Abstract
Nowadays, quantum computing is a very promising technology. Quantum computers, rather than using merely 1 s or 0 s, execute calculations based on the probability of an object's condition before it is measured, allowing them to process exponentially more data than traditional computers. A bit is a single state, such as on or off, up or down, 1 or 0. Instead, operations in quantum computing utilise the quantum state of an item to produce a qubit. These are the undefined qualities of an object before they are discovered, such as an electron's spin or a photon's polarisation. Several firms are releasing tools for quantum computing practice. One of the tools we'll use to implement our quantum programming is IBM's experience. It also aids in the execution of our programs on real quantum devices. We'll look at the IBM Q experience, circuit composer and building circuits with quantum lab notebooks in this chapter. The dashboard containing the fundamental information is introduced in the IBM Q experience. The user interface for learning quantum circuits, qubits and the gates that are used to perform operations on each qubit is outlined in circuit composer. Creating quantum circuits using quantum lab notebooks shows how to build circuits with the Notebook with Qiskit that comes pre-installed on IBM Quantum Experience.
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Gayathri Devi, S., Manjula Gandhi, S., Chandia, S., Boobalaragavan, P. (2023). Exploring IBM Quantum Experience. In: Pandey, R., Srivastava, N., Singh, N.K., Tyagi, K. (eds) Quantum Computing: A Shift from Bits to Qubits. Studies in Computational Intelligence, vol 1085. Springer, Singapore. https://doi.org/10.1007/978-981-19-9530-9_15
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