Rackspace / Amazon / Ugi / AWS Import / Twitter / Google / Facebook / Cisco / Shipping Networks / Microsoft / /
Country
United States / China / /
Facility
University of Calgary / Microsoft University of Hong Kong / The Chinese University of Hong Kong / University of California / /
IndustryTerm
cloud Internet / online fashion / lazy migration algorithm / cloud site / finite horizon control algorithms / offline algorithm / cloud computing paradigm / offline optimal algorithm / classic ski-rental online algorithm / big data analytics applications / courier services / users using virtualization technologies / naive online algorithm / advocate deploying social media applications / intermediate processing results / energy-aware dynamic server / online lazy migration / private network / cloud computing literature / judicious online solution / Online Cost-Minimizing Approach / =t algorithm / online algorithm / computing / online algorithms / cloud computing / physical transportation / time-varying data processing costs / largescale online application / Web Services / /
Organization
University of Hong Kong / Hong Kong / Chinese University of Hong Kong / University of California / Berkeley / U.S. Securities and Exchange Commission / Hong Kong RGC General Research Fund / University of Calgary / /
Person
Chuan Wu / Francis C.M. Lau / T. A. Prince / S. G. Djorgovski / R. J. Brunner / A. S. Szalay / /
Position
advocate / /
ProgrammingLanguage
DC / /
ProvinceOrState
California / /
Technology
FHC algorithm / Lazy Capacity Provisioning algorithm / randomized algorithm / classic ski-rental online algorithm / VPN / users using virtualization technologies / one specific algorithm / 1 finite horizon control algorithms / RFHC algorithm / Human Genome / load balancing / online algorithms / =t algorithm / OLM algorithm / FHC algorithms / data caching / naive online algorithm / lazy migration algorithm / two online algorithms / /