Sum-of-Squares inspired Quantum Metaheuristic for Polynomial Optimization with the Hadamard Test and Approximate Amplitude Constraints
Quantum computation shows promise for addressing numerous classically intractable problems, such as optimization tasks. Many optimization problems are NP-hard, meaning that they scale exponentially with problem size and thus cannot be addressed at scale by traditional computing paradigms. The recent...
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| Main Authors | , , , , , |
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| Format | Journal Article |
| Language | English |
| Published |
14.08.2024
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| Online Access | Get full text |
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| Abstract | Quantum computation shows promise for addressing numerous classically
intractable problems, such as optimization tasks. Many optimization problems
are NP-hard, meaning that they scale exponentially with problem size and thus
cannot be addressed at scale by traditional computing paradigms. The recently
proposed quantum algorithm arXiv:2206.14999 addresses this challenge for some
NP-hard problems, and is based on classical semidefinite programming (SDP). In
this manuscript, we generalize the SDP-inspired quantum algorithm to
sum-of-squares programming, which targets a broader problem set. Our proposed
algorithm addresses degree-$k$ polynomial optimization problems with $N \leq
2^n$ variables (which are representative of many NP-hard problems) using
$O(nk)$ qubits, $O(k)$ quantum measurements, and $O(\textrm{poly}(n))$
classical calculations. We apply the proposed algorithm to the prototypical
Max-$k$SAT problem and compare its performance against classical
sum-of-squares, state-of-the-art heuristic solvers, and random guessing.
Simulations show that the performance of our algorithm surpasses that of
classical sum-of-squares after rounding. Our results further demonstrate that
our algorithm is suitable for large problems and approximates the best known
classical heuristics, while also providing a more generalizable approach
compared to problem-specific heuristics. |
|---|---|
| AbstractList | Quantum computation shows promise for addressing numerous classically
intractable problems, such as optimization tasks. Many optimization problems
are NP-hard, meaning that they scale exponentially with problem size and thus
cannot be addressed at scale by traditional computing paradigms. The recently
proposed quantum algorithm arXiv:2206.14999 addresses this challenge for some
NP-hard problems, and is based on classical semidefinite programming (SDP). In
this manuscript, we generalize the SDP-inspired quantum algorithm to
sum-of-squares programming, which targets a broader problem set. Our proposed
algorithm addresses degree-$k$ polynomial optimization problems with $N \leq
2^n$ variables (which are representative of many NP-hard problems) using
$O(nk)$ qubits, $O(k)$ quantum measurements, and $O(\textrm{poly}(n))$
classical calculations. We apply the proposed algorithm to the prototypical
Max-$k$SAT problem and compare its performance against classical
sum-of-squares, state-of-the-art heuristic solvers, and random guessing.
Simulations show that the performance of our algorithm surpasses that of
classical sum-of-squares after rounding. Our results further demonstrate that
our algorithm is suitable for large problems and approximates the best known
classical heuristics, while also providing a more generalizable approach
compared to problem-specific heuristics. |
| Author | Brown, Robin Anandkumar, Anima Yelin, Susanne F Patti, Taylor L Wang, Iria W Pavone, Marco |
| Author_xml | – sequence: 1 givenname: Iria W surname: Wang fullname: Wang, Iria W – sequence: 2 givenname: Robin surname: Brown fullname: Brown, Robin – sequence: 3 givenname: Taylor L surname: Patti fullname: Patti, Taylor L – sequence: 4 givenname: Anima surname: Anandkumar fullname: Anandkumar, Anima – sequence: 5 givenname: Marco surname: Pavone fullname: Pavone, Marco – sequence: 6 givenname: Susanne F surname: Yelin fullname: Yelin, Susanne F |
| BackLink | https://doi.org/10.48550/arXiv.2408.07774$$DView paper in arXiv |
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| Snippet | Quantum computation shows promise for addressing numerous classically
intractable problems, such as optimization tasks. Many optimization problems
are NP-hard,... |
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| SubjectTerms | Physics - Quantum Physics |
| Title | Sum-of-Squares inspired Quantum Metaheuristic for Polynomial Optimization with the Hadamard Test and Approximate Amplitude Constraints |
| URI | https://arxiv.org/abs/2408.07774 |
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