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Designing Embedded Processors: A Low Power Perspective

Editat de Jörg Henkel, Sri Parameswaran
en Limba Engleză Paperback – 19 oct 2010
As we embrace the world of personal, portable, and perplexingly complex digital systems, it has befallen upon the bewildered designer to take advantage of the available transistors to produce a system which is small, fast, cheap and correct, yet possesses increased functionality.
Increasingly, these systems have to consume little energy. Designers are increasingly turning towards small processors, which are low power, and customize these processors both in software and hardware to achieve their objectives of a low power system, which is verified, and has short design turnaround times.
Designing Embedded Processors examines the many ways in which processor based systems are designed to allow low power devices. It looks at processor design methods, memory optimization, dynamic voltage scaling methods, compiler methods, and multi processor methods. Each section has an introductory chapter to give a breadth view, and have a few specialist chapters in the area to give a deeper perspective. The book provides a good starting point to engineers in the area, and to research students embarking upon the exciting area of embedded systems and architectures.
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Specificații

ISBN-13: 9789048174638
ISBN-10: 9048174635
Pagini: 568
Ilustrații: XVIII, 550 p.
Dimensiuni: 155 x 235 x 30 mm
Greutate: 0.79 kg
Ediția:Softcover reprint of hardcover 1st ed. 2007
Editura: SPRINGER NETHERLANDS
Colecția Springer
Locul publicării:Dordrecht, Netherlands

Public țintă

Research

Cuprins

Application Specific Embedded Processors.- Application-Specific Embedded Processors.- Low-Power Design with NISC Technology.- Synthesis of Instruction Sets for High-Performance and Energy-Efficient ASIP.- A Framework for Extensible Processor Based MPSoC Design.- Design and Run Time Code Compression for Embedded Systems.- Embedded Memories.- Power Optimisation Strategies Targeting the Memory Subsystem.- Layer Assignment Techniques for Low Energy in Multi-Layered Memory Organizations.- Memory Bank Locality and Its Usage in Reducing Energy Consumption.- Dynamic Voltage and Frequency Scaling.- Fundamentals of Power-Aware Scheduling.- Static DVFS Scheduling.- Dynamic DVFS Scheduling.- Voltage Selection for Time-Constrained Multiprocessor Systems.- Compiler Techniques.- Compilation Techniques for Power, Energy, and Thermal Management.- Compiler-Directed Dynamic CPU Frequency and Voltage Scaling.- Link Idle Period Exploitation for Network Power Management.- Remote Task Mapping.- Multi-Processors.- A Power and Energy Perspective on MultiProcessors.- System-Level Design of Network-on-Chip Architectures.- Power-Performance Modeling and Design for Heterogeneous Multiprocessors.- Reconfigurable Computing.- Basics of Reconfigurable Computing.- Dynamic Reconfiguration.- Applications, Design Tools and Low Power Issues in FPGA Reconfiguration.

Notă biografică

Dr. Sri Parameswaran received his B.Eng Degree from Monash University and his Ph.D degree from the University of Queensland in Australia. He has held visiting appointments at University of California, Kyushu University and Australian National University. He has also worked as a consultant to the NEC Research laboratories at Princeton, USA and to the Asian Development Bank in Philippines.
Currently Dr Parameswaran is at the University of New South Wales and is the Program Director of Computer Engineering. He has served on several program committees such as ICCAD, Euro-DAC, DATE, Codes-ISSS, CASES, APCHDL etc. He has given full day tutorials at ICCAD, Euro DAC and VLSI Design Conference. In 2002, he served as the program committee chair for the IEEE/ACM Codes Hardware/Software Co-design Symposium. Dr Parameswaran’s research interests are in Application Specific Instruction Set Processors and Low power Design for Embedded systems. He leads a group of fifteen researchers, and holds grants from Australian Research Council and Industry.
Dr. Joerg Henkel received his Master and Ph.D ("cum laude") degrees both from the Technical University of Braunschweig, Germany. He then joined the Computer & Communication Research Laboratories CCRL (now NEC Laboratories America) in Princeton, NJ, where he led various projects in the areas of low power system level design and advanced embedded architectures. In between, he had an appointment as a visiting professor at the Univ. of Notre Dame, IN.
Dr. Henkel is currently with Karlsruhe University (TH), Germany, where he is directing the Chair for Embedded Systems CES. He has served or is serving as a program committee member for major conferences in electronic design automation and embedded system design like ICCAD, DATE, ASP-DAC, ISLPED, Codes-ISSS, CASES, RTSS, RSP. He has given full-day tutorials at conferences like DAC, ICCAD, DATE and others in the area of embedded system design. In 2001 he served asa Program Chair for the IEEE/ACM Codes Hardware/Software Co-design Symposium and was a General of the same convention in 2002. Furthermore, he was a Program Chair for the 2002 IEEE Workshop on Rapid System Prototyping. He has guest-edited special issues on hardware/software co-design in the IEEE Computer Magazine and on rapid system prototyping with Kluwer. Dr. Henkel holds five patents. He is a Senior Member of the IEEE.

Textul de pe ultima copertă

As we embrace the world of personal, portable, and perplexingly complex digital systems, it has befallen upon the bewildered designer to take advantage of the available transistors to produce a system which is small, fast, cheap and correct, yet possesses increased functionality.
Increasingly, these systems have to consume little energy. Designers are increasingly turning towards small processors, which are low power, and customize these processors both in software and hardware to achieve their objectives of a low power system, which is verified, and has short design turnaround times.
Designing Embedded Processors examines the many ways in which processor based systems are designed to allow low power devices. It looks at processor design methods, memory optimization, dynamic voltage scaling methods, compiler methods, and multi processor methods. Each section has an introductory chapter to give a breadth view, and have a few specialist chapters in the area to give a deeper perspective. The book provides a good starting point to engineers in the area, and to research students embarking upon the exciting area of embedded systems and architectures.

Caracteristici

Covers key area for low power embedded hardware systems One of the few books which covers such a wide range of topics, focussed towards a complete system Many of the top researchers and practitioners in the area have authored chapters in this book