A semiconductor package and a method for manufacturing a semiconductor package are provided. The semiconductor package includes a first processing element, a first I/O element, a second processing element, and a second I/O element. The first processing element is on a substrate. The first I/O element is on the substrate and electrically connected to the first processing element. The second processing element is on the substrate. The second I/O element is on the substrate and electrically connected to the second processing element. The first I/O element is electrically connected to and physically separated from the second I/O element.

An integrated circuit package and a system including the integrated circuit package as well as a process for assembling the integrated circuit package are provided to improve integrated circuit power delivery. The integrated circuit package includes a first die having a plurality of pads formed in the first die and exposed on a top surface of the first die, at least one post on the first die, and a substrate including one or more redistribution layers. Each post in the at least one post spans at least two pads on the first die utilized for power distribution, and the first die is connected to the substrate via the at least one post.

A package includes an interposer structure free of any active devices. The interposer structure includes an interconnect device; a dielectric film surrounding the interconnect device; and first metallization pattern bonded to the interconnect device. The package further includes a first device die bonded to an opposing side of the first metallization pattern as the interconnect device and a second device die bonded to a same side of the first metallization pattern as the first device die. The interconnect device electrically connects the first device die to the second device die.

The present disclosure provides a semiconductor package, including a first layer, a second layer, and a conductive array. The first layer includes a packaged die having a carrier surface and a molding surface, and a first die structure in proximity to the carrier surface. An active region of the first die structure is electrically coupled to the packaged die through a solder. The second layer includes a second die structure, the second die structure being connected to the active region of the first die structure by a first redistributed layer (RDL). The conductive array is connected to an active region of the second die structure by a second RDL. The present disclosure also provides a method for manufacturing the aforesaid semiconductor package.

A semiconductor device includes an interposer disposed on a substrate. A first major surface of the interposer faces the substrate. A system on a chip is disposed on a second major surface of the interposer. The second major surface of the interposer opposes the first major surface of the interposer. A plurality of first passive devices is disposed in the first major surface of the interposer. A plurality of second passive devices is disposed on the second major surface of the interposer. The second passive devices are different devices than the first passive devices.

A semiconductor package includes an interposer, a semiconductor element installed on a first surface of the interposer, bumps formed on a second surface of the interposer, and a chip component installed on the second surface of the interposer. The interposer is a silicon interposer; the semiconductor element is flip-chip mounted on the first surface of the interposer; the chip component is a thin film passive element formed by carrying out a thin film process on a silicon substrate, and a pad being formed on one surface of the thin film passive element; and the pad of the chip component is connected to a land formed on the second surface of the interposer using a conductive bonding material. According to this structure, the reliability of a bond between the interposer and the chip component of the semiconductor package can be ensured while achieving a small size.

A semiconductor package has central region and peripheral region surrounding central region. The semiconductor package includes dies, encapsulant, and redistribution structure. The dies include functional die and first dummy dies. Functional die is disposed in central region. First dummy dies are disposed in peripheral region. Redistribution structure is disposed on encapsulant over the dies, and is electrically connected to functional die. Vacancy ratio of central region is in the range from 1.01 to 3.00. Vacancy ratio of the peripheral region is in the range from 1.01 to 3.00. Vacancy ratio of central region is a ratio of total area of central region to total area occupied by dies disposed in central region. Vacancy ratio of peripheral region is a ratio of total area of peripheral region to total area occupied by first dummy dies disposed in peripheral region.

A semiconductor package includes a cavity substrate, a semiconductor die, and an encapsulant. The cavity substrate includes a redistribution structure and a cavity layer on an upper surface of the redistribution structure. The redistribution structure includes pads on the upper surface, a lower surface, and sidewalls adjacent the upper surface and the lower surface. The cavity layer includes an upper surface, a lower surface, sidewalls adjacent the upper surface and the lower surface, and a cavity that exposes pads of the redistribution structure. The semiconductor die is positioned in the cavity. The semiconductor die includes a first surface, a second surface, sidewalls adjacent the first surface and the second surface, and attachment structures that are operatively coupled to the exposed pads. The encapsulant encapsulates the semiconductor die in the cavity and covers sidewalls of the redistribution structure.

A system on package SoP module includes a printed circuit board (PCB) having a first side and an opposing second side, a first IC attached to the first side, a second IC attached to the second side. The PCB also provides electrical paths for connecting the first IC and the second IC. Conductors by which the second IC is attached to the PCB also allow for electrical testing of the first IC when the SoP is in a system level state.

The present disclosure provides a method of manufacturing a structure. The method comprises: providing a substrate; forming an interconnect layer over the substrate; forming a plurality of conductive pads over the interconnect layer; forming conductive pillars over the interconnect layer; disposing a first semiconductor die over the conductive pads, the semiconductor die being spaced apart from the conductive pillars; and bonding a second semiconductor die with the conductive pillars.