Add to ORKGWe apply our recent work on empirical estimates of quantum speedups to the practical task of community detection in complex networks. We design several quantum variants of a popular classical algorithm -- the Louvain algorithm for community detection -- and first study their complexities in the usual way, before analysing their complexities empirically across a variety of artificial and real inputs. We find that this analysis yields insights not available to us via the asymptotic analysis, further emphasising the utility in such an empirical approach. In particular, we observe that a complicated quantum algorithm with a large asymptotic speedup might not be the fastest algorithm in practice, and that a simple quantum algorithm with a modest...
In this article, we formulate and study quantum analogues of randomized search heuristics, which mak...
Even after decades of quantum computing development, examples of generally useful quantum algorithms...
Is there a general theorem that tells us when we can hope for exponential speedups from quantum algo...
We apply our recent work on empirical estimates of quantum speedups to the practical task of communi...
We apply our recent work on empirical estimates of quantum speedups to the practical task of communi...
The usual method for studying run-times of quantum algorithms is via an asymptotic, worst-case analy...
Run-times of quantum algorithms are often studied via an asymptotic, worst-case analysis. Whilst use...
The usual method for studying run-times of quantum algorithms is via an asymptotic, worst-case analy...
Run-times of quantum algorithms are often studied via an asymptotic, worst-case analysis. Whilst use...
The usual method for studying run-times of quantum algorithms is via an asymptotic, worst-case analy...
The usual method for studying run-times of quantum algorithms is via an asymptotic, worst-case analy...
The development of small-scale quantum devices raises the question of how to fairly assess and detec...
In this article, we formulate and study quantum analogues of randomized search heuristics, which mak...
We create a variety of new quantum algorithms that use Grover's algorithm and similar techniques to ...
Quantum algorithms theoretically outperform classical algorithms in solving problems of increasing s...
In this article, we formulate and study quantum analogues of randomized search heuristics, which mak...
Even after decades of quantum computing development, examples of generally useful quantum algorithms...
Is there a general theorem that tells us when we can hope for exponential speedups from quantum algo...
We apply our recent work on empirical estimates of quantum speedups to the practical task of communi...
We apply our recent work on empirical estimates of quantum speedups to the practical task of communi...
The usual method for studying run-times of quantum algorithms is via an asymptotic, worst-case analy...
Run-times of quantum algorithms are often studied via an asymptotic, worst-case analysis. Whilst use...
The usual method for studying run-times of quantum algorithms is via an asymptotic, worst-case analy...
Run-times of quantum algorithms are often studied via an asymptotic, worst-case analysis. Whilst use...
The usual method for studying run-times of quantum algorithms is via an asymptotic, worst-case analy...
The usual method for studying run-times of quantum algorithms is via an asymptotic, worst-case analy...
The development of small-scale quantum devices raises the question of how to fairly assess and detec...
In this article, we formulate and study quantum analogues of randomized search heuristics, which mak...
We create a variety of new quantum algorithms that use Grover's algorithm and similar techniques to ...
Quantum algorithms theoretically outperform classical algorithms in solving problems of increasing s...
In this article, we formulate and study quantum analogues of randomized search heuristics, which mak...
Even after decades of quantum computing development, examples of generally useful quantum algorithms...
Is there a general theorem that tells us when we can hope for exponential speedups from quantum algo...