Abstract: The present invention is a method and apparatus for applying proximity correction to a piece of a mask pattern, by segmenting the piece into a plurality of segments, and applying proximity correction to a first segment without taking into consideration the other segments of the piece.

Abstract: An integrated circuit structure is provided with a local interconnect layer and a first metal interconnect layer which are both capable of bridging over underlying conductive regions. The structure comprises a first dielectric layer formed to a height or thickness equal to or preferably exceeding the height of the highest conductive regions of the underlying integrated circuit devices; a second dielectric layer formed above the first dielectric layer; one or more local interconnects formed in the second dielectric layer; and a thin third dielectric layer formed over the second dielectric layer and the local interconnects therein. The thin third dielectric layer has a thickness not exceeding about 2000 Å, and preferably ranging from about 1000 Å to about 1500 Å. A first layer of metal interconnects is formed over the thin third dielectric layer.

Abstract: An integrated circuit structure is provided with a local interconnect layer and a first metal interconnect layer which are both capable of bridging over underlying conductive regions. The structure comprises a first dielectric layer formed to a height or thickness equal to or preferably exceeding the height of the highest conductive regions of the underlying integrated circuit devices; a second dielectric layer formed above the first dielectric layer; one or more local interconnects formed in the second dielectric layer; and a thin third dielectric layer formed over the second dielectric layer and the local interconnects therein. The thin third dielectric layer has a thickness not exceeding about 2000 Å, and preferably ranging from about 1000 Å to about 1500 Å. A first layer of metal interconnects is formed over the thin third dielectric layer.

Abstract: An E-beam generator and detector arrangement sends an electron beam through a series of differentially evacuated vacuum chambers of small size to detect faulty circuitry in individual semiconductor devices. The vacuum chambers are open to one end and are sealed by the semiconductor device without contacting the vacuum chambers. A laser generator is operated by a control system with the E-beam generator and detector arrangement to provide a laser beam in a known physical relationship to the electron beam to correct detected faulty circuitry in the semiconductor devices. The E-beam generator and detector arrangement confirms the correction without further handling of the semiconductor device.

Abstract: The present invention is a method and apparatus for applying one-dimensional proximity correction to a piece of a mask pattern, by segmenting a first piece of a mask pattern with horizontal dividing lines into a plurality of segments, segmenting a second piece of said mask pattern with said horizontal dividing lines into a second plurality of segments, and applying proximity correction to a first segment from said first plurality of segments taking into consideration a second segment from said second plurality of segments.

Abstract: The present invention is a method and apparatus for systematically applying proximity corrections to a mask pattern, wherein the pattern is divided into a grid of equally sized grid rectangles, an inner rectangle comprising a plurality of grid rectangles is formed, an outer rectangle comprising a second plurality of grid rectangles and the inner rectangle is formed and proximity correction is applied to the pattern contained within the inner rectangle as a function of the pattern contained within the outer rectangle.

Abstract: An E-beam generator and detector arrangement sends an electron beam through a series of differentially evacuated vacuum chambers of small size to detect faulty circuitry in individual semiconductor devices. The vacuum chambers are open to one end and are sealed by the semiconductor device without contacting the vacuum chambers. A laser generator is operated by a control system with the E-beam generator and detector arrangement to provide a laser beam in a known physical relationship to the electron beam to correct detected faulty circuitry in the semiconductor devices. The E-beam generator and detector arrangement confirms the correction without further handling of the semiconductor device.

Abstract: A thermally stable inter-metal dielectric for interlayer dielectric material has enhanced adhesiveness by introduction of an adhesive material. The adhesive material may reside only at the interface of the inter-metal dielectric or interlayer dielectric with adjacent metalization and polysilicon layers. A disclosed thermally stable intermetal dielectric is a fluorinated polymer such as polyfluoropyreline. A disclosed adhesive material is a highly polar material such as a thiofluorocarbon. These materials may be deposited by chemical vapor deposition by first activating fluoropyreline monomer and di(thiodifluoromethane) in a heated activation chamber to convert them to a form suitably reactive to form a polymeric dielectric on a wafer surface.

Abstract: A corrosion inhibiting cleaning process for removing etch-residue from an integrated circuit substrate is described. The corrosion inhibiting cleaning process includes: (1) obtaining an integrated circuit substrate that has undergone etching; and (2) cleaning the integrated circuit substrate using a post-etch cleaning solution including a corrosion inhibiting agent in a sufficient concentration to effectively inhibit corrosion of the integrated circuit substrate.

Abstract: Electronic system utilizing semiconductor devices having heat dissipating leadframes are provided by using materials, such as copper, which exhibit good thermal and electrical conductivity, and arranging the lead fingers of the leadframe in a configuration which provides good thermal coupling with the surface of a semiconductor die. Micro-bump bonding techniques are employed to provide additional thermal coupling at the electrical connection point of the leadframe fingers to the die. Leadframe fingers exhibiting a high aspect ratio (height:width) are described. Leadframe fingers extending substantially beyond interior bond pads are described.

Abstract: A process of inhibiting a corrosion of metal plugs formed in integrated circuits is described. The corrosion inhibiting process includes providing a partially fabricated integrated circuit surface including the metal plugs on a polishing pad to carry out chemical-mechanical polishing, introducing slurry including a corrosion inhibiting compound on the polishing pad in sufficient concentration to inhibit corrosion of the metal plugs of the partially fabricated integrated circuit surface, and polishing the partially fabricated integrated circuit surface.

