GPU Implementation of MATE for Ultrafast Simulations of Power-System Electromagnetic Transients

In studies of Electromagnetic Transients (EMT) for Electrical Power Systems (EPS), simulation times are often high. These simulations are usually addressed using a sequential computing approach based on EMTP (Electromagnetic Transients Program) type programs; however, this approach can be slow and c...

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Main Authors: Loaiza-Elejalde, S., Enriquez-Jamangape, J. E., Leyva, Jose Luis, Diaz-Perez, Arturo, Marti, J. R., Naredo, J. L.
Format: Conference Proceeding
Language:English
Subjects:
Electromagnetic Transients
Electromagnetics
EMTP
GPU
Graphics processing units
Instruction sets
Life estimation
MATE
North America
Parallel computing
Parallel processing
Power systems
Real Time Simulation
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creator Loaiza-Elejalde, S.
Enriquez-Jamangape, J. E.
Leyva, Jose Luis
Diaz-Perez, Arturo
Marti, J. R.
Naredo, J. L.
description In studies of Electromagnetic Transients (EMT) for Electrical Power Systems (EPS), simulation times are often high. These simulations are usually addressed using a sequential computing approach based on EMTP (Electromagnetic Transients Program) type programs; however, this approach can be slow and computationally expensive, especially when simulating very large EPS. This work reports the development of a low-cost, high-performance EMT simulation system based on parallel computing. For this, the Multi-Area Thevenin Equivalents (MATE) solution framework has been implemented in a Graphics Processing Unit (GPU). With the IEEE test network of 39 buses, the simulation times of the proposed system are compared with those of the EMTP type program, PSCAD/EMTDC®; and it is found that, by scaling the test network up to 390 simulated buses, the proposed system is up to 70 times faster.
doi_str_mv 10.1109/NAPS61145.2024.10741864
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subjects Electromagnetic Transients
Electromagnetics
EMTP
GPU
Graphics processing units
Instruction sets
Life estimation
MATE
North America
Parallel computing
Parallel processing
Power systems
Real Time Simulation
title GPU Implementation of MATE for Ultrafast Simulations of Power-System Electromagnetic Transients
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