An IC is provided. The IC includes a plurality of a plurality of P-type fin field-effect transistors (FinFETs). The P-type FinFETs includes at least one first P-type FinFET and at least one second P-type FinFET. Source/drain regions of the first P-type FinFET have a first depth, and source/drain regions of the second P-type FinFET have a second depth that is different from the first depth. A first semiconductor fin of the first P-type FinFET includes a first portion and a second portion that are formed by different materials, and the second portion of the first semiconductor fin has a third depth that is greater than the first depth.

A semiconductor device includes a substrate including a first device region and a second device region, active regions spaced apart from each other on the substrate, having a constant width, extending in a first direction parallel to an upper surface of the substrate and including a first active region and a second active region provided on the first device region and a third active region and a fourth active region provided on the second device region, a plurality of channel layers provided on the active regions and configured to be spaced apart from each other in a direction perpendicular to the upper surface of the substrate, gate structures provided on the substrate and extending to cross the active regions and the plurality of channel layers, and source/drain regions provided on the active regions on at least one side of the gate structures.

A method of forming an integrated circuit includes placing a first cell layout design of the integrated circuit on a layout design, and manufacturing the integrated circuit based on the layout design. Placing the first cell layout design includes placing a first active region layout pattern adjacent to a first cell boundary, placing a second active region layout pattern adjacent to a second cell boundary, and placing a first set of active region layout patterns between the first and second active region layout patterns, according to a first set of guidelines. The first set of guidelines includes selecting transistors of a first type with a first driving strength and transistors of a second type with a second driving strength. In some embodiments, the first, second and first set of active region layout patterns extend in the first direction, and are on a first layout level.

An IC is provided. The IC includes a first P-type FinFET and a second P-type FinFET. The first P-type FinFET includes a silicon germanium channel region. The second P-type FinFET includes a Si channel region. First source/drain regions of the first P-type FinFET are formed on a discontinuous semiconductor fin, and second source/drain regions of the second P-type FinFET are formed on a continuous semiconductor fin. A first depth of the first source/drain regions is different from a second depth of the second source/drain regions.

In some examples, an electronic device comprising an input ferroelectric (FE) capacitor, an output FE capacitor, and a channel positioned beneath the input FE capacitor and positioned beneath the output FE capacitor. In some examples, the channel is configured to carry a magnetic signal from the input FE capacitor to the output FE capacitor to cause a voltage change at the output FE capacitor. In some examples, the electronic device further comprises a transistor-based drive circuit electrically connected to an output node of the output FE capacitor. In some examples, the transistor-based drive circuit is configured to deliver, based on the voltage change at the output FE capacitor, an output signal to an input node of a second device.

A heterogeneous cell array includes a first column of cells and a second column of cells. The first column of cells includes a first cell having a first area and a second cell having the first area. The first cell includes two fin-type field effect transistors having a first number of fins and the second cell includes two fin-type field effect transistors having the first number of fins. The second column of cells includes a third cell having a second area. The third cell is adjacent to the first cell and to the second cell, and the third cell includes two fin-type field effect transistors having a second number of fins. The second area is greater than the first area, and the second number of fins is greater than the first number of fins.

An integrated circuit includes a first active region of a first set of transistors of a first type, a second active region of a second set of transistors of the first type, a third active region of a third set of transistors of the first type, a fourth active region of a fourth set of transistors of the first type and a fifth active region of a fifth set of transistors of a second type. The first, second, fourth and fifth active region have a first width in a second direction, and are on a first level. The third active region is on the first level, and has a second width different from the first width. The second active region is adjacent to the first boundary, and is separated from the first active region in the second direction. The fourth active region is adjacent to the second boundary.

An IC includes first-third power rails. The first-third power rails are located along corresponding first-third centerlines spaced apart by the same distance. A plurality of first logic cells is in first and second width that is an integer multiple of a unit width and a first semiconductor structure that includes multiple transistors. For each first logic cell in the first row, the first semiconductor structure is located entirely between the first and second centerlines. For each first logic cell in the second row, the first semiconductor structure is located entirely between the first and third centerlines. A multi-height logic cell includes a second height that is greater than the first height, and a second width that is at least the unit width. The second semiconductor structure includes at least two transistors. The second semiconductor structure is partially between the first and second centerlines and between the first and third centerlines.

An IC includes first-third power rails over a semiconductor substrate. The first rail has a first polarity different from the second and third rails. The IC includes multiple first cells on the semiconductor substrate in first and second rows. The first row is separated from the second row by the first power rail. Each first cell includes a first height and a first structure having at least one transistor. For each first cell in the first row, the first structure is entirely between the first and second rails. Further, for each first cell in the second row, the first structure is between the first and third rails. The IC includes an extension cell arranged on the semiconductor substrate in the first row. The extension cell includes a second structure having at least one transistor. A portion of the second structure extends into the second row.

A semiconductor integrated circuit includes a first power line to which a first voltage is continuously applied, a second power line, a power switch cell connected to the first power line and configured to output a second voltage to the second power line according to a first signal, a logic circuit driven by the second voltage applied via the second power line, a first circuit driven by the second voltage applied via the second power line and configured to output a third voltage to logic circuit according to a second signal which is an inverted signal of the first signal, and a second circuit driven by the second voltage applied via the second power line and configured to output a fourth voltage to logic circuit according to a third signal which is an inverted signal of the second signal, the fourth voltage being lower than the third voltage.