基于分布式(网格)的密码学计算就是这其中的一个重要应用。
Cipher Computing based on distributed (Grid) architecture is one of the Important applications.
这个神秘的“纠缠”性质,在通信领域具有深远的应用潜力,如量子密码学,量子计算和量子隐态传输。
This mysterious property, known as entanglement, has far reaching application potential in information fields such as quantum cryptography, quantum computation and quantum teleportation.
这个神秘的“纠缠”性质,在通信领域具有深远的应用潜力,如量子密码学 ,量子计算和量子隐态传输 。
This mysterious property, known as “entanglement”, has far reaching application potential in information fields such as quantum cryptography, quantum computation and quantum teleportation.
最外层(人)依赖中间层(计算机和网络),中间层又依赖于最里层(密码学和协议)。
The outer layers (people) depend on middle layers (computers and networks), which in turn rely on the innermost layers (cryptography and protocols).
一方面,DNA计算固有的超大规模并行性给安全性依赖于数学困难问题的现代密码学带来了新的挑战。
On one hand, the vast parallelism inherent in DNA computation brings new challenges to modern cryptography, which is based on hard mathematic problems.
如果在同一计算机上没有其他客户机,应该使用DispatcherPassword防止建立密码学信息。
Whenever there are no other clients on the same machine the Dispatcher Password should be leveraged to prevent establishing cryptographic information.
安全计算问题是密码学协议研究的基础问题之一,也与很多重要的密码学应用相关。
The problem of secure multiparty computation is fundamental in cryptography, as well as relevant to practical cryptographic applications.
实验结果在量子力学基础问题的检验、信息论、密码学和量子计算等重要应用方向上,都具有显著的意义和价值。
Our experiment result is of great importance in experimental test of some fundamental problems in quantum mechanics, information theory, cryptography, and quantum computation etc.
本文从密码学的角度出发,对NTRU公钥密码系统及其在移动计算安全中的应用进行了研究。
From the perspective of cryptography, NTRU public key cryptosystem and its applications in the security of mobile computing is studied in this paper.
有许多在数学、密码学或其他科学研究领域的个人或团体在解决问题的过程中都需要惊人的计算量。
There are a number of individuals or groups in the fields of science, mathematics, cryptography, and other fields who require massive amounts of computing power in order to solve certain problems.
安全多方计算及其应用是目前密码学领域的一个重要研究方向。
Secure multi-party computation with its applications is an important direction in current cryptography research field.
用人工神经网络解决计算机密码学中的问题,即神经密码学,不仅是神经网络的一个重要的应用研究领域,而且也将给密码学理论提供一种全新的思路。
Using artificial neural network to solve the questions about computer cryptology will be an important study field of neural network and will bring a new clew to cryptology.
安全多方计算是现代密码学领域重要的研究内容之一。
Secure multi-party computation is one of the most important areas in modern cryptography.
信息隐藏技术是一门建立在数学、现代密码学、信息处理理论和计算机应用技术基础上的交叉性学科。
Information hiding is an interlaced subject, which is built on the basis of mathematics, modern cryptography, information processing theory, and computer applied techniques.
本文沿用传统密码学的基本观念,对集中式计算机系统中的软件程序加密、解密实用技术进行了论述。
Based on the basic principles of traditional secret code theory, this paper analyses and discusses the practical technology keeping and undoing a program secret in the concentrative computer system.
本文根据笔者面向计算机专业硕士生开设密码学选修课的实践,探讨了密码学课程的教学组织和信息安全教育。
Based on our practice on graduate students' elective course of cryptography, we probe into its teaching organization and information security education in this paper.
利用DNA合成技术、DNA克隆技术、PCR扩增技术以及DNA芯片技术,结合密码学的计算复杂度理论,提出了一种基于DNA技术的加密方法。
Using the technologies of DNA synthesis, DNA clone, PCR and DNA chip and the theory of computational complexity, an encryption scheme is formed.
本文综述了计算机密码学在分组密码,序列密码,公钥密码,混沌密码等方面研究的新进展。
In this paper we survey the new advances in the research on computer cipher, focusing on block cipher, sequence cipher, public key cipher and chaos cipher.
电子投票以密码学为基础,运用计算机和网络技术来实现投票功能。
Electronic voting is a voting scheme, based on cryptography, which employs computer and network technologies.
与经典保密通信不同的是,量子密码学不是基于大数分解的复杂性,而是基于量子力学的原理。同时,量子密码也是不依赖于计算机系统的计算能力的。
Rather than depending on the complexity of factoring large numbers, quantum cryptography is based on the rules of physics and is also independent of the processing power of computing systems.
本课程第三学年第二学期开设,计划学时48,先修课程为:计算机网络,密码学。
The course will be taught in the second semester of the third academic year, which includes 48 hours. Its prerequisite courses include Computer Network and Cryptography.
密码学涉及解决安全问题的计算系统的概念化、定义以及构造。
Cryptography is concerned with the conceptualization, definition and construction of computing systems that address security concerns.
电子选举以密码学为基础,借助计算机技术及通信技术来实现投票、计票等选举功能。
Electronic voting bases on cryptology, and USES technology of computer and communication to achieve the purpose of election.
他的主要研究方向以及贡献是在与数论、代数学以及密码学有关的计算机算法上面。
Shoup's main research interests and contributions are computer algorithms relating to number theory, algebra, and cryptography.
他的主要研究方向以及贡献是在与数论、代数学以及密码学有关的计算机算法上面。
Shoup's main research interests and contributions are computer algorithms relating to number theory, algebra, and cryptography.
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