Power Analysis of Embedded NoCs on FPGAs and Comparison With Custom Buses

Abstract

We propose embedding networks-on-chip (NoCs) on field-programmable gate-arrays (FPGAs) to implement system-level communication. Amongst other benefits, this can alleviate the current challenge of connecting the FPGA’s fabric to high-speed I/O and memory interfaces, which are a crucial component of FPGA designs. Our mixed and hard embedded NoCs add only $\sim 1$ % area to large FPGAs and can run much faster than the core logic, thus keeping up with the speed of I/O and memory interfaces. A detailed power analysis, per NoC component, shows that routers consume $14\times $ less power when implemented hard compared with soft, and whether hard or soft most of the router’s power is consumed in the input modules for buffering. For complete systems, hard NoCs consume $4\times $ smaller, and uses 23% less energy when implemented using the hard NoC even though it is only 43% utilized.