An efficient data transmission technique for VLSI systems based on multiple-valued code-division multiple access

Proceedings 30th IEEE International Symposium on Multiple-Valued Logic (ISMVL 2000) Pub Date : 2000-05-23 DOI:10.1109/ISMVL.2000.848654

Y. Yuminaka, Osamu Katoh, Y. Sasaki, T. Aoki, T. Higuchi

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引用次数: 9

Abstract

This paper investigates a multiple-valued code-division multiple access (MV-CDMA) technique to achieve efficient data transmission and processing in VLSI systems. CDMA employs a pseudo-random orthogonal m-sequence carrier as a multiplexable information carrier. Orthogonal property of m-sequences enables us to multiplex several computational activities into a single circuit, and execute in parallel using multiplexed data transmission. With reduced interconnection. Also, randomness of m-sequences offers the high tolerance to noise interference. In the case of conventional CDMA, however, co-channel interference due to carrier phase offset error severely restricts the available number of multiplexing. In order to eliminate carrier phase offset error, we propose a new class of multiple-valued m-sequences. An application example of neural networks is discussed to demonstrate the feasibility of MV-CDMA in terms of reducing interconnections and eliminating co-channel interference.

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基于多值码分多址的VLSI系统高效数据传输技术

本文研究了一种在VLSI系统中实现高效数据传输和处理的多值码分多址(MV-CDMA)技术。CDMA采用伪随机正交m序列载波作为可复用的信息载波。m序列的正交特性使我们能够将多个计算活动复用到单个电路中，并使用多路数据传输并行执行。减少了相互联系。同时，m序列的随机性对噪声干扰具有较高的容忍度。然而，在传统的CDMA中，由于载波相位偏移误差引起的同信道干扰严重限制了复用的可用数量。为了消除载波相位偏移误差，我们提出了一类新的多值m序列。通过神经网络的应用实例，论证了MV-CDMA在减少互连和消除同信道干扰方面的可行性。

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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Proceedings 30th IEEE International Symposium on Multiple-Valued Logic (ISMVL 2000)

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