- May 21, 2001
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I was upgrading one of my Computational Fluid Dynamic programs when I suddenly realized that you people might enjoy seeing a real life computational benchmark. I don't know why I never gave this link before... It is in an area where most people never get the chance to see benchmarks in - repetative floating point math. Usually we see game benchmarks, office benchmarks, and some graphics benchmarks that depend more on the specific filter than anything else (photoshop anyone). I'll list just the AMD MP 2000+ and Intel Xeon 2.0 GHz results (You can read it yourself if you want to see others). Higher scores are better, scores are for single processor and dual processor simulations.
Model: Accelerating turbulent flow in an elbow duct.
MP: 835/1436 -- Xeon: 910/1475
Model: Accelerating turbulent flow in an elbow duct (different solution method).
MP: 906/1692 -- Xeon: 1034/1882
Model: Transonic flow in rotating fan
MP: 455/919 -- Xeon: 564/1073
Model: Coal combustion in a boiler
MP: 224/368 -- Xeon: 216/404
Model: Turbulent flow in an engine valveport
MP: 382/602 -- Xeon: 401/643
Model: Combustion in a high velocity burner
MP: 67/135 -- Xeon: 85/148
Model: Transonic flow around a fighter aircraft
MP: 50/107 -- Xeon: 56/108
Model: Exterior flow around a passenger sedan
MP: 35/62 -- Xeon: 39/74
Fluent Software Link.
Model: Accelerating turbulent flow in an elbow duct.
MP: 835/1436 -- Xeon: 910/1475
Model: Accelerating turbulent flow in an elbow duct (different solution method).
MP: 906/1692 -- Xeon: 1034/1882
Model: Transonic flow in rotating fan
MP: 455/919 -- Xeon: 564/1073
Model: Coal combustion in a boiler
MP: 224/368 -- Xeon: 216/404
Model: Turbulent flow in an engine valveport
MP: 382/602 -- Xeon: 401/643
Model: Combustion in a high velocity burner
MP: 67/135 -- Xeon: 85/148
Model: Transonic flow around a fighter aircraft
MP: 50/107 -- Xeon: 56/108
Model: Exterior flow around a passenger sedan
MP: 35/62 -- Xeon: 39/74
Fluent Software Link.
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