quantum circuit

Similar conclusions may hold for quantum circuits and other related systems.

So far we have not shown how quantum circuits are used to perform computations.

For quantum circuits a similar composition of qubit gates can be defined.

Thanks to the deferred measurement principle, measurements in a quantum circuit can often be shifted around so they happen at better times.

This technique has applications in mechanical engineering, structural analysis, and the design of integrated quantum circuits.

This is because in the previous demonstrations the quantum circuits were simplified to make it more experimentally feasible.

He has been working on a research project titled: Evolving quantum circuits, using genetic programming at Stanford.

See quantum circuit for a more precise formulation.)

We now provide a mathematical model for how quantum circuits can simulate probabilistic but classical computations.

BQP can also be viewed as a bounded-error uniform family of quantum circuits.

Theorem: A quantum circuit using only the following elements can be simulated efficiently on a classical computer:

Unlike previous demonstrations, we built a full quantum circuit to implement the phase estimation algorithm without any simplification.

Any one-way computation can be made into a quantum circuit by using quantum gates to prepare the resource state.

A quantum circuit has been designed which implements the FRFT.

A quantum circuit consists of simple quantum gates which act on at most a fixed number of qubits, usually two or three.

Define a quantum algorithm to be a family of quantum circuits (specifically, a uniform circuit family).

Q-circuit is a macro package for drawing quantum circuit diagrams in LaTeX.

It has important applications in Quantum circuit, such as SQUIDs.

This quantum circuit implements the quantum Fourier transform on the quantum state .

Quantum Turing machines are not always used for analyzing quantum computation; the quantum circuit is a more common model.

The interaction between photons realized in this manner could enable "quantum gates," the building blocks of large-scale quantum circuits, on demand.

According to the authors, their prototype transducer is fully compatible with superconducting quantum circuits and is well suited for cryogenic operation.

The Non-Local Quantum Circuit.

The basic idea is that each probabilistic gate is prepared offline, and the successful event signal is teleported back to the quantum circuit.

In the end one can say that they all agree to picture quantum cellular automata as just some large quantum circuit, infinitely repeating across time and space.