Systems and methods of providing multiple video outputs during a pre-boot environment

What is claimed is: 1. A method of operating an information handling system that includes a host processing device coupled to at least one embedded or integral video controller and at least one discrete video controller, the method comprising using the host processing device to perform the following steps prior to booting an operating system (OS) on the host processing device: initializing and enabling the embedded or integral video controller to produce pre-boot video data; and initializing and enabling the discrete video controller to produce pre-boot video data, the pre-boot video data produced by the discrete video controller being simultaneously produced with the pre-boot video data produced by the embedded or integral video controller. 2. The method of claim 1 , where the information handling system further includes an out-of-band processing device that is coupled to at least the embedded or integral video controller; and where the method further comprises performing the following steps prior to booting the OS on the host processing device: initializing and enabling the discrete video controller to produce pre-boot video data to generate a local video display on a local user display device coupled to the discrete video controller, the pre-boot video data produced by the discrete video controller being simultaneously produced with the pre-boot video data produced by the embedded or integral video controller; and using the out-of-band processing device to monitor the pre-boot video data produced by the embedded or integral video controller, and to produce the monitored embedded or integral controller-produced pre-boot video data to generate a remote video display on a remote user display device that is remotely coupled to the information handling system, the remote video display being generated simultaneously with the local video display. 3. The method of claim 2 , where the local video display generated on the local user display device includes the same video display information as the remote video display simultaneously generated on the remote user display device. 4. The method of claim 2 , further comprising using the host processing device to execute at least a portion of a power-on-self-test (POST) prior to booting an OS on the host processing device, and after the steps of initializing and enabling the embedded or integral video controller to produce pre-boot video data and initializing and enabling the discrete video controller to produce pre-boot video data; and where the local video display generated on the local user display device and simultaneously generated on the remote user display device each includes POST display information generated during the POST. 5. The method of claim 1 , further comprising performing the following steps after producing the pre-boot video data from the discrete video controller simultaneously with the pre-boot video data produced by the embedded or integral video controller: disabling the embedded or integral video controller; and only then booting an OS on the host processing device. 6. The method of claim 1 , further comprising using the host processing device to execute a system BIOS to perform the steps of initializing and enabling the embedded or integral video controller to produce pre-boot video data, and initializing and enabling the discrete video controller to produce pre-boot video data. 7. The method of claim 1 , further comprising: using the host processing device to execute a BIOS setup utility or a provisioning or deployment script to allow a user to enter an embedded or integral video controller disable command; then determining whether an embedded or integral video controller disable command has been previously entered by a user and is currently effective; and then: performing the steps of initializing and enabling the embedded or integral video controller and initializing and enabling the discrete video controller when it is determined that an embedded or integral video controller disable command is currently effective; and only initializing and enabling the embedded or integral video controller when it is determined that no embedded or integral video controller disable command is currently effective. 8. The method of claim 1 , further comprising: using the host processing device to execute a system BIOS to determine whether a current boot mode is a legacy BIOS mode or a Unified Extensible Firmware Interface (UEFI) boot mode prior to the initializing the embedded or integral video controller; and then performing the following steps to initialize each of the embedded or integral video controller and the discrete video controller to produce pre-boot video data if the current boot mode is determined to be a legacy boot mode: initializing the embedded or integral video controller to produce pre-boot video data by loading legacy video option ROM firmware for the embedded or integral video controller to initialize video from the embedded or integral video controller, then unloading the legacy video option ROM for the embedded or integral video controller, and initializing the discrete video controller to produce pre-boot video data by loading the legacy video option ROM for the discrete video controller and synchronizing the video display on the embedded or integral video controller with the video display on the discrete video controller; or then performing the following steps if the current boot mode is determined to be a UEFI boot mode: adding both a UEFI device path for the discrete video controller and a UEFI device path for the embedded or integral video controller during a console initialization step to the UEFI Console In/Console Out (ConIn/ConOut), and connecting to a driver of the discrete video controller to initialize the discrete video controller to produce pre-boot video data and connecting to a driver of the embedded or integral video controller to initialize the embedded or integral video controller to produce pre-boot video data. 9. The method of claim 8 , further comprising using the host processing device to execute at least a portion of a power-on-self-test (POST) after initializing each of the embedded or integral video controller and the discrete video controller to produce pre-boot video data and prior to booting an OS. 10. The method of claim 9 , further comprising performing the following steps after using the host processing device to execute the POST: disabling the embedded or integral video controller; and only then booting the OS on the host processing device. 11. An information handling system, comprising: at least one embedded or integral video controller; at least one discrete video controller; and a host processing device coupled to the embedded or integral video controller and the discrete video controller; where the host processing device is configured to perform the following steps prior to booting an operating system (OS) on the host processing device: initializing and enabling the embedded or integral video controller to produce pre-boot video data; and initializing and enabling the discrete video controller to produce pre-boot video data simultaneously with the pre-boot video data produced by the embedded or integral video controller. 12. The system of claim 11 , further comprising: an out-of-band processing device that is coupled to the embedded or integral video controller; where the at least one discrete video controller is configured to be coupled to at least one local display device; where the host processing device is further configured to perform the following step prior to booting the OS on the host processing device: initializing and enabli