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Direct Transistor-Level Layout for Digital Blocks

Produktform: Buch / Einband - flex.(Paperback)

Cell-based design methodologies have dominated layout generation of digital circuits. Unfortunately, the growing demands for transparent process portability, increased performance, and low-level device sizing for timing/power are poorly handled in a fixed cell library. proposes a direct transistor-level layout approach for small blocks of custom digital logic as an alternative that better accommodates demands for device-level flexibility. This approach captures essential shape-level optimizations, yet scales easily to netlists with thousands of devices, and incorporates timing optimization during layout. The key idea is early identification of essential diffusion-merged MOS device groups, and their preservation in an uncommitted geometric form until the very end of detailed placement. Roughly speaking, essential groups are extracted early from the transistor-level netlist, placed globally, optimized locally, and then finally committed each to a specific shape-level form while concurrently optimizing for both density and routability. The essential flaw in prior efforts is an over-reliance on geometric assumptions from large-scale cell-based layout algorithms. Individual transistors may seem simple, but they do not pack as gates do. Algorithms that ignore these shape-level issues suffer the consequences when thousands of devices are poorly packed. The approach described in this book can pack devices much more densely than a typical cell-based layout. is a comprehensive reference work on device-level layout optimization, which will be valuable to CAD tool and circuit designers.weiterlesen

Sprache(n): Englisch

ISBN: 978-1-4757-7951-6 / 978-1475779516 / 9781475779516

Verlag: Springer US

Erscheinungsdatum: 23.03.2013

Seiten: 125

Auflage: 1

Autor(en): Prakash Gopalakrishnan, Rob A. Rutenbar

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