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Morales-Luna Guillermo Morales-Luna | Akateeminen Kirjakauppa

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Approximability of Optimization Problems through Adiabatic Quantum Computation
William Cruz-Santos; Guillermo Morales-Luna
Morgan & Claypool Publishers (2014)
Pehmeäkantinen kirja
57,80
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Protocolos de Comunicaciones Cuánticos
Cruz-Santos William; Morales-Luna Guillermo
Publicia (2013)
Pehmeäkantinen kirja
79,50
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Creativity in Load-Balance Schemes for Multi/Many-Core Heterogeneous Graph Computing - Emerging Research and Opportunities
Alberto Garcia-Robledo; Arturo Diaz-Perez; Guillermo Morales-Luna
IGI Global (2018)
Kovakantinen kirja
175,30
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Approximability of Optimization Problems through Adiabatic Quantum Computation
William Cruz-Santos; Guillermo Morales-Luna
Springer International Publishing AG (2014)
Pehmeäkantinen kirja
33,20
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Approximability of Optimization Problems through Adiabatic Quantum Computation
Cruz-Santos William Cruz-Santos; Morales-Luna Guillermo Morales-Luna
Springer Nature B.V. (2014)
Pehmeäkantinen kirja
115,30
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Approximability of Optimization Problems through Adiabatic Quantum Computation
57,80 €
Morgan & Claypool Publishers
Sivumäärä: 113 sivua
Asu: Pehmeäkantinen kirja
Julkaisuvuosi: 2014, 01.09.2014 (lisätietoa)
Kieli: Englanti
Tuotesarja: Synthesis Lectures on Quantum
The adiabatic quantum computation (AQC) is based on the adiabatic theorem to approximate solutions of the Schroedinger equation. The design of an AQC algorithm involves the construction of a Hamiltonian that describes the behavior of the quantum system. This Hamiltonian is expressed as a linear interpolation of an initial Hamiltonian whose ground state is easy to compute, and a final Hamiltonian whose ground state corresponds to the solution of a given combinatorial optimization problem. The adiabatic theorem asserts that if the time evolution of a quantum system described by a Hamiltonian is large enough, then the system remains close to its ground state. An AQC algorithm uses the adiabatic theorem to approximate the ground state of the final Hamiltonian that corresponds to the solution of the given optimization problem.

In this book, we investigate the computational simulation of AQC algorithms applied to the MAX-SAT problem. A symbolic analysis of the AQC solution is given in order to understand the involved computational complexity of AQC algorithms. This approach can be extended to other combinatorial optimization problems and can be used for the classical simulation of an AQC algorithm where a Hamiltonian problem is constructed. This construction requires the computation of a sparse matrix of dimension 2n x 2n, by means of tensor products, where n is the dimension of the quantum system. Also, a general scheme to design AQC algorithms is proposed, based on a natural correspondence between optimization Boolean variables and quantum bits. Combinatorial graph problems are in correspondence with pseudo-Boolean maps that are reduced in polynomial time to quadratic maps. Finally, the relation among NP-hard problems is investigated, as well as its logical representability, and is applied to the design of AQC algorithms. It is shown that every monadic second-order logic (MSOL) expression has associated pseudo-Boolean maps that can be obtained by expanding the given expression, and also can be reduced to quadratic forms.

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Tilaustuote | Arvioimme, että tuote lähetetään meiltä noin 1-3 viikossa. | Tilaa jouluksi viimeistään 27.11.2024. Tuote ei välttämättä ehdi jouluksi.
Myymäläsaatavuus
Helsinki
Tapiola
Turku
Tampere
Approximability of Optimization Problems through Adiabatic Quantum Computationzoom
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ISBN:
9781627055567
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