A device directed to a combination computing and input device. The computing device providing a plurality of sides, each of the plurality of sides are disposed between an electronic display screen and a back of the computing device. The input device communicates with the computing device and provides a pair of control modules adjacent to and confining the computing device on at least two opposing sides of the computing device. The input device further provides a structural bridge securing the pair of control modules one to the other, a touch sensitive input module, and a transaction system configured for point of sale use. The structural bridge adaptively and snugly accommodate the length of the computing device. A first of the pair of control modules features a retention mechanism communicating with the structural bridge, which snugly accommodates the length of the computing device.

In accordance with embodiments of the present disclosure, an information handling system may include a processor, a peripheral device, and a service processor communicatively coupled to the processor and the peripheral device and configured to perform out-of-band management of the information handling system. The service processor may further configured to communicatively couple to a management controller having executing thereon a virtual service processor, receive a command associated with the peripheral device from the management controller, deliver the command to the peripheral device, receive data from the peripheral device, and communicate the data to the management controller.

A security solution for Bluetooth Low Energy (BLE) or equivalent wireless data exchange protocols involves authentication of a peripheral device by a central device using the advertising channel is presented. A method of authenticating a peripheral device in a wireless data exchange has a peripheral device sending an advertising channel Protocol Data Unit (PDU), a central device receiving the advertising channel PDU and the central device sending a scan request scanning PDU to the peripheral device. The advantage of this method of using discovery protocol enables a software based solution for the monitoring device and a hardware with software based solution on the beacon device.

A data processing system is provided which includes a processor nest communicatively coupled to an input/output bus by a bus controller, and a service interface controller communicatively coupled to the processor nest. The system includes storage for storing commands for the bus controller and associated command data and resulting status data, the storage being communicatively coupled to the processor nest and the bus controller. The service interface controller is configured, in response to received service commands, to read and write the storage, to execute the command specified in the storage, to retrieve the result of the command, and to store the result in the storage.

The embodiments are directed to methods and systems for sending and receiving signals between one or more peripheral devices connected to a dongle system and an operating system. The methods and systems can detect when a dongle system has been connected to a mobile computing device. The methods and systems can receive an input to use the dongle system with a local operating system or a remote operating system. The methods and systems can also establish a communication channel between the local operating system and the remote operating system, and exchange signals between the dongle system and the remote operating system using one or more virtual filters.

The present invention provides a pin multiplexer including a multiplexing circuit, a control circuit and a detecting circuit. The multiplexing circuit includes a first port, a second port and a third port, wherein the first port, the second port and the third port are coupled to a first device, a second device and a third device, respectively. The control circuit is configured to control the multiplexing circuit to operate in a first mode or a second mode, wherein when the multiplexing circuit operates in the first mode, the first port is coupled the second port; and when the multiplexing circuit operates in the second mode, the first port is coupled to the third port. When operating in the second mode, the detecting circuit detects a signal of the first port to generate a detection result for dynamically switching the data transmission direction between the third device and the first device.

Systems and methods for managing peripheral devices associated with host computer systems running virtual machines. An example method comprises: detecting, by a host computer system, a plug-in event associated with a peripheral device; identifying a type of a file system of the peripheral device; selecting, among a group of execution environments comprising the host computer system and one or more virtual machines, an execution environment having a highest compatibility metric value associated with the type of the file system; and responsive to determining that the execution environment is provided by a virtual machine, causing a guest agent running on the virtual machine to mount the peripheral device to the virtual machine.

A transportation-vehicle system for use in virtualizing sensor data from an add-on device for use by a vehicle application. The system includes a hardware-based processing unit and a computer-readable storage device. The storage includes (i) a virtual-sensor-arrangement client configured to communicate with a virtual-sensor-arrangement server of the add-on device, including receiving, from the virtual-sensor-arrangement server, the sensor data corresponding to sensing performed at a sensor of the add-on device. The add-on device is not a part of the transportation vehicle as originally manufactured. The storage also includes (ii) a virtual input/output device driver configured to, when executed by the processing unit, process the sensor data received, yielding virtualized sensor data for delivery to the vehicle application. The technology also includes processes for making and using the system for virtualizing sensor data from an add-on device for use by a vehicle application.

A method of operating an embedded system including target hardware is provided. An operating system of the embedded system has a user mode and a kernel mode. The method includes: providing a user mode driver, which is executed in the user mode to control the target hardware; providing a kernel mode driver, which is executed in the kernel mode to control the target hardware; receiving an instruction code; and deciding to use one of the user mode driver and the kernel mode driver according to the instruction code to control the target hardware.

A method for providing a virtual optical disk drive (ODD) is provided. The method can comprise: simulating a PCI IDE controller through PCI configuration space IO trap and simulating the ODD through IDE device IO trap.