THE FEASIBILITY STUDY OF RUNNING HPC WORKLOADS ON COMPUTATIONAL CLOUDS

Purvi Pathak; Kumar R

doi:10.22159/ajpcr.2017.v10s1.20507

Authors

Purvi Pathak School of Computing Science and Engineering, VIT University, Chennai, Tamil Nadu, India.
Kumar R School of Computing Science and Engineering, VIT University, Chennai, Tamil Nadu, India.

DOI:

https://doi.org/10.22159/ajpcr.2017.v10s1.20507

Keywords:

Cloud computing, OpenStack, High-performance computing applications, Private cloud

Abstract

High-performance computing (HPC) applications require high-end computing systems, but not all scientists have access to such powerful systems. Cloud computing provides an opportunity to run these applications on the cloud without the requirement of investing in high-end parallel computing systems. We can analyze the performance of the HPC applications on private as well as public clouds. The performance of the workload on the cloud can be calculated using different benchmarking tools such as NAS parallel benchmarking and Rally. The workloads of HPC applications require use of many parallel computing systems to be run on a physical setup, but this facility is available on cloud computing environment without the need of investing in physical machines. We aim to analyze the ability of the cloud to perform well when running HPC workloads. We shall get the detailed performance of the cloud when running these applications on a private cloud and find the pros and cons of running HPC workloads on cloud environment.

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References

Sadooghi I, Martin JH, Li T, Brandstatter K, Maheshwari K, de Lacerda Ruivo TP . Understanding the Performance and Potential of Cloud Computing for Scientific Applications . IEEE Transactions on Cloud

Computing; 2015.

Juve G, Deelman E, Vahi K, Mehta G, Berman BP, Berrima B, Maechling P. Scientific Workflow Applications on Amazon EC2.

Wang G, Ng TS. The Impact of Virtualization on Network Performance of Amazon EC2 Data Center. IEEE; 2010.

Walker E. Benchmarking Amazon EC2 for High-Performance Scientific Computing. In: USENIX; Login: Magazine, October; 2008.

Juve G, Deelman E, Berman BP, Berriman B, Maechling P. An Evaluation of the Cost and Performance of Scientific Workflows on Amazon EC2. IEEE; 2009.

Vecchiola C, Pandey S, Buyya R . High-performance Cloud Computing: A View of Scientific Applications.

Jackson KR, Muriki K, Canon S, Cholia S, Shalf J, Wasserman HJ, Wright NJ. Performance Analysis of High Performance Computing Applications on the Amazon Web Services Cloud. IEEE; 2010.

Castro H, Villamizar M, GarcÂ´es O, PÂ´erez J, Caliz R, Arteaga PF. Facilitating the Execution of HPC Workloads in Colombia through the integration of a Private IaaS and a Scientific PAAS/SAAS Marketplace. IEEE; 2016.

Dhuldhule P, Lakshmi J, Nandy SK. High Performance Computing Cloud - a Platform-as-a-Service Perspective. IEEE; 2015.

Zhao Y, Hategan M, Clifford B, Foster I, von Laszewski G, Nefedova V, et al. Swift: Fast, Reliable, Loosely Coupled Parallel Computation. IEEE; 2007.

Available from: http://www.docs.openstack.org/ops-guide/archstorage. html.

Available from: https://www.github.com/openhpc/ohpc.

Available from: https://www.nas.nasa.gov/publications/npb.html.

Available from: http://www.davidhbailey.com/dhbpapers/npb-encycpc. pdf.

Available from: https://www.rally.readthedocs.io/en/latest/.

Available from: http://www.rc.arizona.edu/hpc-htc/high-performancecomputing- high-throughput-computing.

Available from: http://www.citeseerx.ist.psu.edu/viewdoc/ download doi=10.1.1.160.9183&rep= rep

&type=pdf.