Provided is a semiconductor package including a first semiconductor chip provided on a package substrate, an interconnection substrate provided on the package substrate, the interconnection substrate having a side surface facing the first semiconductor chip, and a second semiconductor chip provided on the interconnection substrate and extended to a region on a top surface of the first semiconductor chip, wherein the interconnection substrate includes a lower interconnection layer facing the package substrate, an upper interconnection layer facing the first semiconductor chip, and a passive device between the lower interconnection layer and the upper interconnection layer, and wherein the passive device is electrically connected to the second semiconductor chip.

A package structure with a wettable side surface and a manufacturing method thereof, and a vertical package module are disclosed. The package structure includes a first dielectric layer, a chip and a circuit layer. The first dielectric layer is provided with a package cavity, side wall bonding pads are arranged on a side wall of the first dielectric layer and located outside the package cavity. The chip is packaged inside the package cavity, pins of the chip face first surface of the first dielectric layer. The circuit layer is arranged on the first surface of the first dielectric layer, and the circuit layer is directly or indirectly connected to the side wall bonding pads and the pins of the chip.

An electronic device, includes: (i) a processing chiplet configured to process data and having a first side and a second side, (ii) one or more first static random-access memory (SRAM) chiplets disposed on the first side of the processing chiplet and configured to store a first portion of the data, (iii) one or more second SRAM chiplets disposed on the second side of the processing chiplet and configured to store a second portion of the data, (iv) one or more first electrical terminals disposed on the first side of the processing chiplet and configured to electrically connect between the first side of the processing chiplet and the first SRAM chiplets, and (v) one or more second electrical terminals disposed on the second side of the processing chiplet and configured to electrically connect between the second side of the processing chiplet and the second SRAM chiplets.

A semiconductor-chip stack package includes a plurality of semiconductor chips disposed in a stack arrangement and at least one connecting substrate which connects the semiconductor chips. The semiconductor chips include a chip terminal face on a chip edge extending at least partially as a side terminal face in a side surface of the semiconductor chip. The side surfaces of the semiconductor chips provided with the side terminal face are arranged in a shared side surface plane S of the semiconductor-chip stack arrangement. The connecting substrate is arranged with a contact surface parallel to the side surface plane S of the semiconductor chips. Substrate terminal faces are formed on the contact surface for connecting a connection conductor structure formed in the connecting substrate and which are connected to the side terminal faces via a connecting material in a connection plane V1 parallel to the contact surface.

A semiconductor package comprising a package substrate that has a recessed portion on a top surface thereof, a lower semiconductor chip in the recessed portion of the package substrate, an upper semiconductor chip on the lower semiconductor chip and the package substrate and having a width greater than that of the lower semiconductor chip, a plurality of first bumps directly between the package substrate and the upper semiconductor chip, and a plurality of second bumps directly between the lower semiconductor chip and the upper semiconductor chip. A pitch of the second bumps is less than that of the first bumps.

A semiconductor-chip stack package includes a plurality of semiconductor chips disposed in a stack arrangement and at least one connecting substrate which connects the semiconductor chips. The semiconductor chips include a chip terminal face on a chip edge extending at least partially as a side terminal face in a side surface of the semiconductor chip. The side surfaces of the semiconductor chips provided with the side terminal face are arranged in a shared side surface plane S of the semiconductor-chip stack arrangement. The connecting substrate is arranged with a contact surface parallel to the side surface plane S of the semiconductor chips. Substrate terminal faces are formed on the contact surface for connecting a connection conductor structure formed in the connecting substrate and which are connected to the side terminal faces via a connecting material in a connection plane V1 parallel to the contact surface.

Provided is a high density multi-component package and a method of manufacturing a high density multi-component package. The high density multi-component package comprises at least two electronic components wherein each electronic component of the electronic components comprise a first external termination and a second external termination. At least one interposer is between the adjacent electronic components and attached to the interposer by an interconnect wherein the interposer is selected from an active interposer and a mechanical interposer. Adjacent electronic components are connected serially.

A semiconductor structure is provided. The semiconductor structure includes a semiconductor substrate and a first conductive bump. The semiconductor substrate has an integrated circuit and an interconnection metal layer, and a tilt surface is formed on an edge of the semiconductor substrate. The first conductive bump is electrically connected to the integrated circuit via the interconnection metal layer, and is disposed on the tilt surface, wherein a profile of the first conductive bump extends beyond a side surface of the edge of the semiconductor layer.

A semiconductor package comprising a package substrate that has a recessed portion on a top surface thereof, a lower semiconductor chip in the recessed portion of the package substrate, an upper semiconductor chip on the lower semiconductor chip and the package substrate and having a width greater than that of the lower semiconductor chip, a plurality of first bumps directly between the package substrate and the upper semiconductor chip, and a plurality of second bumps directly between the lower semiconductor chip and the upper semiconductor chip. A pitch of the second bumps is less than that of the first bumps.

A semiconductor structure is provided. The semiconductor structure includes a semiconductor substrate and a first conductive bump. The semiconductor substrate has an integrated circuit and an interconnection metal layer, and a tilt surface is formed on an edge of the semiconductor substrate. The first conductive bump is electrically connected to the integrated circuit via the interconnection metal layer, and is disposed on the tilt surface, wherein a profile of the first conductive bump extends beyond a side surface of the edge of the semiconductor layer.