| 1. | The stream cipher mode encodes data one bit at a time
流密码模式一次一位对数据进行编码。 |
| 2. | Block ciphers with long keys are stronger than stream ciphers
使用长密钥的块密码比流密码更强。 |
| 3. | A multidimensional chaotic stream cipher design based on parameters switching
一种基于参数切换的高维混沌流密码设计 |
| 4. | Chosen - ciphertext attack for chaotic self - synchronizing stream cryptosystem
时空混沌自同步流密码系统的选择密文攻击 |
| 5. | However , block cipher algorithms tend to execute more slowly than stream ciphers
但是,块密码算法执行起来通常比流密码慢。 |
| 6. | Although it tends to execute more slowly than stream cipher , block cipher is more secure
尽管块密码的执行速度慢于流密码,但块密码更安全。 |
| 7. | Because each block is heavily processed , block ciphers provide a higher level of security than stream ciphers
由于每块都被严密处理,因此块密码比流密码提供更高的安全级别。 |
| 8. | The authors noted that stream ciphers like rc4 are vulnerable if two messages are encrypted with the same iv and secret key
作者指出:如果用相同的iv和秘钥加密两条消息,那么流密码(如rc4 )容易受到攻击。 |
| 9. | A new non - linear stream cipher algorithm with ability of self synchronization is presented . this algorithm is also realized using verilog hdl and is simulated
文章提出了一种带有自同步功能的非线性流密码加密算法,并用verilog语言进行参数化的描述。 |
| 10. | Meanwhile , the implementation of such block cipher as rijndael with shifting registers is designed with performance as good as that of he method of table - lookup
将移位寄存器实现高效流密码的思想用于分组密码rijndael算法的实现,获得与查表法相当的效率。 |
