数值实验结果表明交替平面数据通信策略和块流水线并行算法是有效且可扩展的。
Numerical results have shown that the alternation plane data communication strategy and block pipeline parallel method applied are effective and scalable.
首先介绍了L S SIMD阵列微处理器的三种并行性:数据并行、流水线并行和指令的并行执行。
This paper firstly discusses three types of parallelism in LS SIMD array microprocessor, they are the concurrence of data, the pipelining and the operation in parallel.
本文的设计着重从多个层次利用并行处理技术来提高环路滤波的速度,包括流水线设计、数据流驱动控制策略以及算法并行性设计。
Our design emphasizes on using parallel processing technology from multi-level to improve speed, including pipelining design, data-flow drive strategy and algorithmic parallelism design.
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