Use of efficient task allocation algorithm for parallel real-time EMT simulation

•Description of efficient task allocation algorithm from operational research techniques for parallel real-time EMT simulation.•Performances asserted on very large networks and quality of solution verified with exact resolution methods.•Validation of each mapping strategy through a real EMT case stu...

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Published inElectric power systems research Vol. 189; p. 106604
Main Authors Bruned, Boris, Rault, Pierre, Dennetière, Sébastien, Martins, Ian Menezes
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.12.2020
Elsevier Science Ltd
Subjects
Algorithms
Computer peripherals
Electricity distribution
Electromagnetism
Graph partitioning
Hardware-in-the-loop
Hardware-in-the-loop simulation
Microprocessors
Operations research
Optimization
Parallel processing
Parallel simulation
Real time
Real-time simulation
Simulation
Task allocation problem
Graph partitioning
Parallel simulation
Task allocation problem
Hardware-in-the-loop
Real-time simulation
Optimization
Online AccessGet full text
ISSN0378-7796
1873-2046
DOI10.1016/j.epsr.2020.106604

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Abstract •Description of efficient task allocation algorithm from operational research techniques for parallel real-time EMT simulation.•Performances asserted on very large networks and quality of solution verified with exact resolution methods.•Validation of each mapping strategy through a real EMT case study with real-time Hardware-in-the-Loop simulation. Real-time EMT (Electromagnetic Transients) simulation relies on multi-cores computers to accelerate the simulation through parallelization. It also increases simulation accuracy by allowing a lower time step. First, the network has to be split into several tasks using a separation technique. Then, each task has to be allocated/mapped to a processor. This paper focuses on this problem which can be formulated as a TAP (Task Allocation Problem). To find optimal task allocation, operational research techniques can be used. Heuristics such as graph partitioning allow getting fast solutions. Their performances are asserted with very large networks and real-time simulator architectures, both from TSO (Transmission System Operator) grids. Exact resolution methods are used to verify solution quality. The validation of each task mapping strategy is done through a real EMT case study which involves real-time Hardware-in-the-Loop simulation.
AbstractList •Description of efficient task allocation algorithm from operational research techniques for parallel real-time EMT simulation.•Performances asserted on very large networks and quality of solution verified with exact resolution methods.•Validation of each mapping strategy through a real EMT case study with real-time Hardware-in-the-Loop simulation. Real-time EMT (Electromagnetic Transients) simulation relies on multi-cores computers to accelerate the simulation through parallelization. It also increases simulation accuracy by allowing a lower time step. First, the network has to be split into several tasks using a separation technique. Then, each task has to be allocated/mapped to a processor. This paper focuses on this problem which can be formulated as a TAP (Task Allocation Problem). To find optimal task allocation, operational research techniques can be used. Heuristics such as graph partitioning allow getting fast solutions. Their performances are asserted with very large networks and real-time simulator architectures, both from TSO (Transmission System Operator) grids. Exact resolution methods are used to verify solution quality. The validation of each task mapping strategy is done through a real EMT case study which involves real-time Hardware-in-the-Loop simulation.
Real-time EMT (Electromagnetic Transients) simulation relies on multi-cores computers to accelerate the simulation through parallelization. It also increases simulation accuracy by allowing a lower time step. First, the network has to be split into several tasks using a separation technique. Then, each task has to be allocated/mapped to a processor. This paper focuses on this problem which can be formulated as a TAP (Task Allocation Problem). To find optimal task allocation, operational research techniques can be used. Heuristics such as graph partitioning allow getting fast solutions. Their performances are asserted with very large networks and real-time simulator architectures, both from TSO (Transmission System Operator) grids. Exact resolution methods are used to verify solution quality. The validation of each task mapping strategy is done through a real EMT case study which involves real-time Hardware-in-the-Loop simulation.
ArticleNumber 106604
Author Martins, Ian Menezes
Rault, Pierre
Bruned, Boris
Dennetière, Sébastien
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Keywords Graph partitioning
Parallel simulation
Task allocation problem
Hardware-in-the-loop
Real-time simulation
Optimization
Language English
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Snippet •Description of efficient task allocation algorithm from operational research techniques for parallel real-time EMT simulation.•Performances asserted on very...
Real-time EMT (Electromagnetic Transients) simulation relies on multi-cores computers to accelerate the simulation through parallelization. It also increases...
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SubjectTerms Algorithms
Computer peripherals
Electricity distribution
Electromagnetism
Graph partitioning
Hardware-in-the-loop
Hardware-in-the-loop simulation
Microprocessors
Operations research
Optimization
Parallel processing
Parallel simulation
Real time
Real-time simulation
Simulation
Task allocation problem
Title Use of efficient task allocation algorithm for parallel real-time EMT simulation
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