这是构建量子计算机的潜在基础。
Such a set-up is a potential building block for a working quantum computer.
这是构建量子计算机的潜在基础。
Such a set-up is a potential building block for a working quantum computer. "Olivia meyer-streng."
q cl量子计算机模拟器。
量子计算机是生物的基础么?
量子计算机可以利用扰动量位来处理数据。
A quantum computer would use entangled qubits to process information.
叠加态正是像量子计算机这样的设备的基础。
Superposition is exactly what underlies the power of things like quantum computers.
此项新进展有可能被用来设计高速量子计算机。
This development might be used to design faster quantum computers.
这一领域的一个分支是量子计算机。
那么何时才能建成第一台可伸缩的量子计算机呢?
正如叶林的解释,量子计算机有几个组件。
As Yelin explains, there are several components to quantum computing.
在一台传统的经典计算机上模拟量子计算机是个难题。
Simulating a quantum computer on a traditional classical computer is a hard problem.
量子计算机为解决诸如此类的问题提供了极好的捷径。
Quantum computers provide a neat shortcut to solving such problems.
而且一台性能优良的量子计算机需要的不只是两个电路。
And a good quantum computer would need more than two circuits.
量子计算机的强大能力来源于计算最基本的单元——比特。
The power of quantum computers comes from their version of the most basic unit of computing, the bit.
这就意味着常规电脑同量子计算机整合的前景有了可实现性。
This means there is a realistic prospect of integrating quantum computers with conventional ones.
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。
The investigation of quantum computer and quantum teleportation have been attracted much attention in recent years.
和人类大脑一样,量子计算机也不是完美有序的结构,他说。
Like a human brain, a quantum brain is not a perfectly ordered structure, he says.
这项技术可能用于研制出处理能力超越当前技术的量子计算机。
The technique could lead to quantum computers capable of solving problems beyond the reach of today's technology.
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。
An electron's quantum state carries information, making it important for a viable quantum computer.
耶鲁团队断言说,巨大的尺寸对于量子计算机设计将是一个优势。
The Yale team asserts that its hulking size is an advantage over other quantum computing designs.
科学家研制出了一种计算机芯片,为新一代强大的量子计算机的问世铺平了道路。
Scientists have developed a computer chip that could pave the way for a new generation of powerful 'quantum' computers.
按照艾斯派梅尔的说法,实验结果可以告知我们量子计算机存储设备的设计方式。
According to Aspelmeyer, the findings could inform the design of storage devices used in quantum computers.
如果能大范围普及,根据传统电子学,量子计算机比任何机器解决问题的速度都快。
If they could be made to work on a large scale, quantum computers would be able to solve problems much faster than any machines based around traditional electronics.
这项突破使量子计算机能够处理现在计算机不能够完成的复杂计算和模拟。
The breakthrough could lead to 'quantum' computers capable of performing complex calculations and simulations that are impossible for today's computers.
结果,量子计算机就能够破解今日不能被攻破的密码术,并能够进行复杂的模拟运算。
As a result, quantum computers should be able to defeat encryption that is unbreakable in practice today and perform highly complex simulations.
对于某些某些常规计算机需要数年时间解决的问题,量子计算机可以瞬间搞定。
Quantum computers can solve in a matter of moments problems that would take ordinary computers years to work out.
传统上,量子计算机的构件是极细小的微粒——离子、量子点或是单个的原子。
Traditionally, the building block of quantum computing has been tiny particles--ions, quantum dots or individual atoms.
“(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。
"[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.
但这确实是实现不会泄密的通信系统以及建造超高速高能量子计算机之路上的首个巨大进步。
But it's a big first step down a road that could produce unhackable communications schemes and superfast, energy efficient quantum computers.
但这确实是实现不会泄密的通信系统以及建造超高速高能量子计算机之路上的首个巨大进步。
But it's a big first step down a road that could produce unhackable communications schemes and superfast, energy efficient quantum computers.
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