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Contents of README:Copyright 2011 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/. There are 5 generations of 64-but s390 processors, z900, z990, z9, z10, and z196. The current GMP code was optimised for the two oldest, z900 and z990. mpn_copyi This code makes use of a loop around MVC. It almost surely runs very close to optimally. A small improvement could be done by using one MVC for size 256 bytes, now we use two (we use an extra MVC when copying any multiple of 256 bytes). mpn_copyd We have tried several feed-in variants here, branch tree, jump table and computed goto. The fastest (on z990) turned out to be computed goto. An approach not tried is EX of LMG and STMG, modifying the register set on-the-fly. Using that trick, we could completely avoid using separate feed-in paths. mpn_lshift, mpn_rshift The current code runs at pipeline decode bandwidth on z990. mpn_add_n, mpn_sub_n The current code is 4-way unrolled. It should be unrolled more, at least 8x, in order to reach 2.5 c/l. mpn_mul_1, mpn_addmul_1, mpn_submul_1 The current code is very naive, but due to the non-pipelined nature of MLGR on z900 and z990, more sophisticated code would not gain much. On z10 one would need to cluster at least 4 MLGR together, in order to reduce stalling. On z196, one surely want to use unrolling and pipelining, to perhaps reach around 12 c/l. A major issue here and on z10 is ALCGR's 3 cycle stalling. mpn_mul_2, mpn_addmul_2 At least for older machines (z900, z990) with very slow MLGR, we should use Karatsuba's algorithm on 2-limb units, making mul_2 and addmul_2 the main multiplication primitives. The newer machines might benefit less from this approach, perhaps in particular z10, where MLGR clustering is more important. With Karatsuba, one could hope for around 16 cycles per accumulated 128 cross product, on z990. |
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Parent Directory - CVS/ 14-Feb-2024 19:51 - z10/ 14-Feb-2024 19:49 - README 22-Aug-2017 11:40 2.7K addmul_1.asm 22-Aug-2017 11:40 1.8K aorrlsh1_n.asm 22-Aug-2017 11:40 3.2K aors_n.asm 22-Aug-2017 11:40 3.0K bdiv_dbm1c.asm 22-Aug-2017 11:40 1.6K copyd.asm 22-Aug-2017 11:40 3.0K copyi.asm 22-Aug-2017 11:40 1.8K gmp-mparam.h 22-Aug-2017 11:40 7.7K invert_limb.asm 22-Aug-2017 11:40 2.1K logops_n.asm 22-Aug-2017 11:40 5.4K lshift.asm 22-Aug-2017 11:40 4.0K lshiftc.asm 22-Aug-2017 11:40 3.9K mod_34lsub1.asm 22-Aug-2017 11:40 2.3K mul_1.asm 22-Aug-2017 11:40 1.7K mul_basecase.asm 22-Aug-2017 11:40 2.8K rshift.asm 22-Aug-2017 11:40 3.7K sqr_basecase.asm 22-Aug-2017 11:40 4.3K sublsh1_n.asm 22-Aug-2017 11:40 3.1K submul_1.asm 22-Aug-2017 11:40 1.7K
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