Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. 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…mehr
Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. 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 triangularHinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Jean-Pierre Deschamps (Tarragone, Spain) received an MS degree in electrical engineering from the University of Louvain, Belgium, in 1967, the PhD in computer science from the Autonomous University of Barcelona, Spain, in 1983, and a PhD degree in electrical engineering from the Polytechnic School of Lausanne, Switzerland, in 1984. He is currently a professor at the University Rovira i Virgili, Tarragona, Spain. His research interests include ASIC and FPGA design, digital arithmetic and cryptography. He is the author of seven books and about a hundred international papers.
Inhaltsangabe
Chapter 1. Mathematical background Chapter 2. Mod m reduction Chapter 3. Mod m operations Chapter 4. Operations over GF(p) Chapter 5. Operations over Zp [x] / f(x) Chapter 6. Operations over GF(pn) Chapter 7. Operations over GF(2m) - Polynomial bases Chapter 8. Operations over GF(2m) - Normal bases Chapter 9. Operations over GF(2m) - Other bases Chapter 10. Elliptic curve cryptographyAppendix A. p = 2(192) - 2(64) - 1 Appendix B. Optical Extension Fields Appendix C. Binary Fields Appendix D. Ada versus VHDL Index
Chapter 1. Mathematical background Chapter 2. Mod m reduction Chapter 3. Mod m operations Chapter 4. Operations over GF(p) Chapter 5. Operations over Zp [x] / f(x) Chapter 6. Operations over GF(pn) Chapter 7. Operations over GF(2m) - Polynomial bases Chapter 8. Operations over GF(2m) - Normal bases Chapter 9. Operations over GF(2m) - Other bases Chapter 10. Elliptic curve cryptographyAppendix A. p = 2(192) - 2(64) - 1 Appendix B. Optical Extension Fields Appendix C. Binary Fields Appendix D. Ada versus VHDL Index
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