“Scientists were able to show that neutral-atom processors such as Aquila are suited to arranging atoms in graph patterns, and solving certain combinatorial optimization problems. Namely, these machines can encode the maximum independent set (MIS) problem, which has broad applications in optimization such as resource allocation, network design and others. The MIS problem can be cast as a variational problem which can be computed using iterative optimization cycles that combine a hybrid of quantum and classical operations.”
steel_member OP t1_iuptvrx wrote
Reply to Launch of Aquila, the first neutral-atom quantum processor with up to 256 qubits. by steel_member
“Scientists were able to show that neutral-atom processors such as Aquila are suited to arranging atoms in graph patterns, and solving certain combinatorial optimization problems. Namely, these machines can encode the maximum independent set (MIS) problem, which has broad applications in optimization such as resource allocation, network design and others. The MIS problem can be cast as a variational problem which can be computed using iterative optimization cycles that combine a hybrid of quantum and classical operations.”