Hybrid Model in the Block Cipher Applications for High-Speed Communications Networks

M. Hieu
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Abstract

The article proposes two different designs for the new block cipher algorithm of 128-bit block size and key lengths of 128-bit or 192-bit or 256-bit. The basic cipher round is designed in a parallel model to help improve the encryption/decryption speed. The differences of this design compared to the previous one developed on Switchable Data Dependent Operations (SDDOs) lies in the hybrid of the controlled elements (CEs) in the structure. Each design has a specific strength that makes the selection more compatible with the objectives of each particular application. The designs all meet the high security standards and possess the ability to fight off the attacks currently known. The designs match the limited environment of the wireless network by integrating effectively when implemented on Field-programmable gate array (FPGA) with both iterative and pipeline architectures for high effective integration.
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高速通信网络分组密码应用中的混合模型
本文提出了128位块大小和128位、192位和256位密钥长度的分组密码算法的两种不同设计。基本的密码轮是在并行模型中设计的,以帮助提高加密/解密速度。与之前基于可切换数据依赖操作(SDDOs)开发的设计相比,这种设计的不同之处在于结构中受控元素(ce)的混合。每个设计都有一个特定的优势,使选择更符合每个特定应用的目标。这些设计都符合高安全标准,并具有抵御目前已知攻击的能力。该设计通过在现场可编程门阵列(FPGA)上实现有效集成,从而匹配无线网络的有限环境,采用迭代和管道架构实现高效集成。
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