MuMMI

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Application-level Performance

100s 300w

LIGO_GEO 1.0; atlas.dpcc.uta.edu; 2 Processors; ComputeFStatistic_i_inst; AlphaBand=0.0015, FreqBand=0.008, DeltaBand=5.0e-05

LIGO_GEO 1.0; atlas.dpcc.uta.edu; 2 Processors; ComputeFStatistic_i_inst; AlphaBand=0.0055, FreqBand=0.004, DeltaBand=5.0e-05

LIGO_GEO 1.0; atlas.dpcc.uta.edu; 2 Processors; ComputeFStatistic_i_inst; AlphaBand=0.0065, FreqBand=0.002, DeltaBand=5.0e-05

CPI 2.0; Prophesy Linux; 3 Processors; cpi_linux; PI25DT=3.141593, n=1000.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =100.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =150.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =250.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =300.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =350.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =400.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =450.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =500.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =550.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =600.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =650.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =700.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =750.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =800.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =850.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =900.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =950.0

Parallel Matrix Matrix Multiply 0.0; SGI Origin2000; 8 Processors; matmat_sgi; =1000.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =1000.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =950.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =900.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =850.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =800.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =750.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =700.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =650.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =600.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =550.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =500.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =450.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =400.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =350.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =300.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =250.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =200.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =150.0

Parallel Matrix Matrix Multiply 0.0; IBM SP2; 16 Processors; matmat_sp2; =100.0

Cactus 1.0; CC- 2 proc/node; 64 Processors; Cactus; =100.0

Cactus 1.0; CC- 2 proc/node; 128 Processors; Cactus

Cactus 1.0; CC- 2 proc/node; 256 Processors; Cactus; =200.0

Cactus 1.0; CC- 2 proc/node; 32 Processors; Cactus

MILC 1.0; ROAD RUNNER (milcrr, 5/9); 1 Processors; MILC; =24.0

MILC 1.0; ROAD RUNNER (milcrr, 5/9); 8 Processors; MILC

MILC 1.0; ROAD RUNNER (milcrr, 5/9); 16 Processors; MILC

MILC 1.0; ROAD RUNNER (milcrr, 5/9); 32 Processors; MILC

MILC 1.0; ROAD RUNNER (milcrr, 5/9); 64 Processors; MILC

Seismic Migration 1.0; PARAM 10000; 64 Processors; seis_mig

NAS Parallel MG Benchmark 2.3; ECE SGI Origin2000; 8 Processors; mg

Quake 0.0; scandium; 2 Processors; quake

MESA 1.0; yellow; 1 Processors; mesa; =1000.0

Applu 1.0; scandium; 1 Processors; applu; =1000.0

AMMP Test 1.0; yellow; 1 Processors; ammp_test; =1000.0

AMMP 1.0; yellow; 1 Processors; ammp; =1000.0

AMMP 1.0; yellow; 1 Processors; ammp

ART Test 1.0; yellow; 1 Processors; scanner_test; =1000.0

SWIM 1.0; yellow; 1 Processors; swim; =1000.0

SWIM 1.0; scandium; 1 Processors; swim

mcf 1.0; scandium; 1 Processors; mcf; =1000.0

ATHENA-ATLFAST (PYTHIA) 3.0; cern linux 686; 1 Processors; athena (#events=2000); number of events=2000.0

ATHENA-ATLFAST (PYTHIA) 3.0; cern linux 686; 1 Processors; athena (#events=4000); number of events=4000.0

ATHENA-ATLFAST (PYTHIA) 3.0; cern linux 686; 1 Processors; athena (#events=6000); number of events=6000.0

ATHENA-ATLFAST (PYTHIA) 3.0; cern linux 686; 1 Processors; athena (#events=8000); number of events=8000.0

ATHENA-ATLFAST (PYTHIA) 3.0; cern linux 686; 1 Processors; athena (#events=10000); number of events=10000.0

NAS Parallel CG Benchmark 2.3; ECE SGI Origin2000; 8 Processors; cg_A_8_sgi; Class A=14000.0

NAS Parallel CG Benchmark 2.3; ECE SGI Origin2000; 4 Processors; cg_A_4_sgi; Class A=14000.0

