distributed file systems / file data distribution algorithm / metadata management / metadata elsetional and more modern distributed file systems / large general-purpose file systems / clusters interconnect network / large file systems / individual metadata server / file systems / scientific computing applications / object-based storage systems / simumanagement systems / petabyte-scale distributed file systems / deterministic pseudo-random algorithm / scientific computing workloads / large storage systems / scientific computing environments / object-based storage devices / purpose computing / primitive load balancing algorithm / distributed metadata management / metadata server / scientific and general purpose computing workloads / actual file systems / data management / scientific computing clusters / recent systems / simplest solutions / correct metadata server / Internet Archive / load balancing algorithm / dynamic distribution algorithm / client applications / large distributed storage systems / generic hardware / local file systems / prototype real-time workload distribution algorithm / Intelligent object storage devices / /
OperatingSystem
POSIX / /
Organization
University of California / Santa Cruz / /
Person
Ethan L. Miller / Kristal T. Pollack / Scott A. Brandt / /
Position
administrator / forward / /
ProvinceOrState
California / /
Technology
dynamic distribution algorithm / RAM / load balancing algorithm / deterministic pseudo-random algorithm / cache memory / access control list / file data distribution algorithm / prototype real-time workload distribution algorithm / load balancing / caching / simulation / primitive load balancing algorithm / flash / /
Dynamic Metadata Management for Petabyte-scale File Systems†Sage A. Weil [removed] Kristal T. Pollack [removed]