Patent application number | Description | Published |
20130091380 | Dynamically Reconfiguring A Primary Processor Identity Within A Multi-Processor Socket Server - Methods, apparatuses, and computer program products for dynamically reconfiguring a primary processor identity within a multi-processor socket server are provided. Embodiments include detecting, by the service processor, a processor socket reconfiguration event corresponding to a first processor socket; disabling, by the service processor, the first processor socket of the server in response to detecting the processor socket reconfiguration event; and reassigning, by the service processor, the primary processor identity to a second processor socket of the server. | 04-11-2013 |
20130272515 | Selectively Filtering Incoming Communications Events In A Communications Device - Selectively filtering incoming communications events in a communications device, including: receiving, by a communications event filtering module, an incoming communications event; determining, by the communications event filtering module, whether the communications device is currently servicing a call; responsive to determining that the communications device is currently servicing a call, determining, by the communications event filtering module, whether the call is interruptible; and responsive to determining that the call is not interruptible, blocking, by the communications event filtering module, the incoming communications event from presentation by the communications device until the call has ended. | 10-17-2013 |
20130275636 | ACCESSING PERIPHERAL DEVICES - A hardware system comprises a master device and a slave device that are coupled by a signal line. A frequency generator in the master device places a selected frequency signal on the signal line. A frequency detector/comparator in the slave device, which is coupled to the signal line, determines whether the selected frequency signal on the signal line matches a predetermined frequency for the slave device. If the selected frequency signal matches the predetermined frequency, then a chip select node on the slave device is enabled, in order to permit a data exchange session between the master device and the slave device. | 10-17-2013 |
20130304954 | Dynamically Optimizing Bus Frequency Of An Inter-Integrated Circuit ('I2C') Bus - Optimizing an I | 11-14-2013 |
20130343197 | Operating A Demultiplexer On An Inter-Integrated Circuit ('I2C') Bus - Operating a demultiplexer on an I | 12-26-2013 |
20130346658 | Chip Select ('CS') Multiplication In A Serial Peripheral Interface ('SPI') System - Chip select (‘CS’) multiplication in an SPI system that includes an SPI master, a CS multiplier, a plurality of SPI slaves, and a fall time detection circuit, where the SPI master is coupled to the CS multiplier and the fall time detection circuit by a CS signal line, the CS multiplier includes a plurality of CS outputs with each CS output coupled to an SPI slave, and CS multiplication includes: receiving, from the SPI master, the CS signal on the CS signal line; detecting fall time of the CS signal; and, if the fall time of the CS signal is less than a predefined threshold, configuring, by the fall-time detection circuit, the CS multiplier to vary from providing a CS signal on a first CS output to providing a CS signal on a second CS output. | 12-26-2013 |
20130346763 | Increasing Data Transmission Rate In An Inter-Integrated Circuit ('I2C') System - Increasing data transmission rate in an I | 12-26-2013 |
20130346835 | Detecting Data Transmission Errors In An Inter-Integrated Circuit ('I2C') System - Detecting data transmission errors in an I | 12-26-2013 |
20140013017 | I2C TO MULTI-PROTOCOL COMMUNICATION - A method, device and computer program product for providing multi-protocol communication on an inter-integrated circuit (I2C) bus. The method for providing multi-protocol communication on an inter-integrated circuit (I2C) bus can include issuing a start command by a bus management device onto the I2C bus. Thereafter, the bus management device can send an embedded differential protocol to a non-I2C device. Once communication with the non-I2C device is completed, the bus management device can issue a stop command to release the I2C bus. In one aspect of this embodiment, the method can include receiving a response from the non-I2C device. | 01-09-2014 |
20140013151 | I2C MULTIPLEXER SWITCHING AS A FUNCTION OF CLOCK FREQUENCY - In accordance with one embodiment of the invention, an I2C bus multiplexing circuit for use in an I2C bus interface can be provided. The I2C bus multiplexing circuit can facilitate multiplexer switching in an I2C bus interface by detecting a start command from an I2C master device via an I2C bus, buffering data from the I2C master device, detecting a clock frequency of a bus serial clock (SCL) line of the I2C master device, holding the serial data (SDA) line of the I2C master device in a clock stretch state and selecting a port based on the detected clock frequency of the SCL of the I2C master device. The method further can include sending the buffered data to an I2C slave device on the selected port. The method further can include receiving an acknowledgement from the I2C slave device on the selected port. | 01-09-2014 |
20140019644 | Controlling A Plurality Of Serial Peripheral Interface ('SPI') Peripherals Using A Single Chip Select - Controlling a plurality of serial peripheral interface (‘SPI’) peripherals using a single chip select in a computing system, the computing system including an SPI master, a first SPI peripheral, and a second SPI peripheral, wherein the first SPI peripheral is operatively coupled to the second SPI peripheral, including: receiving, by the first SPI peripheral, a signal from the SPI master; determining, by the first SPI peripheral, whether the first SPI peripheral is a primary SPI peripheral or a backup SPI peripheral; responsive to determining that the first SPI peripheral is the backup SPI peripheral, transmitting, by the first SPI peripheral to the second SPI peripheral, the signal; and responsive to determining that the first SPI peripheral is the primary SPI peripheral: servicing, by the first SPI peripheral, an instruction contained in the signal; and transmitting, by the first SPI peripheral to the second SPI peripheral, a response signal. | 01-16-2014 |
