Patent application number | Description | Published |
20140282743 | SHOPPABLE VIDEO - Techniques for facilitating shopping for items shown or used in a video are described. For example, a user interface that includes a video and one or more images is presented. Each of the one or more images may be related to a content of the video. Each of the one or more images may include a plurality of selectable sub-areas. A selection of a sub-area of the plurality of sub-areas of an image of the one or more images is received. The selection of the sub-area may indicate a request to perform an action that pertains to the content of the video. The action is identified based on the selection of the sub-area. The action is performed in response to the selection of the sub-area. | 09-18-2014 |
20150032548 | SYSTEM AND METHOD FOR ENHANCING OEM PARTS SHOPPING - A system and method for enhancing OEM parts shopping are provided. In example embodiments, a user interface presents a diagram of a product to a user on which the user drills down into to view one or more schematic from the schematics database. A selection of a portion of the product displayed on the user interface is received. A schematic corresponding to the selected portion on the user interface is presented. The schematic indicates selectable items. A selection of an item of the selectable items on the schematic is received. An option to purchase the selected item is presented in response to the selection of the item. | 01-29-2015 |
20150262230 | WEAR TIME AS METRIC OF BUYING INTENT - Example embodiments of the present disclosure include a system comprising a computer-readable storage medium storing at least one program and a computer-implemented method for providing an offer based on a level of buying intent of an individual. Consistent with some embodiments, the method may include monitoring an amount of time an individual wears a particular garment while in a fitting room of a retail store, and determining an interest level of the individual in purchasing the garment based on the amount of time the individual wears the garment. The method may further include generating and provisioning an offer to the individual based on the determined level of intent. | 09-17-2015 |
20150262236 | FOLLOW-UP MESSAGES AFTER IN-STORE SHOPPING - Example embodiments of the present disclosure include a system comprising a computer-readable storage medium storing at least one program and a computer-implemented method for provisioning follow up messages to individuals after an in-store retail shopping experience. Consistent with some embodiments, the method may include identifying an item of interest to an individual while in a retail store. The method may further include detecting the individual leaving the retails store, and in response to the individual leaving the retail store, transmitting a message to a mobile device of the individual to remind the individual of the item of interest. | 09-17-2015 |
20150262280 | SOCIAL FITTING ROOM EXPERIENCE - Example embodiments of the present disclosure include a system comprising a computer-readable storage medium storing at least one program and a computer-implemented method for providing an interactive and social fitting room experience. Consistent with some embodiments, the method may include selecting a target audience to poll for feedback on an image of an individual wearing a garment in a fitting room. The method may further include transmitting the image to a computing device of each member of the target audience, and compiling feedback regarding the image from members of the target audience. The method may further include causing the compiled feedback to be displayed to the individual on an interactive mirror display in the fitting room. | 09-17-2015 |
20150262286 | INTERACTIVE DISPLAYS BASED ON USER INTEREST - Example embodiments of the present disclosure include a system comprising a computer-readable storage medium storing at least one program and a computer-implemented method for providing an interactive graphical user interface (GUI) on an interactive mirror display responsive to user interest. Consistent with some embodiments, the method may include identifying an item of interest to an individual in a retail store and accessing detailed product information for the item from a product database. The method may further include generating the interactive GUI using the detailed product information and causing the interactive GUI to be presented to the individual on the interactive mirror display. | 09-17-2015 |
20150262288 | CUSTOMIZED FITTING ROOM ENVIRONMENT - Example embodiments of the present disclosure include a system comprising a computer-readable storage medium storing at least one program and a computer-implemented method for providing a customized fitting room environment. Consistent with some embodiments, the method may include identifying a garment being brought into a fitting room, and determining a garment type of the garment. The method may further include adjusting one or more environmental settings of the fitting room based on the garment type. Additional aspects of the present disclosure include further adjusting environmental settings based on various combinations of user data and a desired use case of the garment specified by the individual. | 09-17-2015 |
Patent application number | Description | Published |
