Patent application number | Description | Published |
20090276431 | JAVA VIRTUAL MACHINE HAVING INTEGRATED TRANSACTION MANAGEMENT SYSTEM - A computing system includes at least one computing device is configured to execute computer program instructions to accomplish a fully transactional application, including managed objects. The managed objects are persisted in a shared memory of the computing system, such that a scope of the objects is global to the transactional application. Operations on the managed objects are restricted to being carried out with respect to a transaction being processed by the fully transactional application. For example, the managed objects may be JAVA objects configured to be distributed such that the managed JAVA objects are accessible from at least one JAVA Virtual Machine (JVM). | 11-05-2009 |
20090276483 | JAVA VIRTUAL MACHINE HAVING INTEGRATED TRANSACTION MANAGEMENT SYSTEM - A computing system comprises a plurality of computing nodes and is configured such that each computing node includes a processor configured to execute JAVA computer program instructions. The computing nodes cooperate to form a cluster, wherein the JAVA computer program instructions being executed by the plurality of computing nodes collectively accomplish a fully transactional application. Each application data object partition is associated with one of the computing nodes as a primary node for application data objects of that partition and further associated with at least one of the computing nodes as at least one secondary node for application data objects of that partition. Messages relative to an application data object are provided to the primary node for the application data object as well as to the at least one secondary node for that application data object, for updates. The particular application object is readable at any of the primary node and the at least one secondary node for that particular application data object. | 11-05-2009 |
20090276658 | JAVA VIRTUAL MACHINE HAVING INTEGRATED TRANSACTION MANAGEMENT SYSTEM - A computing system is configured to deploy a JAVA application for execution in a distributed manner. The computing system includes a plurality of computing nodes including a domain manager node, the plurality of computing nodes forming a computing domain configured as an administrative grouping of the nodes administered by the domain manager node. The domain manager node is configured to provide, to each of the computing nodes, a main portion of the JAVA application. The main portion defines, for each computing node, a portion of the behavior of the JAVA application to be accomplished by that computing node. Furthermore, each computing node is configured to receive at least one class file having classes appropriate for the portion of the behavior of the JAVA application defined, by the main portion, to be accomplished by that computing node. | 11-05-2009 |
20090276754 | JAVA VIRTUAL MACHINE HAVING INTEGRATED TRANSACTION MANAGEMENT SYSTEM - A computing system is provided via which a specification of user-defined business logic of a desired transaction processing application may be provided, and the computing system ensures that a resulting configured system is fully transactional. The specification of user-defined business logic is provided as JAVA program instructions (or another programming language) which does not natively provide for specification of full transactionality. The business logic definition is processed to instantiate a subset of a plurality of possible service adaptors, to implement services of the transaction processing application. The instantiated service adaptors are such that, when executed, the arranged instantiated service adaptors will accomplish the business logic in conjunction with generic transaction processing logic. In addition, the arranged instantiated service adaptors are such that, when, when executed, the transaction processing application will be accomplished in a manner that is fully transactional. | 11-05-2009 |
20110088043 | JAVA VIRTUAL MACHINE HAVING INTEGRATED TRANSACTION MANAGEMENT SYSTEM AND FACILITY TO QUERY MANAGED OBJECTS - A computing system and method is a specification of user-defined business logic is provided as JAVA program instructions (or another programming language) which does not natively provide for specification of full transactionality, to accomplish a fully transactional application, including executed managed objects. The managed objects are persisted in a shared memory of the computing system, such that a scope of the objects is global to the fully transactional application. Furthermore, a catalog of the managed object is maintained. A query interface is provided for querying the managed objects, in order to receive a query from an application, to process the catalog, and to provide a result indication of at least one of the managed objects back to the querying application. Thus, for example, the application may process the managed objects that are indicated in the query result. | 04-14-2011 |
20120254867 | JAVA VIRTUAL MACHINE HAVING INTEGRATED TRANSACTION MANAGEMENT SYSTEM - A computing system is configured to deploy a JAVA application for execution in a distributed manner. The computing system includes a plurality of computing nodes including a domain manager node, the plurality of computing nodes forming a computing domain configured as an administrative grouping of the nodes administered by the domain manager node. The domain manager node is configured to provide, to each of the computing nodes, a main portion of the JAVA application. The main portion defines, for each computing node, a portion of the behavior of the JAVA application to be accomplished by that computing node. Furthermore, each computing node is configured to receive at least one class file having classes appropriate for the portion of the behavior of the JAVA application defined, by the main portion, to be accomplished by that computing node. | 10-04-2012 |
Patent application number | Description | Published |
