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.

The present invention relates to methods for enabling use of a pluggable module in a host system, regardless of the type of pluggable module used in view of the module ports of the host system, which is realized using an adaptation device. The disclosure also relates to corresponding devices; adaptation devices and host systems. The methods comprise inserting a pluggable module in a module port of a host system, obtaining information indicating an electrical interface of pluggable module and setting a mode of operation of the adaptation device for re-routing and adapting signals to/from the pluggable module towards one or more controlling entities of the host system based on the electrical interface of the pluggable module.

A detection device adapted to a connector is provided herein. The connecter includes a first pin and a second pin, and the first pin and the second pin are physically separated and coupled to a first power respectively. The detection device includes a first transistor, a first resistor, a second transistor, and a bias circuit. The first transistor is coupled between the first pin and the first power. The first resistor is coupled between a gate terminal of the first transistor and the first power. A detection signal is generated at the gate terminal of the first transistor. The second transistor is coupled between the gate terminal of the first transistor and a second power. The bias circuit is coupled between a gate terminal of the second transistor and the first pin.

A data storage array has a backplane at the base of an enclosure. A plurality of data storage drives are coupled to connectors of the backplane. A hot-swappable protocol expander module is coupled between the drives and the backplane through a top of the enclosure or to the backplane through a side of the enclosure.

The present application relates to the field of display technology, and discloses a display module test platform, including a core processor. The core processor is capable of supporting installation of a terminal operating system. A display output terminal of the core processor is connected to a display module to be tested. The display module to be tested includes a touch structure. The touch structure and the core processor communicate with each other via an Inter-Integrated Circuit (I2C) bus.

An interface circuit is provided, which includes an interface, a detection control module, a switch module, a first data line, and a second data line. A width of the second data line is smaller than that of the first data line, the interface is electrically connected to the detection control module and a movable end of the switch module, a first fixed end and a second fixed end of the switch module are electrically connected to the first data line and the second data line, respectively. When the detection control module detects that a signal of the interface is a power supply signal, the movable end of the switch module is connected to the first fixed end; when the detection control module detects that a signal of the interface is a data signal, the movable end of the switch module is connected to the second fixed end.

A power management integrated circuit (PMIC) is described for providing system management bus (SMB) isolation, along with memory sub-systems which include such a PMIC and methods of operating such devices. In one embodiment, a PMIC comprises a voltage supply input, power management circuitry, and elements of a SMB. The SMB elements can include an SMB input, an SMB hot swap controller coupled to the SMB input, one or more SMBs, and one or more SMB outputs. When integrated with a memory sub-system, one SMB output can be connected to a memory controller and another SMB output to a microcontroller. During different power states (e.g., normal or low power states), certain outputs can be isolated in order to manage communications on the SMB during the different power states of the memory sub-system using the PMIC.

An information handling system includes a host processing system, first and second data storage devices having respective first and second data storage capacities, and a license manager. The license manager implements a first license, receives a second license, and implements the second license without rebooting the information handling system. The first license defines a first configuration where the first data storage device is visible and the first data storage capacity is available to the host processing system, and the second data storage device is not visible and the second data storage capacity is not available to the host processing system. The second license defines a second configuration where both data storage devices are and both data storage capacities are available to the host processing system.

A secondary processor device ownership system includes a chassis that houses a plurality of devices, a secondary processing system, and a central processing system that includes an integrated switch device that is coupled to each of the plurality of devices and the secondary processing system. The central processing system is configured to provide a device ownership subsystem that configures the central processing system to own a first subset of the plurality of devices, configures the secondary processing system to own a second subset of the plurality of devices, and hides the second subset of the plurality of devices from at least one application provided by the central processing system.

A docking board removably coupled to a processor board that does not function when not operatively coupled to the docking board. The docking board sends power to and receive a control signal from the processor board when operatively coupled to the processor board and does not send power and does not receive a control signal when not operatively coupled to the processor board. The docking board is removably coupled to an expansion board that performs a computer function that is not performed by the processor board and the docking board. The docking board sends power and a control signal to the expansion board when the docking board is operatively coupled to the processor board and the expansion board, and does not send power and does not send a control signal to the expansion board when the docking board is not operatively coupled to the processor board and the expansion board.