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Reconfigurable Computing: Architectures, Tools, and Applications: 4th International Workshop, ARC 2008, London, UK, March 26-28, 2008, Proceedings
For manyyears, the idea of recon?gurablehardwaresystems hasrepresentedthe Holy Grail for computer systemdesigners.It has been recognizedfor a long time that the microprocessor provides high ?exibility but at a very low performance merit in terms of MIPS/W or other such measures. Recon?gurable systems are thus attractive as they can be con?gured to provide the best match for the computational requirements at that speci?c time, giving much better area - speed - power performance. However, the practicalities of achieving such a recon?gurable system are - merous andrequirethe developmentof: suitable recon?gurablehardwareto s- portthe dynamicbehavior;programmingtoolsto allowthe dynamicbehavior of the recon?gurability to be modelled; programming languages to support rec- ?guration;andveri?cationtechniquesthatcandemonstratethatrecon?guration hashappenedcorrectlyateachstage.Whiletheproblemsaremany, theexistence and development of technologies such as the multi-core processor architecture, recon?gurable computing architectures, and application-speci?c processors s- gest there is a strong desire for recon?gurable systems. Moreover, FPGAs also provide the ideal platforms for the development of such platforms. The major motivation behind the International Workshop on Applied - con?gurable Computing (ARC) series is to create a forum for presenting and discussing on-going research e?orts in applied recon?gurable computing. The workshop also focuses on compiler and mapping techniques, and new recon- urablecomputingarchitectures.Theseriesofeditionsstartedin2005inAlgarve, Portugal, followed by the 2006 workshop in Delft, The Netherlands, and last year's workshop in Mangaratiba, Rio de Janeiro, Brazil. As in previous years, selectedpapershavebeenpublished asa SpringerLNCS(LectureNotes in C- puter Science) volume.
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Reconfigurable Computing: Architectures, Tools, and Applications: 4th International Workshop, ARC 2008, London, UK, March 26-28, 2008, Proceedings
For manyyears, the idea of recon?gurablehardwaresystems hasrepresentedthe Holy Grail for computer systemdesigners.It has been recognizedfor a long time that the microprocessor provides high ?exibility but at a very low performance merit in terms of MIPS/W or other such measures. Recon?gurable systems are thus attractive as they can be con?gured to provide the best match for the computational requirements at that speci?c time, giving much better area - speed - power performance. However, the practicalities of achieving such a recon?gurable system are - merous andrequirethe developmentof: suitable recon?gurablehardwareto s- portthe dynamicbehavior;programmingtoolsto allowthe dynamicbehavior of the recon?gurability to be modelled; programming languages to support rec- ?guration;andveri?cationtechniquesthatcandemonstratethatrecon?guration hashappenedcorrectlyateachstage.Whiletheproblemsaremany, theexistence and development of technologies such as the multi-core processor architecture, recon?gurable computing architectures, and application-speci?c processors s- gest there is a strong desire for recon?gurable systems. Moreover, FPGAs also provide the ideal platforms for the development of such platforms. The major motivation behind the International Workshop on Applied - con?gurable Computing (ARC) series is to create a forum for presenting and discussing on-going research e?orts in applied recon?gurable computing. The workshop also focuses on compiler and mapping techniques, and new recon- urablecomputingarchitectures.Theseriesofeditionsstartedin2005inAlgarve, Portugal, followed by the 2006 workshop in Delft, The Netherlands, and last year's workshop in Mangaratiba, Rio de Janeiro, Brazil. As in previous years, selectedpapershavebeenpublished asa SpringerLNCS(LectureNotes in C- puter Science) volume.
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Reconfigurable Computing: Architectures, Tools, and Applications: 4th International Workshop, ARC 2008, London, UK, March 26-28, 2008, Proceedings

Reconfigurable Computing: Architectures, Tools, and Applications: 4th International Workshop, ARC 2008, London, UK, March 26-28, 2008, Proceedings

Reconfigurable Computing: Architectures, Tools, and Applications: 4th International Workshop, ARC 2008, London, UK, March 26-28, 2008, Proceedings

Reconfigurable Computing: Architectures, Tools, and Applications: 4th International Workshop, ARC 2008, London, UK, March 26-28, 2008, Proceedings

