基于硬宏的片内FPGA异步接口

Julian J. H. Pontes, R. Soares, Ewerson Carvalho, F. Moraes, Ney Laert Vilar Calazans
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引用次数: 38

摘要

随着电路几何形状的发展,构建完全同步的VLSI电路变得越来越不可行。然而,在VLSI设计中采用纯异步策略之前,应该采用全局异步,局部同步(GALS)设计方法。使用复杂的现场可编程组件(如最先进的fpga)的电路设计遵循同样的趋势。在GALS设计中,一个关键步骤是定义同步区域之间的异步接口。本文提出了一种用于fpga内部模块互连的新型异步接口SCAFFI。该接口基于时钟拉伸技术以避免亚稳态。与其他接口不同的是,它可以使用两个逻辑级别进行拉伸,并且不需要使用仲裁器。此外,通过使用专用FPGA硬宏,增强了实现的紧凑性。RSA加密核心的GALS版本实现演示了SCAFFI的使用。
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SCAFFI: An intrachip FPGA asynchronous interface based on hard macros
Building fully synchronous VLSI circuits is becoming less viable as circuit geometries evolve. However, before the adoption of purely asynchronous strategies in VLSI design, globally asynchronous, locally synchronous (GALS) design approaches should take over. The design of circuits using complex field programmable components like state of the art FPGAs follows this same trend. In GALS design, a critical step is the definition of asynchronous interfaces between synchronous regions. This paper proposes SCAFFI, a new asynchronous interface to interconnect modules inside FPGAs. The interface is based on clock stretching techniques to avoid metastability. Differently from other interfaces, it can use both logic levels for stretching and do not require the use of arbiters. Also, compactness of the implementation is enhanced by the use of dedicated FPGA hard macros. A GALS version implementation of an RSA cryptography core demonstrates the use of SCAFFI.
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