Add to ORKGWe review and analyze the hybrid quantum-classical NMR computing methodology referred to as Type-II quantum computing. We show that all such algorithms considered so far within this paradigm are equivalent to some classical lattice-Boltzmann scheme. We derive a sufficient and necessary constraint on the unitary operator representing the quantum mechanical part of the computation which ensures that the model reproduces the Boltzmann approximation of a lattice-gas model satisfying semi-detailed balance. Models which do not satisfy this constraint represent new lattice-Boltzmann schemes which cannot be formulated as the average over some underlying lattice gas. We close the paper with some discussion of the strengths, weaknesses and possible f...
The promise of quantum neural nets, which utilize quantum effects to model complex data sets, has ma...
Inspired by the success of Boltzmann machines based on classical Boltzmann distribution, we propose ...
A model of quantum computation based on unitary ma-trix operations was introduced by Feynman and Deu...
Presented here is an algorithm for a type-II quantum computer which simulates the Ising model in one...
We report on the implementation of Burgers equation as a type-II quantum computation on an NMR quant...
This article reviews recent work done by us an some initial steps towards the implementation of quan...
Hybrid quantum-classical algorithms are central to much of the current research in quantum computing...
The present work, briefly described below, consists of implementation of several quantum algorithms i...
The goal of generative machine learning is to model the probability distribution underlying a given ...
Quantum computers exist today that are capable of performing calculations that challenge the largest...
In this thesis, we aim to answer one research question: What is the algorithmic role of classical co...
These days, research groups such as Google, Microsoft, and Rigetti are working towards fabricating q...
The application of Quantum Computing (QC) to fluid dynamics simulation has developed into a dynamic ...
Empirical thesis.Degree carried out under a cotutelle program with the University of Waterloo.Biblio...
An algorithm is presented to simulate fluid dynamics on a three qubit type II quantum computer: a la...
The promise of quantum neural nets, which utilize quantum effects to model complex data sets, has ma...
Inspired by the success of Boltzmann machines based on classical Boltzmann distribution, we propose ...
A model of quantum computation based on unitary ma-trix operations was introduced by Feynman and Deu...
Presented here is an algorithm for a type-II quantum computer which simulates the Ising model in one...
We report on the implementation of Burgers equation as a type-II quantum computation on an NMR quant...
This article reviews recent work done by us an some initial steps towards the implementation of quan...
Hybrid quantum-classical algorithms are central to much of the current research in quantum computing...
The present work, briefly described below, consists of implementation of several quantum algorithms i...
The goal of generative machine learning is to model the probability distribution underlying a given ...
Quantum computers exist today that are capable of performing calculations that challenge the largest...
In this thesis, we aim to answer one research question: What is the algorithmic role of classical co...
These days, research groups such as Google, Microsoft, and Rigetti are working towards fabricating q...
The application of Quantum Computing (QC) to fluid dynamics simulation has developed into a dynamic ...
Empirical thesis.Degree carried out under a cotutelle program with the University of Waterloo.Biblio...
An algorithm is presented to simulate fluid dynamics on a three qubit type II quantum computer: a la...
The promise of quantum neural nets, which utilize quantum effects to model complex data sets, has ma...
Inspired by the success of Boltzmann machines based on classical Boltzmann distribution, we propose ...
A model of quantum computation based on unitary ma-trix operations was introduced by Feynman and Deu...