A New Dynamic Bandwidth Re-Allocation Technique in Optically Interconnected High-Performance Computing Systems

14th IEEE Symposium on High-Performance Interconnects (HOTI'06) Pub Date : 2006-08-23 DOI:10.1109/HOTI.2006.6

Avinash Karanth Kodi, A. Louri

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引用次数: 3

Abstract

As bit rates increase, optical interconnects based high-performance computing (HPC) systems improve performance by increasing the available bandwidth (using wavelength-division multiplexing (WDM) and space-division multiplexing (SDM)) and decreasing power dissipation as compared to traditional electrical interconnects. While static allocation of wavelengths (channels) in optical interconnects provide every node with equal opportunity for communication, it can lead to network congestion for non-uniform traffic patterns. In this paper, we propose an opto-electronic interconnect for designing a flexible, high-bandwidth, low-latency, dynamically reconfigurable architecture for scalable HPC systems. Reconfigurability is realized by monitoring traffic intensities, and implementing dynamic bandwidth re-allocation (DBR) technique that adapts to changes in communication patterns. We propose a DBR technique - lock-step (LS) that balances the load on each communication channel based on past utilization. Simulation results indicate that the reconfigured architecture shows 40% increased throughput and 20% reduced network latency as compared to HPC electrical networks

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一种新的光互联高性能计算系统动态带宽重分配技术

随着比特率的提高，基于光互连的高性能计算(HPC)系统通过增加可用带宽(使用波分复用(WDM)和空分复用(SDM))和降低功耗来提高性能，与传统的电互连相比。光互连中波长(信道)的静态分配为每个节点提供了平等的通信机会，但由于流量模式不均匀，可能导致网络拥塞。在本文中，我们提出了一种光电互连，用于为可扩展的高性能计算系统设计灵活，高带宽，低延迟，动态可重构的架构。可重构性通过监控流量强度和实现适应通信模式变化的动态带宽重新分配(DBR)技术来实现。我们提出了一种DBR技术——锁步(LS)，它基于过去的利用率来平衡每个通信信道上的负载。仿真结果表明，与HPC电气网络相比，重新配置的体系结构的吞吐量提高了40%，网络延迟降低了20%

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14th IEEE Symposium on High-Performance Interconnects (HOTI'06)

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