Abstract: A method and apparatus for processing substrates using a multi-chamber processing system, or cluster tool, that has an increased system throughput, increased system reliability, improved device yield performance, a more repeatable wafer processing history (or wafer history), and a reduced footprint. The various embodiments of the cluster tool may utilize two or more robots that are configured in a parallel processing configuration to transfer substrates between the various processing chambers retained in the processing racks so that a desired processing sequence can be performed on the substrates. In one aspect, the parallel processing configuration contains two or more robot assemblies that are adapted to move in a vertical and horizontal directions, to access the various processing chambers retained in generally adjacently positioned processing racks.

Abstract: The invention provides apparatus and manufacturing methods for a liner adapted to enclose a space within a substrate carrier and further adapted to prevent gas from reaching the enclosed space. The liner may be removable from the substrate carrier. The liner may be self-supporting and/or the liner may be supported by interior walls of the substrate carrier. The liner may be adapted to absorb particles to prevent contamination of substrates stored in the substrate carrier. The liner may be an interior glass coating in a substrate carrier that prevents outgassing from the substrate carrier. Numerous other aspects are disclosed.

Abstract: In a first aspect, a first mainframe is provided for use during semiconductor device manufacturing. The first mainframe includes (1) a sidewall that defines a central transfer region adapted to house a robot; (2) a plurality of facets formed on the sidewall, each adapted to couple to a process chamber; and (3) an extended facet formed on the sidewall that allows the mainframe to be coupled to at least four full-sized process chambers while providing service access to the mainframe. Numerous other aspects are provided.

Abstract: A vision system and method for calibrating motion of a robot disposed in a processing system is provided. In one embodiment, a vision system for a processing system includes a camera and a calibration wafer that are positioned in a processing system. The camera is positioned on the robot and is adapted to obtain image data of the calibration wafer disposed in a predefined location within the processing system. The image data is utilized to calibrate the robots motion.

Abstract: A method of forming an integrated circuit using an amorphous carbon film. The amorphous carbon film is formed by thermally decomposing a gas mixture comprising a hydrocarbon compound and an inert gas. The amorphous carbon film is compatible with integrated circuit fabrication processes. In one integrated circuit fabrication process, the amorphous carbon film is used as a hardmask. In another integrated circuit fabrication process, the amorphous carbon film is an anti-reflective coating (ARC) for deep ultraviolet (DUV) lithography. In yet another integrated circuit fabrication process, a multi-layer amorphous carbon anti-reflective coating is used for DUV lithography.

Abstract: Composition and methods for enhancing oligonucleotide-directed nucleic acid sequence alteration in vivo, ex vivo and in vitro are presented. These methods and compositions involve cells and cell-free extracts with altered levels or activities of a protein from the RAD52 epistasis group, the mismatch repair group and/or the excision repair group.

Abstract: A method of forming an integrated circuit using an amorphous carbon film. The amorphous carbon film is formed by thermally decomposing a gas mixture comprising a hydrocarbon compound and an inert gas. The amorphous carbon film is compatible with integrated circuit fabrication processes. In one integrated circuit fabrication process, the amorphous carbon film is used as a hardmask. In another integrated circuit fabrication process, the amorphous carbon film is an anti-reflective coating (ARC) for deep ultraviolet (DUV) lithography. In yet another integrated circuit fabrication process, a multi-layer amorphous carbon anti-reflective coating is used for DUV lithography.

Abstract: The present invention provides systems, methods, and apparatus for use with a substrate carrier. The invention provides a door opener adapted to employ a vacuum source to collapse an inflatable seal of a door of the substrate carrier. By collapsing the inflatable seal, the door is released from the body of the substrate carrier so that substrates may be removed and/or inserted into the carrier. A second vacuum source may be applied to the door to hold it securely to the door opener. Numerous other aspects of the invention are disclosed.

Abstract: In one aspect, a first apparatus is provided that is adapted to transfer a substrate between a transfer chamber and a processing chamber. The first apparatus includes a robot having a first blade, a second blade spaced from the first blade, and a central hub coupled to the first blade by at least a first arm and coupled to the second blade by at least a second arm. The first blade and the second blade are spaced so as to allow (a) both blades to simultaneously extend through a slit valve that separates a transfer chamber from a processing chamber coupled to the transfer chamber when the robot is positioned within the transfer chamber; and (b) the first and second blades to transfer substrates to and remove substrates from the processing chamber without raising or lowering the first and second blades or the robot. Numerous other aspects are provided.

Abstract: A break-away mounting system for a continuous-motion, high-speed position conveyor system is disclosed. A support cradle may be suspended from a conveyor belt such that the support cradle maintains a fixed position and orientation relative to at least one point on the conveyor belt without inducing appreciable stress on the conveyor belt, the support cradle, or the coupling between the conveyor belt and the support cradle. The mount may include a leading rotatable bearing attached to the support cradle which may releasably engage a first key attached to the conveyor belt, the rotatable bearing adapted to accommodate rotational forces applied to the support cradle by the conveyor belt. The mount may also include a slide bearing attached to the support cradle which may releasably engage a second key attached to the conveyor belt, the slide bearing adapted to accommodate longitudinal forces applied to the support cradle by the conveyor belt.

