QuIDDPro is a fast, scalable, and easy-to-use computational interface for generic quantum circuit simulation. It supports state vectors, density matrices, and related operations using the Quantum Information Decision Diagram (QuIDD) datastructure [3, 4, 5]. Software packages including Matlab, Octave, QCSim , and libquantum , have also been used to simulate quantum circuits. However, unlike these packages, QuIDDPro does not always suffer from the exponential blow-up in size of the matrices required to simulate quantum circuits. As a result, we have found that QuIDDPro is significantly faster and uses significantly less memory as compared to other generic simulation methods for some useful circuits with many more than 10 qubits [3, 4, 5].
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References in zbMATH (referenced in 5 articles )
Showing results 1 to 5 of 5.
- Lee, Y. H.; Khalil-Hani, M.; Marsono, M. N.: Improved quantum circuit modelling based on Heisenberg representation (2018)
- Lee, Y. H.; Khalil-Hani, M.; Marsono, M. N.: An FPGA-based quantum circuit emulation framework using Heisenberg representation (2018)
- Seiter, Julia; Soeken, Mathias; Wille, Robert; Drechsler, Rolf: Property checking of quantum circuits using quantum multiple-valued decision diagrams (2013)
- Soeken, Mathias; Wille, Robert; Minato, Shin-Ichi; Drechsler, Rolf: Using (\pi)DDs in the design of reversible circuits (2013)
- Viamontes, George F.; Markov, Igor; Hayes, John P.: Quantum circuit simulation (2009)