Integrated scheduling and allocation of high-level test synthesis

Proceedings Eleventh Annual IEEE International ASIC Conference (Cat. No.98TH8372) Pub Date : 1998-09-13 DOI:10.1109/ASIC.1998.722808

Tianruo Yang, Zebo Peng

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引用次数: 4

Abstract

This paper presents a high-level test synthesis algorithm for operation scheduling and data path allocation. Data path allocation is achieved by a controllability and observability balance allocation technique which is based on testability analysis at register-transfer level. Scheduling, on the other hand, is carried out by rescheduling transformations which change the default scheduling to improve testability. Contrary to other works in which the scheduling and allocation tasks are performed independently, our approach integrates scheduling and allocation by performing them simultaneously so that the effects of scheduling and allocation on testability are exploited more effectively. Additionally, since sequential loops are widely recognized to make a design hard-to-test, a complete (functional and topological) loop analysis is performed at register-transfer level in order to avoid loop creation during the integrated test synthesis process. With a variety of synthesis benchmarks, experimental results show clearly the advantages of the proposed algorithm.

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高级测试综合的集成调度和分配

提出了一种用于作业调度和数据路径分配的高级测试综合算法。数据路径分配采用基于寄存器传输级可测试性分析的可控性和可观察性平衡分配技术。另一方面，调度是通过重新调度转换来执行的，这些转换更改默认调度以提高可测试性。与其他独立执行调度和分配任务的工作相反，我们的方法通过同时执行调度和分配来集成调度和分配，从而更有效地利用调度和分配对可测试性的影响。此外，由于顺序循环被广泛认为使设计难以测试，因此在寄存器传输级别执行完整的(功能和拓扑)循环分析，以避免在集成测试合成过程中产生环路。通过多种综合基准测试，实验结果清楚地显示了该算法的优势。

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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来源期刊

Proceedings Eleventh Annual IEEE International ASIC Conference (Cat. No.98TH8372)

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