The present disclosure relates to a system and a method for fabricating one or more integrated circuits (ICs). The system includes a plurality of logic tiles formed on a logic wafer and separated by at least one first scribe line, a respective logic tile including a function unit including circuitry configured to perform a respective function; at least one global interconnect configured to communicatively connect the plurality of logic tiles; a plurality of memory tiles formed on a memory wafer connected with the logic wafer, the plurality of memory tiles separated by at least one second scribe line that is substantially aligned with the at least one first scribe line, wherein the logic wafer and the memory wafer are diced along the at least one first scribe line and the at least one second scribe line to obtain a plurality of ICs, a respective IC including at least one logic tile connected with at least one memory tile.

A semiconductor device includes a junction field effect transistor (JFET) device. The JFET device includes a substrate, a first well region, a first source region, a first drain region, a first gate region and a second gate region. A channel region is formed between the first source region and the first drain region along a first direction. The first gate region and the second gate region are located within the channel region, the first gate region includes a first surface extending from a top surface to a bottom surface of the first gate region, and the second gate region includes a second surface extending from a top surface to a bottom surface of the second gate region. The first surface is facing a second direction perpendicular to the first direction toward the second surface. A method of manufacturing such semiconductor device is also provided.

A semiconductor device includes a junction field effect transistor (JFET) device. The JFET device includes a substrate, a first well region, a first source region, a first drain region, a first gate region and a second gate region. A channel region is formed between the first source region and the first drain region along a first direction. The first gate region and the second gate region are located within the channel region, the first gate region includes a first surface extending from a top surface to a bottom surface of the first gate region, and the second gate region includes a second surface extending from a top surface to a bottom surface of the second gate region. The first surface is facing a second direction perpendicular to the first direction toward the second surface. A method of manufacturing such semiconductor device is also provided.

A structure of field-effect transistor includes a silicon layer of a silicon-on-insulator structure. A gate structure layer in a line shape is disposed on the silicon layer, wherein the gate structure layer includes a first region and a second region abutting to the first region. Trench isolation structures in the silicon layer are disposed at two sides of the gate structure layer, corresponding to the second region. The second region of the gate structure layer is disposed on the silicon layer and overlaps with the trench isolation structure. A source region and a drain region are disposed in the silicon layer at the two sides of the gate structure layer, corresponding to the first region. The second region of the gate structure layer includes a conductive-type junction portion.

A structure of field-effect transistor includes a silicon layer of a silicon-on-insulator structure. A gate structure layer in a line shape is disposed on the silicon layer, wherein the gate structure layer includes a first region and a second region abutting to the first region. Trench isolation structures in the silicon layer are disposed at two sides of the gate structure layer, corresponding to the second region. The second region of the gate structure layer is disposed on the silicon layer and overlaps with the trench isolation structure. A source region and a drain region are disposed in the silicon layer at the two sides of the gate structure layer, corresponding to the first region. The second region of the gate structure layer includes a conductive-type junction portion.

Integrated circuit devices may include a plurality of word line structures and a plurality of insulating films that are stacked alternately. Sides of the plurality of word line structures and the plurality of insulating films define a side of a channel hole extending through the plurality of word line structures and the plurality of insulating films. The devices may also include a blocking dielectric film on the side of the channel hole, and a plurality of charge storage films on the blocking dielectric film and on the sides of the plurality of word line structures, respectively. Each of the plurality of charge storage films may include a first charge storage film and a second charge storage film sequentially stacked on a respective one of the sides of the plurality of word line structures. A surface of the second charge storage film may include a recess in a middle portion thereof.

Integrated circuit devices may include a plurality of word line structures and a plurality of insulating films that are stacked alternately. Sides of the plurality of word line structures and the plurality of insulating films define a side of a channel hole extending through the plurality of word line structures and the plurality of insulating films. The devices may also include a blocking dielectric film on the side of the channel hole, and a plurality of charge storage films on the blocking dielectric film and on the sides of the plurality of word line structures, respectively. Each of the plurality of charge storage films may include a first charge storage film and a second charge storage film sequentially stacked on a respective one of the sides of the plurality of word line structures. A surface of the second charge storage film may include a recess in a middle portion thereof.

Integrated circuit devices may include a plurality of word line structures and a plurality of insulating films that are stacked alternately. Sides of the plurality of word line structures and the plurality of insulating films define a side of a channel hole extending through the plurality of word line structures and the plurality of insulating films. The devices may also include a blocking dielectric film on the side of the channel hole, and a plurality of charge storage films on the blocking dielectric film and on the sides of the plurality of word line structures, respectively. Each of the plurality of charge storage films may include a first charge storage film and a second charge storage film sequentially stacked on a respective one of the sides of the plurality of word line structures. A surface of the second charge storage film may include a recess in a middle portion thereof.

A TVS device and a manufacturing method therefor. The TVS device comprises: a first doping type semiconductor substrate (100); a second doping type deep well I (101), a second doping type deep well II (102), and a first doping type deep well (103) provided on the semiconductor substrate; a second doping type heavily doped region I (104) provided in the second doping type deep well I (101); a first doping type well region (105) and a first doping type heavily doped region I (106) provided in the second doping type deep well II (102); a first doping type heavily doped region II (107) and a second doping type heavily doped region II (108) provided in the first doping type deep well (105); a second doping type heavily doped region III (109) located in the first doping type well region (105) and the second doping type deep well II (102); and a first doping type doped region (110) provided in the first doping type well region (105).

A structure of field-effect transistor includes a silicon layer of a silicon-on-insulator structure. A gate structure layer in a line shape is disposed on the silicon layer, wherein the gate structure layer includes a first region and a second region abutting to the first region. Trench isolation structures in the silicon layer are disposed at two sides of the gate structure layer, corresponding to the second region. The second region of the gate structure layer is disposed on the silicon layer and overlaps with the trench isolation structure. A source region and a drain region are disposed in the silicon layer at the two sides of the gate structure layer, corresponding to the first region. The second region of the gate structure layer includes a conductive-type junction portion.