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Explore the performance summary of FPGA-based RT simulation platforms with eHSx128 solvers for single, dual, triple, and quadruple FPGA solutions. Evaluate solver accuracy, real-time simulation performance, and circuit modeling. Hardware setups and team expertise.
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MUlti-fpga Based Solution for large distribution Networks RT simulation eHSx128 Solver Benchmark Models & real time simulation performance
Content • Performance Summary of the FPGA-Based RT Simulation Platform with eHSx128 Solver • eHSx128 solver performance and accuracy evaluation for Distribution Networks RT Simulation. • Single-FPGASolution for Distribution Networks RT Simulation. • Dual-FPGA Solution for Distribution Networks RT Simulation. • Triple-FPGA Solution for Distribution Networks RT Simulation.
Performance Summary of the FPGA-Based RT Simulation Platform with eHSx128 Solver Fpga-based simulation platform evaluation summary EXPECTED PERFORMANCE FOR Ts = 5 us
Single-FPGA based Solution : single eHS-128 Module • Simulated Circuit Total NB. 3-ph RL/RC: 103 : 62 3-Ph RL connections : 41 3-Ph RL Loads : 64 3-Ph Bus Bar : 5 3-Ph Breaker Circuit
Single-FPGA based Solution : single eHSx128Module • Solver accuracy & RT Simulation performance SPS Offline Simulation Vs eHSx128 Real time simulation performance • Workstation • Circuit Modeling • Code Generation & compilation Hardware Setup OP4520: Kintex-7 FPGA Board Single eHSx128 Solvers Solution
Single-FPGA based Solution: Dual eHSx128 Solver • Simulated Circuit Total NB. 3-ph RL/RC: 205 : 125 3-Ph RL connections : 80 3-Ph RL Loads : 129 3-Ph Bus Bar : 5 3-Ph Breaker Circuit
Single-FPGA based Solution: Dual eHSx128 Solver • Solver accuracy & RT Simulation performance SPS Offline Simulation Vs eHSx128 Decoupled DN: 2 Sub-Circuits Real time simulation performance • Workstation • Circuit Modeling • Code Generation & compilation Hardware Setup OP4520: Kintex-7 FPGA Board DUAL- eHSx128 Solvers Solution
dual-FPGA based Solution: Four eHSx128 Solvers • Simulated circuit 4 * eHSx128 Solvers Total NB. 3-ph RL/RC: 332 : 208 3-Ph RL connections : 124 3-Ph RL Loads : 210 3-Ph Bus Bars : 5 3-Ph Breaker Circuit
dual-FPGA based Solution: Four eHSx128 Solvers • Solver accuracy & RT Simulation performance Decoupled DN: 4 Sub-Circuits SPS Offline Simulation Vs eHS-128 Power Interface SFP Link Real time simulation performance • Workstation • Circuit Modeling • Code Generation & compilation Hardware Setup 2 * OP4520: DUAL Kintex-7 FPGA Boards QUADRIPLE - eHS128 Solvers Solution
6 * eHS-128 Solvers triple-FPGA based Solution: Six eHS-128 Solvers • Simulated circuit Total NB. 3-ph RL/RC: 537 : 333 3-Ph RL connections : 204 3-Ph RL Loads : 340 3-Ph Bus Bars : 9 3-Ph Breaker Circuit
Single-FPGA based Solution: Dual eHS Solver • Solver accuracy & RT Simulation performance Decoupled DN: 6 Sub-Circuits SPS Offline Simulation Vs eHS-128 Decoupled DN Power Interface 1 SFP Link Power Interface 2 Real time simulation performance • Workstation • Circuit Modeling • Code Generation & compilation Hardware Setup 3 * OP4520: DUAL Kintex-7 FPGA Boards SIX- eHSx128 Solvers Solution
team Manager of the Application eXpertise and Electrical Simulation (AXES) Division at OPAL-RT Technologies. Jean-Nicolas Paquin Eng., M. Eng. Senior Real-Time Simulation and Modelling Specialist eFPGASIMgroupeat OPAL-RT Technologies. Luc-Andre Gregoire Phdeng. Team Lead eFPGASIMgroupeat OPAL-RT Technologies. Sébastien Cense Modeling & power Systems RT Simulation Expert, Application eXpertise and Electrical Simulation (AXES) Division, OPAL-RT Technologies Amine Yamane Eng., M. Eng