NAS Parallel CG Benchmark 2.3; ECE SGI Origin2000; 2 Processors; cg_A_2_sgi; Class A=14000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 2 Processors; cg_S_2_sp2; Problem size=1400.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 2 Processors; cg_W_2_sp2; problem size=7000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 2 Processors; cg_A_2_sp2; Class A=14000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 2 Processors; cg_B_2_sp2; problem size=75000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 4 Processors; cg_S_4_sp2; problem size=1400.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 4 Processors; cg_W_4_sp2; problem size=7000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 4 Processors; cg_A_4_sp2; problem=14000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 4 Processors; cg_B_4_sp2; problem size=75000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 8 Processors; cg_S_8_sp2; problem size=1400.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 8 Processors; cg_W_8_sp2; problem size=7000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 8 Processors; cg_A_8_sp2; problem size=14000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 8 Processors; cg_B_8_sp2; problem size=75000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 8 Processors; cg_C_8_sp2; problem size=150000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 16 Processors; cg_S_16_sp2; problem size=1400.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 16 Processors; cg_W_16_sp2; problem size=7000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 16 Processors; cg_A_16_sp2; problem size=14000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 16 Processors; cg_B_16_sp2; problem size=75000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 16 Processors; cg_C_16_sp2; problem size=150000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 32 Processors; cg_S_32_sp2; problem size=1400.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 32 Processors; cg_W_32_sp2; problem size=7000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 32 Processors; cg_A_32_sp2; problem size=14000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 32 Processors; cg_B_32_sp2; problem size=75000.0

NAS Parallel CG Benchmark 2.3; IBM SP2 at ANL; 32 Processors; cg_C_32_sp2; problem size=150000.0

NAS Serial CG Benchmark 2.3; ECE SGI Origin2000; 1 Processors; cg_A_sgi; Class A=14000.0

NAS Serial CG Benchmark 2.3; IBM SP2 at ANL; 1 Processors; cg_A_sp2; Problem Size=14000.0

NAS Serial CG Benchmark 2.3; IBM SP2 at ANL; 1 Processors; cg_W_sp2; Problem Size=7000.0

NAS Serial CG Benchmark 2.3; IBM SP2 at ANL; 1 Processors; cg_S_sp2; Problem size=1400.0

NAS Serial IS Benchmark 2.3; ECE SGI Origin2000; 1 Processors; is_A_sgi; Class A=23.0

NAS Serial IS Benchmark 2.3; IBM SP2 at ANL; 1 Processors; is_S_sp2; problem size=65536.0

NAS Serial IS Benchmark 2.3; IBM SP2 at ANL; 1 Processors; is_W_sp2; problem size=20.0

NAS Serial IS Benchmark 2.3; IBM SP2 at ANL; 1 Processors; is_A_sp2; problem size=23.0

NAS Parallel IS Benchmark 2.3; ECE SGI Origin2000; 8 Processors; is_A_8_sgi; Class A=23.0

NAS Parallel IS Benchmark 2.3; ECE SGI Origin2000; 8 Processors; is_A_8_sgi

NAS Parallel IS Benchmark 2.3; ECE SGI Origin2000; 4 Processors; is_A_4_sgi; Class A=23.0

NAS Parallel IS Benchmark 2.3; ECE SGI Origin2000; 2 Processors; is_A_2_sgi; Class A=23.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 2 Processors; is_S_2_sp2; Class S=16.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 4 Processors; is_S_4_sp2; Class S=16.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 8 Processors; is_S_8_sp2; Class S=16.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 16 Processors; is_S_16_sp2; Class S=16.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 32 Processors; is_S_32_sp2; Class S=16.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 32 Processors; is_W_32_sp2

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 16 Processors; is_W_16_sp2

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 8 Processors; is_W_8_sp2; Class W=20.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 4 Processors; is_W_4_sp2; Class W=20.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 2 Processors; is_W_2_sp2; Class W=20.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 2 Processors; is_A_2_sp2; Class A=23.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 4 Processors; is_A_4_sp2; problem size=23.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 8 Processors; is_A_8_sp2

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 16 Processors; is_A_16_sp2; Class A=23.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 32 Processors; is_A_32_sp2; Class A=23.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 32 Processors; is_B_32_sp2; Class B=25.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 16 Processors; is_B_16_sp2; Class B=25.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 8 Processors; is_B_8_sp2; problem size=25.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 4 Processors; is_B_4_sp2; problem size=25.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 16 Processors; is_C_16_sp2; problem size=27.0

NAS Parallel IS Benchmark 2.3; IBM SP2 at ANL; 32 Processors; is_C_32_sp2; problem size=27.0

Parallel Molecular Dynamics 1.0; ECE SGI Origin2000; 4 Processors; md_4_sgi; 125 atoms=125.0