20140282634 | AUDITED PIPELINED DISTRIBUTED SYSTEM FOR VIDEO ADVERTISEMENT EXCHANGES - Techniques and systems for operating a video ad exchange includes controlling an ad server to receive ad requests from viewer devices, provide ad responses to viewer devices, generate an ad delivery data file that includes information about delivery of ads to the viewer devices, and transfer the ad delivery data file to a distributed computing cloud. The technique further includes controlling an ad data infrastructure mechanism to download the cloud-based ad delivery data file into a local memory, and process the copied ad delivery data file to generate billing data. An ad data infrastructure mechanism receives a configuration file from the ad server, verifies that all items in the configuration file from the ad server were used in the generation of the first billing data, and removes non-verifiable items from the first billing data to generate a final billing data. | 09-18-2014 |
20140282716 | GEO, SEGMENT, UNIQUES DISTRIBUTED COMPUTING SYSTEM - A distributed computing system is configured to compute operational data for a video advertisement delivery system. Cloud-based resource are used to calculate operational parameters such as geographical data, unique advertisement delivery instances and segments of consumers that received the video advertisements. | 09-18-2014 |
20140324603 | COMPACT DATA INTERFACE FOR REAL TIME BIDDING IN DIGITAL VIDEO ADVERTISEMENT SYSTEMS - A digital media advertisement delivery system comprising a real time bidding (RTB) platform and a plurality of bidder computers. The RTB platform is configured to receive an indication of an opportunity to display a digital media advertisement to a consumer, and generating a bid request for auctioning the opportunity to a plurality of bidders, the bid request comprising a plurality of fields including information about the opportunity. The plurality of bidder computers are configured to receive the bid request comprising a first plurality of fields including information about the opportunity, decide, based on the received information in the plurality of fields, whether or not to bid, and send a bid response, when decision is to bid, comprising a second plurality of response fields, at least some of which include information in direct response to the first plurality of fields. | 10-30-2014 |
20150339730 | REAL TIME DEBUGGING IN ONLINE VIDEO ADVERTISEMENT SYSTEM - Techniques for monitoring an online video advertisement system include receiving a request for insertion of an online video advertisement, determining, selectively based on presence of a debug suffix, whether the request includes a debug request, performing a bidding auction to select a winning bid, and sending debug information, in response to the request, upon determination that the request includes the debug request. The debug data includes bid data received during the bidding auction. In one advantageous aspect, the use of hypertext transfer protocol headers to communicate debug information allows for activation and deactivation of the debugging operation transparently, e.g., without changing the underlying application layer workflow. | 11-26-2015 |
Patent application number | Description | Published |
20090047881 | COMBINATORIAL PROCESSING INCLUDING ROTATION AND MOVEMENT WITHIN A REGION - Combinatorial processing including rotation and movement within a region is described, including defining multiple regions of at least one substrate, processing the multiple regions of the at least one substrate in a combinatorial manner, rotating a head in one of the multiple regions to perform the processing, and repositioning the head relative to the one of the multiple regions while rotating the head during the processing. | 02-19-2009 |
20120160173 | Vapor Based Processing System with Purge Mode - Embodiments of the present invention provide vapor deposition tools. In one example, a vapor deposition tool includes housing. A substrate support is positioned within the housing and configured to support a substrate. A backing plate is positioned above the substrate support. A showerhead is positioned between the substrate support and the backing plate and has a plurality of openings therethrough. A fluid trap member is positioned around a periphery of the showerhead. A fluid trap member actuator is coupled to the fluid trap member and configured to move the fluid trap member between first and second positions relative to the backing plate. | 06-28-2012 |
20120160264 | Wet Processing Tool with Site Isolation - Embodiments of the current invention describe a megasonic processing tool. A substrate support is positioned within a housing and is configured to support a substrate. A first liquid container is moveably coupled to the housing within the testing chamber to be positioned on a first location on the substrate and configured to hold a first body of liquid adjacent to the first location on the substrate. A second liquid container is moveably coupled to the housing within the testing chamber to be positioned on a second location on the substrate and configured to hold a second body of liquid adjacent to the second location on the substrate. The second body of liquid is isolated from the first body of liquid. At least one megasonic transducer is coupled to the housing and configured to perform at least one megasonic process on the first body of liquid and the second body of liquid. | 06-28-2012 |
