Classical and Quantum Computation
Classical and Quantum Computation
Journal of the ACM (JACM)
Improved Gap Estimates for Simulating Quantum Circuits by Adiabatic Evolution
Quantum Information Processing
Adiabatic Quantum Computation is Equivalent to Standard Quantum Computation
SIAM Journal on Computing
Quadratic Form Expansions for Unitaries
Theory of Quantum Computation, Communication, and Cryptography
Parallelizing quantum circuits
Theoretical Computer Science
Computational model underlying the one-way quantum computer
Quantum Information & Computation
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We construct a family of time-independent Hamiltonians which are able to perform universally programmable quantum computation. The construction is obtained via direct translation of one-way computer assembly language code into a Hamiltonian evolution. We also present how to evolve adiabatically to this Hamiltonian. It is hoped that this approach contributes further into the study of the structural relationship between measurement-based and adiabatic models of quantum computing.