Serial Molecular Dynamics 1.0; ECE SGI Origin2000; 1 Processors; md_sgi; 125 atoms=125.0

NAS Parallel FT Benchmark 2.0; IBM SPs at ANL; 4 Processors; ft.A.4; Class A=256.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 2 Processors; ft.A.2; Class A=256.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 8 Processors; ft.A.8; Class A=256.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 16 Processors; ft.A.16; Class A=256.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 32 Processors; ft.A.32; Class A=256.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 32 Processors; ft.C.32; Class C=512.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 32 Processors; ft.B.32; Class B=512.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 16 Processors; ft.B.16; Class B=512.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 8 Processors; ft.B.8; Class B=512.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 32 Processors; ft.W.32; Class W=128.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 16 Processors; ft.W.16; Class W=128.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 8 Processors; ft.W.8; Class W=128.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 4 Processors; ft.W.4; Class W=128.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 2 Processors; ft.W.2; Class W=128.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 2 Processors; ft.S.2; Class S=64.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 4 Processors; ft.S.4; Class S=64.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 8 Processors; ft.S.8; Class S=64.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 16 Processors; ft.S.16; Class S=64.0

NAS Parallel FT Benchmark 2.0; IBM SP2 at ANL; 32 Processors; ft.S.32; Class S=64.0

NAS Sequential FT Benchmarks 2.0; IBM SP at ANL; 1 Processors; ft.A; Problem Size=256.0

NAS Sequential FT Benchmarks 2.0; IBM SP2 at ANL; 1 Processors; ft.S

NAS Sequential MG Benchmarks 2.0; IBM SP2 at ANL; 1 Processors; mg.S; Class S=32.0

NAS Sequential MG Benchmarks 2.0; IBM SP2 at ANL; 1 Processors; mg.W; Class W=64.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 2 Processors; mg.S.2; Class S=32.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 2 Processors; mg.W.2; Class W=64.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 4 Processors; mg.B.4; Class B=256.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 4 Processors; mg.A.4; Class A=256.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 4 Processors; mg.W.4; Class W=64.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 4 Processors; mg.S.4; Class S=32.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 8 Processors; mg.S.8; Class S=32.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 8 Processors; mg.W.8; Class W=64.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 8 Processors; mg.A.8; Class A=256.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 8 Processors; mg.B.8; Class B=256.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 16 Processors; mg.B.16; Class B=256.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 16 Processors; mg.A.16; Class A=256.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 16 Processors; mg.W.16; Class W=64.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 16 Processors; mg.S.16; Class S=32.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 32 Processors; mg.S.32; Class S=32.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 32 Processors; mg.W.32; Class W=64.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 32 Processors; mg.A.32; Class A=256.0

NAS Parallel MG Benchmarks 2.0; IBM SP2 at ANL; 32 Processors; mg.B.32; Class B=256.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 2 Processors; ep.S.2; Class S=24.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 2 Processors; ep.W.2; Class W=25.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 2 Processors; ep.A.2; Class A=28.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 2 Processors; ep.B.2; Class B=30.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 2 Processors; ep.C.2; Class C=32.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 4 Processors; ep.C.4; Class C=32.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 4 Processors; ep.B.4; Class B=30.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 4 Processors; ep.A.4; Class A=28.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 4 Processors; ep.W.4; Class W=25.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 4 Processors; ep.S.4; Class S=24.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 8 Processors; ep.S.8; Class S=24.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 8 Processors; ep.W.8; Class W=25.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 8 Processors; ep.A.8; Class A=28.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 8 Processors; ep.B.8; Class B=30.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 8 Processors; ep.C.8; Class C=32.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 16 Processors; ep.C.16; Class C=32.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 16 Processors; ep.B.16; Class B=30.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 16 Processors; ep.A.16; Class A=28.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 16 Processors; ep.S.16; Class S=24.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 32 Processors; ep.S.32; Class S=24.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 32 Processors; ep.W.32; Class W=25.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 32 Processors; ep.A.32; Class A=28.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 32 Processors; ep.B.32; Class B=30.0

NAS Parallel EP Benchmarks 2.0; IBM SP2 at ANL; 32 Processors; ep.C.32; Class C=32.0

NAS Sequential EP Benchmarks 2.0; IBM SP2 at ANL; 1 Processors; ep.S; Class S=24.0

NAS Sequential EP Benchmarks 2.0; IBM SP2 at ANL; 1 Processors; ep.W; Class W=25.0

NAS Sequential EP Benchmarks 2.0; IBM SP2 at ANL; 1 Processors; ep.A; Class A=28.0

