The design and implementation of the Arithmetic Cube II, a VLSI signal processing system

Owens R.M.; Kelliher T.P.

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The design and implementation of the Arithmetic Cube II, a VLSI signal processing system

机译：VLSI信号处理系统Arithmetic Cube II的设计与实现

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The Arithmetic Cube II, a high-performance signal processing system designed and built at Penn State University, is described. The architecture implements the so-called small-n algorithms, and is the first system making use of this approach to signal processing. The system is capable of computing a 1008-point complex-in complex-out discrete Fourier transform (DFT) in 3.54 ms. This high performance rate is achieved using very modest technology (2- mu CMOS). An overview of the small-n algorithms is provided. The architectural design and implementation of the system and the transform development environment are described, and results of operating the system are reported.

机译：描述了宾夕法尼亚州立大学设计和制造的高性能信号处理系统Arithmetic Cube II。该体系结构实现了所谓的small-n算法，并且是第一个将这种方法用于信号处理的系统。该系统能够在3.54毫秒内计算出1008点的复输入复输出离散傅里叶变换（DFT）。使用非常适中的技术（2-mu CMOS）可实现如此高的性能。提供了small-n算法的概述。描述了系统的架构设计和实现以及转换开发环境，并报告了系统的运行结果。

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《IEEE transactions on very large scale integration (VLSI) systems》 |1993年第4期|P.491-502|共12页
作者
Owens R.M.; Kelliher T.P.;
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中图分类微电子学、集成电路（IC）;
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The design and implementation of the Arithmetic Cube II, a VLSI signal processing system

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