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引用次数: 3
摘要
最大距离可分离矩阵作为扩散层在对称密码中起着至关重要的作用。软件应用的动态扩散层目前研究较少。动态(随机)组件可以使对称密码更能抵抗统计和代数攻击。本文通过一些理论研究,给出了一类参数n × n的二元矩阵a α, n = 4t,使得对于4t个α∈Fn2,矩阵a α, A3α⊕I和A7α⊕I是非奇异的。利用所提出的矩阵族,一些众所周知的扩散层,包括循环类aes矩阵和一些递归MDS扩散层,可以在软件上以很少的额外成本实现动态。然后,我们利用提出的矩阵族提供了新的MDS矩阵族,这些矩阵族可以作为动态扩散层。所提出的MDS扩散层族中每个成员(除一个循环族外)的实现成本都等于其逆。所提出的扩散层在各种现代处理器上具有合适的实现成本。
Dynamic MDS diffusion layers with efficient software implementation
Maximum distance separable (MDS) matrices play a crucial role in symmetric ciphers as diffusion layers. Dynamic diffusion layers for software applications are less considered up to now. Dynamic (randomised) components could make symmetric ciphers more resistant against statistical and algebraic attacks. In this paper, after some theoretical investigation we present a family of parametric n × n, binary matrices Aα, n = 4t, such that for 4t many α ∈ Fn2 the matrices Aα, A3α ⊕ I and A7α ⊕ I are non-singular. With the aid of the proposed family of matrices, some well-known diffusion layers including the cyclic AES-like matrices and some recursive MDS diffusion layers could be made dynamic, at little extra cost in software. Then, we provide new families of MDS matrices which could be used as dynamic diffusion layers, using the proposed family of matrices. The implementation cost of every member in the presented families of MDS diffusion layers (except one cyclic family) is equal to its inverse. The proposed diffusion layers have a suitable implementation cost on a variety of modern processors.
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