Speed-up in computing systems today is most often accomplished by increasing parallelism in both hardware and software. Parallel applications residing wholly on a single multi-core chip generally utilize implicit inter-thread communication via shared memory managed by cache-coherency mechanisms. However, increasing parallelism by creating coherent domains across many chips poses new challenges. In this work, we illustrate the sensitivity of various applications on a theoretical four-socket system to the latency of their coherency traffic, and show that current solutions, such as Quick Path Interconnect (QPI) and HyperTransport (HT), could benefit greatly from a lower latency communication medium. Then, we propose a silicon photonic inter-chip network that achieves very low-latency and falls within a reasonable power budget.
Grani, P., Hendry, R., Bartolini, S., Bergman, K. (2015). Boosting multi-socket cache-coherency with low-latency silicon photonic interconnects. In 2015 International Conference on Computing, Networking and Communications, ICNC 2015 (pp.830-836). Institute of Electrical and Electronics Engineers Inc. [10.1109/ICCNC.2015.7069453].
Boosting multi-socket cache-coherency with low-latency silicon photonic interconnects
GRANI, PAOLO;BARTOLINI, SANDRO;
2015-01-01
Abstract
Speed-up in computing systems today is most often accomplished by increasing parallelism in both hardware and software. Parallel applications residing wholly on a single multi-core chip generally utilize implicit inter-thread communication via shared memory managed by cache-coherency mechanisms. However, increasing parallelism by creating coherent domains across many chips poses new challenges. In this work, we illustrate the sensitivity of various applications on a theoretical four-socket system to the latency of their coherency traffic, and show that current solutions, such as Quick Path Interconnect (QPI) and HyperTransport (HT), could benefit greatly from a lower latency communication medium. Then, we propose a silicon photonic inter-chip network that achieves very low-latency and falls within a reasonable power budget.
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https://hdl.handle.net/11365/982371