There are three major fields in quantum computing research . they are quantum computing theory , quantum computing application and the implementation of quantum computer 量子计算的研究主要集中在三个方面:量子计算基础理论研究、量子计算应用研究和量子计算机实现技术研究。
Recently , however , there has been an increasing awareness of the need for alternative model of computation , quantum computation and dna computing being two notable examples 然而,非标准计算的模型越来越受到人们的关注,特别是量子计算和dna计算。而自装配理论是dna计算中最为重要的机制。
In chapter 1 , a brief review about the development of quantum computation and quantum information is given . the basic content of the study of quantum computation and quantum information is summarized 第一章简要回顾了量子计算和量子信息的发展,概述了量子计算和量子信息研究的基本内容。
Quantum entropy theory is the foundation and powerful tool in understanding and studying such problems as quantum computation , quantum communication , quantum teleportation , quantum measurement and quantum entanglement 它是理解和研究量子计算、量子通信、量子隐形传态、量子测量、量子纠缠等热点课题的理论基础和有力工具。
Chuang , isaac l . , lieven m . k . vandersypen , xinlan zhou , debbie w . leung , and seth lloyd . " experimental realization of a quantum algorithm . " nature 393 ( 1998 ) : 6681 量子信息> , 《物理世界》杂志1998年3月号35 ? 57页其中有很多有名的文章,介绍了有关量子信息的许多东西其中包括:量子通信,量子密码,量子计算以及与之相关的改进方法。
Quantum computing s premise of simultaneous evaluation of many potential solutions to a problem seems destined to fit in with genetic algorithms premise of evolutionary computing with its large sample populations 量子计算对问题许多可能的解决方案的同步计算的这一前提,似乎注定就适应遗传算法用其巨大的样本种群进行进化计算这一前提。
According to the implementation of many types of quantum computing simulation software system and its statistical results , we have summarized the requirement of simulating quantum computing and the primary technique in system design 作者总结分析了现有的量子计算软件模拟系统,确定了软件模拟量子计算系统的需求以及设计中要解决的若干关键问题。
Together with quantum computing and genetic algorithms which i have also covered in ibm developerworks columns , i think unicode is one of the most important areas today for tomorrow s computing challenges 与量子计算和遗传算法一样(我在ibm的developerworks专栏中也介绍了这两个主题的内容) ,我认为对于将来的计算挑战来说, unicode是目前最重要的领域之一。
It is extremely desirable to have a better understanding of the quantum dot ( qd ) dynamics and to develop a technique to control the localization of electrons which is of possible application in quantum computation and quantum information processing 鉴于量子点系统中电子局域化控制在量子计算和量子信息处理中的广泛应用,人们迫切希望对此动力学系统能有更深入细致的了解。
The quantum fluctuation in a squeezed state can be less than that in a coherent state . so it is possible that the squeezed states can be play a most important role in quantum communication , quantum calculation and quantum measurements and so on 压缩态中的量子涨落可以小于相干态中的量子涨落,因此可望在未来的量子通信、量子计算、量子测量等信息科学中发挥着重要的作用。