20120301616 | APPARATUS AND METHOD FOR COMBINATORIAL GAS DISTRIBUTION THROUGH A MULTI-ZONED SHOWERHEAD - A multi-zone, combinatorial, single wafer showerhead is used to concurrently develop hardware, materials, unit processes, and unit process sequences. The multi-zone, combinatorial, single wafer showerhead utilizes showerhead pucks to perform process sequences on isolated regions of a single substrate. The showerhead pucks are designed so that they are easily interchangeable to allow the characterization of the interaction between hardware characteristics, process parameters, and their influence on the result of the process sequence. | 11-29-2012 |
20120315396 | APPARATUS AND METHOD FOR COMBINATORIAL PLASMA DISTRIBUTION THROUGH A MULTI-ZONED SHOWERHEAD - A multi-zone, combinatorial, single wafer showerhead is used to concurrently develop hardware, materials, unit processes, and unit process sequences. The multi-zone, combinatorial, single wafer showerhead utilizes showerhead pucks to perform process sequences on isolated regions of a single substrate. The showerhead pucks are designed so that they are easily interchangeable to allow the characterization of the interaction between hardware characteristics, process parameters, and their influence on the result of the process sequence. | 12-13-2012 |
Patent application number | Description | Published |
20080230092 | METHOD AND APPARATUS FOR SINGLE-SUBSTRATE CLEANING - A single-substrate cleaning apparatus and method of use are described. In an embodiment of the present invention, a liquid cleaning solution is dispensed in small volumes to form a substantially uniform static liquid layer over a substrate surface by atomizing the viscous liquid with an inert gas in a two-phase nozzle. In another embodiment of the present invention, after a layer of the cleaning solution is formed over the substrate to be cleaned, acoustic energy is applied to the substrate to improve the cleaning efficiency. In a further embodiment, cleaning solution precipitates are avoided by dispensing de-ionized water with a spray nozzle to gradually dilute the cleaning solution prior to dispensing de-ionized water with a stream nozzle. | 09-25-2008 |
20110065284 | Method and System for Isolated and Discretized Process Sequence Integration - A system for processing a semiconductor substrate is provided. The system includes a mainframe having a plurality of modules attached thereto. The modules include processing modules, storage modules, and transport mechanisms. The processing modules may include combinatorial processing modules and conventional processing modules, such as surface preparation, thermal treatment, etch and deposition modules. In one embodiment, at least one of the modules stores multiple masks. The multiple masks enable in-situ variation of spatial location and geometry across a sequence of processes and/or multiple layers of a substrate to be processed in another one of the modules. A method for processing a substrate is also provided. | 03-17-2011 |
20120322173 | METHOD AND SYSTEM FOR ISOLATED AND DISCRETIZED PROCESS SEQUENCE INTEGRATION/US - A system for processing a semiconductor substrate is provided. The system includes a mainframe having a plurality of modules attached thereto. The modules include processing modules, storage modules, and transport mechanisms. The processing modules may include combinatorial processing modules and conventional processing modules, such as surface preparation, thermal treatment, etch and deposition modules. In one embodiment, at least one of the modules stores multiple masks. The multiple masks enable in-situ variation of spatial location and geometry across a sequence of processes and/or multiple layers of a substrate to be processed in another one of the modules. A method for processing a substrate is also provided. | 12-20-2012 |
20140147587 | Combinatorial Spin Deposition - A spin deposition apparatus includes a deposition mask configured to be arranged proximate a target substrate. The deposition mask includes at least one fluid reservoir offset from a rotational axis of the deposition mask and configured to hold fluid for dispersal on a portion of a surface of the target substrate. | 05-29-2014 |
20140166840 | Substrate Carrier - A substrate carrier is provided. The substrate carrier includes a base for supporting a substrate. A plurality of support tabs is affixed to a surface of the base. The plurality of support tabs have a cavity defined within an inner region of each support tab of the plurality of support tabs. A plurality of protrusions extends from the surface of the base, wherein one of the plurality of protrusions mates with one cavity to support one of the plurality of support tabs. A film is deposited over the surface of the base, surfaces of the plurality of support tabs and surfaces of the plurality of protrusions. | 06-19-2014 |
