Title :
Counting Gates, Moving Qubits: Evaluating the Execution Cost of Quantum Circuits
Author :
Van Meter, Rodney
Author_Institution :
Fac. of Environ. & Inf. Studies, Keio Univ., Fujisawa, Japan
Abstract :
Quantum algorithms can be written down in several forms, one of the most common is the quantum circuit representation using discrete gates. The challenge in assessing the computational cost then becomes counting those gates, with realistic costs assigned to each gate. Moreover, interacting pairs of qubits inside most quantum computers will require moving qubits. In many architectures, this will involve cellular automaton-like swapping of qubits. In general, the depth will be described in number of quantum error correction (QEC) cycles, while the total cost will be space-time ``volume´´ consisting of the number of qubits involved over that set of QEC cycles. This implies that accurate estimates can be made only in the context of a particular architecture and error correction mechanism.
Keywords :
cellular automata; error correction codes; quantum gates; quantum optics; cellular automaton-like swapping; computational cost assessment; counting gate; discrete gate; execution cost evaluation; moving qubit; quantum circuit representation; quantum computer; quantum error correction cycle; Computer architecture; Computers; Error correction; Logic gates; Photonics; Physics; Quantum computing; compilation; optimization; quantum computation;
Conference_Titel :
Test Symposium (ATS), 2012 IEEE 21st Asian
Conference_Location :
Niigata
Print_ISBN :
978-1-4673-4555-2
Electronic_ISBN :
1081-7735
DOI :
10.1109/ATS.2012.67
