Patent application number | Description | Published |
20090013010 | METHOD AND APPROACH TO HOSTING VERSIONED WEB SERVICES - A method for hosting versioned web services includes steps of: receiving a request from a service requester, the request comprising version metadata; parsing the request; extracting the version metadata from the parsing step; and locating a target implementation version using the version metadata. If the target implementation version is located, the method proceeds by dynamically routing the versioned request to the target implementation version. | 01-08-2009 |
20090106350 | METHOD AND APPARATUS FOR DYNAMIC WEB SERVICE CLIENT APPLICATION UPDATE - A method for managing a web service client update without recompiling or redeploying of the client code includes the following steps or acts of: receiving a request for the web service from a subscribed client; transmitting the request to the web service; receiving notification of the web service update from a service provider or registry or some other means; parsing the notification and retrieving parameters describing the web service update; marshalling the parameters; determining whether the new web service update is compatible with the current web service invoked by the client application; updating the local service proxy instance with the marshaled parameters if the new web service update is compatible with the current web service invoked by the client application; and transmitting a notification if the web service update is not compatible with the current web service invoked by the client application. | 04-23-2009 |
20090319651 | SYSTEM AND METHOD FOR HOSTING ONE OR MORE VERSIONS OF A SERVICE USING A SERVICE PROXY - A method for hosting one or more versions of a service using a service proxy includes specifying an interface definition of a service which defines and uniquely identifies an interface version for the service, and an implementation definition of the service which uniquely identifies an implementation version for the service; generating one or more service proxies each representing an interface version of a service; providing a proxy configuration that contains entries for a plurality of service implementation versions, wherein each proxy utilizes the proxy configuration to access a certain one or more of the implementation versions which share the same or a compatible interface version of a service, and wherein the proxy configuration contains attributes that include information about each of the implementation versions; and wherein the proxy dynamically selects one of the implementation versions in the proxy configuration to route one or more client service requests to based on the attributes. | 12-24-2009 |
20100185902 | METHOD AND APPROACH TO HOSTING VERSIONED WEB SERVICES - A method for hosting versioned web services includes steps of: receiving a request from a service requestor, the request comprising version metadata; parsing the request; extracting the version metadata from the parsing step; and locating a target implementation version using the version metadata. If the target implementation version is located, the method proceeds by dynamically routing the versioned request to the target implementation version. | 07-22-2010 |
20110071876 | PLANNING AND ORCHESTRATING WORKFLOW INSTANCE MIGRATION - A method and information processing system manage workflow instance migration. An initial workflow process model is compared with a new workflow process model. A set of differences between the initial workflow process model and the new workflow process model are determined. At least one set of activities associated with the initial workflow process model that is migrateable to the new workflow process model is identified based on the set of differences. A migration plan associated with the initial workflow process model and the new workflow process model is generated. The migration plan includes the at least one set of activities associated with the initial workflow process model. The migration plan is then used to evaluate a set of workflow instances associated with the initial workflow process model and migrate one or more of these workflow instances to the new workflow process model based thereon. | 03-24-2011 |
20120303407 | PLANNING AND ORCHESTRATING WORKFLOW INSTANCE MIGRATION - A method and information processing system manage workflow instance migration. A received migration plan indicates a set of workflow migration points associated with an initial workflow process model. The set of workflow migration points is associated with a set of workflow activities of the initial workflow process model. At least one workflow instance is selected from a set of workflow instances. A current migrateability state associated with the selected workflow instance is determined based at least on the set of workflow migration points. Migration of the workflow instance to a new workflow process model is granted in response to determining that the current migrateability state is set to migrateable. Migration of the workflow instance to the new workflow process model is prevented for at least a given amount of time in response to determining that the current migrateability state fails to be set to migrateable. | 11-29-2012 |
