Title :
Tutorial: basic concepts in quantum circuits
Author_Institution :
Adv. Comput. Archit. Lab., Michigan Univ., Ann Arbor, MI, USA
Abstract :
Summary form only given. Over the last decade a new way to compute has been defined which, unlike conventional methods, is based on quantum mechanics rather than classical physics. This fundamental change in paradigm can, in principle, solve some important and hitherto intractable problems such as prime factorization of large numbers. This tutorial presentation reviews the basics of quantum computation and the design of circuits to implement quantum algorithms. The starting point is the notion of a quantum bit or qubit. Because of the superposition property of quantum states, n qubits can store 2n numbers simultaneously, implying a type of massive parallelism. Furthermore, quantum states allow powerful forms of interaction such as entanglement that have no classical counterparts. Qubits are fragile, however, and are altered by measurement; hence quantum circuits must follow very different rules from classical ones. The differences between quantum and classical logic circuits is discussed and illustrated. Finally, the physical implementation of quantum devices is considered, along with the prospects for practical quantum computers.
Keywords :
circuit theory; quantum computing; quantum gates; quantum interference devices; reviews; circuit design; logic circuit; massive parallelism; prime factorization; quantum algorithm; quantum bit; quantum circuit; quantum computation; quantum computer; quantum device; quantum entanglement; quantum mechanics; quantum state; qubit; superposition property; Algorithm design and analysis; Computer architecture; Logic circuits; Parallel processing; Physics computing; Quantum computing; Quantum entanglement; Quantum mechanics; Tutorial;
Conference_Titel :
Design Automation Conference, 2003. Proceedings
Print_ISBN :
1-58113-688-9
DOI :
10.1109/DAC.2003.1219146
