Overview
- Authors:
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Andreas Hoffmann
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LISA Tek GmbH, Germany
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Heinrich Meyr
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Aachen University of Technology, Germany
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Rainer Leupers
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Aachen University of Technology, Germany
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Table of contents (9 chapters)
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Front Matter
Pages N1-viii
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- Andreas Hoffmann, Heinrich Meyr, Rainer Leupers
Pages 1-10
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- Andreas Hoffmann, Heinrich Meyr, Rainer Leupers
Pages 11-27
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- Andreas Hoffmann, Heinrich Meyr, Rainer Leupers
Pages 29-43
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- Andreas Hoffmann, Heinrich Meyr, Rainer Leupers
Pages 45-53
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- Andreas Hoffmann, Heinrich Meyr, Rainer Leupers
Pages 55-77
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- Andreas Hoffmann, Heinrich Meyr, Rainer Leupers
Pages 79-100
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- Andreas Hoffmann, Heinrich Meyr, Rainer Leupers
Pages 101-127
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- Andreas Hoffmann, Heinrich Meyr, Rainer Leupers
Pages 129-141
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- Andreas Hoffmann, Heinrich Meyr, Rainer Leupers
Pages 143-148
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Back Matter
Pages 149-230
About this book
Already today more than 90% of all programmable processors are employed in embedded systems. This number is actually not surprising, contemplating that in a typical home you might find one or two PCs equipped with high of embedded systems, performance standard processors, but probably dozens including electronic entertainment, household, and telecom devices, each of them equipped with one or more embedded processors. Moreover, the elec tronic components of upper-class cars incorporate easily over one hundred pro cessors. Hence, efficient embedded processor design is certainly an area worth looking at. The question arises why programmable processors are so popular in embed ded system design. The answer lies in the fact that they help to narrow the gap between chip capacity and designer productivity. Embedded processors cores are nothing but one step further towards improved design reuse, just along the lines of standard cells in logic synthesis and macrocells in RTL synthesis in earlier times of IC design. Additionally, programmable processors permit to migrate functionality from hardware to software, resulting in an even improved reuse factor as well as greatly increased flexibility.