A semiconductor device and a method of forming the same are provided. The semiconductor device includes a first logic die including a first through via, an image sensor die hybrid bonded to the first logic die, and a second logic die bonded to the first logic die. A front side of the first logic die facing a front side of the image sensor die. A front side of the second logic die facing a backside of the first logic die. The second logic die comprising a first conductive pad electrically coupled to the first through via.

A memory die includes an alternating stack of insulating layers and electrically conductive layers, memory stack structures extending through the alternating stack, and each of the memory stack structures includes a respective vertical semiconductor channel and a respective memory film, drain regions located at a first end of a respective one of the vertical semiconductor channels, and a source layer having a first surface and a second surface. The first surface is located at a second end of each of the vertical semiconductor channels, and a semiconductor wafer is not located over the second surface of the source layer.

A memory die includes an alternating stack of insulating layers and electrically conductive layers, memory stack structures extending through the alternating stack, and each of the memory stack structures includes a respective vertical semiconductor channel and a respective memory film, drain regions located at a first end of a respective one of the vertical semiconductor channels, and a source layer having a first surface and a second surface. The first surface is located at a second end of each of the vertical semiconductor channels, and a semiconductor wafer is not located over the second surface of the source layer.

Semiconductor packages with pass-through clock traces and associated devices, systems, and methods are disclosed herein. In one embodiment, a semiconductor device includes a package substrate including a first surface having a plurality of substrate contacts, a first semiconductor die having a lower surface attached to the first surface of the package substrate, and a second semiconductor die stacked on top of the first semiconductor die. The first semiconductor die includes an upper surface including a first conductive contact, and the second semiconductor die includes a second conductive contact. A first electrical connector electrically couples a first one of the plurality of substrate contacts to the first and second conductive contacts, and a second electrical connector electrically couples a second one of the plurality of substrate contacts to the first and second conductive contacts.

Semiconductor packages with pass-through clock traces and associated devices, systems, and methods are disclosed herein. In one embodiment, a semiconductor device includes a package substrate including a first surface having a plurality of substrate contacts, a first semiconductor die having a lower surface attached to the first surface of the package substrate, and a second semiconductor die stacked on top of the first semiconductor die. The first semiconductor die includes an upper surface including a first conductive contact, and the second semiconductor die includes a second conductive contact. A first electrical connector electrically couples a first one of the plurality of substrate contacts to the first and second conductive contacts, and a second electrical connector electrically couples a second one of the plurality of substrate contacts to the first and second conductive contacts.

A semiconductor apparatus includes a first semiconductor layer, a second semiconductor layer overlapping the first semiconductor layer, and a wiring structure arranged between them. The second semiconductor layer is provided with p-type MIS transistor. A crystal structure of the first semiconductor layer has a first crystal orientation and a second crystal orientation in direction along a principal surface of the first semiconductor layer. A Young's modulus of the first semiconductor layer in a direction along the first crystal orientation is higher than that in a direction along the second crystal orientation. An angle formed by the first crystal orientation and a direction in which a source and a drain of the p-type MIS transistor are arranged is more than 30 degrees and less than 60 degrees, and an angle formed by the second crystal orientation and that direction is 0 degrees or more and 30 degrees or less.

A semiconductor apparatus includes a first semiconductor layer, a second semiconductor layer overlapping the first semiconductor layer, and a wiring structure arranged between them. The second semiconductor layer is provided with p-type MIS transistor. A crystal structure of the first semiconductor layer has a first crystal orientation and a second crystal orientation in direction along a principal surface of the first semiconductor layer. A Young's modulus of the first semiconductor layer in a direction along the first crystal orientation is higher than that in a direction along the second crystal orientation. An angle formed by the first crystal orientation and a direction in which a source and a drain of the p-type MIS transistor are arranged is more than 30 degrees and less than 60 degrees, and an angle formed by the second crystal orientation and that direction is 0 degrees or more and 30 degrees or less.

A semiconductor structure and a method for forming a semiconductor structure are provided. The semiconductor structure includes a substrate having an isolation ring extending in the direction substantially parallel to the surface of the substrate, an active region over the substrate and laterally enclosed by the isolation ring, a seal ring structure over the substrate, the seal ring structure laterally enclosing the active region and including at least a wiring layer and at least a via layer, and an encapsulant material laterally enclosing the seal ring structure.

A semiconductor structure and a method for forming a semiconductor structure are provided. The semiconductor structure includes a substrate having an isolation ring extending in the direction substantially parallel to the surface of the substrate, an active region over the substrate and laterally enclosed by the isolation ring, a seal ring structure over the substrate, the seal ring structure laterally enclosing the active region and including at least a wiring layer and at least a via layer, and an encapsulant material laterally enclosing the seal ring structure.

Semiconductor packages with pass-through clock traces and associated devices, systems, and methods are disclosed herein. In one embodiment, a semiconductor device includes a package substrate including a first surface having a plurality of substrate contacts, a first semiconductor die having a lower surface attached to the first surface of the package substrate, and a second semiconductor die stacked on top of the first semiconductor die. The first semiconductor die includes an upper surface including a first conductive contact, and the second semiconductor die includes a second conductive contact. A first electrical connector electrically couples a first one of the plurality of substrate contacts to the first and second conductive contacts, and a second electrical connector electrically couples a second one of the plurality of substrate contacts to the first and second conductive contacts.