Cryptography algorithm is the core of cryptography technology.
密码技术的核心是密码算法。
Describes how to map an object identifier to a cryptography algorithm.
说明如何对应物件识别项至密码编译演算法。
The paper ends with the perspectives of cryptography algorithm , its applications and standardization.
最后对密码算法本身及其应用等的未来作了展望。
Algorithm Type defines whether the cryptography algorithm is symmetric, asymmetric, or a message digest.
算法类型定义加加密算法是对称的、非对称的还是消息摘要。
Describes how to map an algorithm name to a cryptography class and an object identifier to a cryptography algorithm.
说明如何将演算法名称对应到加密类别,物件识别项对应到加密演算法。
Two public-key cryptography algorithms that are widely used are RSA (named after its inventors Rivest, Shamir and Adleman) and DSA (Digital Signature Algorithm).
两个广泛使用的公钥加密算法是RSA(根据其发明者Rivest、Shamir和Adleman 命名)和DSA(数字签名算法)。
So it becomes a key problem how to build a better security protection scheme and key management system by making use of the cryptography algorithm in practice.
因此如何在现有的密码体制和数字签名体制的基础上,构建一个更好的方案保护和管理密钥,是决定现实中系统的安全性的关键。
A symmetric algorithm requires that both the sender and receiver of the message use the same secret key; this is often referred to as secret key cryptography.
对称算法要求消息的发送方和接收方使用同一个秘钥;这通常被称作秘钥密码术。
It then passes the extracted Base 64 encoded cipher value, the decryption key, and the algorithm name to a method named decrypt (examined in Cryptography).
接着它将抽取出的用Base 64编码的密码值、解密密钥以及算法名称传递给名为Decrypt的方法(见密码术中的研究)。
In this demonstration, I use the TripleDES block encryption algorithm of the SunJCE cryptography provider.
在这个演示中,我使用了SunJCE密码术供应商的tripledes块加密算法。
Describes how to map algorithm name to a cryptography class.
说明如何对应演算法名称至密码编译类别。
Describes how to map an algorithm name to a cryptography class.
描述如何将算法名称映射到加密类。
To accelerate point multiplication operation of elliptic curve cryptography(ECC), a fast reduction algorithm for modular operation was introduced.
为了提高椭圆曲线密码(ECC)的点乘运算速度,提出了一种快速约简求模算法。
We implement the algorithm of transaction signature, base on Elliptic Curve Cryptography.
作者以椭圆曲线密码体制为基础,完成了该事务数字签名算法的实现。
It is believed that in modern cryptography, any algorithm of encryption and decryption in cryptographical systems could be public, and the security should rely on the secure key.
现代密码学认为,任何加密体系的加密和解密算法都可以公开,其安全性在于密钥的保密性。
The cryptographic algorithm is public in modern cryptography.
现代密码体制中,加密算法是公开的。
In some detail, the paper expounds the principle about simple power analysis (SPA) attacks against the general cryptography and a particular theory against data encryption standard (DES) algorithm.
详细地阐述了对通用密码系统实施简易功耗分析攻击(SPA)的理论基础和对DES算法攻击的特定理论,并提出了对SPA的改进算法。
This paper presents a new fast scalar multiplication algorithm on elliptic curve cryptography.
基于椭圆曲线密码,提出了一种快速标量乘算法。
In modern cryptography, it is believed that any algorithm of encryption and decryption in cryptographical systems can be open, their safety depends on key security.
现代密码学认为,任何加密体系的加密和解密算法都可以公开,其安全性在于密钥的安全性。
To resist the side channel attacks of elliptic curve cryptography, a new fast and secure point multiplication algorithm is proposed.
为了抵抗椭圆曲线密码的边信道攻击,提出了一种新型快速安全的标量乘算法。
Elliptic Curve Cryptography (ECC) is a rather complicated algorithm. It is difficult to design an application specific integrated circuit (ASIC) to fully implement ECC.
椭圆曲线密码(ECC)是一种非常复杂的数学算法,设计出能够完整实现ECC算法的专用集成电路芯片(ASIC)非常困难。
Elliptic Curve Cryptography (ECC) is a rather complicated algorithm. It is difficult to design an application specific integrated circuit (ASIC) to fully implement ECC.
椭圆曲线密码(ECC)是一种非常复杂的数学算法,设计出能够完整实现ECC算法的专用集成电路芯片(ASIC)非常困难。
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