FusionSim: Characterizing the Performance Benefits of Fused CPU/GPU Systems

FusionSim: Characterizing the Performance Benefits of Fused CPU/GPU Systems

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We present FusionSim, a modeling framework capable of cycle-accurate simulation of a complete x86-based computer system with (a) a CPU and a GPU on the same die, and (b) a CPU and a GPU connected as separate components. We use FusionSim to characterize the performance of the Rodinia benchmarks on fu...

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Bibliographic Details
Main Author: Zakharenko, Vitaly
Other Authors: Moshovos, Andreas
Language:en_ca
Published: 2012
Subjects:
fusionsim
fused system
0544
Online Access:http://hdl.handle.net/1807/33618
Description
Summary:We present FusionSim, a modeling framework capable of cycle-accurate simulation of a complete x86-based computer system with (a) a CPU and a GPU on the same die, and (b) a CPU and a GPU connected as separate components. We use FusionSim to characterize the performance of the Rodinia benchmarks on fused and discrete systems. We demonstrate that the speed-up due to fusion is highly correlated with the input data size. We demonstrate that for benchmarks that benefit most from fusion, a 9.72x speed-up is possible for small problem sizes. This speedup reduces to 1.84x with medium problem sizes. We study a software-managed coherence solution for the fused system. We find that it imposes a minor performance overhead of 2% for most benchmarks. Finally, we develop an analytical model for the performance benefit that is to be expected from fusion and show that FusionSim follows the predicted performance trend.

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