Methods for forming a semiconductor device structure are provided. The method includes providing a first semiconductor wafer and a second semiconductor wafer. A first transistor is formed in a front-side of the first semiconductor wafer, and no devices are formed in the second semiconductor wafer. The method further includes bonding the front-side of the first semiconductor wafer to a backside of the second semiconductor wafer and thinning a front-side of the second semiconductor wafer. After thinning the second semiconductor wafer, a second transistor is formed in the front-side of the second semiconductor wafer. At least one first through substrate via (TSV) is formed in the second semiconductor wafer, and the first TSV directly contacts a conductive feature of the first semiconductor wafer.

Methods for forming a semiconductor device structure are provided. The method includes providing a first semiconductor wafer and a second semiconductor wafer. A first transistor is formed in a front-side of the first semiconductor wafer, and no devices are formed in the second semiconductor wafer. The method further includes bonding the front-side of the first semiconductor wafer to a backside of the second semiconductor wafer and thinning a front-side of the second semiconductor wafer. After thinning the second semiconductor wafer, a second transistor is formed in the front-side of the second semiconductor wafer. At least one first through substrate via (TSV) is formed in the second semiconductor wafer, and the first TSV directly contacts a conductive feature of the first semiconductor wafer.

A package structure includes a plurality of first dies, and a plurality of second dies. The plurality of first dies is on first regions of a semiconductor substrate. The plurality of second dies are electrically bonded to the plurality of first dies. The plurality of second dies covers second regions of the semiconductor substrate between the first regions of the semiconductor substrate. The first portion of top surfaces of the plurality of first dies are covered by the plurality of second dies, and the second portions of the top surfaces of the plurality of first dies are exposed by the plurality of second dies.

A semiconductor package provided herein includes a first semiconductor die, a second semiconductor die and an insulating encapsulation. The second semiconductor die is stacked on the first semiconductor die. The insulating encapsulation laterally surrounds the first semiconductor die and the second semiconductor die in a one-piece form, and has a first sidewall and a second sidewall respectively adjacent to the first semiconductor die and the second semiconductor die. The first sidewall keeps a lateral distance from the second sidewall.

A semiconductor package provided herein includes a first semiconductor die, a second semiconductor die and an insulating encapsulation. The second semiconductor die is stacked on the first semiconductor die. The insulating encapsulation laterally surrounds the first semiconductor die and the second semiconductor die in a one-piece form, and has a first sidewall and a second sidewall respectively adjacent to the first semiconductor die and the second semiconductor die. The first sidewall keeps a lateral distance from the second sidewall.

A structure includes first and second substrates, first and second stress buffer layers, and a post-passivation interconnect (PPI) structure. The first and second substrates include first and second semiconductor substrates and first and second interconnect structures on the first and second semiconductor substrates, respectively. The second interconnect structure is on a first side of the second semiconductor substrate. The first substrate is bonded to the second substrate at a bonding interface. A via extends at least through the second semiconductor substrate into the second interconnect structure. The first stress buffer layer is on a second side of the second semiconductor substrate opposite from the first side of the second semiconductor substrate. The PPI structure is on the first stress buffer layer and is electrically coupled to the via. The second stress buffer layer is on the PPI structure and the first stress buffer layer.

A structure includes first and second substrates, first and second stress buffer layers, and a post-passivation interconnect (PPI) structure. The first and second substrates include first and second semiconductor substrates and first and second interconnect structures on the first and second semiconductor substrates, respectively. The second interconnect structure is on a first side of the second semiconductor substrate. The first substrate is bonded to the second substrate at a bonding interface. A via extends at least through the second semiconductor substrate into the second interconnect structure. The first stress buffer layer is on a second side of the second semiconductor substrate opposite from the first side of the second semiconductor substrate. The PPI structure is on the first stress buffer layer and is electrically coupled to the via. The second stress buffer layer is on the PPI structure and the first stress buffer layer.

Provided is a die stack structure including a first die and a second die. The first die and the second die are bonded together through a hybrid bonding structure. A bonding insulating layer of the hybrid bonding structure extends to contact with one interconnect structure of the first die or the second die.

Provided is a die stack structure including a first die and a second die. The first die and the second die are bonded together through a hybrid bonding structure. A bonding insulating layer of the hybrid bonding structure extends to contact with one interconnect structure of the first die or the second die.

A method of making a secure integrated-circuit system comprises providing a first integrated circuit in a first die having a first die size and providing a second integrated circuit in a second die. The second die size is smaller than the first die size. The second die is transfer printed onto the first die and connected to the first integrated circuit, forming a compound die. The compound die is packaged. The second integrated circuit is operable to monitor the operation of the first integrated circuit and provides a monitor signal responsive to the operation of the first integrated circuit. The first integrated circuit can be constructed in an insecure facility and the second integrated circuit can be constructed in a secure facility.