Abstract: A break-away mounting system for a continuous-motion, high-speed position conveyor system is disclosed. A support cradle may be suspended from a conveyor belt such that the support cradle maintains a fixed position and orientation relative to at least one point on the conveyor belt without inducing appreciable stress on the conveyor belt, the support cradle, or the coupling between the conveyor belt and the support cradle. The mount may include a leading rotatable bearing attached to the support cradle which may releasably engage a first key attached to the conveyor belt, the rotatable bearing adapted to accommodate rotational forces applied to the support cradle by the conveyor belt. The mount may also include a slide bearing attached to the support cradle which may releasably engage a second key attached to the conveyor belt, the slide bearing adapted to accommodate longitudinal forces applied to the support cradle by the conveyor belt.

Abstract: A vision system and method for calibrating motion of a robot disposed in a processing system is provided. In one embodiment, a vision system for a processing system includes a camera and a calibration wafer that are positioned in a processing system. The camera is positioned on the robot and is adapted to obtain image data of the calibration wafer disposed in a predefined location within the processing system. The image data is utilized to calibrate the robots motion.

Abstract: A break-away mounting system for a continuous-motion, high-speed position conveyor system is disclosed. A support cradle may be suspended from a conveyor belt such that the support cradle maintains a fixed position and orientation relative to at least one point on the conveyor belt without inducing appreciable stress on the conveyor belt, the support cradle, or the coupling between the conveyor belt and the support cradle. The mount may include a leading rotatable bearing attached to the support cradle which may releasably engage a first key attached to the conveyor belt, the rotatable bearing adapted to accommodate rotational forces applied to the support cradle by the conveyor belt. The mount may also include a slide bearing attached to the support cradle which may releasably engage a second key attached to the conveyor belt, the slide bearing adapted to accommodate longitudinal forces applied to the support cradle by the conveyor belt.

Abstract: In a first aspect, a substrate loading station is served by a conveyor which continuously transports substrate carriers. A substrate carrier handler that is part of the substrate loading station operates to exchange substrate carriers with the conveyor while the conveyor is in motion. A carrier exchange procedure may include moving an end effector of the substrate carrier handler at a velocity that substantially matches a velocity of the conveyor. Numerous other aspects are provided.

Abstract: Imidazoquinoline compounds with an alkoxy substituent at the 6, 7, 8, or 9-position, pharmaceutical compositions containing the compounds, intermediates, methods of making, and methods of use of these compounds as immunomodulators, for inducing or inhibiting cytokine biosynthesis in animals and in the treatment of diseases including viral, and neoplastic, are disclosed.

Abstract: In a semiconductor fabrication facility, a conveyor transports substrate carriers. The substrate carriers are unloaded from the conveyor and loaded onto the conveyor without stopping the conveyor. A load and/or unload mechanism lifts the substrate carriers from the conveyor during unloading operations, while matching the horizontal speed of the conveyor. Similarly, during loading operations, the load/unload mechanism lowers a substrate carrier into engagement with the conveyor while matching the horizontal speed of the conveyor. Individual substrates, without carriers, may be similarly loaded and/or unloaded from a conveyor.

Abstract: In a first aspect, a method of managing work in progress within a small lot size semiconductor device manufacturing facility is provided. The first method includes providing a small lot size semiconductor device manufacturing facility having (1) a plurality of processing tools; and (2) a high speed transport system adapted to transport small lot size substrate carriers among the processing tools. The method further includes maintaining a predetermined work in progress level within the small lot size semiconductor device manufacturing facility by (1) increasing an average cycle time of low priority substrates within the small lot size semiconductor device manufacturing facility; and (2) decreasing an average cycle time of high priority substrates within the small lot size semiconductor device manufacturing facility so as to approximately maintain the predetermined work in progress level within the small lot size semiconductor device manufacturing facility. Numerous other aspects are provided.

Abstract: Systems, methods and apparatus are provided for a conveyor-to-conveyor transfer station that includes a track having a drive mechanism, a control system coupled to the drive mechanism, and a plurality of transport lift assemblies. Each of the transport lift assemblies are adapted to be individually controlled, travel on the track, remove at least one carrier from a first conveyor, and mount the carrier onto a second conveyor.

Abstract: A band to band transfer module according to the present invention may be used with a substrate carrier transport system, or other systems, to transfer substrate carriers (e.g., small lot substrate carriers) from one conveyor to another conveyor or between two points on the same conveyor. The transfers (e.g., pick and place) of the substrate carriers may be made between conveyors traveling at different speeds. Numerous other aspects and features are disclosed.

Abstract: A first substrate carrier is provided that includes a body adapted to store one or more substrates; and either (1) a bottom surface having one or more coupling features that extend into a storage region of the body or (2) coupling features that extend alongside the body, so that the substrate carrier's overall height is not increased by the entire height of the coupling feature. Numerous other aspects are provided.