A semiconductor structure includes a first semiconductor package, a second semiconductor package, a heat spreader and an underfill layer. The first semiconductor package includes a plurality of lower semiconductor chips and a first dielectric encapsulation layer disposed around the plurality of the lower semiconductor chips. The second semiconductor package is disposed over and corresponds to one of the plurality of lower semiconductor chips, wherein the second semiconductor package includes a plurality of upper semiconductor chips and a second dielectric encapsulation layer disposed around the plurality of upper semiconductor chips. The heat spreader is disposed over and corresponds to another of the plurality of lower semiconductor chips. The underfill layer is disposed over the first semiconductor package and around the second semiconductor package and the heat spreader.

A semiconductor structure includes a first semiconductor package, a second semiconductor package, a heat spreader and an underfill layer. The first semiconductor package includes a plurality of lower semiconductor chips and a first dielectric encapsulation layer disposed around the plurality of the lower semiconductor chips. The second semiconductor package is disposed over and corresponds to one of the plurality of lower semiconductor chips, wherein the second semiconductor package includes a plurality of upper semiconductor chips and a second dielectric encapsulation layer disposed around the plurality of upper semiconductor chips. The heat spreader is disposed over and corresponds to another of the plurality of lower semiconductor chips. The underfill layer is disposed over the first semiconductor package and around the second semiconductor package and the heat spreader.

Semiconductor die stacks, and associated methods and systems are disclosed. The semiconductor die stack may include a first die with a memory array and a second die with CMOS circuitry configured to access the memory array. The first die may not have circuitry for accessing the memory array. Further, the first and second dies may be bonded to function as a single memory device, and front surfaces of the first and second dies are conjoined to form electrical connections therebetween. The second die may include a portion uncovered by the first die, where bond pads of the semiconductor die stack are located. The first die may provide a space for bond wires to connect to the bond pads without interfering with another die attached above the semiconductor die stack. Multiple semiconductor die stacks may be stacked on top of and in line with each other.

Semiconductor die stacks, and associated methods and systems are disclosed. The semiconductor die stack may include a first die with a memory array and a second die with CMOS circuitry configured to access the memory array. The first die may not have circuitry for accessing the memory array. Further, the first and second dies may be bonded to function as a single memory device, and front surfaces of the first and second dies are conjoined to form electrical connections therebetween. The second die may include a portion uncovered by the first die, where bond pads of the semiconductor die stack are located. The first die may provide a space for bond wires to connect to the bond pads without interfering with another die attached above the semiconductor die stack. Multiple semiconductor die stacks may be stacked on top of and in line with each other.

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.

Semiconductor die stacks, and associated methods and systems are disclosed. The semiconductor die stack may include a first die with a memory array and a second die with CMOS circuitry configured to access the memory array. The first die may not have circuitry for accessing the memory array. Further, the first and second dies may be bonded to function as a single memory device, and front surfaces of the first and second dies are conjoined to form electrical connections therebetween. The second die may include a portion uncovered by the first die, where bond pads of the semiconductor die stack are located. The first die may provide a space for bond wires to connect to the bond pads without interfering with another die attached above the semiconductor die stack. Multiple semiconductor die stacks may be stacked on top of and in line with each other.

Semiconductor die stacks, and associated methods and systems are disclosed. The semiconductor die stack may include a first die with a memory array and a second die with CMOS circuitry configured to access the memory array. The first die may not have circuitry for accessing the memory array. Further, the first and second dies may be bonded to function as a single memory device, and front surfaces of the first and second dies are conjoined to form electrical connections therebetween. The second die may include a portion uncovered by the first die, where bond pads of the semiconductor die stack are located. The first die may provide a space for bond wires to connect to the bond pads without interfering with another die attached above the semiconductor die stack. Multiple semiconductor die stacks may be stacked on top of and in line with each other.

A semiconductor structure includes a first die, a first encapsulant, a second die and a second encapsulant. The first die includes a first dielectric layer and first conductive pads in the first dielectric layer. The first encapsulant laterally encapsulates and is in direct contact with the first dielectric layer of the first die. The second die includes a second dielectric layer and second conductive pads in the second dielectric layer. The second encapsulant laterally encapsulates and is in direct contact with the second dielectric layer of the second die. The first conductive pads of the first die are in physical contact with a first portion of the second conductive pads of the second die.

A semiconductor structure includes a first die, a first encapsulant, a second die and a second encapsulant. The first die includes a first dielectric layer and first conductive pads in the first dielectric layer. The first encapsulant laterally encapsulates and is in direct contact with the first dielectric layer of the first die. The second die includes a second dielectric layer and second conductive pads in the second dielectric layer. The second encapsulant laterally encapsulates and is in direct contact with the second dielectric layer of the second die. The first conductive pads of the first die are in physical contact with a first portion of the second conductive pads of the second die.