A quantum algorithm for the solution of the 0-1 Knapsack problem

Here we present two novel contributions for achieving quantum advantage in solving difficult optimisation problems, both in theory and foreseeable practice. (1) We introduce the ''Quantum Tree Generator'', an approach to generate in superposition all feasible solutions of a given instance, yielding together with amplitude amplification the optimal solutions for $0$-$1$-Knapsack problems. The QTG offers exponential memory savings and enables competitive runtimes compared to the state-of-the-art Knapsack solver COMBO for instances involving as few as 600 variables. (2) By introducing a high-level simulation strategy that exploits logging data from COMBO, we can predict the runtime of our method way beyond the range of existing quantum platforms and simulators, for various benchmark instances with up to 1600 variables. Combining both of these innovations, we demonstrate the QTG's potential advantage for large-scale problems, indicating an effective approach for combinatorial optimisation problems.