A computer system, remote control monitoring system, and remote control monitoring method are provided to instantly provide the local display screen of the local computer to the remote computer for remote real-time display. The remote control monitoring system is arranged in the local computer and has a signal receiver and a remote controller. The signal receiver receives the video signal from the processor, executes the signal transforming process to generate the video signal in different standards. The remote controller executes a network compressing process on the transformed video signal to generate the network transportable video data, and transmits the data to the remote computer for displaying the corresponding remote display screen on the remote computer. The present disclosure enables the implementing of the out-of-band remote displaying.

Deployment of arrangements of physical computing components coupled over a communication fabric are presented herein. In one example, a method includes coupling into a communication fabric a plurality of communication interfaces provided by a baseboard hosting a plurality data processing devices. The method includes establishing a one-hop latency in the communication fabric between the plurality of data processing devices and peripheral card slots, and establishing a two-hop latency in the communication fabric between the plurality of data processing devices and additional peripheral card slots. The method also includes establishing interconnect pathways between a plurality of communication switches that provide the one-hop latency through one or more cross-connect communication switches that provide the two-hop latency.

An electrical power supplying and cord management system including: a module docking station having a module docking receptacle and base station portion having integrated external power cord storage compartments for power cord management; and a multi-function dockable module dockable in the module docking receptacle and manually removable and useable locally as well as at remote locations. The dockable module supports (i) an emergency-light illumination subsystem including a LED array for producing, during an emergency-light illumination mode, illumination in response to automatic detection of changes in line voltage supplied to the portable electrical power supplying system; a night-light illumination subsystem including the LED array for producing, during a night-light illumination mode, illumination in response to automatic detection of changes in the light level of the ambient environment; and a battery power storage subsystem containing a rechargeable battery storage module for storing DC electrical power for driving the LED array during various modes, and recharging a DC power electronic device such a mobile phone.

A solid state device for a computer system is disclosed. The computer system includes a detecting module for detecting a connection state of a connector of a backplane of the computer system. The solid state device includes a memory module, configured to store data; a connection module, configured to connect the connector of the backplane of the computer system; and a controller module, coupled to the memory module and the connection module, configured to write data into the memory module according to a writing notification from the computer system when the connection state between the connection module and the connector of the computer system is changed from a first connection state to a second connection state, and to notify the computer system to unlock the connector of the computer system after finishing writing the data.

A software and hardware architecture framework utilize the specifications of Universal Serial Bus (USB) Type-C and Power Deliver (PD) to provide fine grain throttling of a processor (e.g., system-on-chip (SoC)). Based on an external charger connection or disconnection, a low latency fine grain power budget loss or gain indication to the processor is delivered. The mechanism of various embodiments is also applicable to connection or disconnection of VBUS powered peripheral devices to the system. The net power loss or gain available to the SoC and System is proportionally used to scale the processor throttling.

An integrated platform system controlled with hardware and software for just-in-time, local manufacturing is disclosed. System hardware may include a fermentation system, a cross-flow system, a disposable formulation system, a robotic fill-finish system, and a quality control test and release system.

A data processing system comprises a pool of reconfigurable data flow resources with arrays of physical configurable units, a controller, and a runtime processor. The controller is configured to generate a hot-plug event in response to detecting a removal of an unallocated array of physical configurable units from the pool of reconfigurable data flow resources. The runtime processor is configured to execute user applications on a subset of the arrays of physical configurable units and to receive the hot-plug event from the controller. The runtime processor is further configured to make the removed unallocated array of physical configurable units unavailable for subsequent allocations of subsequent virtual data flow resources and subsequent executions of subsequent user applications, while the subset of the arrays of physical configurable units continues the execution of the user applications.

A Peripheral Component Interface Express (PCIe) card includes a circuit board, a device mounted on the circuit board, and a PCIe processor mounted on the circuit board. The PCIe processor is communicatively coupled to the device and a host processor of a host system. The PCIe processor is configured to detect a power signal on an auxiliary (AUX) power rail of the PCIe card. A periodic detection of a state of the device is performed based on detecting the power signal on the AUX power rail. A signal indicative of the state of the device is encoded for transmission to the host processor of the host system. PCIe link training is performed via a PCIe interface with the host system. The PCIe link training is initiated based on the signal indicative of the state of the device.

A method for personalizing operation of a building control system of a workspace management system including a user communication device, a hot-desking station, a workstation phone having a first graphical display device. The workstation phone may be communicatively coupled to a workspace management server, the method including receiving, over a communication network, from the workspace management server a first message including an identification of the workspace to be displayed as a QR code on the first graphical display device of the workstation phone. The user communication device may include a camera having a first interface for a first communication channel.

A first power-supply voltage is applied to I/O cells, an I/O cell connected to a clock terminal is initially set to a threshold of a second voltage signaling, an I/O cell connected to a command terminal and I/O cells connected to data terminals are initially set as an input, and when a clock control unit detects receipt of one clock pulse and a signal voltage control unit detects a host using the second voltage signaling, a signal voltage control unit drives the I/O cell of a first data terminal high level after a second power-supply voltage is applied to I/O cells and the threshold of a second voltage signaling is set to I/O cells of the clock, command and data terminals.