Solving the Product Breakdown Structure Problem with constrained QAOA
Constrained optimization problems, where not all possible variable assignments are feasible solutions, comprise numerous practically relevant optimization problems such as the Traveling Salesman Problem (TSP), or portfolio optimization. Established methods such as quantum annealing or vanilla QAOA u...
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| creator | Zander, René Seidel, Raphael Inajetovic, Matteo Steinmann, Niklas Petrič, Matic |
| description | Constrained optimization problems, where not all possible variable
assignments are feasible solutions, comprise numerous practically relevant
optimization problems such as the Traveling Salesman Problem (TSP), or
portfolio optimization. Established methods such as quantum annealing or
vanilla QAOA usually transform the problem statement into a QUBO (Quadratic
Unconstrained Binary Optimization) form, where the constraints are enforced by
auxiliary terms in the QUBO objective. Consequently, such approaches fail to
utilize the additional structure provided by the constraints. In this paper, we
present a method for solving the industry relevant Product Breakdown Structure
problem. Our solution is based on constrained QAOA, which by construction never
explores the part of the Hilbert space that represents solutions forbidden by
the problem constraints. The size of the search space is thereby reduced
significantly. We experimentally show that this approach has not only a very
favorable scaling behavior, but also appears to suppress the negative effects
of Barren Plateaus. |
| doi_str_mv | 10.48550/arxiv.2406.15228 |
| format | Article |
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assignments are feasible solutions, comprise numerous practically relevant
optimization problems such as the Traveling Salesman Problem (TSP), or
portfolio optimization. Established methods such as quantum annealing or
vanilla QAOA usually transform the problem statement into a QUBO (Quadratic
Unconstrained Binary Optimization) form, where the constraints are enforced by
auxiliary terms in the QUBO objective. Consequently, such approaches fail to
utilize the additional structure provided by the constraints. In this paper, we
present a method for solving the industry relevant Product Breakdown Structure
problem. Our solution is based on constrained QAOA, which by construction never
explores the part of the Hilbert space that represents solutions forbidden by
the problem constraints. The size of the search space is thereby reduced
significantly. We experimentally show that this approach has not only a very
favorable scaling behavior, but also appears to suppress the negative effects
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assignments are feasible solutions, comprise numerous practically relevant
optimization problems such as the Traveling Salesman Problem (TSP), or
portfolio optimization. Established methods such as quantum annealing or
vanilla QAOA usually transform the problem statement into a QUBO (Quadratic
Unconstrained Binary Optimization) form, where the constraints are enforced by
auxiliary terms in the QUBO objective. Consequently, such approaches fail to
utilize the additional structure provided by the constraints. In this paper, we
present a method for solving the industry relevant Product Breakdown Structure
problem. Our solution is based on constrained QAOA, which by construction never
explores the part of the Hilbert space that represents solutions forbidden by
the problem constraints. The size of the search space is thereby reduced
significantly. We experimentally show that this approach has not only a very
favorable scaling behavior, but also appears to suppress the negative effects
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assignments are feasible solutions, comprise numerous practically relevant
optimization problems such as the Traveling Salesman Problem (TSP), or
portfolio optimization. Established methods such as quantum annealing or
vanilla QAOA usually transform the problem statement into a QUBO (Quadratic
Unconstrained Binary Optimization) form, where the constraints are enforced by
auxiliary terms in the QUBO objective. Consequently, such approaches fail to
utilize the additional structure provided by the constraints. In this paper, we
present a method for solving the industry relevant Product Breakdown Structure
problem. Our solution is based on constrained QAOA, which by construction never
explores the part of the Hilbert space that represents solutions forbidden by
the problem constraints. The size of the search space is thereby reduced
significantly. We experimentally show that this approach has not only a very
favorable scaling behavior, but also appears to suppress the negative effects
of Barren Plateaus.</abstract><doi>10.48550/arxiv.2406.15228</doi><oa>free_for_read</oa></addata></record> |
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| title | Solving the Product Breakdown Structure Problem with constrained QAOA |
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