用任意有向无环图描述状态转移的广义一次写存储器容量

IEEE Trans. Inf. Theory Pub Date : 1999-01-01 DOI:10.1109/18.746827

Fang-Wei Fu, Han Vinck

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引用次数: 111

摘要

由Fiat和Shamir(1984)提出的广义一次写入存储器是一种q元信息存储介质。每个存储单元期望存储q个符号中的一个，并且合法的状态转换由任意有向无环图描述。这种内存模型可以理解为Rivest和Shamir(1982)引入的二进制一次写入内存的推广。在更新信息的过程中，单元格的内容可以从0状态更改为1状态，反之则不行。研究了T个连续周期(代)的通用一次写入内存的重用问题。在编码器知道而解码器不知道存储器先前状态的情况下，我们确定了零错误容量区域和存储在存储器中连续T个周期的信息命中的最大总数。这些结果扩展了Wolf, Wyner, Ziv, and Korner(1984)关于二进制一次写入存储器的结果。

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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On the Capacity of Generalized Write-Once Memory with State Transitions Described by an Arbitrary Directed Acyclic Graph

The generalized write-once memory introduced by Fiat and Shamir (1984) is a q-ary information storage medium. Each storage cell is expected to store one of q symbols, and the legal state transitions are described by an arbitrary directed acyclic graph. This memory model can be understood as a generalization of the binary write-once memory which was introduced by Rivest and Shamir (1982). During the process of updating information, the contents of a cell can be changed from a 0-state to a 1-state but not vice versa. We study the problem of reusing a generalized write-once memory for T successive cycles (generations). We determine the zero-error capacity region and the maximum total number of information hits stored in the memory for T consecutive cycles for the situation where the encoder knows and the decoder does not know the previous state of the memory. These results extend the results of Wolf, Wyner, Ziv, and Korner (1984) for the binary write-once memory.

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IEEE Trans. Inf. Theory

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