Abstract
Designing high throughput and low latency on-chip networks with reasonable area overhead is becoming a major technical challenge. This paper proposes an architecture of router with on-the-fly virtual channel (VC) allocation for high performance on-chip networks. By performing the VC allocation based on the result of switch allocation, the dependency between the VC allocation and switch traversal is removed and these stages can be concurrently performed in a non-speculative fashion. In this manner, the pipeline of a packet transfer can be shortened without the penalty of area. The proposed architecture has been implemented on FPGA and evaluated in terms of network latency, throughput and area overhead. The experimental results show that, the proposed router with on-the-fly VC allocation can reduce the network latency by 40.9%, and improve throughput by 47.6% as compared to the conventional VC router. In comparison with the look-ahead speculative router, it improves the throughput by 8.8% with 16.7% reduction of area for control logic.
