San Francisco / Anaheim / Santa Barbara / Clusteraware Load / Munich / Portsmouth / Honolulu / Saxony / Orlando / Santa Fe / Atlanta / San Juan / Myrinet / /
Company
LOAD BALANCING IN WIDE-AREA SYSTEMS / Large Workstation Networks / /
Country
Puerto Rico / Germany / /
Currency
Rs / USD / IDR / / /
Facility
MagPIe library / /
IndustryTerm
local-area systems / load-balancing algorithm / loaded systems / parallel computing / divideand-conquer algorithm / hardware solutions / divideand-conquer algorithms / fine-grained divide-and-conquer applications / multi-cluster systems / latency-bound applications / distributed-memory systems / parallel divide-and-conquer applications / shared-memory and distributed-memory systems / distributed systems / cluster systems / parallel applications / cluster-aware algorithm / divide-andconquer algorithms / sequential algorithm / hierarchical scheduling algorithm / structured systems / load balancing algorithm / chosen peer processor / load balancing divideand-conquer applications / test applications / hierarchical algorithm / widearea systems / load-balancing algorithms / workstation networks / load balancing algorithms / well known load-balancing algorithm / optimized sequential algorithms / divide-and-conquer algorithms / distributed supercomputing applications / network interface protocol / search algorithms / hierarchical network / shared-memory systems / work stealing algorithms / irregular applications / hierarchical systems / divide-and-conquer applications / bandwidth sensitive applications / load balancing divide-and-conquer applications / runtime systems / divide-and-conquer systems / /
OperatingSystem
UNIX / Linux / /
Organization
RS RP / Advanced School for Computing and Imaging / Henri E. Bal Faculty of Sciences / Division of Mathematics and Computer Science / /
Person
Kees Verstoep / Rob V. van Nieuwpoort / Ceriel Jacobs / John Romein / Jason Maassen / I. Watson / V / Henri E. Bal / Rutger Hofman / Ronald Veldema / /