Abstract: An integrated circuit and method of fabricating the integrated circuit. The integrated circuit, including: one or more power distribution networks; one or more ground distribution networks; one or more data networks; and fuses temporarily and electrically connecting power, ground or data wires of the same or different networks together, the same or different networks selected from the group consisting of the one or more power distribution networks, the one or more ground distribution networks, the one or more data networks, and combinations thereof.

Abstract: A cluster tool is provided for the implementing of a clustered and integrated surface pre-cleaning of the surface of semiconductor devices. More particularly, there is provided a cluster tool and a method of utilization thereof in an integrated semiconductor device surface pre-cleaning, which is directed towards a manufacturing aspect in which a chamber for performing a dry processing chemical oxide removal (COR) on the semiconductor device surface is clustered with other tools, such as a metal deposition tool for silicide or contact formation, including the provision of a vacuum transfer module in the cluster tool.

Abstract: A semiconducting structure and a method of forming thereof, includes a substrate having a p-type device region and an n-type device region; a first-type suicide contact to the n-type device region; the first-type suicide having a work function that is substantially aligned to the n-type device region conduction band; and a second-type silicide contact to the p-type device region; the second-type silicide having a work function that is substantially aligned to the p-type device region valence band. The present invention also provides a semiconducting structure and a method of forming therefore, in which the silicide contact material and silicide contact processing conditions are selected to provide strain based device improvements in pFET and nFET devices.

Abstract: A method of fabricating polysilicon lines and polysilicon gates, the method of including: providing a substrate; forming a dielectric layer on a top surface of the substrate; forming a polysilicon layer on a top surface of the dielectric layer; implanting the polysilicon layer with N-dopant species, the N-dopant species about contained within the polysilicon layer; implanting the polysilicon layer with a nitrogen containing species, the nitrogen containing species essentially contained within the polysilicon layer.

Abstract: The present invention comprises a plurality of FETs (211, 212, 213, 214, 215, 216, 217) comprising an operational amplifier with additional FETs (218, 219, 220,221) arranged as current mirrors, and a sense FET (101), wherein a current sensed at FET (101) is amplified, compared to a reference signal, the difference current derived from the amplified sense current and reference signal being amplified and provided at an output for use in control applications.