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CARDIS
2006
Springer
2006
Springer
SEA: A Scalable Encryption Algorithm for Small Embedded Applications
Most present symmetric encryption algorithms result from a tradeoff between implementation cost and resulting performances. In addition, they generally aim to be implemented efficiently on a large variety of platforms. In this paper, we take an opposite approach and consider a context where we have very limited processing resources and throughput requirements. For this purpose, we propose low-cost encryption routines (i.e. with small code size and memory) targeted for processors with a limited instruction set (i.e. AND, OR, XOR gates, word rotation and modular addition). The proposed design is parametric in the text, key and processor size, allows efficient combination of encryption/decryption, "on-the-fly" key derivation and its security against a number of recent cryptanalytic techniques is discussed. Target applications for such routines include any context requiring low-cost encryption and/or authentication.
Real-time TrafficCARDIS 2006 | Hardware | Low-cost Encryption | Low-cost Encryption Routines | Present Symmetric Encryption |
Related Content
| Added | 20 Aug 2010 |
| Updated | 20 Aug 2010 |
| Type | Conference |
| Year | 2006 |
| Where | CARDIS |
| Authors | François-Xavier Standaert, Gilles Piret, Neil Gershenfeld, Jean-Jacques Quisquater |
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