Patent application number | Description | Published |
20080209262 | SYSTEMS AND METHODS FOR OUT-OF-BAND BOOTING OF A COMPUTER - The present invention is directed to systems and methods for remotely booting a server computer system. A boot request is received from the server computer. An access request is transmitted to a boot management system via a secondary communication channel in response to the received boot request. An access response is received from the boot management system. The access response includes boot data from a boot image accessible via the boot management system and compatible with the server computer. In response to the received access response, the boot data is extracted from the access response and forwarded to the server computer for processing and booting. Multiple responses may be required in certain instances to accumulate the entirety of the boot image. | 08-28-2008 |
20100211769 | Concurrent Execution of a Smartphone Operating System and a Desktop Operating System - A non-smartphone computing system, such as a laptop or desktop personal computer, can be booted into either or both a smartphone operating system and a desktop operating system. The smartphone operating system may be booted first to allow use of the functionality provided by the smartphone operating system while the desktop operating system is booting. Through an appropriate user action, such as the selection of a pre-defined key, key sequence, or by use of a switch, the computing system can dynamically switch between the smartphone operating system and the desktop operating system. Files and folders can also be synchronized and/or shared between the smartphone operating system and the desktop operating system, thereby providing access to these files from each respective operating system even while the other operating system is not executing. | 08-19-2010 |
20100302141 | Display and Interaction Environment for Mobile Devices - A computing device attached to a full-sized display and one or more user input devices supports a mobile device mating environment. Software modules running on a mobile device may interface with custom firmware or software modules on the computing device to support using the display, keyboard, mouse, and other user input devices of the computing device. The display of the computing device may also be leveraged to display screens and notifications generated by the mobile device. The user input devices of the computing device may be utilized to simplify interaction between the user and the mobile device. This operation may be selected instead of, or in addition to, operating the computing device according to its traditional functions associated with a primary operating system and associated applications of the computing device. | 12-02-2010 |
20130289926 | Virtual Service Processor Stack - Certain aspects of the present disclosure are directed to a computer system, including: a hypervisor configured to run on a CPU and to provide a first domain; and a virtual baseboard management controller (BMC) stack configured to run in the first domain or as part of the hypervisor. Certain aspects of the present disclosure are directed to a non-transitory computer readable medium that stores instructions executable by at least one processor, the instructions including loading a virtual baseboard management controller (BMC) stack in a first domain of, or as a part of, a hypervisor running on the processor. | 10-31-2013 |
20130297766 | PROVIDING A COMMON MANAGEMENT CONSOLE FOR MANAGING THE OPERATION OF A SERVER COMPUTER - A method, system, apparatus, and computer-readable medium for providing a common management console for managing the pre- and post-operating system operation of a computer system are provided. The method includes: receiving, at a management appliance, first and second requests from one or more remote management consoles to manage first and second server computers, respectively; receiving first and second remote console data formatted according to first and second remote console protocols from the first and second server computers, respectively; converting, at the management appliance, the received first and second remote console data to first and second converted remote console data, respectively, in a common format in accordance with a common protocol capable of expressing the first and second remote console protocols; and transmitting the first and second converted remote console data in the common format to the remote management console for display. | 11-07-2013 |
20140280756 | SYSTEM AND METHOD OF WEB-BASED VIRTUAL MEDIA REDIRECTION - Certain aspects of the present disclosure are directed to a method of performing a virtual media redirection. The method includes: (a) establishing a Web Socket connection between a web server of a baseboard management controller (BMC) and a browser program of a computing device in a network, the BMC performing a management function of a host computer; (b) emulating, at the BMC, virtual media to the host computer; (c) receiving, at the BMC, a read command from the host computer and directed to the emulated virtual media, the read command specifying a first file; (d) in response to the read command, sending, at the BMC, a request for the first file according to the read command to the browser program through the Web Socket connection; and (e) receiving, at the web server, the first file from the browser program through the Web Socket connection. | 09-18-2014 |
