That state is not normalised.Frank Schroer said:
A quantum circuit is a computational model used in quantum computing to represent and manipulate quantum information. It is composed of quantum gates, which are the basic building blocks of quantum algorithms.
Evaluating a quantum circuit involves simulating its behavior on a classical computer or running it on a quantum computer. This allows for the measurement of the quantum states and the observation of the output of the circuit.
Evaluating a quantum circuit allows for the verification and optimization of quantum algorithms. It also helps in understanding the behavior of quantum systems and can aid in the development of new quantum computing technologies.
One of the main challenges in evaluating quantum circuits is the presence of quantum noise and errors, which can affect the accuracy of the results. Another challenge is the complexity of simulating or running quantum circuits, as they can involve a large number of qubits and gates.
The evaluation of quantum circuits differs from classical circuits in terms of the underlying principles and operations. While classical circuits use classical bits to represent information, quantum circuits use quantum bits (qubits) which can exist in multiple states simultaneously. This allows for the potential of exponentially faster computing and the ability to solve certain problems that are intractable for classical computers.