20140025851 | DOUBLE DENSITY I2C SYSTEM - An I2C system comprises an inter-integrated circuit (I2C) master device coupled to an I2C multiplexer via a master I2C bus. A plurality of slave I2C busses emanating from the I2C multiplexer couple the I2C multiplexer to a plurality of I2C slave devices. Each of the slave I2C busses comprises a serial data (SDA) line and serial clock (SCL) line. Each of the slave I2C busses, which is coupled to two I2C slave devices, has a first channel and a second channel. The first channel puts bidirectional serial data on the SDA line and clock signals on the SCL line, and the second channel puts bidirectional serial data on the SCL line and clock signals on the SDA line. A channel selector, associated with the I2C multiplexer, selectively couples the I2C master device to one of the two I2C slave devices via the first channel or the second channel. | 01-23-2014 |
20140029693 | Providing Noise Protection In A Signal Transmission System - Providing noise protection in a signal transmission system that includes a first component, second component, controller, switch, and pre-charged capacitor, the first and second components coupled by a signal line, the controller coupled to the switch, the switch configured to couple the signal line to the capacitor when activated, where providing noise protection includes: determining, by the controller, that a signal transmitted on the signal line transitioned to a steady state voltage; enabling, by the controller responsive to determining that the signal transitioned to the steady state voltage, noise protection to the signal on the signal line including activating the switch thereby coupling the signal line to the pre-charged capacitor, the pre-charged capacitor providing noise protection to the signal on the signal line; and prior to the signal on the signal line transitioning from the steady state voltage, deactivating the switch, thereby decoupling the signal line from the pre-charged capacitor. | 01-30-2014 |
20140031971 | LIFT APPARATUS FOR STABLE PLACEMENT OF COMPONENTS INTO A RACK - A method uses scales onboard a lift apparatus to weigh an uninstalled component that is positioned on the lift apparatus for installation into a rack. Data is accessed that identifies the weight and rack location of components currently installed in the rack, and one or more available rack locations are identified where the component may be installed without violating one or more predetermined rack stability rules. The method then uses the lift apparatus to raise the component into a selected one of the one or more available rack locations. The components are preferably information technology components, such as servers, network switches and power distribution units. | 01-30-2014 |
20140087704 | BLOCKING INCOMING COMMUNICATION INTERRUPTIONS - Embodiments of the present invention provide a system, method, and program product for blocking an alert of an incoming communication external to an in-progress conference call which includes telecommunication devices connected to a communications network. A telecommunication device determines that the device is party to a conference call. The telecommunication device receives an incoming communication external to the conference call while it is party to the conference call. The telecommunication device blocks an alert of the incoming communication, so as to avoid interruption of the conference call. The telecommunication device determines that the conference call has concluded and the telecommunication device presents the blocked alert. | 03-27-2014 |
20140115222 | HIGH SPEED SERIAL PERIPHERAL INTERFACE SYSTEM - A serial peripheral interface (SPI) system including a bus adapter is disclosed. The bus adapter may include a data converter that may be adapted to receive respective first and second data from a first master output peripheral input (MOPI) line and a chip select line from a SPI master device. The data converter may also be adapted to interleave the first and second data, and the data converter may be adapted to transmit the interleaved first and second data synchronously with a second clock signal on a second MOPI line. The bus adapter may also include a clock rate adjuster adapted to generate the second clock signal to transmit to a SPI peripheral device. The second clock signal may be adapted to enable the SPI peripheral device to read the transmitted data. | 04-24-2014 |
20140164660 | DEVICE PRESENCE DETECTION USING A SINGLE CHANNEL OF A BUS - The presence of devices attached to a bus are detected by a controller of a bus transmitting a signal on a channel of the bus, to cause each device to hold the channel to a first logical state for a duration of time that is unique to each device. The device that holds the channel to the first logical state for the longest duration of time is detected. Detected devices remain idle while undetected devices repeat holding the channel to the first logical state for the duration of time, until detected. All devices are detected when the channel returns to a second logical state. | 06-12-2014 |
