A semiconductor package includes a substrate, a plurality of semiconductor devices stacked on the substrate, an under-fill fillet on side surfaces of the plurality of semiconductor devices, and a molding resin surrounding the plurality of semiconductor devices. An uppermost end of the under-fill fillet includes a planar surface coplanar with an upper surface of a periphery of an uppermost semiconductor device among the plurality of semiconductor devices, and the molding resin completely covers the planar surface.

A semiconductor device includes a rigid flex circuit that has a first rigid region and a second rigid region that are electrically connected by a flexible portion. A first die is mounted to a first side of the first rigid region. A second die is mounted to a second side of the second rigid region. The first and second sides are on opposite sides of the rigid flex circuit. The flexible portion is bent to hold the first and second rigid regions in generally vertical alignment with each other.

A semiconductor package includes a buffer, a chip stack mounted on the buffer, an adhesive layer disposed between the buffer and the chip stack, and a molding material surrounding the chip stack. The buffer includes a plurality of trenches disposed adjacent to a plurality of edges of the buffer. Each of the trenches is shorter than a corresponding adjacent edge of a chip area of the buffer.

A die bonding structure includes a first die and a second die. The first die includes a first sealing ring and a plurality of first metal contacts, wherein sidewalls of the first metal contacts align a sidewall of the first sealing ring. The second die includes a second sealing ring and a plurality of second metal contacts, wherein sidewalls of the second metal contacts align a sidewall of the second sealing ring. The first metal contacts are directly bonded to the second metal contacts, respectively, and the first sealing ring is directly bonded to the second sealing ring.

A bonded semiconductor structure includes a first device wafer and a second device wafer. The first device includes a first dielectric layer, a first bonding pad disposed in the first dielectric layer, and a first bonding layer on the first dielectric layer. The second device wafer includes a second dielectric layer, a second bonding layer on the second dielectric layer, and a second bonding pad disposed in the second dielectric layer and extending through the second bonding layer and at least a portion of the first bonding layer. A conductive bonding interface between the first bonding pad and the second bonding pad and a dielectric bonding interface between the first bonding layer and the second bonding layer include a step-height.

Semiconductor devices and methods of manufacture thereof are disclosed. In some embodiments, a method of manufacturing a device includes coupling a first semiconductor device to a second semiconductor device by spacers. The first semiconductor device has first contact pads disposed thereon, and the second semiconductor device has second contact pads disposed thereon. The method includes forming an immersion interconnection between the first contact pads of the first semiconductor device and the second contact pads of the second semiconductor device.

The present disclosure provides a semiconductor chip having a non-through plug contour (buried alignment mark) for stacking aligmnent and a multi-chip semiconductor device employing thereof, and to a method for manufacturing same. In some embodiments, the semiconductor chip includes a semiconductor substrate having a first side and a second side, a conductive through plug extending through the semiconductor substrate from the first side to the second side, and a non-through plug extending from the first side to an internal plane of the semiconductor substrate without extending through the second side.

Embodiments disclosed herein include semiconductor devices. In an embodiment, a die comprises a substrate, where the substrate comprises a semiconductor material. In an embodiment a fiducial is on the substrate. In an embodiment, the fiducial is a cantilever beam that extends out past an edge of the substrate.

A semiconductor device includes a first chip, a spacer, and a second chip. The first chip and the spacer are disposed on a substrate. The second chip has a first half end portion disposed on a first half end portion of the first chip, and a second half end portion disposed on the spacer. The height of the spacer is substantially equal to the height of the first chip.

Microelectronic assemblies, and related devices and methods, are disclosed herein. For example, in some embodiments, a microelectronic assembly may include a package substrate having a first surface and an opposing second surface, and a die secured to the package substrate, wherein the die has a first surface and an opposing second surface, the die has first conductive contacts at the first surface and second conductive contacts at the second surface, and the first conductive contacts are coupled to conductive pathways in the package substrate by first non-solder interconnects.