This book is designed both for FPGA users interested in developing new, specific components - generally for reducing execution times -and IP core designers interested in extending their catalog of specific components. The main focus is circuit synthesis and the discussion shows, for example, how a given algorithm executing some complex function can be translated to a synthesizable circuit description, as well as which are the best choices the designer can make to reduce the circuit cost, latency, or power consumption. ...
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This book is designed both for FPGA users interested in developing new, specific components - generally for reducing execution times -and IP core designers interested in extending their catalog of specific components. The main focus is circuit synthesis and the discussion shows, for example, how a given algorithm executing some complex function can be translated to a synthesizable circuit description, as well as which are the best choices the designer can make to reduce the circuit cost, latency, or power consumption. This is not a book on algorithms. It is a book that shows how to translate efficiently an algorithm to a circuit, using techniques such as parallelism, pipeline, loop unrolling, and others. Numerous examples of FPGA implementation are described throughout this book and the circuits are modeled in VHDL. Complete and synthesizable source files are available for download.
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Add this copy of Guide to Fpga Implementation of Arithmetic Functions to cart. $159.95, like new condition, Sold by Salish Sea Books rated 4.0 out of 5 stars, ships from Bellingham, WA, UNITED STATES, published 2012 by Springer-Verlag Publishing.
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Seller's Description:
Fine. Like New; Hardcover; This book is brand new and still sealed in the publisher's original shrinkwrap; Corners are slightly "bumped" through the plastic; This book will be stored and delivered in a sturdy cardboard box with foam padding; Medium Format (8.5? ? 9.75? tall); Red covers with title in white lettering; 2012, Springer-Verlag Publishing; 472 pages; "Guide to FPGA Implementation of Arithmetic Functions (Lecture Notes in Electrical Engineering), " by Jean-Pierre Deschamps, et al.