Abstract: Described is an improvement in a process wherein integrated circuit structures are formed on a front surface of a silicon substrate and at least one layer of copper is deposited on the front surface of the substrate to form a layer of copper interconnects, and wherein at least some copper is also deposited on the back surface of the substrate during this deposition. The improvement comprises: prior to the end of the formation of the integrated circuit structures, abrasively removing, from the backside of the substrate, copper deposited thereon during the deposition of copper on the front surface.

Abstract: The present invention provides for novel off-axis illuminator lens masks for semiconductor photolithographic projection systems. The masks are rotationally symmetric along axes 60.degree. or 120.degree. apart. Such masks can increase the contrast 30.degree. and 60.degree. with respect to the X and Y axes of an integrated circuit in a semiconductor wafer for the optimum printing of conducting lines along these directions.

Abstract: An optical system is provided with an adaptable window element at a Fourier plane for spatial filtering. Having a window element made up of individually addressable pixels provides a substantial improvement in the spatial filtering adaptability and precision. When combined with a computer and sensor, the window may become part of a negative feedback loop, thereby providing the optical system with more consistent reproducibility, higher reliability with graceful degradation, and more precise control over final results.

Abstract: A transistor gate array includes an active transistor region (50a-50n) of transistor gates all oriented in a single direction. Surrounding the active transistor region on all four sides are input/output regions (52a-52d) each containing a row of input/output transistors. All of the I/O devices on all sides of the array are oriented in the same common direction, which is the same direction as the orientation of the active transistor in the active region. This arrangement allows the use of the benefits of high angle ion implantation with fewer ion implant steps. Where some of the transistors are oriented at right angles to others, as in the prior art, four separate directions of high angle ion implantation are required to avoid degradation of electrical properties. With all transistors, including those of the gate array and those of the input/output devices, all oriented in the same direction, only two directions high angle ion implantation are required.

Abstract: An apparatus and method wherein conductive patterns are written in amorphous silicon or polysilicon deposited on an integrated circuit and used for interconnecting circuit elements contained therein. The substantially pure amorphous silicon or polysilicon is deposited onto an integrated circuit face at low temperature. A Focused Ion Beam deposition system deposits dopant atoms into the deposited pure silicon in a desired pattern. The dopant atoms are then activated by heat from a focused laser beam which adiabatically anneals the specifically doped areas of the deposited silicon. The resulting annealed doped areas of the silicon have low resistance suitable for circuit conductors. The surrounding undoped silicon remains a high resistance and a good insulator.

Abstract: Methods of planarizing one or more layers having an irregular top surface topology in a semiconductor device based on an underlying MOS structure are disclosed. Methods of creating doped wells or regions for the underlying MOS structure are also disclosed, using thick oxide growths on the surface of the substrate to mask implantation of ions into the wells. A technique for creating a pair of adjacent complementary oppositely-doped wells, such as for a CMOS structure, using a thick oxide growths as a mask is also disclosed. One of the methods of planarizing the one or more layers involves depositing, densifying and re-flowing a layer of glass on top of the topological layer. Another method of planarizing the one or more layers involves depositing, densifying and chemical-mechanically polishing the deposited and densified glass, thereby avoiding an additional temperature cycle (i.e., for re-flowing the glass) which would adversely affect underlying diffusions.

Abstract: A process for manufacturing a modular multi-pin package for an integrated circuit die is formed of standardized parts and a redesigned, integrated circuit specific circuit substrate possessing a design pattern for providing electrical connection between die pads and output pins. The substrate includes a pattern of electrically conductive traces each terminating in a die pattern at an interior portion of the substrate and terminating in a pattern of pin connecting pads at a peripheral portion of the substrate. A pin holding frame is formed with a plurality of holes in which are inserted a selected number and pattern of package terminal pins, each having a shank protruding outwardly from the pin holder for connection to external circuits or components and each having an inner head pressed against one of the pin connecting pads of the substrate circuit traces.

Abstract: A method of providing etched alignment marks on a semiconductor workpiece that has a substantially planar surface, such as one that has been polished, for supporting accurate alignment of the workpiece in subsequent process operations. The surface of the semiconductor workpiece includes two layers of materials that abut at the workpiece surface. For example, the workpiece may include a layer of insulative material such as silicon dioxide forming several vias and a layer of conductive material such as tungsten forming plugs in the vias. The method includes etching the substantially planar surface to reduce a height of one of the materials below the height of the other material. For example, the tungstein plugs can be etched to a height that is below the height of the surrounding silicon dioxide. The location where the silicon dioxide abuts the tungsten produces a small bump. This bump then serves as an alignment mark for subsequent operations.

Abstract: A low dielectric insulation layer for an integrated circuit structure material, and a method of making same, are disclosed. The low dielectric constant insulation layer comprises a porous insulation layer, preferably sandwiched between non-porous upper and lower insulation layers. The presence of some gases such as air or an inert gas, or a vacuum, in the porous insulation material reduces the overall dielectric constant of the insulation material, thereby effectively reducing the capacitance of the structure. The porous insulation layer is formed by a chemical vapor deposition of a mixture of the insulation material and a second extractable material; and then subsequently selectively removing the second extractable material, thereby leaving behind a porous matrix of the insulation material, comprising the low dielectric constant insulation layer.