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    Gebundenes Buch

A one-of-a-kind survey of the field of Reconfigurable Computing Gives a comprehensive introduction to a discipline that offers a 10X-100X acceleration of algorithms over microprocessors Discusses the impact of reconfigurable hardware on a wide range of applications: signal and image processing, network security, bioinformatics, and supercomputing Includes the history of the field as well as recent advances Includes an extensive bibliography of primary sources…mehr

Produktbeschreibung
A one-of-a-kind survey of the field of Reconfigurable Computing Gives a comprehensive introduction to a discipline that offers a 10X-100X acceleration of algorithms over microprocessors Discusses the impact of reconfigurable hardware on a wide range of applications: signal and image processing, network security, bioinformatics, and supercomputing Includes the history of the field as well as recent advances Includes an extensive bibliography of primary sources
  • Produktdetails
  • Verlag: Springer, Berlin
  • 2005
  • Seitenzahl: 248
  • Erscheinungstermin: 14. Dezember 2005
  • Englisch
  • Abmessung: 241mm x 160mm x 18mm
  • Gewicht: 580g
  • ISBN-13: 9780387261058
  • ISBN-10: 0387261052
  • Artikelnr.: 14699874
Autorenporträt
Maya Gokhale, Los Alamos National Laboratory, NM, USA / Paul S. Graham, Los Alamos, NM, USA
Inhaltsangabe
Chapter 1. An Introduction to Reconfigurable Computing. 1.1 What is RC? 1.2 RC Architectures. 1.3 How did RC originate? 1.4 Inside the FPGA. 1.5 Mapping Algorithms to Hardware . 1.6 RC Applications. 1.7 Example: Dot Product. 1.8 Further Reading. Chapter 2. Reconfigurable Logic Devices. 2.1 Field-Programmable Gate Arrays. 2.2 Coarse-Grained Reconfigurable Arrays. 2.3 Summary. Chapter 3. Reconfigurable Computing Systems. 3.1 Parallel Processing on Reconfigurable Computers. 3.2 A Survey of Reconfigurable Computing Systems. 3.3 Summary. Chapter 4. Languages and Compilation. 4.1 Design Cycle. 4.2 Languages. 4.3 High Level Compilation. 4.4 Low Level Design Flow. 4.5 Debugging Reconfigurable Computing Applications. 4.6 Summary. Chapter 5. Signal Processing Applications. 5.1 What is Digital Signal Processing? 5.2 Why Use Reconfigurable Computing for DSP? 5.3 DSP Application Building Blocks. 5.4 Example DSP Applications. Chapter 6. Image Processing. 6.1 RC for Image and Video Processing. 6.2 Local Neighborhood Functions. 6.3 Convolution. 6.4 Morphology. 6.5 Feature Extraction. 6.6 Automatic Target Recognition. 6.7 Image Matching. 6.8 Evolutionary Image Processing. 6.9 Summary. Chapter 7. Network Security. 7.1 Cryptographic Applications. 7.2 Network Protocol Security. 7.3 Summary. Chapter 8. Bioinformatics Applications. 8.1 Introduction. 8.2 Applications. 8.3 Dynamic Programming Algorithms. 8.4 Seed-Based Heuristics. 8.5 Profiles, HMMs and Language Models. 8.6 Bioinformatics FPGA Accelerators. 8.7 Summary. Chapter 9. Supercomputing Applications. 9.1 Introduction. 9.2 Monte Carlo Simulation of Radiative Heat Transfer. 9.3 Urban Road Traffic Simulation. 9.4 Summary. References. Index.