高速并行系统的自同步矢量传递

F. Mu, C. Svensson
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引用次数: 0

摘要

随着高速并行系统处理单元功能和速度的不断提高,处理单元之间的通信成为高速并行系统的瓶颈。由于时钟倾斜导致数据读取失败,可能会导致pe的时钟I/O端口故障。为了减少时钟倾斜,利用全局时钟分布,然而,在未来的高速并行系统中使用它似乎更加困难。本文提出了一种用于pe之间矢量传递的自检测自同步(STSS)方法。添加测试信号以消除数据读取失败。该方法具有以下特点:数据吞吐量高;功耗低;不受时钟偏差和系统规模的限制;设计的灵活性;更少的延迟。故障区概念用于表征存储元件的行为。使用抖动注入测试信号,实现了任意时钟相位pe之间的鲁棒矢量传输,而无需全局同步。
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Self-synchronized vector transfer for high speed parallel systems
Communications between processing elements (PEs) in high speed parallel systems become a bottleneck as the function and speed of the PEs improve continuously. Clocked I/O ports in PEs may malfunction if data read failure occurs due to clock skew. To reduce the clock skew, global clock distribution is utilized, however it seems to be more difficult to use this for high speed parallel systems in the future. This paper addresses a self-tested self-synchronization (STSS) method for vector transfer between PEs. A test signal is added to remove the data read failure. This method has these features: high data throughput; low power consumption; no constraints on clock skew and system scale; flexibility in design; less latency. A failure zone concept is used to characterize the behavior of storage elements. Using a jitter injected test signal, robust vector transfer between PEs with arbitrary clock phases is achieved without global synchronization.
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