In this paper we describe the pipeline design and enhanced hardware for fast message handling in a RICA-1 processor, a processing element (PE) in the RWC-1 multiprocessor. The RWC-1 is based on the reduced inter-processor communication architecture (RICA), in which communications are combined with computation in the processor pipeline. The pipeline is enhanced with hardware mechanisms to support fine-grain parallel execution. The data paths of the RICA-1 super-scalar processor are commonly used for communication as well as instruction execution to minimize its implementation cost. A 128-PE system has been built on January 1998, and it is currently used for hardware debugging, software development and performance evaluation.

This paper discusses a massively parallel interconnection scheme for multithreaded architecture and introduces a new class of direct interconnection networks called the hierarchical Multidimensional Directed Cycles Ensemble (hMDCE). Its suitability for massively parallel systems is discussed. The network is evolved from the Multidimensional Directed Cycles Ensemble (MDCE) network, where each node is substituted by lower-level sub-networks. The new network addresses some serious problems caused by the increasing scale of parallel systems, such as longer latency, limited throughput and high implementation cost. This paper first introduces the MDCE network and then presents and examines in detail the hierarchical MDCE network. Bisection bandwidth of hMDCE is considerably reduced from its ancestor MDCE and the network performs significantly higher throughput and lower latency under some practical implementation constraints. The gate count and delay time of the compiled circuit for the routing function are insignificant. These results reveal that the hMDCE network is an important candidate for massively parallel systems interconnection.