000 | 01592 a2200253 4500 | ||
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003 | OSt | ||
020 | _a9780387218465 | ||
040 | _cIIT Kanpur | ||
041 | _aeng | ||
082 |
_a005.82 _bH194g |
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100 | _aDarrel Hankerson | ||
245 |
_aGuide to elliptic curve cryptography [Perpetual access] _cDarrel Hankerson, Alfred Menezes and Scott Vanstone |
||
260 |
_bSpringer _c2004 _aNew York |
||
300 | _axx, 312p | ||
440 | _aSpringer professional computing | ||
520 | _aAfter two decades of research and development, elliptic curve cryptography now has widespread exposure and acceptance. Industry, banking, and government standards are in place to facilitate extensive deployment of this efficient public-key mechanism. Anchored by a comprehensive treatment of the practical aspects of elliptic curve cryptography, this guide explains the basic mathematics, describes state-of-the art implementation methods, and presents standardized protocols for public-key encryption, digital signatures, and key establishment. In addition, the book addresses some issues that arise in software and hardware implementation, side-channel attacks and countermeasures, and efficient parameter generation. Readers receive the theoretical fundamentals as an underpinning for a wealth of practical and accessible knowledge on efficient application. | ||
650 | _aPublic key cryptography | ||
650 | _aComputer security | ||
650 | _aCoding theory | ||
700 | _aMenezes, Alfred | ||
700 | _aVanstone, Scott | ||
856 | _uhttps://link.springer.com/book/10.1007%2Fb97644#about | ||
942 | _cEBK | ||
999 |
_c565141 _d565141 |