20140318450 | Method and System for Isolated and Discretized Process Sequence Integration - A system for processing a semiconductor substrate is provided. The system includes a mainframe having a plurality of modules attached thereto. The modules include processing modules, storage modules, and transport mechanisms. The processing modules may include combinatorial processing modules and conventional processing modules, such as surface preparation, thermal treatment, etch and deposition modules. In one embodiment, at least one of the modules stores multiple masks. The multiple masks enable in-situ variation of spatial location and geometry across a sequence of processes and/or multiple layers of a substrate to be processed in another one of the modules. A method for processing a substrate is also provided. | 10-30-2014 |
Patent application number | Description | Published |
20090164455 | SYSTEM AND METHOD FOR PERFORMING UNICODE MATCHING - System and method for performing Unicode matching for comparing and merging similar data objects having Unicode strings that are equivalent yet not exact matches. Unicode characters are characterized by number of strokes, stroke order, radicals, geometry, phonemes in association with input method editor and keyboard characteristics such as location of a character on an IME or keyboard (or number of GUI interface interactions used in entering the character, e.g., via tapping where “a” on a mobile device keyboard takes 1 tap of a key, “b” takes 2 taps). These characteristics associated with code points and IME's/keyboards are utilized to create subdomains for matching and determining “distance” to other Unicode code points (e.g., number of keyboard keys away). Allows for determining whether close, yet incorrect data entry may have taken place. Enables merging of duplicate data objects into master data object where minor differences or spelling errors introduce actually represent duplicate data. | 06-25-2009 |
20100332501 | SYSTEM AND METHOD FOR ON-DEMAND INDEXING - A system and method for on-demand indexing in a data management system is described. An index is generated when it is requested, such as when a database operation requires access to the index. If the index is loaded in memory, the index is retrieved from memory. Otherwise, the index is generated on-demand. A priority configuration identifies at least one priority index which is generated and loaded in memory. The priority configuration can identify priority indexes either directly or indirectly, such as by a threshold parameter. | 12-30-2010 |
20110106777 | SYSTEM AND METHOD FOR AUTOMATION OF CONSISTENT LOCK MANAGEMENT - A system and method for automation of consistent lock management, wherein a shared resource is accessed through an accessor object. An accessor object class includes at least one const read access function and one write access function. A const accessor object is received for read-only access of a shared resource. The compiler is enlisted to enforce lock selection. | 05-05-2011 |
Patent application number | Description | Published |
20080295962 | METHOD AND SYSTEM FOR MASK HANDLING IN HIGH PRODUCTIVITY CHAMBER - A structure for independently supporting a wafer and a mask in a processing chamber is provided. The structure includes a set of extensions for supporting the wafer and a set of extensions supporting the mask. The set of extensions for the wafer and the set of extensions for the mask enable independent movement of the wafer and the mask. In one embodiment, the extensions are affixed to an annular ring which is capable of moving in a vertical direction within the processing chamber. A processing chamber, a mask, and a method for combinatorially processing a substrate are also provided. | 12-04-2008 |
20090061087 | COMBINATORIAL PROCESS SYSTEM - A combinatorial processing chamber is provided. The combinatorial processing chamber is configured to isolate a radial portion of a rotatable substrate support, which in turn is configured to support a substrate. The chamber includes a plurality of clusters process heads in one embodiment. An insert having a base plate disposed between the substrate support and the process heads defines a confinement region for a deposition process in one embodiment. The base plate has an opening to enable access of the deposition material to the substrate. Through rotation of the substrate and movement of the opening, multiple regions of the substrate are accessible for performing combinatorial processing on a single substrate. | 03-05-2009 |
20090061108 | COMBINATORIAL PROCESS SYSTEM - A combinatorial processing chamber is provided. The combinatorial processing chamber is configured to isolate a radial portion of a rotatable substrate support, which in turn is configured to support a substrate. The chamber includes a plurality of clusters process heads in one embodiment. An insert having a base plate disposed between the substrate support and the process heads defines a confinement region for a deposition process in one embodiment. The base plate has an opening to enable access of the deposition material to the substrate. Through rotation of the substrate and movement of the opening, multiple regions of the substrate are accessible for performing combinatorial processing on a single substrate. | 03-05-2009 |
20090068849 | MULTI-REGION PROCESSING SYSTEM AND HEADS - The various embodiments of the invention provide for relative movement of the substrate and a process head to access the entire wafer in a minimal space to conduct combinatorial processing on various regions of the substrate. The heads enable site isolated processing within the chamber described and method of using the same are described. | 03-12-2009 |
