nb_kernel200_x86_64_sse2.intel_syntax.s
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;#;# $Id: nb_kernel200_x86_64_sse2.intel_syntax.s,v 1.1.2.2 2006/09/22 08:40:33 lindahl 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_x86_64_sse2.globl _nb_kernel200_x86_64_sse2nb_kernel200_x86_64_sse2: _nb_kernel200_x86_64_sse2: ;# Room for return address and rbp (16 bytes).equiv nb200_fshift, 16.equiv nb200_gid, 24.equiv nb200_pos, 32.equiv nb200_faction, 40.equiv nb200_charge, 48.equiv nb200_p_facel, 56.equiv nb200_argkrf, 64.equiv nb200_argcrf, 72.equiv nb200_Vc, 80.equiv nb200_type, 88.equiv nb200_p_ntype, 96.equiv nb200_vdwparam, 104.equiv nb200_Vvdw, 112.equiv nb200_p_tabscale, 120.equiv nb200_VFtab, 128.equiv nb200_invsqrta, 136.equiv nb200_dvda, 144.equiv nb200_p_gbtabscale, 152.equiv nb200_GBtab, 160.equiv nb200_p_nthreads, 168.equiv nb200_count, 176.equiv nb200_mtx, 184.equiv nb200_outeriter, 192.equiv nb200_inneriter, 200.equiv nb208_work, 200 ;# 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_is3, 256.equiv nb200_ii3, 260.equiv nb200_nri, 264.equiv nb200_iinr, 272.equiv nb200_jindex, 280.equiv nb200_jjnr, 288.equiv nb200_shift, 296.equiv nb200_shiftvec, 304.equiv nb200_facel, 312.equiv nb200_innerjjnr, 320.equiv nb200_innerk, 328.equiv nb200_n, 332.equiv nb200_nn1, 336.equiv nb200_nouter, 340.equiv nb200_ninner, 344 push rbp mov rbp, rsp push rbx emms push r12 push r13 push r14 push r15 sub rsp, 360 ;# local variable stack space (n*16+8) ;# zero 32-bit iteration counters mov eax, 0 mov [rsp + nb200_nouter], eax mov [rsp + nb200_ninner], eax mov edi, [rdi] mov [rsp + nb200_nri], edi mov [rsp + nb200_iinr], rsi mov [rsp + nb200_jindex], rdx mov [rsp + nb200_jjnr], rcx mov [rsp + nb200_shift], r8 mov [rsp + nb200_shiftvec], r9 mov rsi, [rbp + nb200_p_facel] movsd xmm0, [rsi] movsd [rsp + nb200_facel], xmm0 mov rsi, [rbp + nb200_argkrf] mov rdi, [rbp + nb200_argcrf] movsd xmm1, [rsi] movsd xmm2, [rdi] shufpd xmm1, xmm1, 0 shufpd xmm2, xmm2, 0 movapd [rsp + nb200_krf], xmm1 movapd [rsp + nb200_crf], xmm2 ;# create constant floating-point factors on stack mov eax, 0x00000000 ;# lower half of double half IEEE (hex) mov ebx, 0x3fe00000 mov [rsp + nb200_half], eax mov [rsp + nb200_half+4], ebx movsd xmm1, [rsp + nb200_half] shufpd xmm1, xmm1, 0 ;# splat to all elements movapd xmm3, xmm1 addpd xmm3, xmm3 ;# one movapd xmm2, xmm3 addpd xmm2, xmm2 ;# two addpd xmm3, xmm2 ;# three movapd [rsp + nb200_half], xmm1 movapd [rsp + nb200_two], xmm2 movapd [rsp + nb200_three], xmm3.nb200_threadloop: mov rsi, [rbp + nb200_count] ;# pointer to sync counter mov eax, [rsi].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, [rsp + 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 [rsp + nb200_n], eax mov [rsp + 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, [rsp + nb200_nouter] mov [rsp + nb200_nouter], ebx.nb200_outer: mov rax, [rsp + nb200_shift] ;# rax = pointer into shift[] mov ebx, [rax + rsi*4] ;# rbx=shift[n] lea rbx, [rbx + rbx*2] ;# rbx=3*is mov [rsp + nb200_is3],ebx ;# store is3 mov rax, [rsp + nb200_shiftvec] ;# rax = base of shiftvec[] movsd xmm0, [rax + rbx*8] movsd xmm1, [rax + rbx*8 + 8] movsd xmm2, [rax + rbx*8 + 16] mov rcx, [rsp + nb200_iinr] ;# rcx = pointer into iinr[] mov ebx, [rcx+rsi*4] ;# ebx =ii mov rdx, [rbp + nb200_charge] movsd xmm3, [rdx + rbx*8] mulsd xmm3, [rsp + nb200_facel] shufpd xmm3, xmm3, 0 lea rbx, [rbx + rbx*2] ;# rbx = 3*ii=ii3 mov rax, [rbp + nb200_pos] ;# rax = base of pos[] addsd xmm0, [rax + rbx*8] addsd xmm1, [rax + rbx*8 + 8] addsd xmm2, [rax + rbx*8 + 16] movapd [rsp + nb200_iq], xmm3 shufpd xmm0, xmm0, 0 shufpd xmm1, xmm1, 0 shufpd xmm2, xmm2, 0 movapd [rsp + nb200_ix], xmm0 movapd [rsp + nb200_iy], xmm1 movapd [rsp + nb200_iz], xmm2 mov [rsp + nb200_ii3], ebx ;# clear vctot (xmm12) and i forces (xmm13-xmm15) xorpd xmm12, xmm12 movapd xmm13, xmm12 movapd xmm14, xmm12 movapd xmm15, xmm12 mov rax, [rsp + nb200_jindex] mov ecx, [rax + rsi*4] ;# jindex[n] mov edx, [rax + rsi*4 + 4] ;# jindex[n+1] sub edx, ecx ;# number of innerloop atoms mov rsi, [rbp + nb200_pos] mov rdi, [rbp + nb200_faction] mov rax, [rsp + nb200_jjnr] shl ecx, 2 add rax, rcx mov [rsp + nb200_innerjjnr], rax ;# pointer to jjnr[nj0] mov ecx, edx sub edx, 2 add ecx, [rsp + nb200_ninner] mov [rsp + nb200_ninner], ecx add edx, 0 mov [rsp + nb200_innerk], edx ;# number of innerloop atoms jge .nb200_unroll_loop jmp .nb200_checksingle.nb200_unroll_loop: ;# twice unrolled innerloop here mov rdx, [rsp + nb200_innerjjnr] ;# pointer to jjnr[k] mov r8d, [rdx] mov r9d, [rdx + 4] add qword ptr [rsp + nb200_innerjjnr], 8 ;# advance pointer (unrolled 2) lea rax, [r8 + r8*2] ;# replace jnr with j3 lea rbx, [r9 + r9*2] mov rsi, [rbp + nb200_pos] ;# base of pos[] ;# move two coordinates to xmm4-xmm6 movlpd xmm4, [rsi + rax*8] movlpd xmm5, [rsi + rax*8 + 8] movlpd xmm6, [rsi + rax*8 + 16] movhpd xmm4, [rsi + rbx*8] movhpd xmm5, [rsi + rbx*8 + 8] movhpd xmm6, [rsi + rbx*8 + 16] ;# calc dr subpd xmm4, [rsp + nb200_ix] subpd xmm5, [rsp + nb200_iy] subpd xmm6, [rsp + nb200_iz] ;# store dr movapd xmm9, xmm4 movapd xmm10, xmm5 movapd xmm11, xmm6 mov rsi, [rbp + nb200_charge] ;# base of charge[] ;# square it mulpd xmm4,xmm4 mulpd xmm5,xmm5 mulpd xmm6,xmm6 addpd xmm4, xmm5 addpd xmm4, xmm6 ;# rsq in xmm4 movlpd xmm3, [rsi + r8*8] cvtpd2ps xmm5, xmm4 rsqrtps xmm5, xmm5 cvtps2pd xmm2, xmm5 ;# lu in low xmm2 movhpd xmm3, [rsi + r9*8] movapd xmm7, [rsp + nb200_krf] ;# lookup seed in xmm2 movapd xmm5, xmm2 ;# copy of lu mulpd xmm2, xmm2 ;# lu*lu movapd xmm1, [rsp + nb200_three] mulpd xmm7, xmm4 ;# krsq mulpd xmm2, xmm4 ;# rsq*lu*lu movapd xmm0, [rsp + nb200_half] subpd xmm1, xmm2 ;# 30-rsq*lu*lu mulpd xmm1, xmm5 mulpd xmm1, xmm0 ;# xmm0=iter1 of rinv (new lu) mulpd xmm3, [rsp + nb200_iq] ;# qq movapd xmm5, xmm1 ;# copy of lu mulpd xmm1, xmm1 ;# lu*lu movapd xmm2, [rsp + nb200_three] mulpd xmm1, xmm4 ;# rsq*lu*lu movapd xmm0, [rsp + 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, [rsp + nb200_crf] mulpd xmm6, xmm3 ;# xmm6=vcoul=qq*(rinv+ krsq) mov rdi, [rbp + nb200_faction] addpd xmm7, xmm7 subpd xmm0, xmm7 mulpd xmm3, xmm0 mulpd xmm4, xmm3 ;# xmm4=total fscal ;# increment vctot addpd xmm12, xmm6 mulpd xmm9, xmm4 mulpd xmm10, xmm4 mulpd xmm11, xmm4 ;# the fj's - start by accumulating forces from memory movlpd xmm3, [rdi + rax*8] movlpd xmm4, [rdi + rax*8 + 8] movlpd xmm5, [rdi + rax*8 + 16] movhpd xmm3, [rdi + rbx*8] movhpd xmm4, [rdi + rbx*8 + 8] movhpd xmm5, [rdi + rbx*8 + 16] ;# now update f_i addpd xmm13, xmm9 addpd xmm14, xmm10 addpd xmm15, xmm11 addpd xmm3, xmm9 addpd xmm4, xmm10 addpd xmm5, xmm11 movlpd [rdi + rax*8], xmm3 movlpd [rdi + rax*8 + 8], xmm4 movlpd [rdi + rax*8 + 16], xmm5 movhpd [rdi + rbx*8], xmm3 movhpd [rdi + rbx*8 + 8], xmm4 movhpd [rdi + rbx*8 + 16], xmm5 ;# should we do one more iteration? sub dword ptr [rsp + nb200_innerk], 2 jl .nb200_checksingle jmp .nb200_unroll_loop.nb200_checksingle: mov edx, [rsp + nb200_innerk] and edx, 1 jnz .nb200_dosingle jmp .nb200_updateouterdata.nb200_dosingle: mov rsi, [rbp + nb200_charge] mov rdi, [rbp + nb200_pos] mov rcx, [rsp + nb200_innerjjnr] mov eax, [rcx] mov rsi, [rbp + nb200_charge] ;# base of charge[] movsd xmm3, [rsi + rax*8] mulsd xmm3, [rsp + nb200_iq] ;# qq lea rax, [rax + rax*2] ;# replace jnr with j3 mov rsi, [rbp + nb200_pos] ;# base of pos[] ;# move two coordinates to xmm4-xmm6 movsd xmm4, [rsi + rax*8] movsd xmm5, [rsi + rax*8 + 8] movsd xmm6, [rsi + rax*8 + 16] ;# calc dr subsd xmm4, [rsp + nb200_ix] subsd xmm5, [rsp + nb200_iy] subsd xmm6, [rsp + nb200_iz] ;# store dr movapd xmm9, xmm4 movapd xmm10, xmm5 movapd xmm11, 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, [rsp + nb200_krf] ;# lookup seed in xmm2 movapd xmm5, xmm2 ;# copy of lu mulsd xmm2, xmm2 ;# lu*lu movapd xmm1, [rsp + nb200_three] mulsd xmm7, xmm4 ;# krsq mulsd xmm2, xmm4 ;# rsq*lu*lu movapd xmm0, [rsp + 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, [rsp + nb200_three] mulsd xmm1, xmm4 ;# rsq*lu*lu movapd xmm0, [rsp + 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, [rsp + nb200_crf] mulsd xmm6, xmm3 ;# xmm6=vcoul=qq*(rinv+ krsq) addsd xmm7, xmm7 subsd xmm0, xmm7 mulsd xmm3, xmm0 mulsd xmm4, xmm3 ;# xmm4=total fscal ;# increment vctot addsd xmm12, xmm6 mov rdi, [rbp + nb200_faction] mulsd xmm9, xmm4 mulsd xmm10, xmm4 mulsd xmm11, xmm4 ;# now update f_i addsd xmm13, xmm9 addsd xmm14, xmm10 addsd xmm15, xmm11 ;# the fj's - start by accumulating forces from memory addsd xmm9, [rdi + rax*8] addsd xmm10, [rdi + rax*8 + 8] addsd xmm11, [rdi + rax*8 + 16] movsd [rdi + rax*8], xmm9 movsd [rdi + rax*8 + 8], xmm10 movsd [rdi + rax*8 + 16], xmm11.nb200_updateouterdata: mov ecx, [rsp + nb200_ii3] mov rdi, [rbp + nb200_faction] mov rsi, [rbp + nb200_fshift] mov edx, [rsp + nb200_is3] ;# accumulate i forces in xmm13, xmm14, xmm15 movhlps xmm3, xmm13 movhlps xmm4, xmm14 movhlps xmm5, xmm15 addsd xmm13, xmm3 addsd xmm14, xmm4 addsd xmm15, xmm5 ;# sum is in low xmm13-xmm15 ;# increment i force movsd xmm3, [rdi + rcx*8] movsd xmm4, [rdi + rcx*8 + 8] movsd xmm5, [rdi + rcx*8 + 16] subsd xmm3, xmm13 subsd xmm4, xmm14 subsd xmm5, xmm15 movsd [rdi + rcx*8], xmm3⌨️ 快捷键说明
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