Improving FPGA NoC performance using virtual cut-through switching technique

FPGA capacity has grown rapidly and emerging large applications comprise a large number of hard and soft modules. The communication among these modules requires high demand from fabric interconnect, causing routing congestion and performance degradation. This problem will be more pronounced with process scaling since the technology is not improving wire resistance. A general technique to reduce interconnect demand is sharing the wires; Network-on-Chip (NoC) is a systematic method for sharing wires. Several NoC implementations have been proposed for FPGAs in the literature, but most are designed with assumptions carried over from ASIC NoCs. In this work we examine these assumptions and modify them when necessary to customize a soft NoC for FPGAs. We developed a NoC that is tuned for FPGAs and compared it to existing NoCs in the literature. The proposed soft NoC provides 12% to 58% higher throughput per link depending on the settings. This additional throughput comes with 5% to 19% reduction in area.