International Business Machines Corporation
HEAVY-HEX CONNECTION TOPOLOGY TO RECTILINEAR PHYSICAL LAYOUT

Abstract:

Systems and techniques that facilitate mapping a heavy-hex qubit connection topology to a rectilinear physical qubit layout are provided. In various embodiments, a device can comprise a qubit lattice on a substrate. In various aspects, the qubit lattice can comprise one or more first qubit tiles. In various cases, the one or more first qubit tiles can have a first shape. In various instances, the qubit lattice can further comprise one or more second qubit tiles. In various cases, the one or more second qubit tiles can have a second shape. In various aspects, the one or more first qubit tiles can be tessellated with the one or more second qubit tiles. In various embodiments, the qubit lattice can exhibit a rectilinear physical layout. In various embodiments, the one or more first qubit tiles tessellated with the one or more second qubit tiles can form a heavy-hex qubit connection topology in the rectilinear physical layout of the qubit lattice. In various embodiments, one of the one or more first qubit tiles can have twelve qubits and twelve interqubit connection buses. In various cases, one of the one or more second qubit tiles can have twelve qubits and twelve interqubit connection buses. In various embodiments, adjacent qubit tiles in the heavy-hex qubit connection topology can share three qubits. In various embodiments, a qubit tile in the heavy-hex qubit connection topology can be adjacent to four qubit tiles having a different shape than the qubit tile. In various cases, the qubit tile can be adjacent to two qubit tiles having a same shape as the qubit tile.