具有恒定位置性的分布式近似计算

arXiv - CS - Information Theory Pub Date : 2023-12-07 DOI:arxiv-2312.04141

Deheng Yuan, Tao Guo, Zhongyi Huang, Shi Jin

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引用次数: 0

摘要

我们考虑的是计算问题的分布式编码，具有恒定的解码位置性，即在错误概率消失的情况下，只需探测恒定数量的压缩比特，就能近似恢复函数的任何单个样本。我们通过设计一种高效的编码方案，建立了一个可实现的速率区域。该方案通过引入辅助随机变量降低了所需速率，同时支持本地解码。然后，我们证明了在源分布的温和规则性条件下，该速率区域是最优的。我们还研究了具有侧信息的计算问题编码。这些结果表明，在分布式计算环境中，为了达到更低的编码复杂度，必须采用更高的速率。此外，我们还开发了有用的图特征，以简化可实现速率区域的计算。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Distributed Approximate Computing with Constant Locality

We consider a distributed coding for computing problem with constant decoding locality, i.e. with a vanishing error probability, any single sample of the function can be approximately recovered by probing only constant number of compressed bits. We establish an achievable rate region by designing an efficient coding scheme. The scheme reduces the required rate by introducing auxiliary random variables and supports local decoding at the same time. Then we show the rate region is optimal under mild regularity conditions on source distributions. A coding for computing problem with side information is analogously studied. These results indicate that more rate has to be taken in order to achieve lower coding complexity in distributed computing settings. Moreover, useful graph characterizations are developed to simplify the computation of the achievable rate region.

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arXiv - CS - Information Theory

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