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Contents of README:Copyright 2000, 2001 Free Software Foundation, Inc. This file is part of the GNU MP Library. The GNU MP Library is free software; you can redistribute it and/or modify it under the terms of either: * the GNU Lesser General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. or * 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. or both in parallel, as here. The GNU MP Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received copies of the GNU General Public License and the GNU Lesser General Public License along with the GNU MP Library. If not, see https://www.gnu.org/licenses/. AMD K6 MPN SUBROUTINES This directory contains code optimized for AMD K6 CPUs, meaning K6, K6-2 and K6-3. The mmx subdirectory has MMX code suiting plain K6, the k62mmx subdirectory has MMX code suiting K6-2 and K6-3. All chips in the K6 family have MMX, the separate directories are just so that ./configure can omit them if the assembler doesn't support MMX. STATUS Times for the loops, with all code and data in L1 cache, are as follows. cycles/limb mpn_add_n/sub_n 3.25 normal, 2.75 in-place mpn_mul_1 6.25 mpn_add/submul_1 7.65-8.4 (varying with data values) mpn_mul_basecase 9.25 cycles/crossproduct (approx) mpn_sqr_basecase 4.7 cycles/crossproduct (approx) or 9.2 cycles/triangleproduct (approx) mpn_l/rshift 3.0 mpn_divrem_1 20.0 mpn_mod_1 20.0 mpn_divexact_by3 11.0 mpn_copyi 1.0 mpn_copyd 1.0 K6-2 and K6-3 have dual-issue MMX and get the following improvements. mpn_l/rshift 1.75 Prefetching of sources hasn't yet given any joy. With the 3DNow "prefetch" instruction, code seems to run slower, and with just "mov" loads it doesn't seem faster. Results so far are inconsistent. The K6 does a hardware prefetch of the second cache line in a sector, so the penalty for not prefetching in software is reduced. NOTES All K6 family chips have MMX, but only K6-2 and K6-3 have 3DNow. Plain K6 executes MMX instructions only in the X pipe, but K6-2 and K6-3 can execute them in both X and Y (and in both together). Branch misprediction penalty is 1 to 4 cycles (Optimization Manual chapter 6 table 12). Write-allocate L1 data cache means prefetching of destinations is unnecessary. Store queue is 7 entries of 64 bits each. Floating point multiplications can be done in parallel with integer multiplications, but there doesn't seem to be any way to make use of this. OPTIMIZATIONS Unrolled loops are used to reduce looping overhead. The unrolling is configurable up to 32 limbs/loop for most routines, up to 64 for some. Sometimes computed jumps into the unrolling are used to handle sizes not a multiple of the unrolling. An attractive feature of this is that times smoothly increase with operand size, but an indirect jump is about 6 cycles and the setups about another 6, so it depends on how much the unrolled code is faster than a simple loop as to whether a computed jump ought to be used. Position independent code is implemented using a call to get eip for computed jumps and a ret is always done, rather than an addl $4,%esp or a popl, so the CPU return address branch prediction stack stays synchronised with the actual stack in memory. Such a call however still costs 4 to 7 cycles. Branch prediction, in absence of any history, will guess forward jumps are not taken and backward jumps are taken. Where possible it's arranged that the less likely or less important case is under a taken forward jump. MMX Putting emms or femms as late as possible in a routine seems to be fastest. Perhaps an emms or femms stalls until all outstanding MMX instructions have completed, so putting it later gives them a chance to complete on their own, in parallel with other operations (like register popping). The Optimization Manual chapter 5 recommends using a femms on K6-2 and K6-3 at the start of a routine, in case it's been preceded by x87 floating point operations. This isn't done because in gmp programs it's expected that x87 floating point won't be much used and that chances are an mpn routine won't have been preceded by any x87 code. CODING Instructions in general code are shown paired if they can decode and execute together, meaning two short