Many RISC-V (RV) platforms and SoCs have been announced in recent years targeting the HPC sector, but only a few of them are commercially available and engineered to fit the HPC requirements. The Monte Cimone project targeted assessing their capabilities and maturity, aiming to make RISC-V a competitive choice when building a datacenter. Nowadays, Systems-on-chip (SoCs) featuring RV cores with vector extension, form factor and memory capacity suitable for HPC applications are available in the market, but it is unclear how compilers and open-source libraries can take advantage of its performance. In this paper, we describe the performance assessment of the upgrade of the Monte Cimone (MCv2) cluster with the Sophgo SG2042 processor on HPC workloads. Also adding an exploration of BLAS libraries optimization. The upgrade increases the attained node’s performance by 127x on HPL DP FLOP/s and 69x on Stream Memory Bandwidth.
Venieri, E., Manoni, S., Ceccolini, G., Madella, G., Ficarelli, F., Gregori, D., et al. (2025). Monte Cimone v2: HPC RISC-V Cluster Evaluation and Optimization. Springer.
Monte Cimone v2: HPC RISC-V Cluster Evaluation and Optimization
Emanuele Venieri;Simone Manoni;Giacomo Madella;Federico Ficarelli;Andrea Acquaviva;Luca Benini;Andrea Bartolini
2025
Abstract
Many RISC-V (RV) platforms and SoCs have been announced in recent years targeting the HPC sector, but only a few of them are commercially available and engineered to fit the HPC requirements. The Monte Cimone project targeted assessing their capabilities and maturity, aiming to make RISC-V a competitive choice when building a datacenter. Nowadays, Systems-on-chip (SoCs) featuring RV cores with vector extension, form factor and memory capacity suitable for HPC applications are available in the market, but it is unclear how compilers and open-source libraries can take advantage of its performance. In this paper, we describe the performance assessment of the upgrade of the Monte Cimone (MCv2) cluster with the Sophgo SG2042 processor on HPC workloads. Also adding an exploration of BLAS libraries optimization. The upgrade increases the attained node’s performance by 127x on HPL DP FLOP/s and 69x on Stream Memory Bandwidth.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
