Patent application number | Description | Published |
20100083357 | REMOTE REGISTRATION OF BIOMETRIC DATA INTO A COMPUTER - Systems and arrangements for permitting the transmission of fingerprint authentication data to a system remotely, while also permitting the system to employ such data as well as passwords in order to operate a computer system, while ensuring a reliable level of security for any group or organization using such systems and arrangements. | 04-01-2010 |
20100115338 | Reliable Fault Resolution In A Cluster - A method and system for localizing and resolving a fault in a cluster environment. The cluster is configured with at least one multi-homed node, and at least one gateway for each network interface. Heartbeat messages are sent between peer nodes and the gateway in predefined periodic intervals. In the event of loss of a heartbeat message by any node or gateway, an ICMP echo is issued to each node and gateway in the cluster for each network interface. If neither a node loss not a network loss is validated in response to the ICMP echo, an application level ping is issued to determine if the fault associated with the absence of the heartbeat message is a transient error condition or an application software fault. | 05-06-2010 |
20100162015 | ENERGY SAVING SUBSYSTEM FOR AN ELECTRONIC DEVICE - The instant invention broadly contemplates an energy saving subsystem comprising a secondary CPU that utilizes less power than a main CPU, thereby allowing an electronic device (e.g. a laptop PC) having the secondary CPU to use less power and run for longer periods of time on a limited power supply. Thus, the invention permits the electronic device to be utilized for extended periods and extends the battery life. | 06-24-2010 |
20120162058 | SYSTEMS AND METHODS FOR SHARED DISPLAY IN A HYBRID ENVIRONMENT - Embodiments operating shared peripherals in a hybrid computing system are described. Embodiments control one or more shared peripheral devices variously between a primary system and a secondary system via one or more communication links, where the secondary system is detachable from the primary system and operates as an independent computing device in the disconnected state, while operating as a display device in the connected state. | 06-28-2012 |
20120166521 | SYSTEMS AND METHODS FOR COMMUNICATING BETWEEN COMPONENTS IN A HYBRID ENVIRONMENT - Systems and methods described herein provide for communication between a base component and a slate component of a hybrid computing system. The hybrid computing system is in a connected state when the base component and slate component are connected. Embodiments provide that the base component may control the slate component when the hybrid computing system is in a connected state. In addition, embodiments provide that a server module running on the display component and a client module running on the base component facilitate communication between the hybrid computing system components. Furthermore, systems and methods described herein provide that the base component may control hardware devices, peripheral devices, or software applications of the display component through communications between the server module and client module. | 06-28-2012 |
20120166676 | Systems and Methods for Communicating and Switching Between Components in a Hybrid Computing Environment - Systems and methods described herein provide for communication between a base component and a tablet component of a hybrid computing system. The hybrid computing system is in a connected state when the base component and tablet component are connected. Systems and methods provide for a switch for determining control of the hybrid computing system when in a connected state. Embodiments provide that the base component may control the tablet component when the hybrid computing system is in a connected state and the switch is set to base control. According to embodiments, the display component may control the hybrid computing system when the hybrid computing system is in a connected state and the switch is set to tablet control. In addition, embodiments provide that a server module running on the display component and a client module running on the base component facilitate communication between the hybrid computing system components. Furthermore, systems and methods described herein provide that the base component may control hardware devices, peripheral devices, or software applications of the display component through communications between the server module and client module. | 06-28-2012 |
20140059262 | TASK SCHEDULING IN BIG AND LITTLE CORES - One aspect provides a method comprising: ascertaining an interrupt at an information handling device having two or more cores of different size; determining if the interrupt should be directed to one of a bigger core and a littler core based on a policy for scheduling interrupts; directing the interrupt to the little core if the interrupt does not qualify as an exception based on the policy for scheduling interrupts; and processing the interrupt on an appropriate core according the policy for scheduling interrupts. Other aspects are described and claimed. | 02-27-2014 |
20140059558 | TASK SCHEDULING IN BIG AND LITTLE CORES - One aspect provides a method including: identifying a task to be scheduled for execution on an information handling device having two or more cores of different size; determining an appropriate scheduling of the task for execution on the two or more of cores of different size, wherein the appropriate scheduling of the task is determined via a core signature for the task; directing the task to an appropriate core for execution based on the appropriate scheduling determined; and executing the task on the appropriate core. Other aspects are described and claimed. | 02-27-2014 |