Add to ORKGAdiabatic Quantum Computing (AQC) is a relatively new subject in the world of quantum computing, let alone Physics. Inspiration for this project has come from recent controversy around D-Wave Systems in British Columbia, Canada, who claim to have built a working AQC which is now commercially available and hope to be distributing a 1024 qubit chip by the end of 2008. Their 16 qubit chip was demonstrated online for the Supercomputing 2007 conference within which a few small problems were solved; although the explanations that journalists and critics received were minimal and very little was divulged in the question and answer session. This 'unconvincing' demonstration has caused physicists and computer scientists to hit back at D-Wave. The ai...
Newspapers and websites are reporting with strong emphasys the successes of quantum computing, obta...
This paper concerns quantum heuristics that are able to extend the domain of quantum computing defin...
Quantum computing (QC) aims to solve certain computational problems beyond the capabilities of even ...
This document contains a thorough introduction to the subject of conventional Quantum Computing, and...
In the first half of the day, adiabatic quantum computation (AQC) will be introduced as a universal ...
In the recent years, the field of adiabatic quantum computing has gained importance due to the advan...
In the recent years the field of adiabatic quantum computing has gained importance due to the advanc...
In this thesis we summarize the principles of quantum computing. We specifically consider adiabatic ...
Quantum computing seeks to use the powers of quantum mechanics to accomplish tasks that classical co...
In this talk I will describe D-Wave's approach to quantum computing, including the system architectu...
We present a didactic introduction to adiabatic quantum computation (AQC) via the explicit construct...
We analyze the computational power and limitations of the recently proposed 'quantum adiabatic evolu...
The quantum circuit model is the most widely used model of quantum computation. It provides both a f...
The exploitation of quantum mechanical principles seems to provide a decisive advantage over classic...
The exploitation of quantum mechanical principles seems to provide a decisive advantage over classic...
Newspapers and websites are reporting with strong emphasys the successes of quantum computing, obta...
This paper concerns quantum heuristics that are able to extend the domain of quantum computing defin...
Quantum computing (QC) aims to solve certain computational problems beyond the capabilities of even ...
This document contains a thorough introduction to the subject of conventional Quantum Computing, and...
In the first half of the day, adiabatic quantum computation (AQC) will be introduced as a universal ...
In the recent years, the field of adiabatic quantum computing has gained importance due to the advan...
In the recent years the field of adiabatic quantum computing has gained importance due to the advanc...
In this thesis we summarize the principles of quantum computing. We specifically consider adiabatic ...
Quantum computing seeks to use the powers of quantum mechanics to accomplish tasks that classical co...
In this talk I will describe D-Wave's approach to quantum computing, including the system architectu...
We present a didactic introduction to adiabatic quantum computation (AQC) via the explicit construct...
We analyze the computational power and limitations of the recently proposed 'quantum adiabatic evolu...
The quantum circuit model is the most widely used model of quantum computation. It provides both a f...
The exploitation of quantum mechanical principles seems to provide a decisive advantage over classic...
The exploitation of quantum mechanical principles seems to provide a decisive advantage over classic...
Newspapers and websites are reporting with strong emphasys the successes of quantum computing, obta...
This paper concerns quantum heuristics that are able to extend the domain of quantum computing defin...
Quantum computing (QC) aims to solve certain computational problems beyond the capabilities of even ...