Abstract: In one example in accordance with the present disclosure, a computing device is described. The computing device includes a number of ports. Each port receives a connection to a display device. A first port is coupled to the first graphics processor which supports a number of display devices and a second graphics processor. The computing device also includes a controller. The controller determines when a number of coupled display devices is greater than the number of display devices supported by the first graphics processor and switches the first port from being driven by the first graphics processor to be driven by the second graphics processor.

Abstract: In one example in accordance with the present disclosure, a computing device is described. The computing device includes a number of ports. Each port receives a connection to a display device. A first port is coupled to the first graphics processor which supports a number of display devices and a second graphics processor. The computing device also in-cludes a controller. The controller determines when a number of coupled display devices is greater than the number of display devices supported by the first graphics processor and switches the first port from being driven by the first graphics processor to be driven by the second graphics processor.

Abstract: Examples are described herein for dynamically allocating shared bus lanes provided by a peripheral component bridge. A multiplexor may be operably coupled with the bridge via the shared bus lanes. A plurality of peripheral component slots may each be operably coupled with the multiplexor via a respective plurality of peripheral bus lanes. The multiplexor may multiplex the shared bus lanes to multiple different peripheral component slots. Circuitry may: interrogate each of the peripheral component slots to obtain information about a modular component installed in the peripheral component slot, wherein the information about the modular component includes a usable range of bus lanes and a transmission speed capability; and cause the multiplexor to dynamically allocate the number of shared bus lanes to the respective pluralities of peripheral bus lanes of the peripheral component slots based on the usable ranges and transmission speed capabilities of the installed modular components.

Abstract: In an example, radio frequency identification communications is used to pair a wireless device and a host computing system for communications over a non-radio frequency identification communications protocol. The wireless device includes a radio frequency identification reader that extracts pairing information from a radio frequency identification tag of the host computing system. The wireless device may then automatically initiate pairing with the host computing system using the pairing information, without further input from a user of the wireless device. A connection is then established between the wireless device and the host computing system using a non-radio frequency identification wireless communication protocol. The connection facilitates an exchange of data between the wireless device and the host computing system.

Abstract: In an example, radio frequency identification communications is used to pair a wireless device and a host computing system for communications over a non-radio frequency identification communications protocol. The wireless device includes a radio frequency identification reader that extracts pairing information from a radio frequency identification tag of the host computing system. The wireless device may then automatically initiate pairing with the host computing system using the pairing information, without further input from a user of the wireless device. A connection is then established between the wireless device and the host computing system using a non-radio frequency identification wireless communication protocol. The connection facilitates an exchange of data between the wireless device and the host computing system.

Abstract: An adaptable connector, a non-standard PCIe module, and a computer readable medium are disclosed. The adaptable connector for a PCIe interface allows for multiple standard PCIe modules and non-standard PCIe modules at different times An external I/O port has a set of non-PCIe I/O signal lanes coupled to the adaptable connector in lieu of a set of root port host PCIe signal lanes when a non-standard PCIe module is mated to the adaptable connector.

Abstract: A safety system can include: at least one wearable device configured to communicate with a central hub of a facility; and the central hub programmed to determine a location of the at least one wearable device within the facility, and to provide emergency instructions to the at least one wearable device based upon the location.

Abstract: A voice control system for a police vehicle, including: a single azimuthally-sensitive directional microphone configured to receive an audio command for controlling an aspect of the police vehicle and identify a direction of origin of the audio command; and a controller including a processor and tangible memory encoding instructions which, when executed by the processor, cause the controller to: identify a command associated with the audio command received by the single azimuthally-sensitive directional microphone; and when the direction of origin allows for the command, initiate the command to control the aspect of the police vehicle.

Abstract: In an example, radio frequency identification communications is used to pair a wireless device and a host computing system for communications over a non-radio frequency identification communications protocol. The wireless device includes a radio frequency identification reader that extracts pairing information from a radio frequency identification tag of the host computing system. The wireless device may then automatically initiate pairing with the host computing system using the pairing information, without further input from a user of the wireless device. A connection is then established between the wireless device and the host computing system using a non-radio frequency identification wireless communication protocol. The connection facilitates an exchange of data between the wireless device and the host computing system.

Abstract: A safety system can include: at least one wearable device configured to communicate with a central hub of a facility; and the central hub programmed to determine a location of the at least one wearable device within the facility, and to provide emergency instructions to the at least one wearable device based upon the location.

Abstract: A voice control system for a police vehicle, including: a single azimuthally-sensitive directional microphone configured to receive an audio command for controlling an aspect of the police vehicle and identify a direction of origin of the audio command; and a controller including a processor and tangible memory encoding instructions which, when executed by the processor, cause the controller to: identify a command associated with the audio command received by the single azimuthally-sensitive directional microphone; and when the direction of origin allows for the command, initiate the command to control the aspect of the police vehicle.