A structure including a wiring substrate, an interposer disposed on and electrically connected to the wiring substrate, a semiconductor die disposed on and electrically connected to the interposer, a first insulating encapsulation disposed on the interposer, a second insulating encapsulation disposed on the wiring substrate, and a lid is provided. The semiconductor die is laterally encapsulated by the first insulating encapsulation. The semiconductor die and the first insulating encapsulation are laterally encapsulated by the second insulating encapsulation. A top surface of the first insulating encapsulation is substantially leveled with a top surface of the second insulating encapsulation and a surface of the semiconductor die. The lid is disposed on the semiconductor die, the first insulating encapsulation and the second insulating encapsulation.

The present application provides a method for fabricating a semiconductor device. The method includes providing a carrier substrate, forming through semiconductor vias in the carrier substrate for thermally conducting heat, forming a bonding layer on the carrier substrate, providing a first die structure including through semiconductor vias, forming an intervening bonding layer on the first die structure, bonding the first die structure onto the bonding layer through the intervening bonding layer, and bonding a second die structure onto the first die structure. The carrier substrate, the through semiconductor vias, and the bonding layer together configure a carrier structure. The second die structure and the first die structure are electrically coupled by the through semiconductor vias.

The present application provides a method for fabricating a semiconductor device. The method includes providing a carrier substrate, forming through semiconductor vias in the carrier substrate for thermally conducting heat, forming a bonding layer on the carrier substrate, providing a first die structure including through semiconductor vias, forming an intervening bonding layer on the first die structure, bonding the first die structure onto the bonding layer through the intervening bonding layer, and bonding a second die structure onto the first die structure. The carrier substrate, the through semiconductor vias, and the bonding layer together configure a carrier structure. The second die structure and the first die structure are electrically coupled by the through semiconductor vias.

A structure including a wiring substrate, an interposer disposed on and electrically connected to the wiring substrate, a semiconductor die disposed on and electrically connected to the interposer, a first insulating encapsulation disposed on the interposer, a second insulating encapsulation disposed on the wiring substrate, and a lid is provided. The semiconductor die is laterally encapsulated by the first insulating encapsulation. The semiconductor die and the first insulating encapsulation are laterally encapsulated by the second insulating encapsulation. A top surface of the first insulating encapsulation is substantially leveled with a top surface of the second insulating encapsulation and a surface of the semiconductor die. The lid is disposed on the semiconductor die, the first insulating encapsulation and the second insulating encapsulation.

A method for forming a chip package structure is provided. The method includes disposing a chip over a substrate. The method includes forming a heat-spreading wall structure over the substrate. The heat-spreading wall structure is adjacent to the chip, and there is a first gap between the chip and the heat-spreading wall structure. The method includes forming a first heat conductive layer in the first gap. The method includes forming a second heat conductive layer over the chip. The method includes disposing a heat-spreading lid over the substrate to cover the heat-spreading wall structure, the first heat conductive layer, the second heat conductive layer, and the chip. The heat-spreading lid is bonded to the substrate, the heat-spreading wall structure, the first heat conductive layer, and the second heat conductive layer.

A method for forming a chip package structure is provided. The method includes disposing a chip over a substrate. The method includes forming a heat-spreading wall structure over the substrate. The heat-spreading wall structure is adjacent to the chip, and there is a first gap between the chip and the heat-spreading wall structure. The method includes forming a first heat conductive layer in the first gap. The method includes forming a second heat conductive layer over the chip. The method includes disposing a heat-spreading lid over the substrate to cover the heat-spreading wall structure, the first heat conductive layer, the second heat conductive layer, and the chip. The heat-spreading lid is bonded to the substrate, the heat-spreading wall structure, the first heat conductive layer, and the second heat conductive layer.

The present application provides a method for fabricating a semiconductor device. The method includes providing a carrier substrate, forming through semiconductor vias in the carrier substrate for thermally conducting heat, forming a bonding layer on the carrier substrate, providing a first die structure including through semiconductor vias, forming an intervening bonding layer on the first die structure, bonding the first die structure onto the bonding layer through the intervening bonding layer, and bonding a second die structure onto the first die structure. The carrier substrate, the through semiconductor vias, and the bonding layer together configure a carrier structure. The second die structure and the first die structure are electrically coupled by the through semiconductor vias.

The present application provides a method for fabricating a semiconductor device. The method includes providing a carrier substrate, forming through semiconductor vias in the carrier substrate for thermally conducting heat, forming a bonding layer on the carrier substrate, providing a first die structure including through semiconductor vias, forming an intervening bonding layer on the first die structure, bonding the first die structure onto the bonding layer through the intervening bonding layer, and bonding a second die structure onto the first die structure. The carrier substrate, the through semiconductor vias, and the bonding layer together configure a carrier structure. The second die structure and the first die structure are electrically coupled by the through semiconductor vias.

A structure including a wiring substrate, an interposer disposed on and electrically connected to the wiring substrate, a semiconductor die disposed on and electrically connected to the interposer, a first insulating encapsulation disposed on the interposer, a second insulating encapsulation disposed on the wiring substrate, and a lid is provided. The semiconductor die is laterally encapsulated by the first insulating encapsulation. The semiconductor die and the first insulating encapsulation are laterally encapsulated by the second insulating encapsulation. A top surface of the first insulating encapsulation is substantially leveled with a top surface of the second insulating encapsulation and a surface of the semiconductor die. The lid is disposed on the semiconductor die, the first insulating encapsulation and the second insulating encapsulation.

A method for forming a chip package structure is provided. The method includes disposing a chip over a substrate. The method includes forming a heat-spreading wall structure over the substrate. The heat-spreading wall structure is adjacent to the chip, and there is a first gap between the chip and the heat-spreading wall structure. The method includes forming a first heat conductive layer in the first gap. The method includes forming a second heat conductive layer over the chip. The method includes disposing a heat-spreading lid over the substrate to cover the heat-spreading wall structure, the first heat conductive layer, the second heat conductive layer, and the chip. The heat-spreading lid is bonded to the substrate, the heat-spreading wall structure, the first heat conductive layer, and the second heat conductive layer.