20110078318 | METHODS AND SYSTEMS FOR LOAD BALANCING USING FORECASTING AND OVERBOOKING TECHNIQUES - Methods and systems for establishing user sessions between a client and a server or server farm can be carried out by a load balancing agent executing on a computer in communication with the client, server or server farm. The load balancing agent can intercept a connection request generated by an application executing on a client and responsively select a server on which to establish a user session. Selecting the server can be based on overbooking a particular server and choosing a server with a predetermined amount of forecasted load. Forecasted load can be determined by summing the current load on a server with a current load calculated by multiplying: the average load on the user sessions hosted by the server; by the number of cached user sessions stored on the server; and by the probability that a cached user session reconnects. | 03-31-2011 |
20110134111 | REMOTE RENDERING OF THREE-DIMENSIONAL IMAGES USING VIRTUAL MACHINES - Remote rendering of three-dimensional images using virtual machines includes using a hypervisor executing on a physical computer to allocate exclusive and direct access to a graphics processing unit in the physical computer, to a first virtual machine. An agent executing on a second virtual machine intercepts three-dimensional draw commands generated by a three-dimensional application and forwards the intercepted draw commands to a rendering agent executing on the first virtual machine. The rendering agent then transmits the intercepted draw commands to the graphics processing unit for rendering upon which the graphics processing unit renders a three-dimensional image from the draw commands. The rendering agent obtains the rendered image from the graphics processing unit and forwards the image to the second virtual machine. Upon receiving the rendered image, the second virtual machine transmits the rendered image to another remote, physical computer where the rendered image is displayed to a user. | 06-09-2011 |
20150106424 | METHODS AND SYSTEMS FOR LOAD BALANCING USING FORECASTING AND OVERBOOKING TECHNIQUES - Methods and systems for establishing user sessions between a client and a server or server farm can be carried out by a load balancing agent executing on a computer in communication with the client, server or server farm. The load balancing agent can intercept a connection request generated by an application executing on a client and responsively select a server on which to establish a user session. Selecting the server can be based on overbooking a particular server and choosing a server with a predetermined amount of forecasted load. Forecasted load can be determined by summing the current load on a server with a current load calculated by multiplying: the average load on the user sessions hosted by the server; by the number of cached user sessions stored on the server; and by the probability that a cached user session reconnects. | 04-16-2015 |
20150294494 | REMOTE RENDERING OF THREE-DIMENSIONAL IMAGES USING VIRTUAL MACHINES - Remote rendering of three-dimensional images using virtual machines includes using a hypervisor executing on a physical computer to allocate exclusive and direct access to a graphics processing unit in the physical computer, to a first virtual machine. An agent executing on a second virtual machine intercepts three-dimensional draw commands generated by a three-dimensional application and forwards the intercepted draw commands to a rendering agent executing on the first virtual machine. The rendering agent then transmits the intercepted draw commands to the graphics processing unit for rendering upon which the graphics processing unit renders a three-dimensional image from the draw commands. The rendering agent obtains the rendered image from the graphics processing unit and forwards the image to the second virtual machine. Upon receiving the rendered image, the second virtual machine transmits the rendered image to another remote, physical computer where the rendered image is displayed to a user. | 10-15-2015 |
Patent application number | Description | Published |
20100215049 | INTER-NETWORKING DEVICES FOR USE WITH PHYSICAL LAYER INFORMATION - One exemplary embodiment is directed to an inter-networking device that performs at least one inter-networking function using physical layer information about the network of which the device is a part. Another exemplary embodiment is directed to capturing physical layer information about physical communication media that is attached to an inter-networking device. Another exemplary embodiment is directed to a technique for generating a spanning tree and/or forwarding database information for a plurality of switches in a network at a central location. The spanning tree and/or forwarding database information is generated at the central location using information including physical layer information about devices and physical communication media in the network. Another exemplary embodiment is directed to an ETHERNET physical layer device having integrated support for capturing physical layer information about the physical communication media connected to the ETHERNET physical layer device. | 08-26-2010 |
20110228473 | COMMUNICATIONS BLADED PANEL SYSTEMS - A fiber panel system includes a chassis including a backplane; and at least a first blade configured to mount to the chassis. The first blade is moveable relative to the chassis between a refracted (closed) position and at least one extended position. The first blade includes a coupler arrangement for connecting together media segments. The first blade remains electrically connected to the backplane of the chassis when moving between the retracted and extended positions. | 09-22-2011 |
20110267794 | COMMUNICATIONS BLADED PANEL SYSTEMS - A fiber panel system includes a chassis and at least blades configured to mount to the chassis. Each blade is moveable relative to the chassis between a retracted (closed) position and at least one extended position. Cable slack is managed at the front and/or rear of each chassis to facilitate movement of the blades without pulling or bending the cables beyond a maximum bend limit. Each blade may be locked into one or more positions relative to the chassis. | 11-03-2011 |
20120113613 | COMMUNICATIONS BLADED PANEL SYSTEMS - A fiber panel system includes a chassis and at least a first blade configured to moveably mount to the chassis. Each blade includes a base, a frame, and front couplers. The base of each blade defines at least one opening at a location spaced rearwardly from the front couplers. The front couplers may be smart or passive. | 05-10-2012 |
