Blue Gene/L, a System-On-A-Chip.
George S. AlmásiDaniel K. BeeceRalph BellofattoGyan BhanotRandy BickfordMatthias A. BlumrichArthur A. BrightJosé R. BrunherotoCalin CascavalJosé G. CastañosLuis CezePaul CoteusSiddhartha ChatterjeeDong ChenGeorge L.-T. ChiuThomas M. CipollaPaul CrumleyAlina DeutschMarc Boris DombrowaWilm E. DonathMaria EleftheriouBlake G. FitchJoseph GaglianoAlan GaraRobert S. GermainMark GiampapaManish GuptaFred G. GustavsonShawn HallRuud A. HaringDavid F. HeidelPhilip HeidelbergerLorraine HergerDirk HoenickeT. Jamal-EddineGerard V. KopcsayAlphonso P. LanzettaDerek LieberM. LuMark P. MendellLawrence S. MokJosé E. MoreiraBen J. NathansonMatthew NewtonMartin OhmachtRick A. RandRichard D. ReganRamendra K. SahooAlda SanomiyaEugen SchenfeldSarabjeet SinghPeilin SongBurkhard D. Steinmacher-BurowKarin StraussRichard A. SwetzTodd TakkenR. Brett TremaineMickey TsaoPavlos VranasT. J. Christopher WardMichael E. WazlowskiJ. BrownThomas A. LiebschA. SchramG. UlshPublished in: CLUSTER (2002)
Keyphrases
- embedded dram
- massively parallel
- high speed
- floating point unit
- low cost
- analog vlsi
- random access memory
- high density
- programmable logic
- vlsi implementation
- molecular dynamics
- physical design
- circuit design
- design considerations
- evolvable hardware
- level parallelism
- floating point
- chip design
- fixed point
- input output
- functional verification
- blue gene
- ibm zenterprise
- parallel algorithm
- single chip