数字信号处理的设计方法

Proceedings IEEE International Conference on Application-Specific Systems, Architectures and Processors Pub Date : 1997-07-14 DOI:10.1109/ASAP.1997.606852

G. Fettweis

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引用次数: 4

摘要

半导体集成密度的提高和由此产生的必须管理日益复杂的设计的问题是一个古老的问题，但仍然是当前的问题。新的挑战在于架构异质性的新水平，例如在一个芯片上混合硬连线数字电路和软件编程信号处理器。因此，我们正在从半自定义的标准单元向半自定义的“块单元”的抽象层次移动。这导致算法/系统设计和架构/电路设计之间的差距出现了一个新的维度，目前还没有任何工具能够充分解决这个问题。本文提出了一种通过将算法正交化为数据传输和数据操作来分析问题的方法，并将其推广到控制和I/O设计中。这种方法可能是灵活地将算法映射到未来的“块单元”设计上的有希望的基础，而且还可以设计新的系统仿真工具，这些工具允许将工具集成到各种不同的硬件架构域上，以灵活地将算法映射到各种不同的硬件架构域上。

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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Design methodology for digital signal processing

Improvements in semiconductor integration density and the resulting problem of having to manage designs of increasing complexity is an old one, but still current. The new challenge lies in a new level of architecture heterogeneity, e.g. mixing hard-wired digital circuits with software programmed signal processors on one die. Hence, we are moving by one level of abstraction from semi-custom standard-cells to semi-custom 'block cells'. This results in a new dimension in the gap between algorithm/system design and architecture/circuit design, not addressed by any tools sufficiently yet today. This paper presents a method of analyzing the problem by orthogonalizing algorithms into data transfer and data manipulation, and carrying this over to the control and I/O design as well. This approach might be a promising basis for flexibly mapping the algorithms onto future 'block cell' designs, and furthermore for designing new system simulation tools which allow for tools to be integrated for a flexible mapping of algorithms onto various different hardware architecture domains.

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Proceedings IEEE International Conference on Application-Specific Systems, Architectures and Processors

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