#!SPARC Station ELC ##Parkbench (LOWLEV_1.0), ##09/SEP/1994, ##at Old Dominion University, Norfolk, Virginia, USA #*name: Roger Hockney #*establishment: University of Southampton #*email: rwh@pac.soton.ac.uk #telephone: 0635 578679 #date sent: 01/11/94 #*date benchmarked: 09/SEP/1994 #*benchmark suite and revision: Parkbench (LOWLEV_1.0) #*message passing library and revision: N/A #*benchmark: RINF1 #*problem size (if applicable): N/A #*number of nodes: 1 #*file number if one of a group: 1 of 1 #*manufacturer: SUN #*model number: SPARC Station ELC #cpu: #cpu speed (MHz): #fpu: integrated #primary cache: #secondary cache: #other cache: #memory: #disk and connection: #interconnect type: #switching: #other hardware: #operating system and version: #compilers, libraries and versions: f77 #compiler switches: -O2 #additional tuning parameters: none #other software: #additional comments: Benchmarks performed on a workstation # at Old Dominion University, Norfolk, Virginia, USA # in the Center for Coastal Physical Oceanography (CCPO). # There were no other users during the measurements. # ================================================= # === === # === PARKBENCH Parallel Benchmarks === # === === # === RINF1 === # === === # === Program: R-infinity and N-half === # === Version: Standard Fortran 77 === # === Author: Roger Hockney === # === Update: November 1993; Release: 1.0 === # === === # ================================================= # # Run on single SUN SPARC Station ELC # at Old Dominion University, VA, USA (CCPO) # Software levels are # # Contact: Roger Hockney, rwh@pac.soton.ac.uk # # (1) CONTIGUOUS DYADS: A(I)=B(I)*C(I) # # # ICASE= 1 NCASE= 17 NMAX=100000 NTIMES= 100000 # # #NI R(N) #vlen Mflop/s 1 1.115321 2 1.356019 3 1.442338 4 1.522889 5 1.576154 6 1.598973 7 1.622062 8 1.655652 9 1.632878 10 1.646100 20 1.695045 30 1.704769 40 1.717622 50 1.718660 60 1.725876 70 1.730202 80 1.716866 90 1.731665 100 1.732056 200 1.712328 300 1.695204 700 1.686308 800 1.702281 900 1.653158 1000 1.658647 2000 1.445078 3000 1.247748 4000 1.174741 5000 1.155527 6000 1.143732 7000 1.145013 8000 1.136033 9000 1.148617 10000 1.088207 20000 1.145668 30000 1.131285 40000 1.144443 50000 1.038476 60000 1.047513 70000 1.039046 80000 1.128285 90000 1.082251 100000 0.883147 # SUMMARY OF SELECTED VALUES # -------------------------- # # LENGTHS RMSERR/VALUE R-INFINITY N-HALF R(N) # vlen % Mflop/s vlen Mflop/s # # # (1) CONTIGUOUS DYADS: A(I)=B(I)*C(I) # <= 90 0.306 1.031 0.609 | Min = 0.277 # >= 700 8.516 0.625 1379.370 | Max = 1.033 # # (2) DYADS, STRIDE=8: A(I)=B(I)*C(I) # <= 50 0.814 1.021 0.348 | Min = 0.382 # >= 300 0.280 0.383 -36.084 | Max = 1.355 # # (3) CONTIGUOUS TRIADS: A(I)=B(I)*C(I)+D(I) # <= 90 0.153 1.738 0.536 | Min = 0.883 # >= 700 3.437 1.003 -1260.831 | Max = 1.732 # # (4) TRIADS, STRIDE=8: A(I)=B(I)*C(I)+D(I) # <= 80 0.196 1.723 0.432 | Min = 0.566 # >= 600 0.340 0.572 -7.368 | Max = 1.720 # # (5) RANDOM SCATTER/GATHER: # <= 100 0.186 1.223 0.453 | Min = 0.792 # >= 800 0.330 0.928 -141.275 | Max = 1.222 # # (6) CONTIGUOUS 4-OP: A(I)=B(I)*C(I)+D(I)*E(I)+F(I) # <= 100 0.293 2.489 0.423 | Min = 1.176 # >= 800 1.607 1.533 544.956 | Max = 2.489 # # (7) INNER PRODUCT: S=S+B(I)*C(I) # <= 400 1.039 3.283 1.412 | Min = 1.958 # >= 2000 0.260 1.964 -353.410 | Max = 8.959 # # (8) FIRST ORDER RECURRENCE: A(I)=B(I)*A(I-1)+D(I) # <= 90 0.668 2.266 0.076 | Min = 1.247 # >= 700 0.317 1.262 -210.728 | Max = 2.353 # # (9) CHARGE ASSIGNMENT: A(J(I))=A(J(I))+S # <= 800 0.255 1.529 0.372 | Min = 0.716 # >= 6000 6.396 1.121 -449.213 | Max = 1.561 # # (10) TRANSPOSITION: B(I,J)=A(J,I) # <= 60 2.014 1.213 0.848 | Min = 0.613 # >= 400 0.000 1.108 -0.288 | Max = 1.279 # # (11) MATRIX MULT BY INNER PRODUCT # <= 60 0.666 2.336 0.586 | Min = 0.871 # >= 400 0.000 2.225 -0.005 | Max = 2.329 # # (12) MATRIX MULT BY MIDDLE PRODUCT # <= 70 0.508 2.240 0.500 | Min = 0.906 # >= 500 0.000 2.135 -0.237 | Max = 2.236 # # (13) MATRIX MULT BY OUTER PRODUCT # <= 9 0.109 0.593 0.663 | Min = 0.355 # >= 10 0.880 0.369 -538.845 | Max = 0.570 # # (14) DYADS, STRIDE=128: A(I)=B(I)*C(I) # <= 40 0.599 1.017 0.699 | Min = 0.376 # >= 200 0.722 0.385 0.463 | Max = 1.008 # # (15) DYADS, STRIDE=1024: A(I)=B(I)*C(I) # <= 6 0.290 0.976 0.530 | Min = 0.340 # >= 40 3.321 0.330 -7.612 | Max = 0.918 # # (16) CONTIGUOUS DAXPY: A(I)=S*B(I)+C(I) # <= 800 0.124 1.914 0.193 | Min = 1.058 # >= 6000 0.285 1.404 244.719 | Max = 1.929 # # (17) INDIRECT DAXPY: A(J(I))=S*B(K(I))+C(L(I)) # <= 80 0.316 1.563 0.571 | Min = 0.512 # >= 600 4.434 0.778 802.178 | Max = 1.562 # # # # TOTAL EXECUTION TIME IS 2.3646922302E+02 SECONDS.