A power module includes an upper substrate and a lower substrate, an upper chip, a lower chip, and a circuit board disposed across a space between the upper substrate and the lower chip and a space between the lower substrate and the upper chip so that the upper substrate and the lower substrate are vertically spaced from each other. The circuit board electrically connects the upper chip to the lower substrate while electrically connecting the lower chip to the upper substrate.

Devices and methods for forming a chip package structure including a package substrate, a first adhesive layer attached to a top surface of the package substrate, and a beveled stiffener structure attached to the package substrate. The beveled stiffener structure may include a bottom portion including a tapered top surface, in which a bottom surface of the bottom portion is in contact with the first adhesive layer, a second adhesive layer attached to the tapered top surface, and a top portion including a tapered bottom surface, in which the tapered bottom surface is in contact with the second adhesive layer. The tapered top surface and the tapered bottom surface have a taper angle between 5 degrees and 60 degrees with respect to a top surface of the package substrate.

A package structure includes a circuit substrate, a semiconductor package, a lid structure, a passive device and a barrier structure. The semiconductor package is disposed on and electrically connected to the circuit substrate. The lid structure is disposed on the circuit substrate covering the semiconductor package. The lid structure is attached to the circuit substrate through an adhesive material. The passive device is disposed on the circuit substrate in between the semiconductor package and the lid structure. The barrier structure is separating the passive device from the lid structure and the adhesive material, and the barrier structure is in contact with the adhesive material.

An electronic system and associated methods are disclosed. In one example, the electronic system includes a processor package including at least one processor integrated circuit (IC); an interposer including electrically conductive interposer interconnect; a first liquid metal well array including multiple liquid metal wells arranged between the processor package and the interposer, wherein the first liquid metal well array is attached to a surface of the processor package and attached to a first surface of the interposer and the interposer interconnect; a printed circuit board (PCB) attached to a second surface of the interposer and the interposer interconnect; a second liquid metal well array including a first surface attached to the first surface of the interposer and the interposer interconnect; and a first companion component package attached to a second surface of the second liquid metal well array.

An IC die includes a temperature control element suitable for three-dimensional IC package with enhanced thermal control and management. The temperature control element may be formed as an integral part of an IC die that may assist temperature control of the IC die when in operation. The temperature control element may include a heat dissipation material disposed therein to assist dissipating thermal energy generated by the plurality of devices in the IC die during operation.

Provided is an electronic device, in which a first management module of a first chiplet generates a first request transaction for measuring a latency between the first chiplet and a second chiplet, and transmits the generated first request transaction to the second chiplet through a first interconnect module of the first chiplet, a second management module of the second chiplet generates a first response transaction corresponding to the first request transaction, and transmits the generated first response transaction to the first chiplet through a second interconnect module of the second chiplet, and the latency between the first chiplet and the second chiplet is determined based on a first time at which the first request transaction is generated in the first chiplet and a second time at which the first chiplet receives the first response transaction.

A package structure includes a circuit substrate, a semiconductor package, a first ring structure and a second ring structure. The semiconductor package is disposed on and electrically connected to the circuit substrate. The first ring structure is attached to the circuit substrate and surrounding the semiconductor package, wherein the first ring structure includes a central opening and a plurality of corner openings extending out from corners of the central opening, the semiconductor package is located in the central opening, and the plurality of corner openings is surrounding corners of the semiconductor package.

The present invention provides a packaging structure and a manufacturing method thereof. The packaging structure includes a first substrate, a first chip, a second chip, a first heat conductor and a second heat conductor, wherein the first substrate includes a cavity; the first chip is embedded in the cavity and includes a first connecting surface and a first heat-conducting surface that face away from each other; the second chip is disposed on a side of the first connecting surface and electrically connected to the first chip, a side of the second chip distal from the first chip includes a second heat-conducting surface on a side; and the first heat conductor is connected to the first heat-conducting surface, and the second heat conductor is connected to the second heat-conducting surface. The first substrate includes a third connecting surface that is flush with the first connecting surface.

A semiconductor package including a package substrate; an intermediate substrate on the package substrate; an optical engine unit on the intermediate substrate; a logic device adjacent to the optical engine unit and on the intermediate substrate; and a memory device adjacent to the logic device and on the intermediate substrate, wherein the optical engine unit includes a first redistribution substrate, a photonic integrated circuit (PIC) chip on the first redistribution substrate, an electronic integrated circuit (EIC) chip on the PIC chip, a multi-insulating layer surrounding the PIC chip and the EIC chip, and a transparent support layer on the EIC chip and the multi-insulating layer.

A semiconductor package has a first semiconductor package which includes a first redistribution structure, a first semiconductor chip on a lower surface of the first redistribution structure, a first encapsulant on at least a portion of the first semiconductor chip, a second redistribution structure on the first encapsulant, and a conductive post electrically connecting the first redistribution structure and the second redistribution structure through the first encapsulant; and a second semiconductor package which is on an upper surface of the first redistribution structure and comprises a third redistribution structure, a second semiconductor chip on the third redistribution structure, and a second encapsulant on at least a portion of the second semiconductor chip, wherein the first encapsulant integrally covers each of a lower surface and a side surface of the first semiconductor chip.