FPGA related books
Posted by Unknown | Posted in Architecture, FPGA, synthesis, VLSI | Posted on 11:39 AM
Ian Kuon, Russell Tessier, Jonathan Rose - FPGA Architecture
Publisher: Now Publishers Inc | 2008-04-18 | ISBN: 1601981260 | PDF | 136 pages | 1.03 MB
Description:
Field-Programmable Gate Arrays (FPGAs) have become one of the key digital circuit implementation media over the last decade. A crucial part of their creation lies in their architecture, which governs the nature of their programmable logic functionality and their programmable interconnect. FPGA architecture has a dramatic effect on the quality of the final device's speed performance, area efficiency and power consumption. FPGA Architecture: Survey and Challenges reviews the historical development of programmable logic devices, the fundamental programming technologies that the programmability is built on, and then describes the basic understandings gleaned from research on architectures. FPGA Architecture: Survey and Challenges starts with a brief overview of programmable logic to provide a context for the subsequent sections which review the history of programmable logic, and the underlying programming technologies. The following sections define the terminology of FPGA architecture, and then describe foundations and trends of logic block architecture and routing architecture including a discussion of power management techniques and related circuit design issues. A brief overview of the input/output structures and architectural questions in FPGAs is then presented followed by an explicit comparison between FPGAs and competing ASIC standard cell technology. It concludes with a review of some of the design challenges facing FPGAs and a look at emerging architectures for FPGAs. FPGA Architecture: Survey and Challenges is an invaluable reference for engineers and computer scientists. It is also an excellent primer for senior or graduate-level students in electrical engineering or computer science.
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James E. Gaskin, «Synthesis of Arithmetic Circuits: FPGA, ASIC and Embedded Systems»
Publisher: Wiley | 576 pages | March 10, 2006 | ISBN: 0471687839 | PDF | 7.73 MB
Description:
In Synthesis of Arithmetic Circuits: FPGA, ASIC and Embedded Systems, the authors take a novel approach of presenting methods and examples for the synthesis of arithmetic circuits that better reflects the needs of today's computer system designers and engineers. Unlike other publications that limit discussion to arithmetic units for general-purpose computers, this text features a practical focus on embedded systems.
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Jean-Pierre Deschamps, "Hardware Implementation of Finite-Field Arithmetic (Electronic Engineering)"
McGraw-Hill Professional 2009 | ISBN-10: 0071545816 | 360 Pages | PDF | 1,2 MB
Description:
Implement Finite-Field Arithmetic in Specific Hardware (FPGA and ASIC).Master cutting-edge electronic circuit synthesis and design with help from this detailed guide. Hardware Implementation of Finite-Field Arithmetic describes algorithms and circuits for executing finite-field operations, including addition, subtraction, multiplication, squaring, exponentiation, and division.
This comprehensive resource begins with an overview of mathematics, covering algebra, number theory, finite fields, and cryptography. The book then presents algorithms which can be executed and verified with actual input data. Logic schemes and VHDL models are described in such a way that the corresponding circuits can be easily simulated and synthesized. The book concludes with a real-world example of a finite-field application--elliptic-curve cryptography. This is an essential guide for hardware engineers involved in the development of embedded systems.
Get detailed coverage of:
Modulo m reduction
Modulo m addition, subtraction, multiplication, and exponentiation
Operations over GF(p) and GF(pm)
Operations over the commutative ring Zp[x]/f(x)
Operations over the binary field GF(2m) using normal, polynomial, dual, and triangular
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Publisher: Now Publishers Inc | 2008-04-18 | ISBN: 1601981260 | PDF | 136 pages | 1.03 MB
Description:
Field-Programmable Gate Arrays (FPGAs) have become one of the key digital circuit implementation media over the last decade. A crucial part of their creation lies in their architecture, which governs the nature of their programmable logic functionality and their programmable interconnect. FPGA architecture has a dramatic effect on the quality of the final device's speed performance, area efficiency and power consumption. FPGA Architecture: Survey and Challenges reviews the historical development of programmable logic devices, the fundamental programming technologies that the programmability is built on, and then describes the basic understandings gleaned from research on architectures. FPGA Architecture: Survey and Challenges starts with a brief overview of programmable logic to provide a context for the subsequent sections which review the history of programmable logic, and the underlying programming technologies. The following sections define the terminology of FPGA architecture, and then describe foundations and trends of logic block architecture and routing architecture including a discussion of power management techniques and related circuit design issues. A brief overview of the input/output structures and architectural questions in FPGAs is then presented followed by an explicit comparison between FPGAs and competing ASIC standard cell technology. It concludes with a review of some of the design challenges facing FPGAs and a look at emerging architectures for FPGAs. FPGA Architecture: Survey and Challenges is an invaluable reference for engineers and computer scientists. It is also an excellent primer for senior or graduate-level students in electrical engineering or computer science.
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James E. Gaskin, «Synthesis of Arithmetic Circuits: FPGA, ASIC and Embedded Systems»
Publisher: Wiley | 576 pages | March 10, 2006 | ISBN: 0471687839 | PDF | 7.73 MB
Description:
In Synthesis of Arithmetic Circuits: FPGA, ASIC and Embedded Systems, the authors take a novel approach of presenting methods and examples for the synthesis of arithmetic circuits that better reflects the needs of today's computer system designers and engineers. Unlike other publications that limit discussion to arithmetic units for general-purpose computers, this text features a practical focus on embedded systems.
Link1
Link2
Link3
Jean-Pierre Deschamps, "Hardware Implementation of Finite-Field Arithmetic (Electronic Engineering)"
McGraw-Hill Professional 2009 | ISBN-10: 0071545816 | 360 Pages | PDF | 1,2 MB
Description:
Implement Finite-Field Arithmetic in Specific Hardware (FPGA and ASIC).Master cutting-edge electronic circuit synthesis and design with help from this detailed guide. Hardware Implementation of Finite-Field Arithmetic describes algorithms and circuits for executing finite-field operations, including addition, subtraction, multiplication, squaring, exponentiation, and division.
This comprehensive resource begins with an overview of mathematics, covering algebra, number theory, finite fields, and cryptography. The book then presents algorithms which can be executed and verified with actual input data. Logic schemes and VHDL models are described in such a way that the corresponding circuits can be easily simulated and synthesized. The book concludes with a real-world example of a finite-field application--elliptic-curve cryptography. This is an essential guide for hardware engineers involved in the development of embedded systems.
Get detailed coverage of:
Modulo m reduction
Modulo m addition, subtraction, multiplication, and exponentiation
Operations over GF(p) and GF(pm)
Operations over the commutative ring Zp[x]/f(x)
Operations over the binary field GF(2m) using normal, polynomial, dual, and triangular
Link1
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