Brad Settlemyer scite author profile

Brad Settlemyer

4Publications

37Citation Statements Received

56Citation Statements Given

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Affiliations

Los Alamos National Laboratory, Oak Ridge National Laboratory, Argonne National Laboratory

Publications

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BurstMem: A high-performance burst buffer system for scientific applications

Wang

Oral

Wang

et al. 2014

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The growth of computing power on large-scale systems requires commensurate high-bandwidth I/O systems. Many parallel file systems are designed to provide fast sustainable I/O in response to applications' soaring requirements. To meet this need, a novel system is imperative to temporarily buffer the bursty I/O and gradually flush datasets to long-term parallel file systems. In this paper, we introduce the design of BurstMem, a high-performance burst buffer system. BurstMem provides a storage framework with efficient storage and communication management strategies. Our experiments demonstrate that BurstMem is able to speed up the I/O performance of scientific applications by up to 8.5× on leadership computer systems.

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Methodology for the Rapid Development of Scalable HPC Data Services

Dorier

Carns

Harms

et al. 2018

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There is growing evidence in the scientifc computing community that parallel file systems are not sufficient for all HPC storage workloads. This realization has motivated extensive research in new storage system designs. The question of which alternative we should turn towards implies that there could be a single answer satisfying a wide range of very diverse applications.We argue that such a generic solution does not exist. Instead, custom data services should be designed and tailored to the needs of specific applications on specific hardware. Furthermore, custom data services should be designed in close collaboration with users. In this paper, we present a methodology for the rapid development of such data services. This methodology promotes the design of reusable building blocks that can be composed together efficiently through a runtime based on high-performance threading, tasking, and remote procedure calls. We illustrate the success of our methodology by showcasing three examples of data services designed from the same building blocks, yet targeting entirely different applications.

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Extreme Protection Against Data Loss with Single-Overlap Declustered Parity

Gunawi

Bonnie

et al. 2020

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Bent

Settlemyer

Bao

et al. 2015

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Brad Settlemyer

BurstMem: A high-performance burst buffer system for scientific applications

Methodology for the Rapid Development of Scalable HPC Data Services

Extreme Protection Against Data Loss with Single-Overlap Declustered Parity

BAD-check

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