Implementations disclosed herein may include receiving from a user a selection of at least one die, a package type, and at least one test condition; generating, using a processor, a product die configuration and a product package configuration using a predictive modeling module and the at least one die and the package type; generating a graphic design system file; generating a package bonding diagram; generating a product spice model of the discrete device product using a technology computer aided design module; generating, using a processor, one or more datasheet characteristics of the discrete device product with the product SPICE model; generating a product datasheet for the discrete device product using the graphic design system file; and using a second interface generated by a computing device to provide access to the graphic design system file, the package bonding diagram, the product datasheet, and the product SPICE model.

A method of modifying a layout for an integrated circuit (IC) includes: selecting, in the layout, a circuit region to be scaled; setting a fixed area including a fixed feature in the selected circuit region; and scaling the selected circuit region, without scaling the fixed area including the fixed feature, to obtain a modified layout for the IC.

A semiconductor device comprising first and second unit cells, the first unit cell comprising a first fin pattern extending in a first direction, a first gate pattern extending in a second direction, and a first contact disposed on a side of the first gate pattern contacting the first fin pattern, the second unit cell comprising a second fin pattern extending in the first direction, a second gate pattern extending in the second direction, and a second contact disposed on a side of the second gate pattern contacting the second fin pattern, wherein the first and second gate patterns are spaced apart and lie on a first straight line extending in the second direction, the first and second contacts are spaced apart and lie on a second straight line extending in the second direction, and a first middle contact is disposed on and connects the first and second contacts.

A method of fabricating an integrated circuit. The method includes generating two first-type active zones and two second-type active zones, and generating a gate-strip intersecting the two first-type active zones and the two second-type active zones. The method further includes patterning one or more poly cuts intersecting the gate-strip based on a determination of a difference between the poly extension effect of a p-type transistor and the poly extension effect of an n-type transistor.

A semiconductor integrated circuit design method and apparatus, and relates to the technical field of semiconductors are provided. The semiconductor integrated circuit design method includes: determining, based on an original layout, an original length of an end of a gate structure extending out of an active region in which the gate structure is located; redetermining, based on a preset rule and the original length, a correction length of the end of the gate structure extending out of the active region in which the gate structure is located; and integrating the original layout and the correction lengths, and forming an updated layout.

An integrated circuit (IC) layout design is received that includes a first circuit cell and a second circuit cell abutted to one another. The first circuit cell contains a first IC component, and the second circuit cell contains a second IC component. A determination is made that a distance between the first IC component and the second IC component is less than a predefined threshold when the first circuit cell and the second circuit cell are abutted together. The IC layout design is revised such that the distance between the first IC component and the second IC component is eliminated in the revised IC layout design.

Disclosed embodiments herein relate to an integrated circuit including power switches with active regions connected to form a contiguous region. In one aspect, the integrated circuit includes a first layer including a first metal rail extending in a first direction. In one aspect, the integrated circuit includes a second layer above the first layer along a second direction perpendicular to the first direction. The second layer may include active regions for power switches. In one aspect, the active regions of the power switches are connected to form a contiguous region extending in the first direction. The first metal rail may be electrically coupled to the active regions through via contacts. In one aspect, the integrated circuit includes a third layer above the second layer along the second direction. The third layer may include a second metal rail electrically coupled to some of the power switches through additional via contacts.

A method is provided to increase processor frequency in an integrated circuit (IC). The method includes identifying a gate included in the IC, the gate having a gate threshold voltage and performing a plasma process to form an antenna signal path in signal communication with the gate. The method further comprises adjusting the plasma process or circuit design to increase plasma induced damage (PID) applied to the gate so as to alter the gate threshold voltage.

An integrated circuit layout includes a first standard cell and a second standard cell. The first standard cell includes first gate lines arranged along a first direction and extending along a second direction. The second standard cell abuts to one side of the first standard cell along the second direction and includes second gate lines arranged along the first direction and extending along the second direction. A first gate line width of the first gate lines and a second gate line width of the second gate lines are different. A first cell width of the first standard cell and a second cell width of the second standard cell are integral multiples of a default gate line pitch of the first gate lines and the second gate lines. At least some of the second gate lines and at least some of the first gate lines are aligned along the second direction.

Implementations of a method of designing a module semiconductor product may include receiving a selection of a module type, one or more die, a placement of one or more wires, clips, or pins; and generating, using a processor, a module configuration file. The method may include generating a module bonding diagram using a build diagram system module; selecting one or more SPICE models corresponding with the die; and generating a product SPICE model and a three dimensional model for the module semiconductor product. The method may include generating one or more datasheet characteristics of the module semiconductor product with at least the product SPICE model and the product simulation module, generating a product datasheet for the module semiconductor product using the datasheet formation module, and providing access to at least the module bonding diagram, the product SPICE model, the three dimensional model, and the product datasheet to the user.