The invention provides a semiconductor testkey, which includes a testkey on a substrate, the testkey includes a first resistor pattern, a second resistor pattern and a third resistor pattern arranged in a strip, the distance between the first resistor pattern and the second resistor pattern is defined as a first distance, and the distance between the second resistor pattern and the third resistor pattern is defined as a second distance, the first resistor pattern, the second resistor pattern and the third resistor pattern have the same pattern, and the second distance is larger than the first distance.

Methods of fabricating and using an overlay mark are provided. In some embodiments, the overlay mark includes an upper layer and a lower layer disposed below the upper layer. The lower layer includes a first plurality of compound gratings extending in a first direction and disposed in a first region of the overlay mark, each of the first plurality of compound gratings including one first element and at least two second elements disposed on one side of the first element, and a second plurality of compound gratings extending the first direction and disposed in a second region of the overlay mark, each of the second plurality of compound gratings including one third element and at least two fourth elements on one side of the third element. The first plurality of compound gratings is a mirror image of the second plurality of compound gratings.

A method of forming regrown fiducials includes providing a III-V compound substrate having a device region and an alignment mark region. The III-V compound substrate is characterized by a processing surface. The method also includes forming a hardmask layer having a first set of openings in the device region exposing a first surface portion of the processing surface of the III-V compound substrate and a second set of openings in the alignment mark region exposing a second surface portion of the processing surface and etching the first surface portion and the second surface portion of the III-V compound substrate using the hardmask layer as a mask to form a plurality of trenches. The method also includes epitaxially regrowing a semiconductor layer in the trenches to form the regrown fiducials extending to a predetermined height over the processing surface in the alignment mark region.

A semiconductor module includes a semiconductor element, a case configured to house the semiconductor element, and a plurality of control terminal units. Each of the control terminal units includes at least one control terminal electrically connected to the semiconductor element, and a guide block constituted of a separate component from the case fixed integrally to the at least one control terminal. The at least one control terminal each includes a terminal pin part protruding from an outer wall surface of the case. Each of the guide blocks includes a guide pin part protruding from the outer wall surface of the case in a direction the same as the direction in which the terminal pin part protrudes. The guide blocks of the control terminal units are constituted of separate components.

The application provides a display panel motherboard and manufacturing method thereof. The display panel motherboard includes display panel forming areas distributed in an array and a test area adjacent to the display panel forming areas. The display panel motherboard includes an array mother substrate; a light-emitting layer, disposed on a surface of a side of the array mother substrate and located in the display panel forming areas; and a test component, disposed on the surface of the array mother substrate and located in the test area, the test component including a test block including a fluorescent layer, disposed on the surface of the array mother substrate and emitting light upon being irradiated by activation light; a target test layer, disposed on the side of the fluorescent layer facing away from the surface; and a positioning reference portion, disposed at a peripheral side of the target test layer.

A semiconductor package may include a first semiconductor die having a first width; a second semiconductor die on the first semiconductor die, the second semiconductor die having a second width that is smaller than the first width; and a mold layer at least partially covering a side surface of the second semiconductor die, and a top surface of the first semiconductor die, wherein the first semiconductor die comprises at least one first detection pattern, the at least one first detection pattern being on the top surface of the first semiconductor die and in contact with a bottom surface of the mold layer.

Provided is a method for fabricating a semiconductor device, the method including exposing a first pattern corresponding to a mask pattern to light in a first shot region of a substrate by using a photomask including the mask pattern, the first pattern extends in a first direction, and exposing a second pattern corresponding to the mask pattern to the light in a second shot region disposed adjacent to the first shot region of the substrate by using the photomask, the second pattern extends in a second direction, wherein the first direction crosses the second direction.

A semiconductor package including a lower substrate, a lower semiconductor chip mounted on the lower substrate, a lower mold layer on the lower substrate and enclosing the lower semiconductor chip, a redistribution layer on the lower mold layer, and a vertical connection terminal around the lower semiconductor chip and connecting the lower substrate to the redistribution layer may be provided. The lower semiconductor chip may include a cognition mark at a top surface thereof. The cognition mark may include a marking pattern having an intaglio shape at the top surface of the lower semiconductor chip, and a molding pattern filling an inner space of the marking pattern. A first material constituting the molding pattern may be the same as a second material constituting the lower mold layer.

A semiconductor package including a lower substrate, a lower semiconductor chip mounted on the lower substrate, a lower mold layer on the lower substrate and enclosing the lower semiconductor chip, a redistribution layer on the lower mold layer, and a vertical connection terminal around the lower semiconductor chip and connecting the lower substrate to the redistribution layer may be provided. The lower semiconductor chip may include a cognition mark at a top surface thereof. The cognition mark may include a marking pattern having an intaglio shape at the top surface of the lower semiconductor chip, and a molding pattern filling an inner space of the marking pattern. A first material constituting the molding pattern may be the same as a second material constituting the lower mold layer.

Embodiments provide a semiconductor device and a fabrication method. The fabrication method includes: providing a substrate including an alignment region and a connection region; forming a first conductive layer on the substrate; forming a spacer material layer group on the first conductive layer; forming a protective layer on the spacer material layer group, the protective layer being positioned on the alignment region; etching the spacer material layer group and the protective layer, an etching rate of the protective layer being less than an etching rate of the spacer material layer group to remove the spacer material layer group on the connection region to form a spacer layer group, and forming an alignment groove on the spacer layer group in the alignment region; and forming a second conductive layer group on the spacer layer group and the first conductive layer, the second conductive layer group covering the alignment groove.