Fault Recovery Designs for Processor-Embedded Distributed Storage Architectures with I/O-Intensive DB Workloads
Apr. 11, 2005 to Apr. 14, 2005
Steve C. Chiu , Benedict College
Alok N. Choudhary , Northwestern University
Mahmut T. Kandemir , Penn State University
DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/MSST.2005.15
Fault recovery has become an essential capability for systems that process large data-intensive workloads. Processor-embedded distributed storage architectures offload user-level processing to the peripheral from the host servers. Our earlier work investigated the performance benefits of such architectures for disk- and MEMS-based smart storage devices. In this paper, we focus on the issue of fault recovery. We propose recovery schemes for TPC-H based workloads, and evaluate several recovery scenarios applicable to both disk- and MEMS-based smart storage architectures.
Steve C. Chiu, Alok N. Choudhary, Mahmut T. Kandemir, "Fault Recovery Designs for Processor-Embedded Distributed Storage Architectures with I/O-Intensive DB Workloads", MSST, 2005, Mass Storage Systems and Technologies, IEEE / NASA Goddard Conference on, Mass Storage Systems and Technologies, IEEE / NASA Goddard Conference on 2005, pp. 278-285, doi:10.1109/MSST.2005.15