20130262915 | SYSTEMS AND METHODS FOR OPEN AND EXTENSIBLE INTEGRATION OF MANAGEMENT DOMAINS IN COMPUTATION AND ORCHESTRATION OF RESOURCE PLACEMENT - An aspect of this invention is a method that includes evaluating a computing environment by performing auditing of a fault tolerance ability of the computing environment to tolerate each of a plurality of failure scenarios; constructing a failover plan for each of the plurality of scenarios; identifying one or more physical resource limitations which constrain the fault tolerance ability; and identifying one or more physical resources to be added to the computing environment to tolerate each of the plurality of failure scenarios. | 10-03-2013 |
Patent application number | Description | Published |
20080206977 | METHODS OF FORMING WIRING TO TRANSISTOR AND RELATED TRANSISTOR - Methods of wiring to a transistor and a related transistor are disclosed. In one embodiment, the method includes a method of forming wiring to a transistor, the method comprising: forming a transistor on a semiconductor-on-insulator (SOI) substrate using masks that are mirror images of an intended layout, the forming including forming a gate and a source/drain region for each and a channel, the SOI substrate including a semiconductor-on-insulator (SOI) layer, a buried insulator layer and a silicon substrate; forming a dielectric layer over the transistor; bonding the dielectric layer to another substrate; removing the silicon substrate from the SOI substrate to the buried insulator layer; forming a contact to each of the source/drain region and the gate from a channel side of the gate; and forming at least one wiring to the contacts on the channel side of the gate. | 08-28-2008 |
20080217782 | METHOD FOR PREPARING 2-DIMENSIONAL SEMICONDUCTOR DEVICES FOR INTEGRATION IN A THIRD DIMENSION - A method which is intended to facilitate and/or simplify the process of fabricating interlayer vias by selective modification of the FEOL film stack on a transfer wafer is provided. Specifically, the present invention provides a method in which two dimensional devices are prepared for subsequent integration in a third dimension at the transition between normal FEOL processes by using an existing interlayer contact mask to define regions in which layers of undesirable dielectrics and metal are selectively removed and refilled with a middle-of-the-line (MOL) compatible dielectric film. As presented, the inventive method is compatible with standard FEOL/MOL integration schemes, and it guarantees a homogeneous dielectric film stack specifically in areas where interlayer contacts are to be formed, thus allowing the option of a straightforward integration path, if desired. | 09-11-2008 |
20100133616 | METHODS OF FORMING WIRING TO TRANSISTOR AND RELATED TRANSISTOR - Methods of wiring to a transistor and a related transistor are disclosed. In one embodiment, the method includes a method of forming wiring to a transistor, the method comprising: forming a transistor on a semiconductor-on-insulator (SOI) substrate using masks that are mirror images of an intended layout, the forming including forming a gate and a source/drain region for each and a channel, the SOI substrate including a semiconductor-on-insulator (SOI) layer, a buried insulator layer and a silicon substrate; forming a dielectric layer over the transistor; bonding the dielectric layer to another substrate; removing the silicon substrate from the SOI substrate to the buried insulator layer; forming a contact to each of the source/drain region and the gate from a channel side of the gate; and forming at least one wiring to the contacts on the channel side of the gate. | 06-03-2010 |
20110109952 | NONVOLATILE NANO-ELECTROMECHANICAL SYSTEM DEVICE - A nonvolatile nano-electromechanical system device is provided and includes a cantilever structure, including a beam having an initial shape, which is supported at one end thereof by a supporting base and a beam deflector, including a phase change material (PCM), disposed on a portion of the beam in a non-slip condition with a material of the beam, the PCM taking one of an amorphous phase or a crystalline phase and deflecting the beam from the initial shape when taking the crystalline phase. | 05-12-2011 |
20110241073 | STRUCTURE FOR SELF-ALIGNED SILICIDE CONTACTS TO AN UPSIDE-DOWN FET BY EPITAXIAL SOURCE AND DRAIN - A method for fabricating an upside-down p-FET includes: fully etching source and drain regions in a donor substrate by etching a silicon-on-insulator layer through buried oxide and partially etching the silicon substrate; refilling a bottom and sidewall surfaces of the etched source and drain regions with epitaxial silicide/germanide to form e-SiGe source and drain regions; capping the source and drain regions with self-aligning silicide/germanide; providing a silicide layer formed over the gate conductor line; providing a first stress liner over the gate and the e-SiGe source and drain regions; depositing a planarized dielectric over the self-aligning silicide/germanide; inverting the donor substrate; bonding the donor substrate to a host wafer; and selectively exposing the buried oxide and the e-SiGe source and drain regions by removing the donor wafer. | 10-06-2011 |
20120179412 | Circuits and Methods for Characterizing Random Variations in Device Characteristics in Semiconductor Integrated Circuits - Circuits for measuring and characterizing random variations in device characteristics of integrated circuit devices. | 07-12-2012 |
20120292677 | FERROELECTRIC SEMICONDUCTOR TRANSISTOR DEVICES HAVING GATE MODULATED CONDUCTIVE LAYER - Ferroelectric semiconductor switching devices are provided, including field effect transistor (FET) devices having gate stack structures formed with a ferroelectric layer disposed between a gate contact and a thin conductive layer (“quantum conductive layer”) . The gate contact and ferroelectric layer serve to modulate an effective work function of the thin conductive layer. The thin conductive layer with the modulated work function is coupled to a semiconductor channel layer to modulate current flow through the semiconductor and achieve a steep sub-threshold slope. | 11-22-2012 |
