Biologically Based Quantum Computers?
量子计算机是生物的基础么?
This development might be used to design faster quantum computers.
此项新进展有可能被用来设计高速量子计算机。
Quantum computers provide a neat shortcut to solving such problems.
量子计算机为解决诸如此类的问题提供了极好的捷径。
Superposition is exactly what underlies the power of things like quantum computers.
叠加态正是像量子计算机这样的设备的基础。
This means there is a realistic prospect of integrating quantum computers with conventional ones.
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。
The power of quantum computers comes from their version of the most basic unit of computing, the bit.
量子计算机的强大能力来源于计算最基本的单元——比特。
According to Aspelmeyer, the findings could inform the design of storage devices used in 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。
Quantum computers can solve in a matter of moments problems that would take ordinary computers years to work out.
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。
The technique could lead to quantum computers capable of solving problems beyond the reach of today's technology.
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。
In addition, the polarization is involved in the secret communication and quantum computers, and also plays an important role.
另外在保密通信及量子计算机方面,偏振态也参与其中起到越来越重要的作用。
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。
As a result, quantum computers should be able to defeat encryption that is unbreakable in practice today and perform highly complex simulations.
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。
QCL only simulates very small quantum computers, but fortunately it's just powerful enough to demonstrate the concept behind some useful qc algorithms.
qcl只模拟非常小的量子计算机,但幸运的是,它的效力刚好足够大,可以展示一些有用的qc算法背后的概念。
Quantum computers promise superfast calculations that precisely simulate the natural world, but physicists have struggled to design the brains of such machines.
量子计算机能提供可以精确模拟自然的超高速计算能力,但是物理学家已经为设计出这种机器的大脑而竭尽全力了。
However, quantum computers have their own challenges and wouldn't be suitable for all computing tasks, but they could reshape the way we think of computing power.
然而,量子计算机有它们领域自己的挑战,不可能适合所有的运算任务,但是,它们能改变我们对计算能力的思考方式。
He has created an algorithm that allows quantum computers to simulate chemistry with a level of accuracy that traditional computers will never be able to match.
他已经发明了一种算法,通过量子计算机在一定程度上精确的模拟化学,这种精确程度是传统计算机永远不能匹敌的。
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.
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。
A new study shows that disorder can enhance the coupling between light and matter in quantum systems, a find that could eventually lead to fast, easy-to-build quantum computers.
一项新的研究表明,无序能在量子系统中增强光和物质的耦合,这个发现最终可能导致高速、易于构建的量子计算机。
Physicists use such quantum data to send information securely, and hope to eventually build quantum computers capable of solving problems beyond the reach of today's technology.
物理学家用这种量子数据安全的传送数据,同时也希望最终能够建立可以解决超出现有技术水平所能解决的问题的量子计算机。
By directly linking the motions of two physically separated atoms, the technique has the potential to simplify information processing in future quantum computers and simulations.
这一技术简化了信息处理过程,可用于未来的量子计算机、模拟技术和量子网络中。相关研究发表在2月23日的《自然》杂志上。
By directly linking the motions of two physically separated atoms, the technique has the potential to simplify information processing in future quantum computers and simulations.
这一技术简化了信息处理过程,可用于未来的量子计算机、模拟技术和量子网络中。相关研究发表在2月23日的《自然》杂志上。
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