ECO- map:利用模拟退火技术对掩模后ECO进行重新映射

2008 IEEE International Conference on Computer Design Pub Date : 2008-10-01 DOI:10.1109/ICCD.2008.4751930

Nilesh A. Modi, M. Marek-Sadowska

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引用次数: 23

摘要

随着晶体管掩模成本的飙升以及与完整设计重新旋转相关的延迟不断升级，掩模后工程变更命令(ECOs) -在掩模准备好之后进行设计变更-越来越多地通过保持晶体管掩模完整并且仅修改金属掩模来执行。在本文中，我们提出了一种新的设计流程来实现后掩模eco的技术重映射。传统的技术映射和放置算法没有每种栅极类型的数量和放置备用/回收电池的位置的概念，与之相反，我们的flow ECO- map提供了一个理想的可扩展框架，可以在掩膜后的ECO场景中实现全局优化。给定由于功能性ECO和放置的备用/回收单元数量有限而导致的逻辑更改，ECO- map找到资源可行的布尔覆盖，并将更改的逻辑优化到可用资源中。这确保了对现有解决方案的扰动最小，并保持晶体管掩模完整，从而降低了非重复工程(NRE)成本。在MCNC基准上进行的实验表明了我们的方法的有效性。

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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ECO-Map: Technology remapping for post-mask ECO using simulated annealing

With transistor mask costs soaring and the delays associated with full design re-spins escalating, post-mask Engineering Change Orders (ECOs) - design changes after the masks have been prepared - are increasingly carried out by keeping transistor masks intact and revising only the metal masks. In this paper, we propose a novel design flow for achieving technology remapping for post-mask ECOs. In contrast to conventional technology mapping and placement algorithms that have no notion of the quantity for each gate type and the location of placed spare/recycled cells, our flow ECO-Map provides an ideal scalable framework for achieving global optimization in a post-mask ECO scenario. Given the changed logic due to a functional ECO and a limited number of placed spare/recycled cells, ECO-Map finds a resource-feasible Boolean cover and optimally fits the changed logic into the available resources. This ensures minimal perturbation of the existing solution and keeps transistor masks intact, thus reducing non-recurring engineering (NRE) costs. Experiments performed on MCNC benchmarks show the effectiveness of our approach.

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2008 IEEE International Conference on Computer Design

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