A solder material for use in electronic assembly, the solder material comprising: solder layers; and a core layer comprising a core material, the core layer being sandwiched between the solder layers, wherein: the thermal conductivity of the core material is greater than the thermal conductivity of the solder.

A solder material for use in electronic assembly, the solder material comprising: solder layers; and a core layer comprising a core material, the core layer being sandwiched between the solder layers, wherein: the thermal conductivity of the core material is greater than the thermal conductivity of the solder.

Methods for bonding substrates used, for example, in substrate-level packaging, are provided herein. In some embodiments, a method for bonding substrates includes: performing electrochemical deposition (ECD) to deposit at least one material on each of a first substrate and a second substrate, performing chemical mechanical polishing (CMP) on the first substrate and the second substrate to form a bonding interface on each of the first substrate and the second substrate, positioning the first substrate on the second substrate so that the bonding interface on the first substrate aligns with the bonding interface on the second substrate, and bonding the first substrate to the second substrate using the bonding interface on the first substrate and the bonding interface on the second substrate.

Methods for bonding substrates used, for example, in substrate-level packaging, are provided herein. In some embodiments, a method for bonding substrates includes: performing electrochemical deposition (ECD) to deposit at least one material on each of a first substrate and a second substrate, performing chemical mechanical polishing (CMP) on the first substrate and the second substrate to form a bonding interface on each of the first substrate and the second substrate, positioning the first substrate on the second substrate so that the bonding interface on the first substrate aligns with the bonding interface on the second substrate, and bonding the first substrate to the second substrate using the bonding interface on the first substrate and the bonding interface on the second substrate.

Embodiments of the present disclosure describe novel qubit device packages, as well as related computing devices and methods. In one embodiment, an exemplary qubit device package includes a qubit die and a package substrate, where the qubit die is coupled to the package substrate using one or more preforms. In particular, a single preform may advantageously be used to replace a plurality of individual contacts, e.g. a plurality of individual solder bumps, electrically coupling the qubit die to the package substrate. Such packages may reduce design complexity and undesired coupling, and enable inclusion of larger numbers of qubits in a single qubit die.

Embodiments of the present disclosure describe novel qubit device packages, as well as related computing devices and methods. In one embodiment, an exemplary qubit device package includes a qubit die and a package substrate, where the qubit die is coupled to the package substrate using one or more preforms. In particular, a single preform may advantageously be used to replace a plurality of individual contacts, e.g. a plurality of individual solder bumps, electrically coupling the qubit die to the package substrate. Such packages may reduce design complexity and undesired coupling, and enable inclusion of larger numbers of qubits in a single qubit die.

Embodiments of the present disclosure describe novel qubit device packages, as well as related computing devices and methods. In one embodiment, an exemplary qubit device package includes a qubit die and a package substrate, where the qubit die is coupled to the package substrate using one or more preforms. In particular, a single preform may advantageously be used to replace a plurality of individual contacts, e.g. a plurality of individual solder bumps, electrically coupling the qubit die to the package substrate. Such packages may reduce design complexity and undesired coupling, and enable inclusion of larger numbers of qubits in a single qubit die.

Embodiments of the present disclosure describe novel qubit device packages, as well as related computing devices and methods. In one embodiment, an exemplary qubit device package includes a qubit die and a package substrate, where the qubit die is coupled to the package substrate using one or more preforms. In particular, a single preform may advantageously be used to replace a plurality of individual contacts, e.g. a plurality of individual solder bumps, electrically coupling the qubit die to the package substrate. Such packages may reduce design complexity and undesired coupling, and enable inclusion of larger numbers of qubits in a single qubit die.