publication . Other literature type . Article . Preprint . 2018

Toward the first quantum simulation with quantum speedup.

Andrew M. Childs; Dmitri Maslov; Yunseong Nam; Neil J. Ross; Yuan Su;
Open Access
  • Published: 06 Sep 2018
Abstract
Comment: 63 pages, 13 figures, 2 tables
Persistent Identifiers
Subjects
free text keywords: Physical Sciences, Multidisciplinary, Quantum Physics, Quantum simulator, Quantum computer, Speedup, Factoring, Quantum, Spin-½, Theoretical computer science, Computer science, Electronic circuit, Signal processing

[5] Ryan Babbush, Jarrod McClean, Dave Wecker, Al´an Aspuru-Guzik, and Nathan Wiebe, Chemical basis of Trotter-Suzuki errors in quantum chemistry simulation, Physical Review A 91 (2015), 022311, arXiv:1410.8159.

[6] R. Barends, L. Lamata, J. Kelly, L. Garc´ıa- A´lvarez, A. G. Fowler, A Megrant, E Jeffrey, T. C. White, D. Sank, J. Y. Mutus, B. Campbell, Yu Chen, Z. Chen, B. Chiaro, A. Dunsworth, I.-C. Hoi, C. Neill, P. J. J. O'Malley, C. Quintana, P. Roushan, A. Vainsencher, J. Wenner, E. Solano, and John M. Martinis, Digital quantum simulation of fermionic models with a superconducting circuit, Nature Communications 6 (2015), 7654, arXiv:1501.07703.

[7] Bela Bauer and Chetan Nayak, Analyzing many-body localization with a quantum computer, Physical Review X 4 (2014), no. 4, 041021, arXiv:1407.1840.

[8] Stephane Beauregard, Circuit for Shor's algorithm using 2n + 3 qubits, Quantum Information and Computation 3 (2003), no. 2, 175-185, arXiv:quant-ph/0205095.

[9] David Beckman, Amalavoyal N. Chari, Srikrishna Devabhaktuni, and John Preskill, Efficient networks for quantum factoring, Physical Review A 54 (1996), 1034-1063, arXiv:quant-ph/9602016.

[21] Yu Chen, C. Neill, P. Roushan, N. Leung, M. Fang, R. Barends, J. Kelly, B. Campbell, Z. Chen, B. Chiaro, A. Dunsworth, E. Jeffrey, A. Megrant, J.Y. Mutus, P.J.J. O'Malley, C.M. Quintana, D. Sank, A. Vainsencher, J. Wenner, T.C. White, Michael R. Geller, A.N. Cleland, and John M. Martinis, Qubit architecture with high coherence and fast tunable coupling, Physical Review Letters 113 (2014), 220502, arXiv:1402.7367.

[38] IBM, The Quantum Experience, http://www.research.ibm.com/ibm-q/, 2016.

[76] Dave Wecker, Bela Bauer, Bryan K. Clark, Matthew B. Hastings, and Matthias Troyer, Gate count estimates for performing quantum chemistry on small quantum computers, Physical Review A 90 (2014), 022305, arXiv:1312.1695.

[77] Dave Wecker, Matthew B. Hastings, Nathan Wiebe, Bryan K. Clark, Chetan Nayak, and Matthias Troyer, Solving strongly correlated electron models on a quantum computer, Physical Review A 92 (2015), 062318, arXiv:1506.05135.

Abstract
Comment: 63 pages, 13 figures, 2 tables
Persistent Identifiers
Subjects
free text keywords: Physical Sciences, Multidisciplinary, Quantum Physics, Quantum simulator, Quantum computer, Speedup, Factoring, Quantum, Spin-½, Theoretical computer science, Computer science, Electronic circuit, Signal processing

[5] Ryan Babbush, Jarrod McClean, Dave Wecker, Al´an Aspuru-Guzik, and Nathan Wiebe, Chemical basis of Trotter-Suzuki errors in quantum chemistry simulation, Physical Review A 91 (2015), 022311, arXiv:1410.8159.

[6] R. Barends, L. Lamata, J. Kelly, L. Garc´ıa- A´lvarez, A. G. Fowler, A Megrant, E Jeffrey, T. C. White, D. Sank, J. Y. Mutus, B. Campbell, Yu Chen, Z. Chen, B. Chiaro, A. Dunsworth, I.-C. Hoi, C. Neill, P. J. J. O'Malley, C. Quintana, P. Roushan, A. Vainsencher, J. Wenner, E. Solano, and John M. Martinis, Digital quantum simulation of fermionic models with a superconducting circuit, Nature Communications 6 (2015), 7654, arXiv:1501.07703.

[7] Bela Bauer and Chetan Nayak, Analyzing many-body localization with a quantum computer, Physical Review X 4 (2014), no. 4, 041021, arXiv:1407.1840.

[8] Stephane Beauregard, Circuit for Shor's algorithm using 2n + 3 qubits, Quantum Information and Computation 3 (2003), no. 2, 175-185, arXiv:quant-ph/0205095.

[9] David Beckman, Amalavoyal N. Chari, Srikrishna Devabhaktuni, and John Preskill, Efficient networks for quantum factoring, Physical Review A 54 (1996), 1034-1063, arXiv:quant-ph/9602016.

[21] Yu Chen, C. Neill, P. Roushan, N. Leung, M. Fang, R. Barends, J. Kelly, B. Campbell, Z. Chen, B. Chiaro, A. Dunsworth, E. Jeffrey, A. Megrant, J.Y. Mutus, P.J.J. O'Malley, C.M. Quintana, D. Sank, A. Vainsencher, J. Wenner, T.C. White, Michael R. Geller, A.N. Cleland, and John M. Martinis, Qubit architecture with high coherence and fast tunable coupling, Physical Review Letters 113 (2014), 220502, arXiv:1402.7367.

[38] IBM, The Quantum Experience, http://www.research.ibm.com/ibm-q/, 2016.

[76] Dave Wecker, Bela Bauer, Bryan K. Clark, Matthew B. Hastings, and Matthias Troyer, Gate count estimates for performing quantum chemistry on small quantum computers, Physical Review A 90 (2014), 022305, arXiv:1312.1695.

[77] Dave Wecker, Matthew B. Hastings, Nathan Wiebe, Bryan K. Clark, Chetan Nayak, and Matthias Troyer, Solving strongly correlated electron models on a quantum computer, Physical Review A 92 (2015), 062318, arXiv:1506.05135.

Any information missing or wrong?Report an Issue