A display device includes first pixel circuit unit, second pixel circuit unit, third pixel circuit unit, and fourth pixel circuit unit spaced from one another, first pixel electrode on the first pixel circuit unit, second pixel electrode on the second pixel circuit unit, third pixel electrode on the third pixel circuit unit, fourth pixel electrode on the fourth pixel circuit unit, first light-emitting element electrically connected to the first pixel electrode, the first light-emitting element configured to emit first light, second light-emitting element electrically connected to the second pixel electrode, the second light-emitting element configured to emit second light, and third light-emitting element electrically connected to the third pixel electrode, the third light-emitting element configured to emit third light. A length of the first light-emitting element in a first direction is greater than each of a length of the second and third light-emitting elements in the first direction.

In embodiments, a semiconductor package may include a first die and a second die. The package may additionally include a serializer/deserializer (SerDes) die coupled with the first and the second dies. The SerDes die may be configured to serialize signals transmitted from the first die to the second die, and deserialize signals received from the second die. Other embodiments may be described and/or claimed.

A method of forming an integrated circuit package includes attaching a first die to an interposer. The interposer includes a first die connector and a second die connector on the interposer and a first dielectric layer covering at least one sidewall of the first die connector and at least one sidewall of the second die connector. The first die is coupled to the first die connector and to the first dielectric layer and the second die connector is exposed by the first die. The method further includes recessing the first dielectric layer to expose at least one sidewall of the second die connector and attaching a second die to the interposer, the second die being coupled to the second die connector.

A semiconductor assembly includes a semiconductor package that includes first and second transistor dies embedded within a package body, the first and second transistor dies being arranged laterally side by side within the package body such that a first load terminal of the first transistor die faces an upper surface of the package body and such that a second load terminal of the second transistor die faces the upper surface of the package body, and a discrete capacitor mounted on the semiconductor package such that a first terminal of the discrete capacitor is directly over and electrically connected to the first load terminal of the first semiconductor die and such that a second terminal of the discrete capacitor is directly over and electrically connected with the second load terminal of the second semiconductor die.

Methods of manufacturing a semiconductor package structure are provided. A method includes: bonding dies and dummy dies to a wafer; forming a dielectric material layer on the wafer to cover the dies and the dummy dies; performing a first planarization process to remove a first portion of the dielectric material layer over top surfaces of the dies and the dummy dies; and performing a second planarization process to remove portions of the dies, portions of the dummy dies and a second portion of the dielectric material layer, and a dielectric layer is formed laterally aside the dies and the dummy dies; wherein after the second planarization process is performed, a total thickness variation of the dies is less than a total thickness variation of the dummy dies.

An integrated circuit package module includes an integrated circuit package device including a contact element, and a bonding system formed on the integrated circuit package device. The bonding system includes a bonding system substrate and a bonding element formed in the bonding system substrate and conductively coupled to the contact element of the integrated circuit package device. The bonding element includes (a) a conduction component conductively connected to the contact element, the conduction component formed from a first metal having a first melting point, and (b) a bonding component formed from a second metal having a second melting point lower than the first melting point of the first metal.

A device includes a substrate, at least one first dielectric layer on the substrate and including a first dielectric constant, at least one second dielectric layer on the at least one first dielectric layer and including a second dielectric constant greater than the first dielectric constant, and a dummy pattern including a first conductive pattern having a first pattern density in the at least one first dielectric layer and a second conductive pattern in the at least one second dielectric layer and comprising a second pattern density. The first pattern density is equal to or greater than the second pattern density.

A device includes a substrate, at least one first dielectric layer on the substrate and including a first dielectric constant, at least one second dielectric layer on the at least one first dielectric layer and including a second dielectric constant greater than the first dielectric constant, and a dummy pattern including a first conductive pattern having a first pattern density in the at least one first dielectric layer and a second conductive pattern in the at least one second dielectric layer and comprising a second pattern density. The first pattern density is equal to or greater than the second pattern density.

An apparatus for transferring an electronic component is configured to transfer an electronic component on a flexible carrier to a target substrate. The apparatus includes a first frame, a second frame, an abutment module, an actuator, and a negative pressure generating device. The abutment module includes an abutting component and a guide. The guide guides a movement of the abutting component. The actuator actuates the abutment module so that the abutting component and the guide are respectively moved between a start position and an end position of an abutment path. The negative pressure generating device is pumped through the abutment module. When the abutment module abuts against the flexible carrier, a negative pressure is generated between the abutment module and the flexible carrier by the negative pressure generating device. The abutting component and the guide are moved simultaneously in at least a portion of the abutment path.

A method for the transfer of components from a sender substrate to a receiver substrate includes provision and/or production of the components on the sender substrate, transfer of the components of the sender substrate to the transfer substrate, and transfer of the components from the transfer substrate to the receiver substrate.The components can be transferred selectively by means of bonding means and/or debonding means.