20120133524 | COMMUNICATIONS BLADED PANEL SYSTEMS - A fiber panel system includes a chassis including a backplane; and at least a first blade configured to mount to the chassis. The first blade is moveable relative to the chassis between a refracted (closed) position and at least one extended position. The first blade includes a coupler arrangement for connecting together media segments. Each blade includes a blade processor and a plurality of smart couplers. A chassis processor is electrically coupled to a processor port of the chassis backplane. | 05-31-2012 |
20120315921 | INTEGRATION OF WIRED INFORMATION AND WIRELESS INFORMATION TO LOCATE A WIRELESS DEVICE - One embodiment described herein includes a method of determining the location of a wireless device. The method includes capturing wired information about layer one and layer two used by wired components in a network; capturing wireless information about a wireless device communicatively coupled to the network; integrating at least some of the wired information and the wireless information; and using the integrated wired information and wireless information to locate the wireless device. | 12-13-2012 |
20130148976 | SYSTEMS AND METHODS FOR USING ACTIVE OPTICAL CABLE SEGMENTS - First and second active optical modules that terminate first and second active optical cable segments, each of which having a respective active end and a respective passive end, can be authenticated by: reading information from active-end storage devices attached to the respective active ends of the first and second active optical modules; providing information read from the active-end storage devices to an aggregation point; reading information from passive-end storage devices attached to the respective passive ends of the first and second active optical cable segments; providing information read from passive-end storage devices to the aggregation point; and authenticating the first and second active optical modules using information provided to the aggregation point. | 06-13-2013 |
20150038007 | WALL-MOUNT BOX WITH ISOLATED INTERIOR REGIONS - Certain types of wall-mount boxes provide a local power receptacle in a first interior region that is physically isolated from a second interior region. The local power receptacle is accessible from an exterior of the box. The local power receptacle is electrically connected to an internal connector interface that is accessible from the second interior region. An electronic device may be installed in the second interior region and electrically connected to the local power receptacle via the internal connector interface. Second receptacles are disposed in the second interior region and coupled to (or are integral with) the electronic device. The second receptacles are accessible from the exterior of the box. | 02-05-2015 |
20150099541 | INTEGRATION OF WIRED INFORMATION AND WIRELESS INFORMATION TO LOCATE A WIRELESS DEVICE - One embodiment described herein includes a method of determining the location of a wireless device. The method includes capturing wired information about wired components in a network. Capturing wired information includes one or more of: reading information from a storage device associated with a connector of a wired communication media, or communicating a signal over an out-of-band conductor included in a cable in addition to the in-band conductors. The method also includes capturing wireless information about a wireless device communicatively coupled to the network, and integrating at least some of the wired information and the wireless information. The integrated wired information and wireless information is used to locate the wireless device. | 04-09-2015 |
20150146739 | INTER-NETWORKING DEVICES FOR USE WITH PHYSICAL LAYER INFORMATION - One exemplary embodiment is directed to an inter-networking device that performs at least one inter-networking function using physical layer information about the network of which the device is a part. Another exemplary embodiment is directed to capturing physical layer information about physical communication media that is attached to an inter-networking device. Another exemplary embodiment is directed to a technique for generating a spanning tree and/or forwarding database information for a plurality of switches in a network at a central location. The spanning tree and/or forwarding database information is generated at the central location using information including physical layer information about devices and physical communication media in the network. Another exemplary embodiment is directed to an ETHERNET physical layer device having integrated support for capturing physical layer information about the physical communication media connected to the ETHERNET physical layer device. | 05-28-2015 |
20150177780 | COMMUNICATIONS BLADED PANEL SYSTEMS - A fiber panel system includes a chassis including a backplane; and at least a first blade configured to mount to the chassis. The first blade is moveable relative to the chassis between a refracted (closed) position and at least one extended position. The first blade includes a coupler arrangement for connecting together media segments. Each blade includes a blade processor and a plurality of smart couplers. A chassis processor is electrically coupled to a processor port of the chassis backplane. | 06-25-2015 |
20150195945 | COMMUNICATIONS BLADED PANEL SYSTEMS - A fiber panel system includes a chassis including a backplane; and at least a first blade configured to mount to the chassis. The first blade is moveable relative to the chassis between a refracted (closed) position and at least one extended position. The first blade includes a coupler arrangement for connecting together media segments. The first blade remains electrically connected to the backplane of the chassis when moving between the retracted and extended positions. | 07-09-2015 |
20150219869 | COMMUNICATIONS BLADED PANEL SYSTEMS - A fiber panel system includes a chassis and at least a first blade configured to moveably mount to the chassis. Each blade includes a base, a frame, and front couplers. The base of each blade defines at least one opening at a location spaced rearwardly from the front couplers. The front couplers may be smart or passive. | 08-06-2015 |
20150245530 | COMMUNICATIONS BLADED PANEL SYSTEMS - A fiber panel system includes a chassis and at least blades configured to mount to the chassis. Each blade is moveable relative to the chassis between a retracted (closed) position and at least one extended position. Cable slack is managed at the front and/or rear of each chassis to facilitate movement of the blades without pulling or bending the cables beyond a maximum bend limit. Each blade may be locked into one or more positions relative to the chassis. | 08-27-2015 |