20140280814 | METHOD AND APPARATUS FOR IPMI-BRIDGE-SERVER FOR NON-IPMI DEVICES - Certain aspects of the present disclosure are directed to an IPMI bridge server configured to expand the management functions of an IPMI control system to a plurality of non-IPMI protocol specific managed devices. The IPMI bridge server includes: a processor, a network interface controller assigned with a network address; and a memory containing a firmware. When the firmware is executed at the processor, it is configured to be in communication with a group of first protocol specific managed devices through a first protocol control point and a first communication link, and a group of second protocol specific managed devices through a second protocol control point and a second communication link, and to receive management requests each for performing a protocol specific management function at one of the group of first protocol specific managed devices or the group of second protocol specific managed devices. | 09-18-2014 |
20140281894 | SYSTEM AND METHOD OF WEB-BASED KEYBOARD, VIDEO AND MOUSE (KVM) REDIRECTION AND APPLICATION OF THE SAME - Certain aspects of the present disclosure are directed to a method of performing web-based keyboard, video and mouse (KVM) redirection implemented by a baseboard management controller (BMC). The method includes: (a) receiving, at a BMC, first and second video frames redirected from a host computer, the BMC performing a management function of the host computer, (b) generating a webpage at a web server of the BMC and sending the webpage to a browser program running on a computing device in a network, the webpage being programmed to instruct the browser program to initiate a drawable area and to establish a Web Socket connection with the web server, (c) generating a processed image representing the second video frame, (d) establishing a Web Socket connection between the web server and the browser program, and (e) sending the processed image to the browser program through the Web Socket connection. | 09-18-2014 |
20140337004 | DIGITAL SIGNAGE MANAGEMENT AND CONTENT DELIVERY SYSTEM AND METHOD THEREOF - Aspects of the present disclosure relate to methods of managing and delivering digital media content data. In certain embodiments, a management device in communication to a computing device via a universal serial bus (USB) connector is provided. The management device has a processor, a volatile memory and a non-volatile memory. The non-volatile memory includes a first partition storing a firmware and a second partition. When executed at the processor, the firmware emulates an emulated bootable storage device for the computing device at the USB connector. In response to an access instruction from the computing device to access data stored at an emulated address of the emulated bootable storage device, the management device converts the emulated address to a physical address of the second partition, and accesses the data at the physical address. The data includes digital media content data and a control module configured to play the content data. | 11-13-2014 |
20140337103 | DEMOGRAPHIC INFORMATION COLLECTION AND CONTENT DISPLAY BASED ON DEMOGRAPHIC INFORMATION - One aspect of the disclosure relates to a digital signage display system. In one embodiment, the digital signage display system includes: a camera configured to capture an image frame; a service processor in communication to the camera; and a digital signage display. The service processor includes a processor and a non-volatile memory storing a firmware. The firmware is configured, when executed at the processor, to process the captured image frame, detect persons in the image frame, generate a demographic-map data structure, and send the demographic-map data structure to a server system. The demographic-map data structure contains demographic information of the persons detected in the image frame. The digital signage display is configured to receive a display content provided by the server system in response to the demographic-map data structure. | 11-13-2014 |
20140354442 | EMERGENCY ALERT SYSTEM USING MANAGEMENT CONTROLLER IN NETWORK - One aspect of the present disclosure relates to an Emergency Alert System (EAS) display controller. The EAS display controller includes: (a) a processor, (b) a network interface controller configurable to be in communication with an out-of-band network, (c) a communication-interface controller configurable to be in communication with a signage device and in compliance with a control standard, a memory storing firmware. The firmware is configured to, when executed by the processor, (a) establish an out-of-band communication channel with at least one EAS message source, (b) receive an EAS message from the at least one EAS message source through the out-of-band channel, (c) extract an alert message from the EAS message, (d) construct a signage device control command in accordance with the control standard, and (e) send the command to the signage device to instruct the signage device to display the alert message. | 12-04-2014 |
