在高端计算环境中最小化运行时时钟方差的时钟同步策略

2010 22nd International Symposium on Computer Architecture and High Performance Computing Pub Date : 2010-10-27 DOI:10.1109/SBAC-PAD.2010.33

T. Jones, G. Koenig

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引用次数: 14

摘要

我们提出了一种新的基于软件的时钟同步方案，该方案在分布式存储节点之间提供高精度的时间一致性。该技术旨在以最小的时间-请求延迟最小化运行期间引用合并的差异。我们的方案允许时间的初始无界变化，并纠正慢速和快速报时(时钟倾斜)。本文描述了在MPI消息传递接口上下文中开发的一个实现，并给出了时间协调度量。结果表明，一组节点间的平均时间方差从标准网络时间协议(NTP)下的20.0毫秒提高到2.29 μ秒。

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A Clock Synchronization Strategy for Minimizing Clock Variance at Runtime in High-End Computing Environments

We present a new software-based clock synchronization scheme that provides high precision time agreement among distributed memory nodes. The technique is designed to minimize variance from a reference chimer during runtime and with minimal time-request latency. Our scheme permits initial unbounded variations in time and corrects both slow and fast chimers (clock skew). An implementation developed within the context of the MPI message passing interface is described and time coordination measurements are presented. Among our results, the mean time variance among a set of nodes improved from 20.0 milliseconds under standard Network Time Protocol (NTP) to 2.29 μsecs under our scheme.

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2010 22nd International Symposium on Computer Architecture and High Performance Computing

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