Evaluation of NoC on Multi-FPGA Interconnection Using GTX Transceiver
Résumé
Multi-FPGA platforms are very popular today for pre-silicon verification of complex designs due to their low cost and high speed. The idea is to divide these systems into smaller subsystems and implement each one on a separate chip. The challenge is that the number of IOs available on FPGA remains constant despite the technological evolution. This problem is resolved by multiplexing several cut-signals using the time division multiplexing scheduling mechanism. This structure has a strong effect on the speed of transmission between FPGAs. However, an inter-FPGA bottleneck appears. In this paper, we focus on evaluating the Network-on-Chip on multi-FPGA using the high speed serial transceiver GTX block. In order to speed up the transmission between FPGAs, GTX Transceiver is used to provide a high bandwidth while using fewer pins compared to existing approaches based on ordinary FPGA IOs pins. Depending on the available multi-gigabit transceiver, the bandwidth per connection is between 3.125 and 28 Gb/s which allows for large amounts of data to be moved quickly between multiple FPGAs. In our evaluation, a VC707 platform based on the Virtex-7 device is used. The simulation results show that the proposed architecture provides low area consumption and latencies under different traffic patterns.
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