A semiconductor package may include: a first semiconductor chip; a second semiconductor chip disposed over the first semiconductor chip; and a bump structure interposed between the first semiconductor chip and the second semiconductor chip to connect the first semiconductor chip and the second semiconductor chip, wherein the bump structure includes a core portion and a shell portion, the shell portion surrounding all side ails of the core portion, and wherein the shell portion has a higher melting point than the core portion.

A semiconductor package may include a base, a first chip on the base, and first connection patterns that connect and couple the base and the first chip. The first chip may include a substrate, pad patterns on the substrate, a passivation layer on the substrate and having openings, and pillars on the substrate, the pad patterns include a first signal pad and a second signal pad, the first connection patterns are in contact with the pillars, the pillars include a first signal pillar in contact with the first signal pad and a second signal pillar in contact with the second signal pad, the openings in the passivation layer include a first opening having a sidewall facing a side surface of the first signal pillar and surrounding the side surface of the first signal pillar, and a second opening having a sidewall facing a side surface of the second signal pillar and surrounding the side surface of the second signal pillar, and a maximum width of the second opening is greater than a maximum width of the first opening.

A semiconductor-based imaging device and method of manufacture. A direct bond hybridization (DBH) structure is formed on a top surface of a read out integrated circuit (ROIC). A silicon-based detector is bonded to the ROIC via the DBH structure. A non-silicon-based detector is bonded to the DBH structure located on the top of the ROIC using indium-based hybridization.

A clock circuit constructed in a processor integrated circuit includes a phase lock loop PLL, a clock tree, and a clock grid. The clock tree includes a plurality of clock buffers in a layered structure, The clock tree is configured to receive a first clock signal clk_1 that is output by the phase lock loop PLL, and to output a second clock signal clk_2. A plurality of child node circuits (400) are disposed on some nodes of the clock grid, and are configured to generate a third clock signal clk_3 based on the second clock signal clk_2. The clock grid (330) and the clock tree (320) are distributed on multiple dies in a three-dimensional structure of the processor integrated circuit.

This disclosure provides a chip structure, including a first chip and a first protective layer, where the first protective layer covers a first surface of the first chip; and a first conductive connector is vertically disposed in the first protective layer, the first conductive connector penetrates through an upper surface and a lower surface of the first protective layer, one end of the first conductive connector is electrically connected to the first surface of the first chip, the other end of the first conductive connector is exposed to the first protective layer, and the first protective layer is formed by a material whose modulus is greater than a preset value.

Provided is a semiconductor package, including a lower semiconductor chip, a plurality of semiconductor chips that are disposed on the lower semiconductor chip in a first direction perpendicular to a top surface of the lower semiconductor chip, a plurality of nonconductive layers disposed between the plurality of semiconductor chips, a nonconductive pattern that extends from the nonconductive layers and is disposed on lateral surfaces of at least one of the plurality of semiconductor chips, a first mold layer disposed a top surface of the nonconductive pattern, and a second mold layer disposed a lateral surface of the nonconductive pattern and a lateral surface of the first mold layer, wherein the nonconductive pattern and the first mold layer are disposed between the second mold layer and lateral surfaces of the plurality of semiconductor chips.

A 3D semiconductor device including: a first single crystal layer with first transistors; overlaid by a first metal layer; a second metal layer overlaying the first metal layer and being overlaid by a third metal layer; a logic gates including at least the first metal layer interconnecting the first transistors; second transistors disposed atop the third metal layer; third transistors disposed atop the second transistors; a top metal layer disposed atop the third transistors; and a memory array including word-lines, and at least four memory mini arrays, where each of the memory mini arrays includes at least four rows by four columns of memory cells, where each of the memory cells includes at least one of the second transistors or third transistors, sense amplifier circuit(s) for each of the memory mini arrays, the second metal layer provides a greater current carrying capacity than the third metal layer.

A semiconductor package includes a first base plate, first semiconductor structure, second base plate and filling layer. The first base plate has a first surface including first and second signal transmission regions. The first semiconductor structure located on the first surface is electrically connected to the first signal transmission region. The second base plate located on the first base plate includes a base and a first interconnection surface. The first interconnection surface is away from the first surface. The first interconnection surface has first and second interconnection regions communicated with each other. The first interconnection region is electrically connected to the second signal transmission region. The filling layer seals the first semiconductor structure, second base plate and first surface. The first interconnection region is not sealed, and the second interconnection region is. There is a preset height between a top surface of the filling layer and the first interconnection region.

A package that includes a first integrated device comprising a first plurality of interconnects; a plurality of solder interconnects coupled to the first plurality of interconnects; a second integrated device comprising a second plurality of interconnects, wherein the second integrated device is coupled to the first integrated device through the second plurality of interconnects, the plurality of solder interconnects and the first plurality of interconnects; a polymer layer located between the first integrated device and the second integrated device; and a plurality of spacer balls located between the first integrated device and the second integrated device.

A semiconductor package is provided. The semiconductor package includes: a first semiconductor chip including a first bonding structure; , a first front-end level layer including a first integrated circuit device; a first sub-back-end level layer including a plurality of first metal wire layers, an input and output device level layer including a two-dimensional input and output device, and a second sub-back-end level layer including a plurality of second metal wire layers electrically connected to the first integrated circuit device and the two-dimensional input and output device. The semiconductor package also includes a second semiconductor chip including a bonding structure that is bonded to the first bonding structure; a second front-end level layer including a second integrated circuit device, and a second back-end level layer including a plurality of third metal wire layers electrically connected to the second integrated circuit device.