decode instructions with the second not depending on the first, only the first using the shifter, no more than one load, and no more than one store. K6 does some out of order execution so the pairings aren't essential, they just show what slots might be available. When decoding is the limiting factor things can be scheduled that might not execute until later. NOTES Code alignment - if an opcode/modrm or 0Fh/opcode/modrm crosses a cache line boundary, short decode is inhibited. The cross.pl script detects this. - loops and branch targets should be aligned to 16 bytes, or ensure at least 2 instructions before a 32 byte boundary. This makes use of the 16 byte cache in the BTB. Addressing modes - (%esi) degrades decoding from short to vector. 0(%esi) doesn't have this problem, and can be used as an equivalent, or easier is just to use a different register, like %ebx. - K6 and pre-CXT core K6-2 have the following problem. (K6-2 CXT and K6-3 have it fixed, these being cpuid function 1 signatures 0x588 to 0x58F). If more than 3 bytes are needed to determine instruction length then decoding degrades from direct to long, or from long to vector. This happens with forms like "0F opcode mod/rm" with mod/rm=00-xxx-100 since with mod=00 the sib determines whether there's a displacement. This affects all MMX and 3DNow instructions, and others with an 0F prefix, like movzbl. The modes affected are anything with an index and no displacement, or an index but no base, and this includes (%esp) which is really (,%esp,1). The cross.pl script detects problem cases. The workaround is to always use a displacement, and to do this with Zdisp if it's zero so the assembler doesn't discard it. See Optimization Manual rev D page 67 and 3DNow Porting Guide rev B pages 13-14 and 36-37. Calls - indirect jumps and calls are not branch predicted, they measure about 6 cycles. Various - adcl 2 cycles of decode, maybe 2 cycles executing in the X pipe - bsf 12-27 cycles - emms 5 cycles - femms 3 cycles - jecxz 2 cycles taken, 13 not taken (optimization manual says 7 not taken) - divl 20 cycles back-to-back - imull 2 decode, 3 execute - mull 2 decode, 3 execute (optimization manual decoding sample) - prefetch 2 cycles - rcll/rcrl implicit by one bit: 2 cycles immediate or %cl count: 11 + 2 per bit for dword 13 + 4 per bit for byte - setCC 2 cycles - xchgl %eax,reg 1.5 cycles, back-to-back (strange) reg,reg 2 cycles, back-to-back REFERENCES "AMD-K6 Processor Code Optimization Application Note", AMD publication number 21924, revision D amendment 0, January 2000. This describes K6-2 and K6-3. Available on-line, http://www.amd.com/us-en/assets/content_type/white_papers_and_tech_docs/21924.pdf "AMD-K6 MMX Enhanced Processor x86 Code Optimization Application Note", AMD publication number 21828, revision A amendment 0, August 1997. This is an older edition of the above document, describing plain K6. Available on-line, http://www.amd.com/us-en/assets/content_type/white_papers_and_tech_docs/21828.pdf "3DNow Technology Manual", AMD publication number 21928G/0-March 2000. This describes the femms and prefetch instructions, but nothing else from 3DNow has been used. Available on-line, http://www.amd.com/us-en/assets/content_type/white_papers_and_tech_docs/21928.pdf "3DNow Instruction Porting Guide", AMD publication number 22621, revision B, August 1999. This has some notes on general K6 optimizations as well as 3DNow. Available on-line, http://www.amd.com/us-en/assets/content_type/white_papers_and_tech_docs/22621.pdf ---------------- Local variables: mode: text fill-column: 76 End: |
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Parent Directory - CVS/ 17-Dec-2022 21:37 - k62mmx/ 17-Dec-2022 21:35 - mmx/ 17-Dec-2022 21:35 - README 22-Aug-2017 11:40 8.4K aors_n.asm 22-Aug-2017 11:40 6.2K aorsmul_1.asm 22-Aug-2017 11:40 9.6K cross.pl 22-Aug-2017 11:40 5.8K divrem_1.asm 22-Aug-2017 11:40 4.4K gmp-mparam.h 22-Aug-2017 11:40 7.4K mod_34lsub1.asm 22-Aug-2017 11:40 3.8K mode1o.asm 22-Aug-2017 11:40 3.9K mul_1.asm 22-Aug-2017 11:40 5.0K mul_basecase.asm 22-Aug-2017 11:40 12K pre_mod_1.asm 22-Aug-2017 11:40 3.3K sqr_basecase.asm 22-Aug-2017 11:40 14K
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