利用核心实现片上系统的自动化设计

R. Bergamaschi, William R. Lee, Duane E. Richardson, S. Bhattacharya, Michael Muhlada, Ronaldo Wagner, Arthur Weiner, Foster White
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引用次数: 11

摘要

预先设计和预先验证的IP块或内核的重用被吹捧为大型片上系统设计的推动者。然而,由于缺乏适当的工具,而且这些核心的复杂性不断增加,使得它们在使用上天生就很困难,而且容易出错。本文提出了一种新的工具“Coral”,用于设计使用岩心的系统。珊瑚是基于一种新的可合成的虚拟设计表示,它被自动合成为一个真实的设计。提出了一种新的算法来自动互连核心以及配置系统参数,如中断映射、DMA信道分配等。Coral显著减少了与SoC集成相关的时间、复杂性和潜在错误。
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Coral-automating the design of systems-on-chip using cores
The reuse of pre-designed and pre-verified IP blocks or cores has been touted as the enabler of large systems-on-chip designs. However, the lack of appropriate tools and the increasing complexity of such cores makes them inherently difficult and error-prone to use. This paper presents a new tool, "Coral", for the design of systems using cores. Coral is based on a new synthesizable virtual design representation which is automatically synthesized to a real design. Novel algorithms are presented to interconnect cores automatically as well as configure system parameters, such as interrupt maps, DMA channel assignments, etc. Coral significantly reduces the time, complexity and potential for errors associated with SoC integration.
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