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Software-defined board- and chip-level optical interconnects for multi-socket communication and disaggregated computing.

, , , , , и . AISTECS@HiPEAC, стр. 6-7. ACM, (2017)

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Blagoje Nikosavi

Nikos Green

Nikos Wallburger

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Nikos Parlavantzas

 

Другие публикации лиц с тем же именем

Software-defined, programmable L1 dataplane: demonstration of fabric hardware resilience using optical switches., , , , , , , , , и 1 other автор(ы). OFC, стр. 1-3. IEEE, (2023)Bringing OptoBoards to HPC-scale environments: An OptoHPC simulation engine., , и . AISTECS@HiPEAC, стр. 6:1-6:6. ACM, (2016)Optical interconnect and memory components for disaggregated computing., , , , , и . ICTON, стр. 1. IEEE, (2017)Multicasting in a 256-Port Sub-#181;sec Latency Hipoλaos Switch Architecture for Disaggregated DataCenters., , , , и . ECOC, стр. 1-3. IEEE, (2018)High-Port and Low-Latency Optical Switches for Disaggregated Data Centers: The Hipoλaos Switch Architecture Invited., , , , , и . JOCN, 10 (7): B102-B116 (2018)Software-defined board- and chip-level optical interconnects for multi-socket communication and disaggregated computing., , , , , и . AISTECS@HiPEAC, стр. 6-7. ACM, (2017)A 1024-Port sub-µsee Latency Optical Packet Switch Using the Hipoλaos λ-Routed Modified Spanke Switch Architecture., , , , и . ECOC, стр. 1-3. IEEE, (2018)Optics for Disaggregating Data Centers and Disintegrating Computing., , , , , , , , , и . ONDM, том 11616 из Lecture Notes in Computer Science, стр. 274-285. Springer, (2019)Dual-Layer Locality-Aware Optical Interconnection Architecture for Latency-Critical Resource Disaggregation Environments., , , , , и . ONDM, том 11616 из Lecture Notes in Computer Science, стр. 299-309. Springer, (2019)End-to-end optical packet switching with burst-mode reception at 25 Gb/s through a 1024-port 25.6 Tb/s capacity Hipoλaos Optical Packet Switch., , , , , , , и . ECOC, стр. 1-4. IEEE, (2020)