The QCL quantum computer simulator.
q cl量子计算机模拟器。
DeMille says that, ultimately, the molecules could be used in a quantum computer.
德米尔说,最终超冷材料将应用在量子计算机上。
Such a set-up is a potential building block for a working quantum computer. "Olivia meyer-streng."
这是构建量子计算机的潜在基础。
This mainly reflects in two aspects of connotation intelligence computer and quantum computer.
这主要体现在内涵智能机和量子计算机两个方面。
An electron's quantum state carries information, making it important for a viable quantum computer.
一个电子的量子态携带着信息,这对制造量子计算机十分重要。
Such entangled superconductors might be used as a component in a powerful quantum computer, Leggett says.
这项新研究”似乎更像是模糊地证明了缠扰态。 “此类缠绕的超导体可用作功能强大的量子计算机的部件。”
The investigation of quantum computer and quantum teleportation have been attracted much attention in recent years.
量子计算机和量子通信成为人们当前的研究热点课题之一。
One of the main difficulties of quantum computation is that decoherence destroys the information in a quantum computer memory cell.
量子计算机存储单元的相干脱散,破坏量子态中的信息,是量子计算机难以实现的主要原因之一。
However, whether the traditional computer or the future quantum computer, both need the certain space to store the processing information.
然而不管是传统的计算机还是未来的量子计算机,都需要一定的存储空间,用来存储有待处理的信息。
"People are very interested in the possibility of building a quantum computer," and these kinds of systems may be quite good for that, he says.
人们对建造量子计算机的可能性十分感兴趣“,而且上述这种类型的系统可能会有利于量子计算机的建造。”Martinis表示用于构建先进电路的科技可能也会用于构建量子电路。
A working quantum computer of sufficient power could calculate factors in parallel and then provide the most likely answer in just a few moments.
一个工作中的有足够电源的量子计算机能平行的计算因子,然后在很短的时间内提供最有可能的答案。
However, by utilizing quantum entangled states as its kernel physical resource, it does realize all required functions of the genuine quantum computer.
但是,由于利用了纠缠态作为它的核心物理资源,它的确实现了量子计算机的功能。
In a quantum computer these normal bits are replaced by a "superposition" (the qubit) of both 0 and 1 that is unique to the ambiguous world of quantum mechanics.
在量子计算机中,这些常规的比特则被0和1的迭加(即量子位)所替代。而0和1在量子力学不确定的世界里是很特别的。
A quantum computer allows for more efficient solution of some problems, for instance, the unsorted database search problem and the prime-factorization problem.
量子计算机可以更有效的解决某些问题,比如:对无序数据库的搜索问题和大数质分解问题。
"[Being able to transfer data packets like this] is a necessary thing to do in order to build a proper quantum computer or a quantum communications device," she said.
“(能够如此传送数据包)是建立一台量子计算机或量子通信设备的必经之路”,她说。
This is a huge technological achievement and it is a critical step to demonstrating that it is possible to build the ultimate computer - a quantum computer in silicon.
这是重大的科技成就,是表明制造‘终极电脑’(用硅原子制造的量子电脑)可行性的关键一步。
Now Vlatko Vedral, an Oxford physicist, examines the claim that bits of information are the universe's basic units, and the universe as a whole is a giant quantum computer.
近期,牛津大学物理学家VlatkoVedral审慎地论证了认为信息是组成宇宙的最基本单位,而宇宙本身就是个巨大的量子计算器的理论。
Famous for his bold predictions about the computational capacity of the universe, Dr. Lloyd belongs to the club that thinks that we live inside of a gigantic quantum computer.
由于他的著名的关于宇宙的可计算性大胆预言,SethLloyd博士是一个认为我们生活在一个巨大的量子计算机的俱乐部的成员。
FLATOW: and there are a lot of people who want to isolate atoms, and the idea is to, you know, think about hooking the atoms together to make devices, maybe a quantum computer.
付拉屯:有很多人也想孤立出单个的原子,你知道,他们的想法是,用这些原子搭建某种设备,也许是量子计算机吧。
It is more important to research the quantum computer architecture and use various techniques in existence to build a quantum computer with high performance and low price.
研究量子计算机体系结构,探索如何利用现有的技术来构造高性价比的量子计算机系统具有重要意义。
If we can control freely system decoherence, we can realize quantum communications and quantum computer. So it is a primary signification to whether control decoherence or not.
如果能够控制系统的退相干,我们就可以实现量子通讯和量子计算机,因此是否能够控制退相干具有十分重要的意义。
This election ordered number through quantum computer, using duality, symmetry, conservation of nature, etc., they do not have to worry the Overfly girl could fly to where to go.
这样通过量子计算机选排列数,利用对偶性,对称性,守恒性等等性质,他们根本不需担心怡飞姑娘能飞到哪里去。
The system with high efficiency and security, and easy hardware implementation, it has been recognized as a quantum computer age in a secure cryptosystem and digital signature options.
该体制具有较高的效率和安全性,且易于硬件实现,因此被认作量子计算机时代一种安全的密码体制和数字签名备选方案。
The system with high efficiency and security, and easy hardware implementation, it has been recognized as a quantum computer age in a secure cryptosystem and digital signature options.
该体制具有较高的效率和安全性,且易于硬件实现,因此被认作量子计算机时代一种安全的密码体制和数字签名备选方案。
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