Kamil Iskra scite author profile

Developing and tuning computational science applications to run on extreme scale systems are increasingly complicated processes. Challenges such as managing memory access and tuning message-passing behavior are made easier by tools designed specifically to aid in these processes. Tools that can help users better understand the behavior of their application with respect to I/O have not yet reached the level of utility necessary to play a central role in application development and tuning. This deficiency in the tool set means that we have a poor understanding of how specific applications interact with storage. Worse, the community has little knowledge of what sorts of access patterns are common in today's applications, leading to confusion in the storage research community as to the pressing needs of the computational science community. This paper describes the Darshan I/O characterization tool. Darshan is designed to capture an accurate picture of application I/O behavior, including properties such as patterns of access within files, with the minimum possible overhead. This characterization can shed important light on the I/O behavior of applications at extreme scale. Darshan also can enable researchers to gain greater insight into the overall patterns of access exhibited by such applications, helping the storage community to understand how to best serve current computational science applications and better predict the needs of future applications. In this work we demonstrate Darshan's ability to characterize the I/O behavior of four scientific applications and show that it induces negligible overhead for I/O intensive jobs with as many as 65,536 processes.

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Toward loosely coupled programming on petascale systems

Raicu

Zhang

Wilde

et al. 2008

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Abstract-We have extended the Falkon execution framework to make loosely coupled petascale systems a practical and useful prog This work studies and measures the perf involved in applying this approach to enable th systems by a broader user community, and w Our work enables the execution of highly para composed of loosely coupled serial jobs with no the respective applications. This approach all potentially far larger-class of applications to l systems, such as the IBM Blue Gene/P sup present the challenges of I/O performance encou this model practical, and show resul microbenchmarks and real applications from economic energy modeling and molecular benchmarks show that we can scale up to 160K with high efficiency, and can achieve sustained thousands of tasks per second.

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Scalable I/O forwarding framework for high-performance computing systems

et al. 2009

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The distributed ASCI Supercomputer project

Bal

Bhoedjang

Hofman

et al. 2000

SIGOPS Oper. Syst. Rev.

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The Distributed ASCI Supercomputer (DAS) is a homogeneous wide-area distributed system consisting of four cluster computers at different locations. DAS has been used for research on communication software, parallel languages and programming systems, schedulers, parallel applications, and distributed applications. The paper gives a preview of the most interesting research results obtained so far in the DAS project.

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The Influence of Operating Systems on the Performance of Collective Operations at Extreme Scale

Beckman

Iskra

Yoshii

et al. 2006

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scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

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Kamil Iskra

24/7 Characterization of petascale I/O workloads

Toward loosely coupled programming on petascale systems

Scalable I/O forwarding framework for high-performance computing systems

The distributed ASCI Supercomputer project

The Influence of Operating Systems on the Performance of Collective Operations at Extreme Scale

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