20140170881 | DIMM EXTRACTION TOOL - Aspects of the present invention disclose a DIMM extraction tool for extracting a DIMM from a DIMM socket. Exemplary embodiments of the DIMM extraction tool include a frame adapted for use as an air baffle within the DIMM socket, a first arm and a second arm pivotably connected to the frame. When the first arm and second arm are in a resting position, the first and second arm respectively engage a first resting detent and a second resting detent to prevent pivotable rotation of the first arm and second arm in exemplary embodiments of the DIMM extraction tool. When the first arm and second arm are in a working position, the first arm and second arm respectively are adapted to releasably engage the DIMM and bias resilient latching arm of the DIMM socket. | 06-19-2014 |
20140306528 | INTELLIGENT OVER-CURRENT PREVENTION - A system, method, and/or computer program product comprises an input/output (I/O) bus and an intelligent current bank that couples a voltage source to the I/O bus. The intelligent current bank includes an ammeter that measures a real-time flow of current to the I/O bus. In response to the current to the I/O bus exceeding a predetermined level, an intelligent Pulse-Width Modulator (iPWM) within the intelligent current bank selectively decreases current to one or more electronic devices on the I/O bus by shortening a duty cycle of voltage being received by the iPWM from the voltage source. | 10-16-2014 |
20140310547 | INTELLIGENT OVER-CURRENT PREVENTION - A system, method, and/or computer program product comprises an input/output (I/O) bus and an intelligent current bank that couples a voltage source to the I/O bus. The intelligent current bank includes an ammeter that measures a real-time flow of current to the I/O bus. In response to the current to the I/O bus exceeding a predetermined level, an intelligent Pulse-Width Modulator (iPWM) within the intelligent current bank selectively decreases current to one or more electronic devices on the I/O bus by shortening a duty cycle of voltage being received by the iPWM from the voltage source. | 10-16-2014 |
20140344487 | Auto-Switching Interfaces to Device Subsystems - A method auto-switches interfaces between a client computer and subsystems in a device under management. A first output bus from a first subsystem is coupled to a client computer via a multiplexer, wherein the first subsystem is a subsystem from multiple system subsystems in the device under management. A hardware subsystem bus monitor monitors all output busses from the multiple system subsystems for a predetermined event on a bus. In response to the predetermined event being detected on a second output bus from a second subsystem in the device under management, the multiplexor decouples the first output bus from the client computer and couples the second output bus to the client computer. | 11-20-2014 |
20150019782 | MESSAGE BROADCAST IN A 1-WIRE SYSTEM - A message is simultaneously broadcast to multiple systems on a 1-wire bus. A first addressed communication session is established between a microprocessor and a first 1-wire I/O expander via a 1-wire bus, where the first 1-wire I/O expander is electrically coupled to a first system. The first 1-wire I/O expander is placed into “fast access mode”, and then removed from the 1-wire bus by opening a switch to the 1-wire bus. A second addressed communication session is established between the microprocessor and a second 1-wire I/O expander before the switch recloses, where the second 1-wire I/O expander is electrically coupled to a second system. The second 1-wire I/O expander is then placed into “fast access mode”. In response to the timer expiring and the switch reclosing, an unaddressed message is broadcast from the microprocessor to the first and second systems via the first and second 1-wire I/O expanders. | 01-15-2015 |
20150026374 | MANAGING SLAVE DEVICES - A hardware system comprises a digital signal generator, which generates a digital electrical signal that describes a first physical state of a first device; an analog electrical signal generator, which generates an analog electrical signal that describes a second physical state of the first device; a hybrid digital state signal generator, which generates a hybrid digital state signal that comprises the analog electrical signal overlaid onto the initial digital electric signal; and a hybrid signal transmitter, which transmits the hybrid digital state signal from the first device to a second device, wherein the second device comprises a hybrid signal receiver/decoder that extracts the analog electrical signal from the hybrid digital state signal. | 01-22-2015 |
20150046615 | MEMORY MODULE COMMUNICATION CONTROL - Methods and systems for memory module communication control are disclosed. A method includes receiving a message associated with a memory module in communication with a controller via a bus including a clock line. Further, the method includes determining whether the bus is idle. The method also includes communicating a signal via the clock line regarding the message associated with the memory module in response to determining that the bus is idle. | 02-12-2015 |
20150046628 | MEMORY MODULE COMMUNICATION CONTROL - Methods and systems for memory module communication control are disclosed. A method includes receiving a message associated with a memory module in communication with a controller via a bus including a clock line. Further, the method includes determining whether the bus is idle. The method also includes communicating a signal via the clock line regarding the message associated with the memory module in response to determining that the bus is idle. | 02-12-2015 |
20150050120 | FAN SPEED AND MEMORY REGULATOR CONTROL BASED ON MEMORY MARGIN - Methods and systems for fan speed control based on memory margin are disclosed. According to an aspect, a method includes determining an operating margin of a memory interface. The method also includes determining whether the operating margin of the memory interface meets a predetermined condition. Further, the method includes controlling a speed of a computing system cooling fan based on the operating margin in response to determining the operating margin meets the predetermined condition. | 02-19-2015 |