20150081829 | OUT-OF-BAND REPLICATING BIOS SETTING DATA ACROSS COMPUTERS - Certain aspects of the present disclosure relate to a system for replicating BIOS setting data (BIOSSD) across computers. The system includes a plurality of computers, and each computer is connected to a service processor (SP). Each computer includes a BIOS chip, which stores a first BIOSSD collection. The SP stores a second BIOSSD collection. When the first BIOSSD collection is newer, the SP receives a copy of the first BIOSSD collection from the computer to replace the second BIOSSD collection. When the second BIOSSD collection is newer, the SP transmits a copy of the second BIOSSD collection to the computer to replace the first BIOSSD collection in the BIOS chip. A remote management may request and obtain from the SP the updated second BIOSSD collection such that the remote management computer may send the copy the updated second BIOSSD collection to other SP's for update. | 03-19-2015 |
20150095597 | HIGH PERFORMANCE INTELLIGENT VIRTUAL DESKTOP INFRASTRUCTURE USING VOLATILE MEMORY ARRAYS - Certain aspects of the disclosure relate to a system and method for performing intelligent virtual desktop infrastructure (iVDI) using volatile memory arrays. The system has a hypervisor server and a storage server in communication via a file sharing protocol. A random access memory (RAM) disk is launched on a volatile memory array using a RAM disk driver. The RAM disk driver then assigns local and remote storages of the storage server as primary and secondary backup storages for the RAM disk. A group of virtual machine (VM) images is deployed to the RAM disk, and deduplication is performed on the VM images to release some memory space of the RAM disk. The deploying and deduplicating of the VM images continues repeatedly until the RAM disk is almost full. Then, the VM images in the RAM disk are copied to the backup storages as backup copies. | 04-02-2015 |
20150100801 | PREDICTIVE POWER MANAGEMENT BASED ON USER CATEGORY - The present disclosure relates to a predicative power management system configured to adjust computer CPU clock rate by a computer user to conserve energy based on user category. In certain embodiments, the predicative power management system includes (a) a computer user profile creator module, and (b) a power management module. The computer user profile creator module is used to create computer usage profiles and each of the computer usage profiles has a profileID for a computer user with a computer userID. The power management module is used to set and adjust computer CPU clock rate, CPU voltage and device states based on computer users' category and the computer user's computer usage profile. | 04-09-2015 |
20150143095 | BIOS FAILOVER UPDATE WITH SERVICE PROCESSOR - Certain aspects direct to basic input/output system (BIOS) failover update with a service processor (SP). In certain embodiments, the system includes a host computer and a SP. A CPU of the host computer loads and executes a current BIOS image stored in a BIOS chip to a memory as a BIOS instance. The SP receives, from the executed BIOS instance at the host computer, a BIOS image as a failover backup image, and stores the failover backup image in the volatile memory of the SP. When an error occurs at the host computer, the executed BIOS instance sends a request for the failover backup image to the SP. In response, the SP sends a copy of the failover backup image to the host computer such that the executed BIOS instance may replace the current BIOS image stored in the BIOS chip with the copy of the failover backup image. | 05-21-2015 |
20150149750 | BIOS UPDATE WITH SERVICE PROCESSOR WITHOUT SERIAL PERIPHERAL INTERFACE (SPI) ACCESS - Certain aspects direct to BIOS update with a service processor (SP) without access through a serial peripheral interface (SPI). In certain embodiments, the system includes a SP, which includes a processor, a non-volatile memory, a volatile memory and a system interface. The SP receives a BIOS image from a remote management computer, and stores the BIOS image in the volatile memory. When the SP receives, from a BIOS executed at a central processing unit (CPU) of a host computer through the system interface, a request for the BIOS image, the SP sends a copy of the BIOS image in response to the request for the BIOS image to the host computer through the system interface such that the BIOS executed at the CPU of the host computer replaces a current BIOS image stored in a BIOS chip with the copy of the BIOS image. | 05-28-2015 |
20150149815 | BIOS FAILOVER UPDATE WITH SERVICE PROCESSOR HAVING DIRECT SERIAL PERIPHERAL INTERFACE (SPI) ACCESS - Certain aspects direct to systems and methods of BIOS failover update with a service processor (SP) having direct serial peripheral interface (SPI) access to a basic input/output system (BIOS) chip of a host computer. In certain embodiments, the SP receives a failover backup image from a BIOS being executed at a CPU of the host computer through a system interface, and stores the failover backup image in the volatile memory. Then the SP monitors operation of the BIOS by receiving, from the BIOS, a notification signal. When the SP detects an error in the operation of the BIOS based on the notification signal, the SP sends a copy of the failover backup image to the BIOS chip of the host computer through the SPI to replace a current BIOS image stored in the BIOS chip of the host computer with the copy of the failover backup image. | 05-28-2015 |