20090069924 | COMBINATORIAL PROCESS SYSTEM - A combinatorial processing chamber is provided. The combinatorial processing chamber is configured to isolate a radial portion of a rotatable substrate support, which in turn is configured to support a substrate. The chamber includes a plurality of clusters process heads in one embodiment. An insert having a base plate disposed between the substrate support and the process heads defines a confinement region for a deposition process in one embodiment. The base plate has an opening to enable access of the deposition material to the substrate. Through rotation of the substrate and movement of the opening, multiple regions of the substrate are accessible for performing combinatorial processing on a single substrate. | 03-12-2009 |
20110209663 | Multi-Region Processing System and Heads - The various embodiments of the invention provide for relative movement of the substrate and a process head to access the entire wafer in a minimal space to conduct combinatorial processing on various regions of the substrate. The heads enable site isolated processing within the chamber described and method of using the same are described. | 09-01-2011 |
20110262644 | METHOD AND SYSTEM FOR MASK HANDLING IN HIGH PRODUCTIVITY CHAMBER - A structure for independently supporting a wafer and a mask in a processing chamber is provided. The structure includes a set of extensions for supporting the wafer and a set of extensions supporting the mask. The set of extensions for the wafer and the set of extensions for the mask enable independent movement of the wafer and the mask. In one embodiment, the extensions are affixed to an annular ring which is capable of moving in a vertical direction within the processing chamber. A processing chamber, a mask, and a method for combinatorially processing a substrate are also provided. | 10-27-2011 |
20120142197 | COMBINATORIAL PROCESS SYSTEM - A combinatorial processing chamber is provided. The combinatorial processing chamber is configured to isolate a radial portion of a rotatable substrate support, which in turn is configured to support a substrate. The chamber includes a plurality of clusters process heads in one embodiment. An insert having a base plate disposed between the substrate support and the process heads defines a confinement region for a deposition process in one embodiment. The base plate has an opening to enable access of the deposition material to the substrate. Through rotation of the substrate and movement of the opening, multiple regions of the substrate are accessible for performing combinatorial processing on a single substrate. | 06-07-2012 |
20120149180 | COMBINATORIAL PROCESS SYSTEM - A combinatorial processing chamber is provided. The combinatorial processing chamber is configured to isolate a radial portion of a rotatable substrate support, which in turn is configured to support a substrate. The chamber includes a plurality of clusters process heads in one embodiment. An insert having a base plate disposed between the substrate support and the process heads defines a confinement region for a deposition process in one embodiment. The base plate has an opening to enable access of the deposition material to the substrate. Through rotation of the substrate and movement of the opening, multiple regions of the substrate are accessible for performing combinatorial processing on a single substrate. | 06-14-2012 |
20130042810 | Method and System for Mask Handling in High Productivity Chamber - A structure for independently supporting a wafer and a mask in a processing chamber is provided. The structure includes a set of extensions for supporting the wafer and a set of extensions supporting the mask. The set of extensions for the wafer and the set of extensions for the mask enable independent movement of the wafer and the mask. In one embodiment, the extensions are affixed to an annular ring which is capable of moving in a vertical direction within the processing chamber. A processing chamber, a mask, and a method for combinatorially processing a substrate are also provided. | 02-21-2013 |
20140311408 | Multi-Region Processing System and Heads - The various embodiments of the invention provide for relative movement of the substrate and a process head to access the entire wafer in a minimal space to conduct combinatorial processing on various regions of the substrate. The heads enable site isolated processing within the chamber described and method of using the same are described. | 10-23-2014 |
20150093898 | Combinatorial Process System - A combinatorial processing chamber is provided. The combinatorial processing chamber is configured to isolate a radial portion of a rotatable substrate support, which in turn is configured to support a substrate. The chamber includes a plurality of clusters process heads in one embodiment. An insert having a base plate disposed between the substrate support and the process heads defines a confinement region for a deposition process in one embodiment. The base plate has an opening to enable access of the deposition material to the substrate. Through rotation of the substrate and movement of the opening, multiple regions of the substrate are accessible for performing combinatorial processing on a single substrate. | 04-02-2015 |