In this paper, we propose a novel low-cost Message Passing Interface (MPI) unit between processor nodes, which supports message passing in multiprocessor systems using distributed memory architecture. Our MPI unit operates in the standard mode – using the buffered mode for small amounts of data transaction and the synchronous mode for large amounts of data transaction. This results in increased performance by reducing the control message transmission time for the small amount of data. We verified the performance with a simulator designed based on SystemC. Additionally, we designed the MPI unit using VerilogHDL, and we synthesized it with a synopsys design compiler. The proposed standard mode MPI unit shows a high performance even though the size of the MPI unit occupies less than 1% of the whole chip. Thus, with respect to low-cost design and scalability, this MPI hardware unit is useful to increase overall performance of the embedded Multiprocessor System on a Chip (MPSoC).

The message passing interface (MPI) broadcast communication commonly causes a severe performance bottleneck in multicore system that uses distributed memory. Thus, in this paper, we propose a novel algorithm and hardware structure for the MPI broadcast communication to reduce the bottleneck situation. The transmission order is set based on the state of each processing node that comprises the multicore system, so the novel algorithm minimizes the performance degradation caused by conflict. The proposed scoreboard MPI unit is evaluated by modeling it with SystemC and implemented using VerilogHDL. The size of the proposed scoreboard MPI unit occupies less than 1.03% of the whole chip, and it yields a highly improved performance up to 75.48% as its maximum with 16 processing nodes. Hence, with respect to low-cost design and scalability, this scoreboard MPI unit is particularly useful towards increasing overall performance of the embedded MPSoC.