Driver Booster The World’s No. 1 Driver Updating Tool. Update all your outdated, missing and problematic graphic drivers and audio drivers with just 1 click. Download Free For Windows 10/8/7/Vista/XP. Mar 17, 2016 3) Using a 'Monitor' button at the bottom, select and show screen number 2. 4) iPad now shows screen 2 from PC. This can be done via LogMeIn or TeamViewer on iOS, Android, Windows, Mac and I believe Linux. Once you have done the intial configuration steps you can quickly enable to display the second screen using the 'Windows Key + P'.
In some cases you might not be able to physically setup a second Monitor, or you simply do not have the money to spend for one. No matter whats the reason, there is a way to tell Windows that you have a Monitor connected. This “Virtual Monitor” can then be used to hold programs you currently do not need, or programs you want to capture with your streaming/recording software but which would be hidden behind your fullscreen game for example. Oh, and of course on older QuickSync setups, if you need a Monitor connected to your iGPU, this setup should also help you get QuickSync working. So how do we do it? With a few simple steps:
Open your Screen Resolution settings, either using the Control Panel or by right-clicking your Desktop and selecting Screen Resolution:
Click the “Detect” button and one or two gray Monitor’s should appear
QuickSync users now have to make sure the Display they select is named as “Available display output on: Intel(R) HD Gr…”, users that simply want a Virtual monitor can read on
Next we have to tell Windows to try and connect a display anyway, followed by clicking apply
The next step differs slightly again. Normal users should now have the option to Duplicate their desktop, which we do not want of course, while both QuickSync and Normal users should have the option to “Extend desktop to this display”. This is what we want so select, again followed by the apply button, to get our Virtual Monitor.
Now, last but not least, if you want to use the Monitor and do not just need it for QuickSync, you can select a usable resolution, for example similar to your normal Monitor resolution.
That is pretty much all you need to connect a “Fake/Virtual” Monitor/Display on Windows. If you have questions, post them below!
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With an INF file you can override the Extended Display Identification Data (EDID) of any monitor. A sample INF file, Monsamp.inf, that shows how to do this was provided with the Windows Driver Kit (WDK) through Windows 7 (WDK version 7600). Monsamp.inf is reproduced here.
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For info on how to use and modify Monsamp.inf, see Monitor INF File Sections.
Approaches to correcting EDIDs
All monitors, analog or digital, must support EDID, which contains info such as the monitor identifier, manufacturer data, hardware identifier, timing info, and so on. This data is stored in the monitor’s EEPROM in a format that is specified by the Video Electronics Standards Association (VESA).
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Monitors provide the EDID to Microsoft Windows components, display drivers, and some user-mode applications. For example, during initialization the monitor driver queries the Windows Display Driver Model (WDDM) driver for its brightness query interface and device driver interface (DDI) support, which is in the EDID. Incorrect or invalid EDID info on the monitor’s EEPROM can therefore lead to problems such as setting incorrect display modes. Gehl 1460 manual.
There are two approaches to correcting EDIDs:
The standard solution is to have the customer send the monitor back to the manufacturer, who reflashes the EEPROM with the correct EDID and returns the monitor to the customer.
A better solution, described here, is for the manufacturer to implement an INF file that contains the correct EDID info, and have the customer download it to the computer that's connected to the monitor. Windows extracts the updated EDID info from the INF and provides it to components instead of the info from the EEPROM EDID, effectively overriding the EEPROM EDID.
In addition to replacing the EDID info as described here, a vendor can provide an override for the monitor name and the preferred display resolution. Such an override is frequently made available to customers through Windows Update or digital media in the shipping box. Such an override receives higher precedence than the EDID override mentioned here. Guidelines for achieving this can be found in Monitor INF File Sections.
EDID format
EDID data is formatted as one or more 128-byte blocks:
EDID version 1.0 through 1.2 consists of a single block of data, per the VESA specification.
With EDID version 1.3 or enhanced EDID (E-EDID), manufacturers can specify one or more extension blocks in addition to the primary block.
Each block is numbered, starting with 0 for the initial block. To update EDID info, the manufacturer’s INF specifies the number of the block to be updated and provides 128 bytes of EDID data to replace the original block. The monitor driver obtains the updated data for the corrected blocks from the registry and uses the EEPROM data for the remaining blocks.
Updating an EDID
To update an EDID by using an INF:
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The monitor manufacturer implements an INF that contains the updated EDID info and downloads the file to the user’s computer. This can be done through Windows Update or by shipping a CD with the monitor.
The monitor class installer extracts the updated EDID info from the INF and stores the info as values under this registry key:
Each EDID override is stored under a separate key. For example:
The monitor driver checks the registry during initialization and uses any EDID info that's stored there instead of the corresponding info on EEPROM. EDID info that has been added to the registry always takes precedence over EEPROM EDID info.
Windows components and user-mode apps use the updated EDID info.
Overriding an EDID with an INF
To override an EDID, include an AddReg directive in the INF for each block that you want to override, in the following format:
The block number is a zero-indexed value of the EDID block to override. The data bytes should be formatted as 128 hexadecimal integers that contain the binary EDID data. The '0x1' value after the block number is a flag indicating that this registry value contains binary data (FLG_ADDREG_BINVALUETYPE).
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Manufacturers must update only those EDID blocks that are incorrect. The system obtains the remaining blocks from EEPROM. The following example shows the relevant sections of an INF that updates EDID blocks 0, 4, and 5. The monitor driver obtains blocks 1 - 3 and any extension blocks that follow block 5 from EEPROM:
For more info on INFs in general, and AddReg and DDInstall in particular, see Creating an INF File.