Low-cost Guaranteed-Throughput dual-ring communication infrastructure for heterogeneous MPSoCs

Abstract

Connection-oriented Guaranteed-Throughput (GT) mesh-based Networks on Chip (NoCs) have been proposed as a replacement for buses in real-time stream processing systems but are currently rarely used as hardware cost tends to be higher than conventional interconnects. Recently an interconnect with a ring topology was introduced as a low-cost alternative for use in medium scale homogeneous Multiple Processor System on Chip (MPSoC) designs. Cost-effective integration of stream processing accelerators would require an extension of this ring interconnect. We present a dual-ring communication infrastructure for heterogeneous MPSoC designs. Data and credits are transferred between tiles using their separate, oppositely directed, rings. The minimum throughput is determined by analysis of a Cyclo-Static Data Flow (CSDF) model for a system with communication between accelerators and processors. The performance benefits and costs are evaluated by integration of our dual ring and an accelerator in a 16 core MPSoC which is mapped on a Virtex6 FPGA. On this MPSoC a real-time PAL video decoder is executed. A performance gain of a factor 3.6 was obtained at an increase in hardware cost of only 8.5%