Systems, devices, and methods for interconnects for a multi-die package are described. A multi-die package may include a set of conductive pillars and two or more semiconductor dice that each include a bond pad. In some cases, the multi-die package may include a plurality of pillar-wire combinations, and a bond wire may couple a corresponding conductive pillar with a corresponding bond pad. Pillar-wire combinations may each collectively have a matched impedance, or pillar-wire combinations in different groups may have different collective impedances. In other cases, a conductive pillar may be directly coupled with a corresponding bond pad without a bond wire. Different pillar-wire combinations or directly-coupled pillars may carry different signals. In some cases, pillars may be individually impedance-matched to a desired impedance.

A method of forming a package and a package are provided. The method includes placing a main die and a dummy die side by side on a carrier substrate. The method also includes forming a molding material along sidewalls of the main die and the dummy die. The method also includes forming a redistribution layer comprising a plurality of vias and conductive lines over the main die and the dummy die, where the plurality of vias and the conductive lines are electrically connected to connectors of the main die. The method also includes removing the carrier substrate.

A method of forming a package and a package are provided. The method includes placing a main die and a dummy die side by side on a carrier substrate. The method also includes forming a molding material along sidewalls of the main die and the dummy die. The method also includes forming a redistribution layer comprising a plurality of vias and conductive lines over the main die and the dummy die, where the plurality of vias and the conductive lines are electrically connected to connectors of the main die. The method also includes removing the carrier substrate.

A semiconductor package includes a semiconductor die, a tab, a first lead, and a continuous lead frame. The semiconductor die includes a first terminal, a second terminal, and a third terminal. The tab is electronically coupled to the first terminal. The semiconductor die is mounted on the tab. The first lead is electronically coupled to the second terminal. The continuous lead frame is electronically coupled to the third terminal and includes a second lead and a third lead.

A semiconductor package includes a semiconductor die, a tab, a first lead, and a continuous lead frame. The semiconductor die includes a first terminal, a second terminal, and a third terminal. The tab is electronically coupled to the first terminal. The semiconductor die is mounted on the tab. The first lead is electronically coupled to the second terminal. The continuous lead frame is electronically coupled to the third terminal and includes a second lead and a third lead.

A Fan-Out package having a main die and a dummy die side-by-side is provided. A molding material is formed along sidewalls of the main die and the dummy die, and a redistribution layer having a plurality of vias and conductive lines is positioned over the main die and the dummy die, where the plurality of vias and the conductive lines are electrically connected to connectors of the main die.

A Fan-Out package having a main die and a dummy die side-by-side is provided. A molding material is formed along sidewalls of the main die and the dummy die, and a redistribution layer having a plurality of vias and conductive lines is positioned over the main die and the dummy die, where the plurality of vias and the conductive lines are electrically connected to connectors of the main die.

A semiconductor device includes a substrate, a first adhesive layer, a first semiconductor chip, and a second adhesive layer. The first adhesive layer is provided above a first surface of the substrate and includes a plurality of types of resins having different molecular weights and a filler. The first semiconductor chip is provided above the first adhesive layer. The second adhesive layer is provided in at least a part of a first region between the substrate and the first adhesive layer, and the second adhesive layer includes at least one type of resins among the plurality of types of resins having a molecular weight smaller than a molecular weight of other types of resins among the plurality of types of resins, and a filler having a lower concentration than that of the first adhesive layer.

A semiconductor device includes a substrate, a first adhesive layer, a first semiconductor chip, and a second adhesive layer. The first adhesive layer is provided above a first surface of the substrate and includes a plurality of types of resins having different molecular weights and a filler. The first semiconductor chip is provided above the first adhesive layer. The second adhesive layer is provided in at least a part of a first region between the substrate and the first adhesive layer, and the second adhesive layer includes at least one type of resins among the plurality of types of resins having a molecular weight smaller than a molecular weight of other types of resins among the plurality of types of resins, and a filler having a lower concentration than that of the first adhesive layer.

A method of forming a package and a package are provided. The method includes placing a main die and a dummy die side by side on a carrier substrate. The method also includes forming a molding material along sidewalls of the main die and the dummy die. The method also includes forming a redistribution layer comprising a plurality of vias and conductive lines over the main die and the dummy die, where the plurality of vias and the conductive lines are electrically connected to connectors of the main die. The method also includes removing the carrier substrate.