# How do I implement a set of qubits on my computer?

I would like to get familiar with quantum computing basics.

A good way to get familiar with it would be writing very basic virtual quantum computer machines. From what I can understand of it, the, effort of implementing a single qubit cannot simply be duplicated to implement a two qubit system. But I don't know how I would implement a single qubit either.

How do I implement a qubit? How do I implement a set of qubits?

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I don't actually know the answer, but an interesting place to start reading about qubits is this article. It doesn't describe in detail how entangled qubits work, but it hints at the complexity involved:

If this is how complicated things can get with only two qubits, how complicated will it get for 3 or 4, or 100? It turns out that the state of an N-qubit quantum computer can only be completely defined when plotted as a point in a space with (4^N-1) dimensions. That means we need 4^N good old fashion classical numbers to simulate it.

Note that this is the maximum space complexity, which for example is about 1 billion numbers (2^30=4^15) for 15 qubits. It says nothing about the time complexity of a simulation.

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The article that @Qwertie cites is a very good introduction. If you want to implement these on your computer, you can play with the libquantum simulator, which implements sophisticated quantum operations in a C library. You can look at this example to see what using the code is like.

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The information is actually stored in the interaction between different Qbits, so no implementing 1 Qbit will not translate to using multiple. I'd think another way you could play around is to use existing languages like QCL or google QCP http://qcplayground.withgoogle.com/#/home to play around

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