Various systems and methods for imprinting a unique identifier on a semiconductor die are disclosed herein. Example embodiments involve receiving a substrate at a photolithography station, the substrate including a photosensitive layer and an area for forming semiconductor dies, forming circuits on the substrate using a photolithography mask, imprinting a unique identifier on each semiconductor die on the substrate using a digital photomask and removing the substrate containing the semiconductor dies containing the circuits and the unique identifiers from the photolithography station. In some embodiments, each unique identifier is associated with a unique record for recording characteristics of the substrate, of the semiconductor die and of the unique identifier. In some embodiments, the digital photomask includes dynamically-controlled pixels, controllable to define a unique pattern for each unique identifier. In some embodiments, the unique identifier is a two-dimensional code.

Methods, systems, and devices for identification marking cavity filling for semiconductor packages are described. A semiconductor device may be formed to be relatively less susceptible to surface failures, including failure initiated by stress risers associated with identification markings. For example, a mold compound material may be formed over one or more semiconductor dies of the semiconductor device. One or more identification markings may be formed in the mold compound material based on forming one or more cavities into a surface of the material. A second material may be formed in the one or more cavities and may fill each of the cavities. The second material may be a crack-resistant material. The second material may be formed through one or more apertures of a stencil, or the second material may be formed by applying the second material over an entirety of the surface of the semiconductor device.

An integrated device package is disclosed. The integrated device package can include a carrier, an electronic component mounted on the carrier, a molding material disposed over the carrier, and an electromagnetic interference shield layer disposed over the molding material. The electronic component is at least partially disposed in the molding material. The electromagnetic interference shield layer is configured to shield the electronic component from a radio frequency signal. The electromagnetic interference shield layer has a thickness in a range between 2 m and 6 m. A surface of the electromagnetic interference shield layer includes an ink mark that has a thickness in a range between 5 m and 15 m, or a laser mark that has a depth in a range between 1 m and 2 m.

A display device according to an embodiment includes: a display panel; a first pad portion disposed on a lateral side of the display panel; and an information code disposed on the lateral side of the display panel.

An integrated device package is disclosed. The integrated device package can include a carrier, an electronic component mounted on the carrier, a molding material disposed over the carrier, and an electromagnetic interference shield layer disposed over the molding material. The electronic component is at least partially disposed in the molding material. At least a portion of the shield layer is in contact with the electronic component. The electromagnetic interference shield layer is configured to shield the electronic component from a radio frequency signal. A surface of the electromagnetic interference shield layer includes an ink mark or a laser mark.