A semiconductor device that has low power consumption and is capable of performing arithmetic operation is provided. The semiconductor device includes first to third circuits and first and second cells. The first cell includes a first transistor, and the second cell includes a second transistor. The first and second transistors operate in a subthreshold region. The first cell is electrically connected to the first circuit, the first cell is electrically connected to the second and third circuits, and the second cell is electrically connected to the second and third circuits. The first cell sets current flowing from the first circuit to the first transistor to a first current, and the second cell sets current flowing from the second circuit to the second transistor to a second current. At this time, a potential corresponding to the second current is input to the first cell. Then, a sensor included in the third circuit supplies a third current to change a potential of the second wiring, whereby the first cell outputs a fourth current corresponding to the first current and the amount of change in the potential.

A semiconductor device with a high on-state current is provided. An oxide semiconductor film; a source electrode and a drain electrode over the oxide semiconductor film; an interlayer insulating film positioned to cover the oxide semiconductor film, the source electrode, and the drain electrode; a gate insulating film over the oxide semiconductor film; a barrier insulating film over the oxide semiconductor film; and a gate electrode over the gate insulating film are included. The barrier insulating film is positioned between the source electrode and the gate insulating film and between the drain electrode and the gate electrode. An opening is formed in the interlayer insulating film so as to overlap with a region between the source electrode and the drain electrode. The barrier insulating film, the gate insulating film, and the gate electrode are positioned in the opening of the interlayer insulating film. Above the barrier insulating film, the gate insulating film is in contact with the interlayer insulating film.

A semiconductor device includes a first transistor and a second transistor. The first transistor includes first and second diffusion regions in a substrate, a first gate insulating film over the substrate, a first gate electrode over the first gate insulating film; first and second silicide layers on the first and second diffusion regions, respectively; and a first gate silicide layer on the first gate electrode. The second transistor includes third and fourth diffusion regions in the substrate; a second gate insulating film over the substrate; a second gate electrode over the second gate insulating film; and a second gate silicide layer on the second gate electrode. The second gate insulating film is thicker than the first gate insulating film, and at least a part of the third diffusion region and at least a part of the fourth diffusion region are covered by the second gate insulating film.

The present subject matter relates to an integrated circuit comprising an erasable programmable read only memory (EPROM) array having a plurality of EPROM cells disposed in rows and columns, wherein one or more EPROM cells located at predetermined positions in the EPROM array are selectively dischargeable. The one or more EPROM cells comprise a EPROM transistor having a first conductive layer to store electrons upon the EPROM transistor being programmed and a control metal oxide semiconductor field-effect transistor (MOSFET) electrically connected to the first conductive layer to provide an electron leakage path to dissipate the electrons stored in the first conductive layer in a predetermined leak time period.

Provided is a semiconductor memory device. The semiconductor memory device comprises a first semiconductor pattern including a first impurity region, a second impurity region, and a channel region, the first impurity region spaced apart from a substrate in a first direction and having a first conductivity type, the second impurity region having a second conductivity type different from the first conductivity type, and the channel region between the first impurity region and the second impurity region, a first conductive connection line connected to the first impurity region and extending in a second direction different from the first direction and a first gate structure extending in the first direction and including a first gate electrode and a first gate insulating film, wherein the first gate electrode penetrates the channel region and the first gate insulating film is between the first gate electrode and the semiconductor pattern.

Provided is a semiconductor memory device. The semiconductor memory device comprises a first semiconductor pattern including a first impurity region, a second impurity region, and a channel region, the first impurity region spaced apart from a substrate in a first direction and having a first conductivity type, the second impurity region having a second conductivity type different from the first conductivity type, and the channel region between the first impurity region and the second impurity region, a first conductive connection line connected to the first impurity region and extending in a second direction different from the first direction and a first gate structure extending in the first direction and including a first gate electrode and a first gate insulating film, wherein the first gate electrode penetrates the channel region and the first gate insulating film is between the first gate electrode and the semiconductor pattern.

A novel memory device is provided. The memory device includes a plurality of memory cells, and one memory cell includes a first transistor and a second transistor. One of a source and a drain of the first transistor is electrically connected to a gate of the second transistor through a node SN. Data written through the first transistor is retained at the node SN. When an OS transistor is used as the first transistor, formation of a storage capacitor is not needed. A region with a low dielectric constant is provided outside the memory cell, whereby noise from the outside is reduced and stable operation is achieved.

A semiconductor device with a small variation in characteristics is provided. A semiconductor device includes an oxide, a first conductor and a second conductor over the oxide, a first insulator over the first conductor, a second insulator over the second conductor, a third insulator over the first insulator and the second insulator, a fourth insulator over the third insulator, a fifth insulator that is over the oxide and placed between the first conductor and the second conductor, a sixth insulator over the fifth insulator, and a third conductor over the sixth insulator. The third conductor includes a region overlapping the oxide. The fifth insulator includes a region in contact with the oxide, the first conductor, the second conductor, and each of the first insulator to the fourth insulator. The fifth insulator contains nitrogen, oxygen, and silicon.

A semiconductor device with a small variation in characteristics is provided. The semiconductor device includes a first insulator; a second insulator having an opening over the first insulator; a third insulator that has a first depressed portion and is provided inside the opening; a first oxide that has a second depressed portion and is provided inside the first depressed portion; a second oxide provided inside the second depressed portion; a first conductor and a second conductor that are electrically connected to the second oxide and are apart from each other; a fourth insulator over the second oxide; and a third conductor including a region overlapping with the second oxide with the fourth insulator therebetween. The second oxide includes a first region, a second region, and a third region sandwiched between the first region and the second region in a top view. The first conductor includes a region overlapping with the first region and the second insulator. The second conductor includes a region overlapping with the second region and the second insulator. The third conductor includes a region overlapping with the third region.

In a semiconductor storage device including a plurality of memory cells formed at a laminated substrate including a support layer, an insulating layer on the support layer, and a semiconductor layer on the insulating layer, the plurality of memory cells each include a floating gate transistor and a selection transistor. The floating gate transistor includes a first source region, a first drain region, a first body region, a first body contact region, a floating gate insulating film, and a floating gate electrode, and the selection transistor includes a second source region, a second drain region, a second body region, a second body contact region insulated from the first body contact region, a selection gate insulating film, and a selection gate electrode.