Patent application number | Description | Published |
20110099289 | SYSTEM, METHOD AND COMPUTER PROGRAM PRODUCT FOR ACCESSING DATA FROM A SOURCE BY A VARIETY OF METHODS TO IMPROVE PERFORMANCE AND ENSURE DATA INTEGRITY - According to one embodiment, a system includes a data storage device having data stored therein and a native computer system having resident thereon a controlling operating system in communication with the data storage device. The system also includes a primary computer system having resident thereon a primary operating system in communication with the native computer system via a first connection, the primary computer system being in communication with the data storage device via a second connection that is not in communication with the native computer system, the primary computer system having a processor executing a primary application. A volume on the data storage device is under logical control of the controlling operating system of the native computer system, and the primary computer system reads or writes data to the volume directly via the second connection. Other systems, methods and computer program products are also described relating to accessing data. | 04-28-2011 |
20120192191 | EXECUTION OF WORK UNITS IN A HETEROGENEOUS COMPUTING ENVIRONMENT - Work units are transparently offloaded from a main processor to offload processing systems for execution. For a particular work unit, a suitable offload processing system is selected to execute the work unit. This includes determining the requirements of the work unit, including, for instance, the hardware and software requirements; matching those requirements against a set of offload processing systems with an arbitrary set of available resources; and determining if a suitable offload processing system is available. If a suitable offload processing system is available, the work unit is scheduled to execute on that offload processing system with no changes to the work unit itself. Otherwise, the work unit may execute on the main processor or wait to be executed on an offload processing system. | 07-26-2012 |
20130096907 | EMPLOYING NATIVE ROUTINES INSTEAD OF EMULATED ROUTINES IN AN APPLICATION BEING EMULATED - Processing within an emulated computing environment is facilitated. Code used to implement system-provided (e.g., standard or frequently used) routines referenced in an application being emulated is native code available for the computing environment, rather than emulated code. Responsive to encountering a reference to a system-provided routine in the application being emulated, the processor is directed to native code, rather than emulated code, even though the application is being emulated. | 04-18-2013 |
20130096908 | EMPLOYING NATIVE ROUTINES INSTEAD OF EMULATED ROUTINES IN AN APPLICATION BEING EMULATED - Processing within an emulated computing environment is facilitated. Code used to implement system-provided (e.g., standard or frequently used) routines referenced in an application being emulated is native code available for the computing environment, rather than emulated code. Responsive to encountering a reference to a system-provided routine in the application being emulated, the processor is directed to native code, rather than emulated code, even though the application is being emulated. | 04-18-2013 |
20140181238 | ACCESS AND CONTROL OF MAINFRAME-BASED DATA IN NON-MAINFRAME FORMAT - A mechanism is provided for providing access to mainframe-based data in a non-mainframe format. A host computer system receives a request from a client system to mount a dataset on a data storage device controlled by the host computer system as a data volume on the client system. The host system verifies the client system's authority to mount the requested dataset. The dataset is mounted as the data volume on the client system. The dataset, after mounting, behaves as native to the client system. Subsequent input/output (I/O) requests associated with the mounted dataset are processed by the host computer system. | 06-26-2014 |
Patent application number | Description | Published |
20080316940 | METHODS AND SYSTEMS FOR USING MANAGED PORT CIRCUITRY TO MAP CONNECTIONS AMONG STRUCTURED CABLING APPARATUS AND NETWORK DEVICES - A managed port circuit includes a detection circuit that is disposed in a communication channel between a first local port and a second local port and a controller that is coupled to the detection circuit and is operable to configure the detection circuit in a detection configuration in which the first and second local ports are connected to the controller and a second pass through configuration in which the first and second local ports are connected to each other via the communication channel, the controller being further operable to determine when an end device is connected to one of the first and second local ports when the detection circuit is in the detection configuration. | 12-25-2008 |
20100266117 | Network Switch with Integrated Cable Termination Locations - A network switch that can directly receive and connect to telecommunications cables includes: a body; a first panel mounted to the body; a first plurality of ports located in the first panel, each of the first plurality of ports configured to receive a telecommunications cable; a second panel mounted to the body; a second plurality of ports located in the second panel, each of the second plurality of ports configured to receive a patch cord; and electronic circuitry housed in the body for conducting network switching operations, the electronic circuitry being connected with the first plurality of ports and the second plurality of ports. Such a network switch can receive a cable directly, rather than requiring an intermediate patch panel, and therefore can simplify either an interconnect or a cross-connect telecommunications system. | 10-21-2010 |
20130201993 | NETWORK SWITCH WITH INTEGRATED CABLE TERMINATION LOCATIONS - A network switch that can directly receive and connect to telecommunications cables includes: a body; a first panel mounted to the body; a first plurality of ports located in the first panel, each of the first plurality of ports configured to receive a telecommunications cable; a second panel mounted to the body; a second plurality of ports located in the second panel, each of the second plurality of ports configured to receive a patch cord; and electronic circuitry housed in the body for conducting network switching operations, the electronic circuitry being connected with the first plurality of ports and the second plurality of ports. Such a network switch can receive a cable directly, rather than requiring an intermediate patch panel, and therefore can simplify either an interconnect or a cross-connect telecommunications system. | 08-08-2013 |
20140211809 | NETWORK SWITCH WITH INTEGRATED CABLE TERMINATION LOCATIONS - A network switch that can directly receive and connect to telecommunications cables includes: a body; a first panel mounted to the body; a first plurality of ports located in the first panel, each of the first plurality of ports configured to receive a telecommunications cable; a second panel mounted to the body; a second plurality of ports located in the second panel, each of the second plurality of ports configured to receive a patch cord; and electronic circuitry housed in the body for conducting network switching operations, the electronic circuitry being connected with the first plurality of ports and the second plurality of ports. Such a network switch can receive a cable directly, rather than requiring an intermediate patch panel, and therefore can simplify either an interconnect or a cross-connect telecommunications system. | 07-31-2014 |