沉默

G. Goren, Y. Moses
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引用次数: 5

摘要

通信成本是影响许多分布式应用程序可伸缩性的一个重要因素。发送的每条消息都会在存储、计算、能源和带宽方面产生成本。因此,减少分布式应用程序的通信成本是非常可取的。减少消息成本的最佳方法是不发送任何消息就进行通信。本文对同步设置中静默的使用进行了严格的研究,在同步设置中,进程可能会失败。我们形式化了使用沉默传递信息的充分条件,以及特殊情况下的必要条件。这使我们能够识别通过沉默进行交流的信息模式。特别地,一种被称为“em沉默合唱团”的模式被识别出来,并被证明是在容易发生故障的系统中通过沉默传递信息的核心。在em原子承诺问题(AC)上证明了新框架的强大功能。从下限和匹配协议的角度,提供了具有崩溃故障的同步模型中消息复杂性和循环复杂性之间权衡的完整特征。特别地,设计了一种新的消息最优交流协议,该协议采用静默方式,在一般情况下进程需要3轮来决定。这大大改进了先前已知的最佳消息最优AC协议,其中决策以Θ(n)轮执行。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Silence
The cost of communication is a substantial factor affecting the scalability of many distributed applications. Every message sent can incur a cost in storage, computation, energy and bandwidth. Consequently, reducing the communication costs of distributed applications is highly desirable. The best way to reduce message costs is by communicating without sending any messages whatsoever. This paper initiates a rigorous investigation into the use of silence in synchronous settings, in which processes can fail. We formalize sufficient conditions for information transfer using silence, as well as necessary conditions for particular cases of interest. This allows us to identify message patterns that enable communication through silence. In particular, a pattern called a \em silent choir is identified, and shown to be central to information transfer via silence in failure-prone systems. The power of the new framework is demonstrated on the \em atomic commitment problem (AC). A complete characterization of the tradeoff between message complexity and round complexity in the synchronous model with crash failures is provided, in terms of lower bounds and matching protocols. In particular, a new message-optimal AC protocol is designed using silence, in which processes decide in~3 rounds in the common case. This significantly improves on the best previously known message-optimal AC protocol, in which decisions were performed in Θ(n) rounds.
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