حوسبة على مستوى پيتا

(تم التحويل من مقياس پـِتا)

حوسبة على مستوى پيتا Petascale computing تشير إلى أنظمة حواسب قادرة على إجراء عمليات حسابية بسرعة تفوق 1015 floating point operations per second (1 petaFLOPS). Petascale computing allowed faster processing of traditional supercomputer applications. The first system to reach this milestone was the IBM Roadrunner in 2008. Petascale supercomputers were succeeded by exascale computers.

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التعريف

Floating point operations per second (FLOPS) are one measure of computer performance. FLOPS can be recorded in different measures of precision, however the standard measure (used by the TOP500 supercomputer list) uses 64 bit (double-precision floating-point format) operations per second using the High Performance LINPACK (HPLinpack) benchmark.[1][2]

The metric typically refers to single computing systems, although can be used to measure distributed computing systems for comparison. It can be noted that there are alternative precision measures using the LINPACK benchmarks which are not part of the standard metric/definition.[2] It has been recognised that HPLinpack may not be a good general measure of supercomputer utility in real world application, however it is the common standard for performance measurement.[3][4]


التاريخ

The petaFLOPS barrier was first broken on 16 September 2007 by the distributed computing Folding@home project.[بحاجة لمصدر] The first single petascale system, the Roadrunner, entered operation in 2008.[5] The Roadrunner, built by IBM, had a sustained performance of 1.026 petaFLOPS. The Jaguar became the second computer to break the petaFLOPS milestone, later in 2008, and reached a performance of 1.759 petaFLOPS after a 2009 update.[6]

By 2018, Summit had become the world's most powerful supercomputer, at 200 petaFLOPS before Fugaku reached 415 petaFLOPS in June 2020.

انظر أيضاً

المراجع

  1. ^ "FREQUENTLY ASKED QUESTIONS". www.top500.org. Retrieved 23 June 2020.
  2. ^ أ ب Kogge, Peter, ed. (1 May 2008). ExaScale Computing Study: Technology Challenges in Achieving Exascale Systems (PDF). United States Government. Retrieved 28 September 2008.
  3. ^ Bourzac, Katherine (November 2017). "Supercomputing poised for a massive speed boost". Nature. 551 (7682): 554–556. doi:10.1038/d41586-017-07523-y. Retrieved 3 June 2022.
  4. ^ Reed, Daniel; Dongarra, Jack. "Exascale Computing and Big Data: The Next Frontier" (PDF). Retrieved 3 June 2022.
  5. ^ National Research Council (U.S.) (2008). The potential impact of high-end capability computing on four illustrative fields of science and engineering. The National Academies. p. 11. ISBN 978-0-309-12485-0.
  6. ^ National Center for Computational Sciences (NCCS) (2010). "World's Most Powerful Supercomputer for Science!". NCCS. Archived from the original on 2009-11-27. Retrieved 2010-06-26.

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