	movd mm4, [edx + ecx*4 + 16]	movd mm5, [edx + ecx*4 + 20]	movd mm6, [edx + ecx*4 + 24]	movd mm7, [edx + ecx*4 + 28]	pfmul mm6, mm1  ;# mm6 = Geps 			pfmul mm7, mm2	;# mm7 = Heps2 	pfadd mm5, mm6	pfadd mm5, mm7	;# mm5 = Fp 	pfmul mm5, mm1  ;# mm5=eps*Fp 	pfadd mm5, mm4	;#  mm5= VV 	movq mm6, [esp + nb030nf_c12]	pfmul mm5, mm6	;# Vvdw12 	;# update Vvdwtot 	pfadd mm5, [esp + nb030nf_Vvdwtot]      ;# add the earlier value 	movq [esp + nb030nf_Vvdwtot], mm5       ;# store the sum       .nb030nf_updateouterdata:		;# get n from stack	mov esi, [esp + nb030nf_n]        ;# get group index for i particle         mov   edx, [ebp + nb030nf_gid]      	;# base of gid[]        mov   edx, [edx + esi*4]		;# ggid=gid[n]	movq  mm7, [esp + nb030nf_Vvdwtot]     	pfacc mm7,mm7	          ;# get and sum the two parts of total potential 		mov   eax, [ebp + nb030nf_Vvdw]	movd  mm6, [eax + edx*4] 	pfadd mm6, mm7	movd  [eax + edx*4], mm6          ;# increment Vvdw[gid]        ;# finish if last         mov ecx, [esp + nb030nf_nn1]	;# esi already loaded with n	inc esi        sub ecx, esi        jecxz .nb030nf_outerend        ;# not last, iterate outer loop once more!          mov [esp + nb030nf_n], esi        jmp .nb030nf_outer.nb030nf_outerend:        ;# check if more outer neighborlists remain        mov   ecx, [esp + nb030nf_nri]	;# esi already loaded with n above        sub   ecx, esi        jecxz .nb030nf_end        ;# non-zero, do one more workunit        jmp   .nb030nf_threadloop.nb030nf_end:	femms	mov eax, [esp + nb030nf_nouter] 		mov ebx, [esp + nb030nf_ninner]	mov ecx, [ebp + nb030nf_outeriter]	mov edx, [ebp + nb030nf_inneriter]	mov [ecx], eax	mov [edx], ebx		add esp, 96	pop edi	pop esi    	pop edx    	pop ecx    	pop ebx    	pop eax	leave	ret

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