#!Exemplar 1200 ##NOTE OPTIMISATION INCLUDED CODE MODIFICATION, ##29/NOV/95 Ron Sercely, Convex Computer Corporation, ##PVM 3.3.10.2 (to be released Dec '95), ##PARKBENCH Version 1.0 *** UNOFFICIAL release test package *** #name: Ron Sercely #establishment: Convex Computer Corporation #email: sercely@convex.com #telephone: 214.497.4667 #date sent: 29/Nov/95 #date benchmarked (DD/MMM/YY): 29/Nov/95 #benchmark suite and revision: Parkbench #message passing library and revision: PVM 3.3.10.2 (to be released Dec '95) # #manufacturer: Convex #model number: Exemplar 1200 # #cpu: HP-PA/RISC 7200 #cpu speed (MHz): 120Mhz #fpu: integrated #primary cache: 250kbytes #secondary cache: none #other cache: none #memory: 512M #disk and connection: SCSI # #interconnect type: shared memory #switching: none # #other hardware: none # #operating system and version: SPP-UX 3.2 (to be released Dec ' 95) #compilers, libraries and versions: Convex FORTRAN, vs 9.3 # /usr/convex/cc/cc: 6.3 # #compiler switches: -O2 (full optimization) #additional tuning parameters: #other software: # #additional comments: # PARKBENCH Version 1.0 *** UNOFFICIAL release test package *** # This run was with modified code. Modifications were: # Within the timing loops, the code segments like: # CALL PVMFINITSEND(PVMDEFAULT,INFO) # CALL PVMFPACK(BYTE1,A,ILEN,1,INFO) # CALL PVMFSEND(TIDS(NSLAVE),10,INFO) # CALL PVMFRECV(TIDS(NSLAVE),20,INFO) # CALL PVMFUNPACK(BYTE1,A,ILEN,1,INFO) # was changed to: # CALL PVMFPSEND(TIDS(NSLAVE),10,a,ilen,byte1,INFO) # CALL PVMFPRECV(TIDS(NSLAVE),20,a,ilen,byte1,iatid, # iatag,ialen,INFO) # The PSEND/PRECV functions are Convex versions of SEND/RECV optimized # shared memory PVM implementations. It is a documented, standard Convex # feature. # # Also, in synch1, one line of code was inserted just before the # timing loop:: # CALL PVMFFREEZEGROUP(GROUP,NNODE,INFO) # This function is a documented, standard Convex feature, which allows # optimized shared memory group operations, such as PVMFBARRIER # # Environment Variables: # PVM_ARCH = CSPP # PVMBUFSIZE=1000000 # PVMPSEND=0 (enables the PSEND functions) #(13) MATRIX MULT BY OUTER PRODUCT # # ICASE= 13 NCASE= 17 NMAX=100000 NTIMES= 100000 # # # # #NI R(N) #vlen Mflop/s 1 1.774340 4 4.651384 9 7.285106 16 9.214035 25 9.876503 36 11.092918 49 11.903076 64 14.440226 81 14.050841 100 14.558122 400 18.649771 900 17.982010 1600 17.964863 2500 4.852486 8100 2.730210 10000 2.657048 40000 2.343044 90000 2.344502