在 中文 中使用 量子计算机可以 的示例及其翻译为 英语
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量子计算机可以对所有的道路进行评估,为每条道路带来成功的可能。
A quantum computer can evaluate all the roads together, generating a probability of success for each road.量子计算机可以比数字计算机更有效地执行这样的因数分解,这意味着这种安全方法很快就会过时。
Quantum computers can perform such factoring exponentially more efficiently than digital 例如,一台量子计算机可以很容易地破解保护网上银行安全的代码。
For example, one quantum computer could easily crack the codes that keep internet banking secure.量子计算机可以应用于任何目的的几乎任何材料的设计。
Quantum computers could apply to the design of almost any material for any purpose.从理论上讲,量子计算机可以使用Shor算法来破解ECDSA。
Theoretically, a quantum computer can use Shor's algorithm to break ECDSA.量子计算机可以分析大量数据,为人工智能机器提供提高性能所需的反馈。
Quantum computers can analyze large quantities of data to provide artificial intelligence machines the feedback required to improve performance.从理论上讲,它正在迅速成为现实-量子计算机可以使您当前的PC看起来像一个图形计算器。
Previously theoretical, it's quickly becoming a reality- and quantum computers could make your current PC seem like a graphing calculator.例如,一台10量子位量子计算机可以一次处理最多的1024个可能的输入,而不是一次分析一个输入。
For example, a 10-qubit quantum computer could process 210, or 1024, possible inputs at once instead of analyzing them one at a time.如果量子计算机可以解决一个经典计算机无法解决的问题,那并不意味着解决方案将难以检验。
If a quantum computer can fix a problem a classical Shor指出,量子计算机可以在多项式时间内对整数进行因子分解,也就是说比任何已知的经典计算机算法更高效。
Shor showed quantum computers can factor an integer in polynomial time, i.e. more efficiently than any know classical 量子计算机可以解决经典计算机无法解决的问题,比如模拟原子的行为。
Quantum computers could resolve problems that are impossible for classical 但在1994年,数学家PeterShor证明,量子计算机可以很容易找出一个密钥背后的素数。
In 1994, mathematician Peter Shor proved that a quantum computer could easily find the primes behind a key.事实上,1600名互联网用户耗时8个月破解的RSA129,量子计算机可以在几秒钟内攻破!!
In fact it took 8 months and 1,600 internet users to crack RSA129, a quantum computer can do this in seconds!使用肖尔算法,量子计算机可以在几个小时内完成这项任务。
Using Shor's algorithm, a quantum computer could perform the task in a few hours.当与叠加相结合时,量子计算机可以同时处理大量可能的结果。
When combined with superposition, quantum computers could process a massive number of possible outcomes at the same time.量子计算机可以快速评估代码库的每一个可能的场景和条件,以便在出现问题之前发现缺陷。
Quantum computers can rapidly evaluate every possible scenario and condition of a code base to find flaws before there is a problem.虽然传统计算机没有足够计算能力来从公共密钥中获得私人密钥,但是量子计算机可以很容易做到。
While conventional 因为量子位一次处于不止一个状态,所以量子计算机可以有效地同时处理许多计算。
Because the qubits are in more than one state at once, a quantum computer could effectively tackle.量子计算机可以比数字计算机更高效地执行这些计算,这就意味着如此保证安全的方法很快就会过时。
Quantum computers can perform such factoring exponentially more efficiently than digital 因为量子位一次处于不止一个状态,所以量子计算机可以有效地同时处理许多计算。
Because the qubits are in more than one state at once, a quantum computer could effectively tackle many calculations simultaneously.