20120293236 | NONVOLATILE NANO-ELECTROMECHANICAL SYSTEM DEVICE - A nonvolatile nano-electromechanical system device is provided and includes a cantilever structure, including a beam having an initial shape, which is supported at one end thereof by a supporting base and a beam deflector, including a phase change material (PCM), disposed on a portion of the beam in a non-slip condition with a material of the beam, the PCM taking one of an amorphous phase or a crystalline phase and deflecting the beam from the initial shape when taking the crystalline phase. | 11-22-2012 |
20140145264 | METHODS OF FORMING WIRING TO TRANSISTOR AND RELATED TRANSISTOR - Methods of wiring to a transistor and a related transistor are disclosed. In one embodiment, the method includes a method of forming wiring to a transistor, the method comprising: forming a transistor on a semiconductor-on-insulator (SOI) substrate using masks that are mirror images of an intended layout, the forming including forming a gate and a source/drain region for each and a channel, the SOI substrate including a semiconductor-on-insulator (SOI) layer, a buried insulator layer and a silicon substrate; forming a dielectric layer over the transistor; bonding the dielectric layer to another substrate; removing the silicon substrate from the SOI substrate to the buried insulator layer; forming a contact to each of the source/drain region and the gate from a channel side of the gate; and forming at least one wiring to the contacts on the channel side of the gate. | 05-29-2014 |
20140183637 | STRUCTURE FOR SELF-ALIGNED SILICIDE CONTACTS TO AN UPSIDE-DOWN FET BY EPITAXIAL SOURCE AND DRAIN - An upside-down p-FET is provided on a donor substrate. The upside-down p-FET includes: self-terminating e-SiGe source and drain regions; a cap of self-aligning silicide/germanide over the e-SiGe source and drain regions; a silicon channel region connecting the e-SiGe source and drain regions; buried oxide above the silicon channel region; and a gate controlling current flow from the e-SiGe source region to the e-SiGe drain region. | 07-03-2014 |
Patent application number | Description | Published |
20090255989 | ELECTRONIC DELIVERY OF ADMISSION TICKETS DIRECT TO A PURCHASER - Electronic delivery of counterfeit-resistant documents exchangeable for value such as admission tickets, gift certificates, coupons, vouchers, etc. directly to the person who ordered the documents over an open communications network such at the Internet. A first party orders a document from a second party, and the second party electronically delivers the ordered, counterfeit-resistant document to a device designated by the first party. For example, the document may be electronically ordered using a PC, and a printer coupled to the PC may print the document. In one embodiment, the first party transmits unsolicited offers over the open communications network The document may be made counterfeit resistant by assigning unique information to each document of a given type, e.g., admission tickets, and checking the uniqueness of a document and whether the unique information was previously read prior to allowing it to be exchanged for value. | 10-15-2009 |
20120281253 | ELECTRONIC DELIVERY OF ADMISSION TICKETS DIRECT TO A PURCHASER - Electronic delivery of counterfeit-resistant documents exchangeable for value such as admission tickets, gift certificates, coupons, vouchers, etc. directly to the person who ordered the documents over an open communications network such at the Internet. A first party orders a document from a second party, and the second party electronically delivers the ordered, counterfeit-resistant document to a device designated by the first party. For example, the document may be electronically ordered using a PC, and a printer coupled to the PC may print the document. In one embodiment, the first party transmits unsolicited offers over the open communications network The document may be made counterfeit resistant by assigning unique information to each document of a given type, e.g., admission tickets, and checking the uniqueness of a document and whether the unique information was previously read prior to allowing it to be exchanged for value. | 11-08-2012 |
20140091151 | ELECTRONIC DELIVERY OF ADMISSION TICKETS DIRECT TO A PURCHASER - Electronic delivery of counterfeit-resistant documents exchangeable for value such as admission tickets, gift certificates, coupons, vouchers, etc. directly to the person who ordered the documents over an open communications network such at the Internet. A first party orders a document from a second party, and the second party electronically delivers the ordered, counterfeit-resistant document to a device designated by the first party. For example, the document may be electronically ordered using a PC, and a printer coupled to the PC may print the document. In one embodiment, the first party transmits unsolicited offers over the open communications network. The document may be made counterfeit resistant by assigning unique information to each document of a given type, e.g., admission tickets, and checking the uniqueness of a document and whether the unique information was previously read prior to allowing it to be exchanged for value. | 04-03-2014 |