CusComNet: A customisable network for reconfigurable heterogeneous clusters

Computer clusters equipped with reconfigurable accelerators have shown promise in high performance computing. This paper explores novel ways of customising data communication between accelerator nodes, which is often a bottleneck when scaling up the cluster size. Based on the direct connection of high speed serial links between advanced reconfigurable devices, we develop and evaluate CusComNet, a scalable, flexible and efficient communication framework. The CusComNet framework is built around customisable, packet-based communication and supports three main types of customisation: packet protocol customisation, system-level customisation, and prioritised communication customisation. A performance model for estimating CusComNet´s communication latency is proposed and demonstrated. Our framework is applied to a 16-node cluster, each node of which contains an FPGA accelerator which can be connected directly to other FPGA accelerators. The proposed framework can be used to improve the scalability of a reconfigurable cluster by involving more nodes in a single application. Performance measurements show high efficiency data throughput for both large and small data volumes, as well as low communication overhead.