Exploring multiple sleep modes in on/off based energy efficient HPC networks

Abstract

Energy efficiency is one of the key challenges in high-performance computing (HPC). The current target of 1 ExaFlop in 20 MW requires a ten-fold improvement in energy efficiency, which is only possible through significant improvements in the energy efficiency throughout the system. Interconnects are particularly inefficient, since their links are always on, consuming full power in order to provide low latency, even though the average interconnect utilization is low. To address the above, the Ethernet standards committee in-charge of 40/100/400Gb Ethernet has opted to include protocols that define low power modes, specifically Fast-Wake, alongside the older Deep-Sleep, to make interconnect links energy proportional. With these standards ratified as recently as March 2014, it is unclear how these low power modes can be used in HPC. While energy efficiency is critical, techniques with excessive performance overheads are unlikely to be adopted in HPC. To this end, this paper performs the first detailed analysis of Fast-Wake mode for link energy savings in the context of HPC. Our results show that a combination of Fast-Wake and Deep-Sleep can reduce link energy savings by up to 70% with less than 1% performance overheads. However, we show how the parameters of these low power modes must be carefully configured to obtain the right trade-offs in energy and performance. We believe that our analysis could benefit interconnect vendors looking to use these low power modes for deployment in HPC.