NAS Sequential EP Benchmarks 2.0; IBM SP2 at ANL; 1 Processors; ep.B; Class B=30.0

NAS Sequential EP Benchmarks 2.0; IBM SP2 at ANL; 1 Processors; ep.C; Class C=32.0

NAS Parallel BT Benchmarks 2.0; IBM SP2 at ANL; 4 Processors; bt.W.4.sp2; Class W=24.0

NAS Parallel BT Benchmarks 2.0; IBM SP2 at ANL; 9 Processors; bt.W.9.sp2; Class W=24.0

NAS Parallel BT Benchmarks 2.0; IBM SP2 at ANL; 16 Processors; bt.W.16.sp2; Class W=24.0

NAS Parallel BT Benchmarks 2.0; IBM SP2 at ANL; 25 Processors; bt.W.25.sp2; Class W=24.0

NAS Parallel BT Benchmarks 2.0; IBM SP2 at ANL; 4 Processors; bt.A.4.sp2; Class A=64.0

NAS Parallel BT Benchmarks 2.0; IBM SP2 at ANL; 9 Processors; bt.A.9.sp2; Class A=64.0

NAS Parallel BT Benchmarks 2.0; IBM SP2 at ANL; 16 Processors; bt.A.16.sp2; Class A=64.0

NAS Parallel BT Benchmarks 2.0; IBM SP2 at ANL; 25 Processors; bt.A.25.sp2; Class A=64.0

NAS Parallel BT Benchmarks 2.0; Linux supercluster at UNM; 4 Processors; bt.W.4; Class W=24.0

NAS Parallel BT Benchmarks 2.0; Linux supercluster at UNM; 9 Processors; bt.W.9; Class W=24.0

NAS Parallel BT Benchmarks 2.0; Linux supercluster at UNM; 16 Processors; bt.W.16; Class W=24.0

NAS Parallel BT Benchmarks 2.0; Linux supercluster at UNM; 25 Processors; bt.W.25; Class W=24.0

NAS Parallel BT Benchmarks 2.0; Linux supercluster at UNM; 4 Processors; bt.B.4; Class B=102.0

NAS Parallel BT Benchmarks 2.0; Linux supercluster at UNM; 9 Processors; bt.B.9; Class B=102.0

NAS Parallel BT Benchmarks 2.0; Linux supercluster at UNM; 16 Processors; bt.B.16; Class B=102.0

NAS Parallel BT Benchmarks 2.0; Linux supercluster at UNM; 25 Processors; bt.B.25; Class B=102.0

