A stacked quantum computing device including a first chip that includes a first dielectric substrate and a superconducting qubit on the first dielectric substrate, and a second chip that is bonded to the first chip and includes a second dielectric substrate, a qubit readout element on the second dielectric substrate, a control wire on the second dielectric substrate, a dielectric layer covering the control wire, and a shielding layer covering the dielectric layer.

A stacked quantum computing device including a first chip that includes a first dielectric substrate and a superconducting qubit on the first dielectric substrate, and a second chip that is bonded to the first chip and includes a second dielectric substrate, a qubit readout element on the second dielectric substrate, a control wire on the second dielectric substrate, a dielectric layer covering the control wire, and a shielding layer covering the dielectric layer.

A semiconductor chip including a semiconductor substrate having a first surface and a second surface and having an active layer in a region adjacent to the first surface, a first through electrode penetrating at least a portion of the semiconductor substrate and connected to the active layer, a second through electrode located at a greater radial location from the center of the semiconductor substrate than the first through electrode, penetrating at least a portion of the semiconductor substrate, and connected to the active layer. The semiconductor chip also including a first chip connection pad having a first height and a first width, located on the second surface of the semiconductor substrate, and connected to the first through electrode, and a second chip connection pad having a second height greater than the first height and a second width greater than the first width, located on the second surface of the semiconductor substrate, and connected to the second through electrode.

A semiconductor chip including a semiconductor substrate having a first surface and a second surface and having an active layer in a region adjacent to the first surface, a first through electrode penetrating at least a portion of the semiconductor substrate and connected to the active layer, a second through electrode located at a greater radial location from the center of the semiconductor substrate than the first through electrode, penetrating at least a portion of the semiconductor substrate, and connected to the active layer. The semiconductor chip also including a first chip connection pad having a first height and a first width, located on the second surface of the semiconductor substrate, and connected to the first through electrode, and a second chip connection pad having a second height greater than the first height and a second width greater than the first width, located on the second surface of the semiconductor substrate, and connected to the second through electrode.

A device includes a first chip having a first circuit element, a first interconnect pad in electrical contact with the first circuit element, and a barrier layer on the first interconnect pad, a superconducting bump bond on the barrier layer, and a second chip joined to the first chip by the superconducting bump bond, the second chip having a first quantum circuit element, in which the superconducting bump bond provides an electrical connection between the first circuit element and the first quantum circuit element.

A device includes a first chip having a first circuit element, a first interconnect pad in electrical contact with the first circuit element, and a barrier layer on the first interconnect pad, a superconducting bump bond on the barrier layer, and a second chip joined to the first chip by the superconducting bump bond, the second chip having a first quantum circuit element, in which the superconducting bump bond provides an electrical connection between the first circuit element and the first quantum circuit element.

A device includes a first chip having a first circuit element, a first interconnect pad in electrical contact with the first circuit element, and a barrier layer on the first interconnect pad, a superconducting bump bond on the barrier layer, and a second chip joined to the first chip by the superconducting bump bond, the second chip having a first quantum circuit element, in which the superconducting bump bond provides an electrical connection between the first circuit element and the first quantum circuit element.

A device includes a first chip having a first circuit element, a first interconnect pad in electrical contact with the first circuit element, and a barrier layer on the first interconnect pad, a superconducting bump bond on the barrier layer, and a second chip joined to the first chip by the superconducting bump bond, the second chip having a first quantum circuit element, in which the superconducting bump bond provides an electrical connection between the first circuit element and the first quantum circuit element.

In some embodiments, the present disclosure relates to an integrated chip. The integrated chip includes a first plurality of interconnect layers within a first inter-level dielectric (ILD) structure disposed along a front-side of a first substrate. A conductive pad is arranged along a back-side of the first substrate and a first through-substrate-via (TSV) extends between an interconnect wire of the first plurality of interconnect layers and the conductive pad. A second plurality of interconnect layers are within a second ILD structure disposed along a front-side of a second substrate that is bonded to the first substrate. A second through substrate via (TSV) extends through the second substrate. The second TSV has a greater width than the first TSV.

In some embodiments, the present disclosure relates to an integrated chip. The integrated chip includes a first plurality of interconnect layers within a first inter-level dielectric (ILD) structure disposed along a front-side of a first substrate. A conductive pad is arranged along a back-side of the first substrate and a first through-substrate-via (TSV) extends between an interconnect wire of the first plurality of interconnect layers and the conductive pad. A second plurality of interconnect layers are within a second ILD structure disposed along a front-side of a second substrate that is bonded to the first substrate. A second through substrate via (TSV) extends through the second substrate. The second TSV has a greater width than the first TSV.