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OverviewAnalog integrated circuits are very important as interfaces between the digital parts of integrated electronic systems and the outside world. A large portion of the effort involved in designing these circuits is spent in the layout phase. Whereas the physical design of digital circuits is automated to a large extent, the layout of analog circuits is still a manual, time-consuming and error-prone task. This is mainly due to the continuous nature of analog signals, which causes analog circuit performance to be very sensitive to layout parasitics. The parasitic elements associated with interconnect wires cause loading and coupling effects that degrade the frequency behaviour and the noise performance of analog circuits. Device mismatch and thermal effects put a fundamental limit on the achievable accuracy of circuits. For successful automation of analog layout, advanced place and route tools that can handle these critical parasitics are required. In the past, automatic analog layout tools tried to optimize the layout without quantifying the performance degradation introduced by layout parasitics. Therefore, it was not guaranteed that the resulting layout met the specifications and one or more layout iterations could be needed. The authors propose a performance-driven layout strategy to overcome this problem. In this methodology, the layout tools are driven by performance constraints, such that the final layout, with parasitic effects, still satisfies the specifications of the circuit. The performance degradation associated with an intermediate layout solution is evaluated at runtime using predetermined sensitivities. In contrast with other performance-driven layout methodologies, the tools proposed in this book operate directly on the performance constraints, without an intermediate parasitic constraint generation step. Besides its influence on the performance, layout also has a profound impact on the yield and testability of an analog circuit. The authors outline a new criterion to quantify the detectability of a fault and combine this with a yield model to evaluate the testability of an integrated circuit layout. They then integrate this technique with their performance-driven routing algorithm to produce layouts that have optimal manufacturability while still meeting their performance specifications. Full Product DetailsAuthor: Koen Lampaert , Georges Gielen , Willy M.C. SansenPublisher: Springer Imprint: Springer Edition: 1999 ed. Volume: 501 Dimensions: Width: 15.50cm , Height: 1.20cm , Length: 23.50cm Weight: 1.000kg ISBN: 9780792384793ISBN 10: 0792384792 Pages: 175 Publication Date: 30 April 1999 Audience: Professional and scholarly , Professional & Vocational Format: Hardback Publisher's Status: Active Availability: In Print  This item will be ordered in for you from one of our suppliers. Upon receipt, we will promptly dispatch it out to you. For in store availability, please contact us. Table of Contents1 Introduction.- 2 Performance Driven Layout of Analog Integrated Circuits.- 3 Module Generation.- 4 Placement.- 5 Routing.- 6 Implementation.- 7 General Conclusions.ReviewsAuthor InformationTab Content 6Author Website:Countries AvailableAll regions |
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