The QCL quantum computer simulator.
q cl量子计算机模拟器。
Let's start with some familiar operations from classical computing using QCL.
让我们从一些经典计算中常见的运算开始使用qcl。
Here we have allocated a 1 qubit (Boolean) variable from the QCL quantum heap.
此处我们在qcl量子堆中为一个1量子位(布尔型)变量分配空间。
Of course the ability to peek at quantum memory is only possible because QCL is a simulator.
当然,因为qcl是一个模拟器,所以只是有可能能窥到量子内存。
Many of the primitive quantum operators provided by QCL are familiar from classical computing.
qcl提供的基本量子运算符中有许多在经典计算中很常见。
The most striking, and at the same time one of the most useful, is the Hadamard function, appropriately labeled Mix() by qcl.
最引人注目的,同时也是最有用的其中之一就是Hadamard函数,qcl 把它恰当的标记为 Mix() 。
Since QCL is an interactive interpreter with a syntax vaguely similar to c, we can just fire it up and start entering commands into it.
由于qcl是语法上模糊的类似于c的交互式解释器,所以我们只要启动它就可以往里面输入命令。
As recent quantum cascade laser (QCL) is developing rapidly, all state QCL LIR will be one of the best study task on the LWIR LIR technology.
随着近年来量子级联半导体激光器(QCL)迅猛发展,全固化QCL激光成像雷达,将是未来长波红外激光成像雷达技术研究的热点之一。
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。
QCL simulates such an environment by providing a classical program structure with quantum data types and special functions to perform operations on them.
qcl通过为经典程序结构提供量子数据类型及对其执行操作的特殊函数来模拟这样一种环境。
QCL simulates such an environment by providing a classical program structure with quantum data types and special functions to perform operations on them.
qcl通过为经典程序结构提供量子数据类型及对其执行操作的特殊函数来模拟这样一种环境。
应用推荐