Processor Design: System-On-Chip Computing for ASICs and FPGAs
Processor Design provides insight into a number of different flavors of processor architectures and their design, software tool generation, implementation, and verification. After a brief introduction to processor architectures and how processor designers have sometimes failed to deliver what was expected, the authors introduce a generic flow for embedded on-chip processor design and start to explore the vast design space of on-chip processing. The types of processor cores covered include general purpose RISC cores, traditional DSP, a VLIW approach to signal processing, processor cores that can be customized for specific applications, reconfigurable processors, prool processors, Java engines, and stream processors. Co-processor and multi-core design approaches that deliver application-specific performance over and above that which is available from single-core designs are also described.

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Processor Design: System-On-Chip Computing for ASICs and FPGAs
Processor Design provides insight into a number of different flavors of processor architectures and their design, software tool generation, implementation, and verification. After a brief introduction to processor architectures and how processor designers have sometimes failed to deliver what was expected, the authors introduce a generic flow for embedded on-chip processor design and start to explore the vast design space of on-chip processing. The types of processor cores covered include general purpose RISC cores, traditional DSP, a VLIW approach to signal processing, processor cores that can be customized for specific applications, reconfigurable processors, prool processors, Java engines, and stream processors. Co-processor and multi-core design approaches that deliver application-specific performance over and above that which is available from single-core designs are also described.

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Processor Design: System-On-Chip Computing for ASICs and FPGAs

Processor Design: System-On-Chip Computing for ASICs and FPGAs

Processor Design: System-On-Chip Computing for ASICs and FPGAs

Processor Design: System-On-Chip Computing for ASICs and FPGAs

Overview

Processor Design provides insight into a number of different flavors of processor architectures and their design, software tool generation, implementation, and verification. After a brief introduction to processor architectures and how processor designers have sometimes failed to deliver what was expected, the authors introduce a generic flow for embedded on-chip processor design and start to explore the vast design space of on-chip processing. The types of processor cores covered include general purpose RISC cores, traditional DSP, a VLIW approach to signal processing, processor cores that can be customized for specific applications, reconfigurable processors, prool processors, Java engines, and stream processors. Co-processor and multi-core design approaches that deliver application-specific performance over and above that which is available from single-core designs are also described.

Product Details

ISBN-13: 9781402055294
Publisher: Springer Netherlands
Publication date: 06/28/2007
Edition description: 2007
Pages: 526
Product dimensions: 6.20(w) x 9.40(h) x 1.10(d)

About the Author

Dr. Jari Nurmi is Professor at Tampere University of Technology and his expertises lie in: DSP Processor Architecture, Network-on-Chip, Embedded System-on-Chip Design, Integrated Signal Processing and Digital Communication Circuits.

Jari Nurmi has edited one successful book for Springer.

Table of Contents

Embedded Computer Architecture Fundamentals.- Beyond the Valley of the Lost Processors: Problems, Fallacies, and Pitfalls in Processor Design.- Processor Design Flow.- General-Purpose Embedded Processor Cores – The COFFEE RISC Example.- The DSP and Its Impact on Technology.- VLIW DSP Processor for High-End Mobile Communication Applications.- Customizable Processors and Processor Customization.- Run-Time Reconfigurable Processors.- Coprocessor Approach to Accelerating Multimedia Applications.- Designing Soft-Core Processors for FPGAs.- Prool Processor Design Issues.- Java Co-Processor for Embedded Systems.- Stream Multicore Processors.- Processor Clock Generation and Distribution.- Asynchronous and Self-Timed Processor Design.- Early-Estimation Modeling of Processors.- System Level Simulations.- Programming Tools for Reconfigurable Processors.- Software-Based Self-Testing of Embedded Processors.- Future Directions in Processor Design.
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