TPM 1.0; NCSA IA-64; 8 Processors; tpm; problem size=128.0

svpablo application 1.0; NCSA IA64; 4 Processors; svapp4; problem size=128.0

TPM code 1.1; NCSA IA-64; 4 Processors; tpm4; problem size=128.0

TPM code 1.1; NCSA IA-64; 8 Processors; tpm8; problem size=128.0

TPM code 1.1; NCSA IA-64; 32 Processors; tpm32; problem size=128.0

TPM code 1.1; NCSA IA-64; 64 Processors; tpm64; problem size=128.0

TPM code 1.1; NCSA IA-64; 16 Processors; tpm16; problem size=128.0

TPM code 1.1; NCSA IA-64; 128 Processors; tpm128; problem size=128.0

Howdy 1.0; RH Linux9.0; 1 Processors; HelloWorld_s_linux; problem size=10000.0

Howdy 1.0; RH Linux9.0; 1 Processors; HelloWorld_s_linux; problem size=1000.0

Howdy 1.0; RH Linux9.0; 1 Processors; HelloWorld_s_linux; problem size=2000.0

Howdy 1.0; RH Linux9.0; 1 Processors; HelloWorld_s_linux; problem size=3000.0

Howdy 1.0; RH Linux9.0; 1 Processors; HelloWorld_s_linux; problem size=4000.0

Howdy 1.0; RH Linux9.0; 1 Processors; HelloWorld_s_linux; problem size=5000.0

Howdy 1.0; RH Linux9.0; 1 Processors; HelloWorld_s_linux; problem size=6000.0

Howdy 1.0; RH Linux9.0; 1 Processors; HelloWorld_s_linux; problem size=7000.0

Howdy 1.0; RH Linux9.0; 1 Processors; HelloWorld_s_linux; problem size=8000.0

Howdy 1.0; RH Linux9.0; 1 Processors; HelloWorld_s_linux; problem size=9000.0

Howdy 1.0; SunOS 5.8; 1 Processors; HelloWorld_s_sun; problem size=10000.0

Howdy 1.0; SunOS 5.8; 1 Processors; HelloWorld_s_sun; problem size=1000.0

Howdy 1.0; SunOS 5.8; 1 Processors; HelloWorld_s_sun; problem size=2000.0

Howdy 1.0; SunOS 5.8; 1 Processors; HelloWorld_s_sun; problem size=3000.0

Howdy 1.0; SunOS 5.8; 1 Processors; HelloWorld_s_sun; problem size=4000.0

Howdy 1.0; SunOS 5.8; 1 Processors; HelloWorld_s_sun; problem size=5000.0

Howdy 1.0; SunOS 5.8; 1 Processors; HelloWorld_s_sun; problem size=6000.0

Howdy 1.0; SunOS 5.8; 1 Processors; HelloWorld_s_sun; problem size=7000.0

Howdy 1.0; SunOS 5.8; 1 Processors; HelloWorld_s_sun; problem size=8000.0

Howdy 1.0; SunOS 5.8; 1 Processors; HelloWorld_s_sun; problem size=9000.0

Howdy 1.0; SGI Origin2000; 1 Processors; HelloWorld_s_sgi2000; problem size=10000.0

Howdy 1.0; SGI Origin2000; 1 Processors; HelloWorld_s_sgi2000; problem size=1000.0

Howdy 1.0; SGI Origin2000; 1 Processors; HelloWorld_s_sgi2000; problem size=2000.0

Howdy 1.0; SGI Origin2000; 1 Processors; HelloWorld_s_sgi2000; problem size=3000.0

Howdy 1.0; SGI Origin2000; 1 Processors; HelloWorld_s_sgi2000; problem size=4000.0

Howdy 1.0; SGI Origin2000; 1 Processors; HelloWorld_s_sgi2000; problem size=5000.0

Howdy 1.0; SGI Origin2000; 1 Processors; HelloWorld_s_sgi2000; problem size=6000.0

Howdy 1.0; SGI Origin2000; 1 Processors; HelloWorld_s_sgi2000; problem size=7000.0

Howdy 1.0; SGI Origin2000; 1 Processors; HelloWorld_s_sgi2000; problem size=8000.0

Howdy 1.0; SGI Origin2000; 1 Processors; HelloWorld_s_sgi2000; problem size=9000.0

Howdy 1.0; IMB Regatta@TAMU; 1 Processors; HelloWorld_s_sp2; problem size=10000.0

Howdy 1.0; IBM Regatta@TAMU; 1 Processors; HelloWorld_s_sp2; problem size=1000.0

Howdy 1.0; IBM Regatta; 1 Processors; HelloWorld_s_sp2; problem size=2000.0

Howdy 1.0; IBM Regatta; 1 Processors; HelloWorld_s_sp2

Howdy 1.0; IBM Regatta; 16 Processors; HelloWorld_s_sp2

Howdy 1.0; IBM Regatta; 4 Processors; HelloWorld_s_sp2; problem size=3000.0

Howdy 1.0; IBM Regatta; 5 Processors; HelloWorld_s_sp2

Howdy 1.0; IBM Regatta; 3 Processors; HelloWorld_s_sp2

Howdy 1.0; IBM Regatta; 3 Processors; HelloWorld_s_sp2; problem size=4000.0

Howdy 1.0; IBM Regatta; 4 Processors; HelloWorld_s_sp2

Howdy 1.0; IBM Regatta; 5 Processors; HelloWorld_s_sp2; problem size=5000.0

Howdy 1.0; IBM Regatta; 1 Processors; HelloWorld_s_sp2; problem size=500.0

Howdy 1.0; IBM Regatta; 1 Processors; HelloWorld_s_sp2; problem size=6000.0

Howdy 1.0; IBM Regatta; 1 Processors; HelloWorld_s_sp2; problem size=7000.0

Howdy 1.0; IBM Regatta; 1 Processors; HelloWorld_s_sp2; problem size=8000.0

Howdy 1.0; IBM Regatta; 1 Processors; HelloWorld_s_sp2; problem size=9000.0

Howdy 1.0; IBM Regatta; 8 Processors; HelloWorldP_sp2; problem size=1000.0

Howdy 1.0; IBM Regatta; 8 Processors; HelloWorldP_sp2

Howdy_p 1.0; IBM Regatta; 8 Processors; HelloWorld_p; problem size=1000.0

Howdy_p 1.0; IBM Regatta; 8 Processors; HelloWorld_p; problem size=2000.0