A New Parallel CODEC Technique for CDMA NoCs

Abstract

Code division multiple access (CDMA) network-on-chip (NoC) has been proposed for many-core systems due to its data transfer parallelism over communication channels. Consequently, coder–decoder (CODEC) module, which greatly impacts the performance of CDMA NoCs, attracted growing attention in recent years. In this paper, we propose a new parallel CODEC technique for CDMA NoCs. In general, by using a few simple logic circuits with small penalties in area and power, our new parallel (NPC) CODEC can execute the encoding/decoding process in parallel and thus reduce the data transfer latency. To reveal the benefits of our method for on-chip communication, we apply our NPC to CDMA NoCs and perform extensive experiments. From the results, we can find that our method outperforms existing parallel CODECs, such as Walsh-based parallel CODEC (WPC) and overloaded parallel CODEC (OPC). Specifically, it improves the critical point of communication latency (7.3% over WPC and 13.5% over OPC), reduces packet latency jitter by about 17.3% (against WPC) and 71.6% (against OPC), and improves energy efficiency by up to 41.2% (against WPC) and 59.2% (against OPC).