References

[0] G. F. Viamontes, I. L. Markov, J. P. Hayes, “Quantum Circuit Simulation,” Springer Verlag, 2009, ISBN-13: 978-9048130641 (available on amazon). 

[1] G. F. Viamontes, “Efficient Quantum Circuit Simulation,” Doctoral Dissertation, 2007. Dissertation (PDF) 

[2] G. F. Viamontes, I. L. Markov, J. P. Hayes, “Checking Equivalence of Quantum Circuits and States,” in Proc. of ICCAD, pp. 69-74, 2007. 

[3] G. F. Viamontes, I. L. Markov, J. P. Hayes, “Graph-based simulation of quantum computation in the density matrix representation,” Quantum Information & Computation5 (2), 113-130, 2005. quant-ph/0403114 

[4] G. F. Viamontes, I. L. Markov, J. P. Hayes, “Improving Gate-Level Simulation of Quantum Circuits,” Quantum Information Processing2 (5), 347-380, October 2003. quant-ph/0309060 

[5] G. F. Viamontes, M. Rajagopalan, I. L. Markov, J. P. Hayes, “Gate-Level Simulation of Quantum Circuits,” In Proc. of the Asia South Pacific Design Automation Conference, pp. 295-301, Kitakyushu, Japan, January 2003. 

[6] P. E. Black et al., “Quantum compiling and simulation,” http://hissa.nist.gov/~black/Quantum/ 

[7] libquantum, http://www.enyo.de/libquantum/ 

[8] S. Aaronson and D. Gottesman, “Improved Simulation of Stabilizer Circuits,” to appear in Phys. Rev. Aquant-ph/0406196 (CHP simulator software can be found here

[9] G. Vidal, “Efficient classical simulation of slightly entangled quantum computations,” Phys. Rev. Lett.91, 147902 (2003). quant-ph/0301063 

[10] L. G. Valiant, “Quantum computers that can be simulated classically in polynomial time,” in Proc. of ACM Symp. on Theory of Computing, 114-123 (2001). 

[11] G. F. Viamontes, I. L. Markov, J. P. Hayes, “Is Quantum Search Practical?” Computing in Science and Engineering7(4), pp. 22-30, May/June 2005. 

Copyright © 2004, 2005, 2006, 2007 George F. ViamontesIgor L. MarkovJohn P. Hayes, and The Regents of the University of Michigan. All rights reserved.