When Jobs Play Nice: The Case For Symbiotic Space-Sharing

Paris June 19-June 23

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http://doi.ieeecomputersociety.org/10.1109/HPDC.2006.1652184

2006 15th IEEE International Conferen ...

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	W. Weinberg, A. Snavely, "When Jobs Play Nice: The Case For Symbiotic Space-Sharing," High-Performance Distributed Computing, International Symposium on, pp. 361-362, 2006 15th IEEE International Conference on High Performance Distributed Computing, 2006.

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	@article{ 10.1109/HPDC.2006.1652184, author = {W. Weinberg and A. Snavely}, title = {When Jobs Play Nice: The Case For Symbiotic Space-Sharing}, journal ={High-Performance Distributed Computing, International Symposium on}, volume = {0}, year = {2006}, isbn = {1-4244-0307-3}, pages = {361-362}, doi = {http://doi.ieeecomputersociety.org/10.1109/HPDC.2006.1652184}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

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	TY - CONF JO - High-Performance Distributed Computing, International Symposium on TI - When Jobs Play Nice: The Case For Symbiotic Space-Sharing SN - 1-4244-0307-3 SP361 EP362 A1 - W. Weinberg, A1 - A. Snavely, PY - 2006 KW - system throughput KW - symbiotic space-sharing KW - large HPC platform KW - parallel application KW - resources sharing KW - memory resource bottleneck KW - I/O bottleneck KW - prototype scheduler VL - 0 JA - High-Performance Distributed Computing, International Symposium on ER -

W. Weinberg, San Diego Supercomput. Center, California Univ., San Diego, La Jolla, CA

A. Snavely, San Diego Supercomput. Center, California Univ., San Diego, La Jolla, CA

Using a large HPC platform, we investigate the effectiveness of "symbiotic space-sharing", a technique that improves system throughput by executing parallel applications in combinations and configurations that alleviate pressure on shared resources. We demonstrate that relevant benchmarks commonly suffer a 10-60% penalty in runtime efficiency due to memory resource bottlenecks and up to several orders of magnitude for I/O. We show that this penalty can be often mitigated, and sometimes virtually eliminated, by symbiotic space-sharing techniques and deploy a prototype scheduler that leverages these findings to improve system throughput by 20%

Index Terms:

system throughput, symbiotic space-sharing, large HPC platform, parallel application, resources sharing, memory resource bottleneck, I/O bottleneck, prototype scheduler

Citation:

W. Weinberg, A. Snavely, "When Jobs Play Nice: The Case For Symbiotic Space-Sharing," hpdc, pp.361-362, 2006 15th IEEE International Conference on High Performance Distributed Computing, 2006

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