PowerGrid - A Computation Engine for Large-Scale Electric Networks | Zendy

C.O. Nwankpa | Zendy; Jeremy A. Johnson | Zendy; Karen Miu | Zendy; P. Nagvajara | Zendy; D. Niebur | Zendy; Sotirios G. Ziavras | Zendy

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PowerGrid - A Computation Engine for Large-Scale Electric Networks

Author(s) -

C.O. Nwankpa,

Jeremy A. Johnson,

Karen Miu,

P. Nagvajara,

D. Niebur,

Sotirios G. Ziavras

Publication year - 2003

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/831170

Subject(s) - scalability , field programmable gate array , computer science , computation , embedded system , control flow , scale (ratio) , parallel computing , field (mathematics) , electric power system , electric power , power (physics) , distributed computing , operating system , algorithm , programming language , physics , mathematics , quantum mechanics , pure mathematics

A scalable power system- power flow solution based on parallel computing using embedded multi-processors on Field Programmable Gate Arrays (FPGAs) is studied. Two Nios embedded processors are used in a prototype under centralized and decentralized control approach to execute the power-flow solution program to prove the viability of the approach

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