Add to ORKGConcordant computation is a circuit-based model of quantum computation for mixed states, that assumes that all correlations within the register are discord-free (i.e. the correlations are essentially classical) at every step of the computation. The question of whether concordant computation always admits efficient simulation by a classical computer was first considered by Eastin in arXiv:quant-ph/1006.4402v1, where an answer in the affirmative was given for circuits consisting only of one- and two-qubit gates. Building on this work, we develop the theory of classical simulation of concordant computation. We present a new framework for understanding such computations, argue that a larger class of concordant computations admit efficient simul...
We discuss classical and quantum computations in terms of corresponding Hamiltonian dynamics. This a...
Clifford gates are a winsome class of quantum operations combining mathematical elegance with physic...
We investigate the boundary between classical and quantum computational power. This work consists of...
Consumption of magic states promotes the stabilizer model of computation to universal quantum comput...
We present a classical protocol to efficiently simulate any pure-state quantum computation that invo...
We study the classical simulation complexity, in both the weak and strong senses, of matchgate (MG) ...
In a quantum computation with pure states, the generation of large amounts of entanglement is known ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mathematics, 2019Cataloged from...
In a quantum computation with pure states, the generation of large amounts of entanglement is known ...
This thesis studies computational advantages that could be achieved by using quantum resources in tw...
Stabiliser operations and state preparations are efficiently simulable by classical computers. Stabi...
Deterministic quantum computation with one pure qubit (DQC1) is an efficient model of computation th...
Recently, a team of scientists from Google claims to have carried a computation on their noisy, inte...
Recently, a team of scientists from Google claims to have carried a computation on their noisy, inte...
Clifford gates are a winsome class of quantum operations combining mathematical elegance with physic...
We discuss classical and quantum computations in terms of corresponding Hamiltonian dynamics. This a...
Clifford gates are a winsome class of quantum operations combining mathematical elegance with physic...
We investigate the boundary between classical and quantum computational power. This work consists of...
Consumption of magic states promotes the stabilizer model of computation to universal quantum comput...
We present a classical protocol to efficiently simulate any pure-state quantum computation that invo...
We study the classical simulation complexity, in both the weak and strong senses, of matchgate (MG) ...
In a quantum computation with pure states, the generation of large amounts of entanglement is known ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mathematics, 2019Cataloged from...
In a quantum computation with pure states, the generation of large amounts of entanglement is known ...
This thesis studies computational advantages that could be achieved by using quantum resources in tw...
Stabiliser operations and state preparations are efficiently simulable by classical computers. Stabi...
Deterministic quantum computation with one pure qubit (DQC1) is an efficient model of computation th...
Recently, a team of scientists from Google claims to have carried a computation on their noisy, inte...
Recently, a team of scientists from Google claims to have carried a computation on their noisy, inte...
Clifford gates are a winsome class of quantum operations combining mathematical elegance with physic...
We discuss classical and quantum computations in terms of corresponding Hamiltonian dynamics. This a...
Clifford gates are a winsome class of quantum operations combining mathematical elegance with physic...
We investigate the boundary between classical and quantum computational power. This work consists of...