Gespeichert in:
| Beteilige Person: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | Englisch |
| Veröffentlicht: |
Shelter Island
Manning Publications
2025
|
| Ausgabe: | [First edition]. |
| Schlagwörter: | |
| Links: | https://learning.oreilly.com/library/view/-/9781633437944/?ar |
| Zusammenfassung: | Make your public key protocols smaller and more secure with this accessible guide to Elliptic Curve Cryptography. Elliptic Curve Cryptography for Developers introduces the mathematics of elliptic curves--a powerful alternative to the prime number-based RSA encryption standard. You'll learn to deliver zero-knowledge proofs and aggregated multi-signatures that are not even possible with RSA mathematics. All you need is the basics of calculus you learned in high school. Elliptic Curve Cryptography for Developers includes: Clear, well-illustrated introductions to key ECC concepts Implementing efficient digital signature algorithms State of the art zero-knowledge proofs Blockchain applications with ECC-backed security The book gradually introduces the concepts and subroutines you'll need to master with diagrams, flow charts, and accessible language. Each chapter builds on what you've already learned, with step-by-step guidance until you're ready to write embedded systems code with advanced mathematical algorithms. About the Technology The Elliptic Curve Cryptography (ECC) protocol secures everything from credit card transactions to the blockchain. With a little C code, high school calculus, and the techniques in this book, you can implement ECC cryptographic protocols that are smaller and more secure than the RSA-based systems in common use today. About the Book Elliptic Curve Cryptography for Developers teaches you how ECC protocols work and how to implement them seamlessly in C code. Unlike academic cryptography books, this practical guide sticks to the minimum math and theory you need to get the job done. Author Mike Rosing illustrates each concept with clear graphics, detailed code, and hands-on exercises. As you go, you'll practice what you learn by building two encryption systems for a blockchain application. What's Inside Efficient digital signature algorithms Zero-knowledge proofs ECC security for blockchain applications About the Reader Readers need to understand basic calculus. Examples in C. About the Author Michael Rosing's career as a scientist, hardware engineer, and software developer includes high-energy physics, telephone switch engineering, and developing vision devices for the blind. The technical editor on this book was Mark Bissen. Quotes Brilliantly demystifies elliptic curve pairings, sidestepping convoluted math notations in favor of commented source code and concrete examples. - Jean-Philippe Aumasson, Co-Founder & Chief Security Officer, Taurus The companion you've been missing. It will take you from what you've learned in theory books and academic papers to your applications. - Kobi Gurkan, Head of Research, Geometry Research There's a lot of background and practical information necessary to use elliptic curves correctly. This book lays them out in a friendly and complete manner. If you want to know about elliptic curves, this book is an excellent place to start. - Victor Miller, Principal Computer Scientist, SRI. |
| Beschreibung: | Includes bibliographical references. - Print version record |
| Umfang: | 1 online resource (352 pages) |
| ISBN: | 9781633437944 1633437949 |
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| spelling | Rosing, Michael 1954- VerfasserIn aut Elliptic curve cryptography for developers Michael Rosing [First edition]. Shelter Island Manning Publications 2025 1 online resource (352 pages) Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Includes bibliographical references. - Print version record Make your public key protocols smaller and more secure with this accessible guide to Elliptic Curve Cryptography. Elliptic Curve Cryptography for Developers introduces the mathematics of elliptic curves--a powerful alternative to the prime number-based RSA encryption standard. You'll learn to deliver zero-knowledge proofs and aggregated multi-signatures that are not even possible with RSA mathematics. All you need is the basics of calculus you learned in high school. Elliptic Curve Cryptography for Developers includes: Clear, well-illustrated introductions to key ECC concepts Implementing efficient digital signature algorithms State of the art zero-knowledge proofs Blockchain applications with ECC-backed security The book gradually introduces the concepts and subroutines you'll need to master with diagrams, flow charts, and accessible language. Each chapter builds on what you've already learned, with step-by-step guidance until you're ready to write embedded systems code with advanced mathematical algorithms. About the Technology The Elliptic Curve Cryptography (ECC) protocol secures everything from credit card transactions to the blockchain. With a little C code, high school calculus, and the techniques in this book, you can implement ECC cryptographic protocols that are smaller and more secure than the RSA-based systems in common use today. About the Book Elliptic Curve Cryptography for Developers teaches you how ECC protocols work and how to implement them seamlessly in C code. Unlike academic cryptography books, this practical guide sticks to the minimum math and theory you need to get the job done. Author Mike Rosing illustrates each concept with clear graphics, detailed code, and hands-on exercises. As you go, you'll practice what you learn by building two encryption systems for a blockchain application. What's Inside Efficient digital signature algorithms Zero-knowledge proofs ECC security for blockchain applications About the Reader Readers need to understand basic calculus. Examples in C. About the Author Michael Rosing's career as a scientist, hardware engineer, and software developer includes high-energy physics, telephone switch engineering, and developing vision devices for the blind. The technical editor on this book was Mark Bissen. Quotes Brilliantly demystifies elliptic curve pairings, sidestepping convoluted math notations in favor of commented source code and concrete examples. - Jean-Philippe Aumasson, Co-Founder & Chief Security Officer, Taurus The companion you've been missing. It will take you from what you've learned in theory books and academic papers to your applications. - Kobi Gurkan, Head of Research, Geometry Research There's a lot of background and practical information necessary to use elliptic curves correctly. This book lays them out in a friendly and complete manner. If you want to know about elliptic curves, this book is an excellent place to start. - Victor Miller, Principal Computer Scientist, SRI. Cryptography Data encryption (Computer science) Computer security Zero-knowledge proofs Cryptographie Chiffrement (Informatique) Sécurité informatique Preuves à divulgation nulle de connaissance Algorithms Programming COMPUTERS Security 9781633437944 Erscheint auch als Druck-Ausgabe 9781633437944 |
| spellingShingle | Rosing, Michael 1954- Elliptic curve cryptography for developers Cryptography Data encryption (Computer science) Computer security Zero-knowledge proofs Cryptographie Chiffrement (Informatique) Sécurité informatique Preuves à divulgation nulle de connaissance Algorithms Programming COMPUTERS Security |
| title | Elliptic curve cryptography for developers |
| title_auth | Elliptic curve cryptography for developers |
| title_exact_search | Elliptic curve cryptography for developers |
| title_full | Elliptic curve cryptography for developers Michael Rosing |
| title_fullStr | Elliptic curve cryptography for developers Michael Rosing |
| title_full_unstemmed | Elliptic curve cryptography for developers Michael Rosing |
| title_short | Elliptic curve cryptography for developers |
| title_sort | elliptic curve cryptography for developers |
| topic | Cryptography Data encryption (Computer science) Computer security Zero-knowledge proofs Cryptographie Chiffrement (Informatique) Sécurité informatique Preuves à divulgation nulle de connaissance Algorithms Programming COMPUTERS Security |
| topic_facet | Cryptography Data encryption (Computer science) Computer security Zero-knowledge proofs Cryptographie Chiffrement (Informatique) Sécurité informatique Preuves à divulgation nulle de connaissance Algorithms Programming COMPUTERS Security |
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