| 1. | The investigated algorithm is the kasumi block cipher
因此,可用于各种不同的并行设计中。 |
| 2. | Higher - level hardware synthesis of the kasumi algorithm
Kasum算法的更高水平的硬件综合实现方法 |
| 3. | Report on the evaluation of 3gpp standard confidentiality and integrity algorithms
研究的算法是kasumi分组密码算法。 |
| 4. | 13 kim h , choi y , kim m , ryu h . hardware implementation of 3gpp kasumi crypto algorithm
本文通过对算法的不同程度的细化获得了几种不同性能的硬件实现。 |
| 5. | I used half an hour to draw this pic . it is still sketchy as kasumi still lacks her proper clothings
有人想参考她的样貌,用了半个小时画出来。是个未完成的草稿,还缺少了服装。 |
| 6. | Meanwhile the paper analyzes the structure of kasumi and summarizes the analysis of kasumi which has already been accomplished
论文同时分析了核心算法kasumi的结构原理,对目前已经完成的算法分析进行了总结。 |
| 7. | An exhausting study of the standard 3g encryption algorithm - kasumi is also made in this thesis , including its principles , components and applications . its security is also analyzed
然后,对3g加密标准算法kasumi算法作了研究,介绍了算法的原理和构成,及其应用,对安全性做了一些分析。 |
| 8. | As far as kasumi algorithm is concerned , we get the maximum probability of differential and linear through computing the s7 box and s9 box ' s differential and linear probability . thus , we prove it is secure against differential and linear cryptanalysis
在kasumi算法的分析中,首先计算出s7盒与s9盒的最大差分概率和最大的线性概率,最后计算出整个算法的最大差分概率和最大线性概率,进而证明了该算法是抗差分分析和线性分析的。 |
| 9. | After the investigation of the general technology of hardware implementation , how to implement the kasumi algorithm using field programmable gate array ( fpga ) device is discussed in detail , and the author develops the cipher chip of kasumi algorithm , the kasumi cipher card based on 32 - bits pci bus , the wdm device driver that used in windows2000 / xp , and the software to demostrate encrypting data link . finally , an application demostration is constructed with all the above implementation
在此硬件实现的结果芯片基础上,设计了32位的基于pci总线的kasumi加密卡,编写了windows2000 xp下的windows驱动程序模型( wdm )驱动程序和链路加密应用程序,由此构成一个应用演示系统,作为研制结果的应用评估,为进一步进行第三代移动通信系统相关安全技术研究和开发提供了基础条件。 |
| 10. | In the end , quick implementation of kasumi , f8 and f9 are simulated under the condition of windows 98 with celeron 633 and 128m memory , the simulation data show that the f8 algorithm is capable of achieving the encryption rate up to 1 . 9mbit / s , while f9 algorithm only takes 20ms to compute the mac with the length of 5114 bits , both of which can reach the basica requirement of 3g
在本文的最后我们对kasumi , f8算法和f9算法的快速实现进行了具体的仿真, f8算法的具体实现是在windows98 ,赛扬633mhz和128m内存的环境下其加密速率可以达到1 . 9mbps ,而f9算法在同样的条件下计算5114比特的字符串的消息认证码所需时间仅为20毫秒,这些速率基本上可以满足3g中高速率传输的要求。 |
