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CLUSTER
2008
IEEE
2008
IEEE
Benchmarking the effects of operating system interference on extreme-scale parallel machines
We investigate operating system noise, which we identify as one of the main reasons for a lack of synchronicity in parallel applications. Using a microbenchmark, we measure the noise on several contemporary platforms and find that, even with a general-purpose operating system, noise can be limited if certain precautions are taken. We then inject artificially generated noise into a massively parallel system and measure its influence on the performance of collective operations. Our experiments indicate that on extreme-scale platforms, the performance is correlated with the largest interruption to the application, even if the probability of such an interruption on a single process is extremely small. We demonstrate that synchronizing the noise can significantly reduce its negative influence.
Real-time TrafficCLUSTER 2008 | Distributed And Parallel Computing | General-purpose Operating System | Main Reasons | Parallel Applications |
| Added | 09 Dec 2010 |
| Updated | 09 Dec 2010 |
| Type | Journal |
| Year | 2008 |
| Where | CLUSTER |
| Authors | Peter H. Beckman, Kamil Iskra, Kazutomo Yoshii, Susan Coghlan, Aroon Nataraj |
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