001322444 001__ 1322444
001322444 003__ SzGeCERN
001322444 005__ 20161219115325.0
001322444 0248_ $$aoai:cds.cern.ch:1322444$$pcerncds:CERN$$pcerncds:CERN:FULLTEXT$$pcerncds:FULLTEXT
001322444 037__ $$aCERN-IT-2011-005
001322444 041__ $$aeng
001322444 100__ $$aNowak, A$$uCERN
001322444 245__ $$aThe breaking point of modern processor and platform technology
001322444 260__ $$c2011
001322444 269__ $$aGeneva$$bCERN$$c17 Jan 2011
001322444 300__ $$a6 p
001322444 500__ $$aSubmitted to CHEP 2010 proceedings
001322444 520__ $$aThis work is an overview of state of the art processors used in High Energy Physics, their architecture and an extensive outline of the forthcoming technologies. Silicon process science and hardware design are making constant and rapid progress, and a solid grasp of these developments is imperative to the understanding of their possible future applications, which might include software strategy, optimizations, computing center operations and hardware acquisitions. In particular, the current issue of software and platform scalability is becoming more and more noticeable, and will develop in the near future with the growing core count of single chips and the approach of certain x86 architectural limits. Other topics brought forward include the hard, physical limits of innovation, the applicability of tried and tested computing formulas to modern technologies, as well as an analysis of viable alternate choices for continued development.
001322444 540__ $$3Preprint$$aCC-BY-3.0
001322444 542__ $$3Preprint$$dCERN$$g2011
001322444 595__ $$aCERN EDS
001322444 65017 $$2SzGeCERN$$aComputing and Computers
001322444 6531_ $$9CERN$$ax86
001322444 6531_ $$9CERN$$amulti-core
001322444 6531_ $$9CERN$$amulti-threading
001322444 6531_ $$9CERN$$amany-core
001322444 6531_ $$9CERN$$amanycore
001322444 6531_ $$9CERN$$amulticore
001322444 6531_ $$9CERN$$amultithreading
001322444 6531_ $$9CERN$$aprocessor
001322444 6531_ $$9CERN$$acpu
001322444 6531_ $$9CERN$$aintel
001322444 6531_ $$9CERN$$aamd
001322444 6531_ $$9CERN$$aarchitecture
001322444 6531_ $$9CERN$$ashrink
001322444 6531_ $$9CERN$$aWLCG
001322444 6531_ $$9CERN$$ahep
001322444 6531_ $$9CERN$$aC++
001322444 6531_ $$9CERN$$avector
001322444 6531_ $$9CERN$$amoore's law
001322444 6531_ $$9CERN$$aTDP
001322444 6531_ $$9CERN$$aNehalem
001322444 6531_ $$9CERN$$aWestmere
001322444 6531_ $$9CERN$$aSandy Bridge
001322444 6531_ $$9CERN$$anuma
001322444 6531_ $$9CERN$$aMIC
001322444 6531_ $$9CERN$$ascc
001322444 6531_ $$9CERN$$athreading
001322444 690C_ $$aCERN
001322444 690C_ $$aPREPRINT
001322444 700__ $$aJarp, S
001322444 700__ $$aLazzaro, A
001322444 700__ $$aLeduc, J$$uCERN
001322444 710__ $$5IT
001322444 710__ $$gCERN openlab Collaboration
001322444 859__ [email protected]
001322444 8564_ $$uhttp://cds.cern.ch/record/1322444/files/CERN-IT-2011-005.pdf
001322444 916__ $$sn$$w201103
001322444 960__ $$a11
001322444 961__ $$c20110117$$h1447$$lCER01$$x20110117
001322444 963__ $$aPUBLIC
001322444 962__ $$b1266613$$ntaipei20101018
001322444 970__ $$a000712264CER
001322444 980__ $$aPREPRINT
001322444 980__ $$aConferencePaper