Overview

For manyyears, the idea of recon?gurablehardwaresystems hasrepresentedthe Holy Grail for computer systemdesigners.It has been recognizedfor a long time that the microprocessor provides high ?exibility but at a very low performance merit in terms of MIPS/W or other such measures. Recon?gurable systems are thus attractive as they can be con?gured to provide the best match for the computational requirements at that speci?c time, giving much better area - speed - power performance. However, the practicalities of achieving such a recon?gurable system are - merous andrequirethe developmentof: suitable recon?gurablehardwareto s- portthe dynamicbehavior;programmingtoolsto allowthe dynamicbehavior of the recon?gurability to be modelled; programming languages to support rec- ?guration;andveri?cationtechniquesthatcandemonstratethatrecon?guration hashappenedcorrectlyateachstage.Whiletheproblemsaremany, theexistence and development of technologies such as the multi-core processor architecture, recon?gurable computing architectures, and application-speci?c processors s- gest there is a strong desire for recon?gurable systems. Moreover, FPGAs also provide the ideal platforms for the development of such platforms. The major motivation behind the International Workshop on Applied - con?gurable Computing (ARC) series is to create a forum for presenting and discussing on-going research e?orts in applied recon?gurable computing. The workshop also focuses on compiler and mapping techniques, and new recon- urablecomputingarchitectures.Theseriesofeditionsstartedin2005inAlgarve, Portugal, followed by the 2006 workshop in Delft, The Netherlands, and last year's workshop in Mangaratiba, Rio de Janeiro, Brazil. As in previous years, selectedpapershavebeenpublished asa SpringerLNCS(LectureNotes in C- puter Science) volume.

Product Details

ISBN-13: 9783540786092
Publisher: Springer Berlin Heidelberg
Publication date: 04/28/2008
Series: Lecture Notes in Computer Science , #4943
Edition description: 2008
Pages: 346
Product dimensions: 6.10(w) x 9.25(h) x 0.03(d)

Table of Contents

Keynotes.- Synthesizing FPGA Circuits from Parallel Programs.- From Silicon to Science: The Long Road to Production Reconfigurable Supercomputing.- The von Neumann Syndrome and the CS Education Dilemma.- Programming and Compilation.- Optimal Unroll Factor for Reconfigurable Architectures.- Programming Reconfigurable Decoupled Application Control Accelerator for Mobile Systems.- DNA and String Processing Applications.- DNA Physical Mapping on a Reconfigurable Platform.- Hardware BLAST Algorithms with Multi-seeds Detection and Parallel Extension.- Highly Space Efficient Counters for Perl Compatible Regular Expressions in FPGAs.- Scientific Applications.- A Custom Processor for a TDMA Solver in a CFD Application.- A High Throughput FPGA-Based Floating Point Conjugate Gradient Implementation.- Reconfigurable Computing Hardware and Systems.- Physical Design of FPGA Interconnect to Prevent Information Leakage.- Symmetric Multiprocessor Design for Hybrid CPU/FPGA SoCs.- Run-Time Adaptable Architectures for Heterogeneous Behavior Embedded Systems.- Image Processing.- FPGA-Based Real-Time Super-Resolution on an Adaptive Image Sensor.- A Parallel Hardware Architecture for Image Feature Detection.- Reconfigurable HW/SW Architecture of a Real-Time Driver Assistance System.- Run-Time Behavior.- A New Self-managing Hardware Design Approach for FPGA-Based Reconfigurable Systems.- A Preemption Algorithm for a Multitasking Environment on Dynamically Reconfigurable Processor.- Accelerating Speculative Execution in High-Level Synthesis with Cancel Tokens.- Instruction Set Extension.- ARISE Machines: Extending Processors with Hybrid Accelerators.- The Instruction-Set Extension Problem: A Survey.- Random Number Generation and Financial Computation.- An FPGA Run-Time Parameterisable Log-Normal Random Number Generator.- Multivariate Gaussian Random Number Generator Targeting Specific Resource Utilization in an FPGA.- Exploring Reconfigurable Architectures for Binomial-Tree Pricing Models.- Posters.- Hybrid-Mode Floating-Point FPGA CORDIC Co-processor.- Multiplier-Based Double Precision Floating Point Divider According to the IEEE-754 Standard.- Creating the World’s Largest Reconfigurable Supercomputing System Based on the Scalable SGI® Altix® 4700 System Infrastructure and Benchmarking Life-Science Applications.- Highly Efficient Structure of 64-Bit Exponential Function Implemented in FPGAs.- A Framework for the Automatic Generation of Instruction-Set Extensions for Reconfigurable Architectures.- PARO: Synthesis of Hardware Accelerators for Multi-dimensional Dataflow-Intensive Applications.- Stream Transfer Balancing Scheme Utilizing Multi-path Routing in Networks on Chip.- Efficiency of Dynamic Reconfigurable Datapath Extensions – A Case Study.- Online Hardware Task Scheduling and Placement Algorithm on Partially Reconfigurable Devices.- Data Reallocation by Exploiting FPGA Configuration Mechanisms.- A Networked, Lightweight and Partially Reconfigurable Platform.- Neuromolecularware – A Bio-inspired Evolvable Hardware and Its Application to Medical Diagnosis.- An FPGA Configuration Scheme for Bitstream Protection.- Lossless Compression for Space Imagery in a Dynamically Reconfigurable Architecture.
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