Relay-Version: version B 2.10 5/3/83; site utzoo.UUCP Posting-Version: version B 2.10.3 4.3bsd-beta 6/6/85; site ucbvax.BERKELEY.EDU Path: utzoo!decvax!decwrl!ucbvax!info-vlsi From: fedorkow@BBN-VAX.ARPA (Guy Fedorkow) Newsgroups: mod.vlsi Subject: spice benchmarks Message-ID: <8511261300.AA17638@ucbvax.berkeley.edu> Date: Tue, 26-Nov-85 07:48:25 EST Article-I.D.: ucbvax.8511261300.AA17638 Posted: Tue Nov 26 07:48:25 1985 Date-Received: Wed, 27-Nov-85 00:23:51 EST Sender: daemon@ucbvax.BERKELEY.EDU Organization: The ARPA Internet Lines: 53 Approved: info-vlsi@sandia-cad.arpa Spice Benchmark results guy fedorkow, Nov 25, 1985 at bbn In the process of qualifying a machine for a vlsi workstation, spice benchmarks were run to compare Sun, DEC and Masscomp machines. Three spice decks were used, with run times from under one to about 5 minutes. The two circuit configurations used contained 17 and 19 transistors. In the third test, the default gate length parameter was made larger to cause the simulation to fail to converge. Tests were run on a VAX 11/785, Sun3/160C, the MicroVax II and two Masscomp models, the 5400 and 5700. Both the sun and the masscomp offer 68020/68881 processor/floating point combinations. The masscomp machine claims to be running the '881 at 16 MHz, while the Sun claims only 12 MHz for the '881. Both run the '020 at 16 MHz. Tests on the MicroVax II were run at UCB by George Jacobs. The tests on the VAX/785 were run in the early morning at BBN, when the load factor was under 0.30. Time values cited are total elapsed time, as measured by the 'time' command. All times are expressed in seconds. All the machines tested had at least 4 Mbytes of memory. All were running Spice 2G.6. Results machine ckt A ckt B ckt C VAX 11/785 65 320 189 masscomp 5400 50 278 172 Sun 3/160 50 277 172 MicroVax II 74 410 272 Two of the three tests were run on a masscomp 5700, with improvements of about 5%. With the exception of the MicroVax execution time, results obtained by the simulations seemed to be identical in all substantive ways. Because of the peculiarity of DEC floating point, the vax results contained negative zero values, while the motorola implementation could not. The non-convergent case failed to converge in exactly the same way, at the same time value, for all machines, giving some assurance that numerical results are the same, even for ill-conditioned computations.