Applications Of Field Programmable Gate Arrays In Scientific Research
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Applications of Field-Programmable Gate Arrays in Scientific Research
Author: Hartmut F.-W. Sadrozinski
language: en
Publisher: CRC Press
Release Date: 2016-04-19
Focusing on resource awareness in field-programmable gate array (FPGA) design, Applications of Field-Programmable Gate Arrays in Scientific Research covers the principle of FPGAs and their functionality. It explores a host of applications, ranging from small one-chip laboratory systems to large-scale applications in "big science." The book first de
Field-Programmable Gate Array Technology
Author: Stephen M. Trimberger
language: en
Publisher: Springer Science & Business Media
Release Date: 2012-12-06
Many different kinds of FPGAs exist, with different programming technologies, different architectures and different software. Field-Programmable Gate Array Technology describes the major FPGA architectures available today, covering the three programming technologies that are in use and the major architectures built on those programming technologies. The reader is introduced to concepts relevant to the entire field of FPGAs using popular devices as examples. Field-Programmable Gate Array Technology includes discussions of FPGA integrated circuit manufacturing, circuit design and logic design. It describes the way logic and interconnect are implemented in various kinds of FPGAs. It covers particular problems with design for FPGAs and future possibilities for new architectures and software. This book compares CAD for FPGAs with CAD for traditional gate arrays. It describes algorithms for placement, routing and optimization of FPGAs. Field-Programmable Gate Array Technology describes all aspects of FPGA design and development. For this reason, it covers a significant amount of material. Each section is clearly explained to readers who are assumed to have general technical expertise in digital design and design tools. Potential developers of FPGAs will benefit primarily from the FPGA architecture and software discussion. Electronics systems designers and ASIC users will find a background to different types of FPGAs and applications of their use.
field-programmable gate arrays
Timely, authoritative, application-oriented. an in-depth exploration of current and future uses of FPGAs in digital systems The development of field-programmable gate arrays (FPGAs) may well be the most important breakthrough for the microelectronics industry since the invention of the microprocessor. Using FPGAs, a system designer working on a PC can now develop a working prototype in a few hours and change it at will in just a few minutes, rather than waiting weeks or months for a printed-circuit assembly or a custom integrated circuit to be built. This newfound ability to change a system by simply altering its configuration memory is also leading to exciting new forms of computing, such as array applications that exploit parallelism. Now in a book that functions equally well as a working professional reference and a pedagogically consistent computer engineering text, John V. Oldfield and Richard C. Dorf: Provide a detailed overview of FPGAs in digital systems design Explain the underlying principles, strengths, and limitations of most FPGA architectures Supply many real-life case studies, from elementary to advanced applications--including examples of "custom computing machines" Review cutting-edge developments, including new architectures and a new field-programmable interconnect chip Discuss key economic and business aspects of FPGA manufacture and applications and their role in intellectual property protection Demonstrate ways in which FPGAs offer plausible solutions to some of the major computing problems of our day.