2 research outputs found
Detailed and highly parallelizable cycle-accurate network-on-chip simulation on GPGPU
International audienceAs the number of processing elements in modern chips keeps increasing, the evaluation of new designs will need to account for various challenges at the NoC level. To cope with the impractically long run times when simulating large NoCs, we introduce a novel GPU-based parallel simulation method that can speed up simulations by over 250×, while offering RTL-like accuracy. These promising results make our simulation method ideal for evaluating future NoCs comprising thousands of nodes
Detailed and highly parallelizable cycle-accurate network-on-chip simulation on GPGPU
International audienceAs the number of processing elements in modern chips keeps increasing, the evaluation of new designs will need to account for various challenges at the NoC level. To cope with the impractically long run times when simulating large NoCs, we introduce a novel GPU-based parallel simulation method that can speed up simulations by over 250×, while offering RTL-like accuracy. These promising results make our simulation method ideal for evaluating future NoCs comprising thousands of nodes