Modern high-performance computing (HPC) systems consist of a large number of nodes featuring multi-core processors. Many computational fluid dynamics (CFD) codes utilize a Message Passing Interface (MPI) to exploit the potential of such systems. In general, the MPI communication costs increase as the number of MPI processes increases. In this paper, we discuss performance of the code in which a core is used as a dedicated communication core when the core cannot contribute to the performance improvement due to memory-bandwidth limitations. By using the dedicated communication core, the communication operations are overlapped with computation operations, thus enabling highly efficient computation by exploiting the limited memory bandwidth and idle cores. The performance evaluation shows that this code can hide the MPI communication times of 90% on the supercomputer SX-ACE system and 80% on the supercomputer SX-Aurora TSUBASA system, and the performance of the successive over-relaxation (SOR) method is improved by 32% on SX-ACE and 20% on SX-Aurora TSUBASA.
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