A transport-layer network for distributed FPGA platforms

We present a transport-layer network that aids developers in building safe, high-performance distributed FPGA applications. Two essential features of such a network are virtual channels and end-to-end flow control. Our network implements these features, taking advantage of the low error characteristic of a rack level FPGA network to implement a low overhead credit based end-to-end flow control. Our design has many parameters in the source code which can be set at the time of FPGA synthesis, to provide flexibility in setting buffer size and flow control credits to make best use of scarce on-chip memory resources and match the traffic pattern of a virtual channel. Our prototype cluster, which is composed of 20 Xilinx VC707 boards, each with 4 20Gb/s serial links, achieves effective bandwidth of 85% of the maximum physical bandwidth, and a latency of 0.5us per hop. User feedback suggest that these features make distributed application development significantly easier.