Mitsubishi Electric Corporation / GPU / National University Corporation / Communications Professor Kanagawa University Professor Fujitsu Laboratories LTD / Nippon Telegraph and Telephone Corporation / JPO / NEC Corporation / /
Continent
Europe / /
Country
Japan / China / United States / /
Event
Environmental Issue / /
Facility
Tokyo Institute of Technology / University of Tokyo / Japan Institute of Invention / Tokyo National College of Technology / /
IndustryTerm
energy demand / storage devices / measurement equipment / energy conservation / level element technology / saved energy / upper-layer applications / basic technologies / front-end packaging technologies / de-multiplexer circuit technology / secondary energy saving / laser processing equipment / immature laser technologies / imaging / optical storage technology development program / energy usage / energy / shell type metal nanoparticles / carrier-capture model / metal / formatter system technologies / universal technologies / potential applications / backbone network / energy consumption / excitation energy movement / electronic beam imaging equipment / internet architecture / decreased energy demand / metal molds / patents applications / laser technologies / energy efficiency / manufacturing / optical router / element technologies / nano-mastering technology / metal nano particles / manufacturing conditions / Individual element technologies / energy saving effects / high energy side / nano-mastering equipment / manufacturing technologies / information storage devices / optical near-field waveguide technologies / photonic switching node systems / optical router technologies / nano-structural material optical new functional application technology / oil / conventional processing methods / optical technology / signal conversion technology / energy resources / energy saving technologies / driver chip / simulation technologies / laser processing / Internet(SAINT2008)/ WorkShop / quantum-dot laser technology / metal nanostructures / energy saving / optical transport network / production technology / near-field media technology / near-field basic technology / nano-mastering technologies / homegrown technology / optical near-field energy movement / individual devices / produced using metal nanostructures / /
Organization
University of Tokyo / Optoelectronic Industry and Technology Development Association / New Energy Development Organization / United Nations / University of Electro-Communications / National College / Tokyo Institute of Technology / /
Promotion of Technology Development optical I/O, no-error probability of communication has been calculated by using a simple model with VCSEL failure ratio, redundancy, error correction, recovery time, and scale of a sys