VLPW: The Very Long Packet Window Architecture for High Throughput Network-On-Chip Router Designs
ChipMulti-processor (CMP) architectures have become mainstream for designing processors. With a large number of cores, Network-On-Chip (NOC) provides a scalable communication method for CMPs. NOC must be carefully designed to provide low latencies and high throughput in the resource-constrained environment. To improve the network throughput, we propose the Very Long Packet Window (VLPW) architecture for the NOC router design that tries to close the throughput gap between state-of-the-art on-chip routers and the ideal interconnect fabric. To improve throughput, VLPW optimizes Switch Allocation (SA) efficiency. Existing SA normally applies Round-Robin scheduling to arbitrate among the packets targeting the same output port. However, this simple approach suffers from low arbitration efficiency and incurs low network throughput. Instead of relying solely on simple switch scheduling, the VLPW router design globally schedules all the input packets, resolves the output conflicts and achieves high throughput. With the VLPW architecture, we propose two scheduling schemes: Global Fairness and Global Diversity. Our simulation results show that the VLPW router achieves more than 20% throughput improvement without negative effects on zero-load latency.
Gu, Haiyin (2011). VLPW: The Very Long Packet Window Architecture for High Throughput Network-On-Chip Router Designs. Master's thesis, Texas A&M University. Available electronically from