DSP硬件全跨度结构编译

ICASSP '87. IEEE International Conference on Acoustics, Speech, and Signal Processing Pub Date : 1987-04-06 DOI:10.1109/ICASSP.1987.1169715

Stewart Smith, P. Denyer, D. Renshaw, K. Asada, K. Coplan, M. Keightley, J. Mhar

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引用次数: 1

摘要

大多数当前的硅编译器依赖于底层硬件函数库，因此限制了用户生成库组件的结构组件。虽然这使系统设计者能够直接在硅中实现功能，但它排除了使用任意的单元功能，这些功能可能比现有的集合更适合他的应用。此外，如果出现新的工艺，则必须由电路和布局专家根据新的规则重新设计和布局单元库。结构硅编译的一个进步，SECOND，被报道，它承诺赋予细胞库灵活性和可移植性。通过从逻辑描述中自动生成布局，单元库可以以进程独立的形式进行维护，并且不仅可以轻松地合并新组件，还可以轻松地合并新进程。用户指定芯片的实现可以是定制的或半定制的形式——只有物理组装过程不同。

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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Full-span structural compilation of DSP hardware

Most current silicon compilers rely on an underlying hardware function-library, thereby restricting the user to producing structural assemblies of library components. Although this gives the systems designer the power to implement function directly in silicon, it precludes the use of arbitrary cell functions that might be more suited to his application than the existing set. Moreover, should a new process become available, the cell-library must be redesigned and laid-out according to new rules, by a circuit and layout expert. An advance in structural silicon compilation, SECOND, is reported, which promises to impart flexibility and portability to cell-libraries. Through the automatic generation of layout from logical descriptions, cell-libraries may be maintained in process-independent form, and incorporate not only new components, but also new processes with ease. Implementations of user-specified chips may be in custom or semi-custom form - only physical assembly procedures differ.

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来源期刊

ICASSP '87. IEEE International Conference on Acoustics, Speech, and Signal Processing

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