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 | Document Date: 2012-05-30 13:43:20Open Document File Size: 333,08 KBShare Result on FacebookCompanyBMW / USA KUL / Synopsys / RTL / / /FacilityGeorge Mason University / National Institute of Information / National Institute of Advanced Industrial Science / University of Electro-Communications / /IndustryTermsoftware processors / energy plot / nearby technology nodes / software implementations / 130nm standard cell technology / 130nm technology / technology parameters / crypto hardware / regular processing / metal layers / nal processing / energy differences / energy results / energy / 90nm technologies / energy dissipation / 90nm technology / technology mapping / chosen technology / technology primitives / technology differences / direct technology target / hash algorithms / technology node / different technologies / crypto-software / technology mapping steps / software benchmarking environments such eSTREAM / ubiquitous computer infrastructure / /MarketIndexASIC / /OrganizationFPGA / National Institute of Information and Communications Technology / JP GMU / SC TP / Patrick Schaumont Bradley Department of Electrical and Computer Engineering / BE UEC / ASIC / Virginia Tech / George Mason University / JP NICT / University of Electro-Communications / Katholieke Universiteit Leuven / JP AIST / National Institute of Advanced Industrial Science and Technology / /PersonBlake Grøstl / Max Speed / Sinan Huang / Leyla Nazhandali / Patrick Schaumont Bradley / /PositionDriver / software driver / /ProductSHA-3 / /ProgrammingLanguageVerilog / /TechnologyFPGA / same two technology / API / chosen technology / technology for the ASIC / VHDL / FPGA technology / 90nm technology / ASIC / Verilog / mainstream SHA-2 hash algorithms / software processors / 90nm technologies / ASIC technology / different technologies / simulation / 130nm technology / 3 Output Buffer SHA-3 ASIC Test Chip / prototyping technology / cell technology / /SocialTag |