Extended display identification data

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Extended display identification data (EDID) is a data structure provided by a computer display to describe its capabilities to a graphics card. It is what enables a modern personal computer to know what kind of monitor is connected. EDID is defined by a standard published by the Video Electronics Standards Association (VESA). The EDID includes manufacturer name, product type, phosphor or filter type, timings supported by the display, display size, luminance data and (for digital displays only) pixel mapping data.

EDID structure 1.0 was defined in 1994; version 1.1 followed in 1996, then 1.2, and 1.3 in 2000. All these define upwards compatible 128 byte structures. EDID structure 2.0 defines a new 256-byte structure.

The channel for transmitting the EDID from the display to the graphics card is usually the I²C bus. The combination of EDID and I²C is called the display data channel version 2, or DDC2. The 2 distinguishes it from VESA's original DDC, which used a different serial format.

Before DDC and EDID were defined, there was no standard way for a graphics card to know what kind of display device it was connected to. Some VGA connectors in personal computers provided a basic form of identification by connecting one, two or three pins to ground, but this coding was not standardized.

The EDID is often stored in the monitor in a memory device called a serial PROM (programmable read-only memory) or EEPROM (electrically erasable PROM) that is compatible with the I²C bus.

Many software packages can read and display the EDID information, such as Powerstrip for Microsoft Windows and XFree86 for Linux, which will output the EDID to the log if verbose logging is on (startx -- -logverbose 5).

EDID 1.1 data format

Byte sequence
00-07: Header information
08-17: Complete serial number
08-09: Manufacturer ID
10-11: Product ID Code (little-endian)
12-15: Serial Number (little-endian)
16: Week of Manufacture
17: Year of Manufacture.  Add 1990 to the value for actual year.
18: EDID Version Number
19: EDID Revision Number
20-24: Basic Display Parameters
20: VIDEO INPUT DEFINITION
bit 7: 0=analog, 1=digital
if bit 7 is digital:
bit 0: 1=DFP 1.x compatible
if bit 7 is analog:
bit 6-5: video level
00=0.7, 0.3, 01=0.714, 0.286, 10=1, .4 11=0.7, 0
bit 4: blank-to-black setup
bit 3: separate syncs
bit 2: composite sync
bit 1: sync on green
bit 0: serration vsync
21: Maximum Horizontal Image Size (in centimeters).
22: Maximum Vertical Image Size (in centimetres).
23: Display Gamma.  Divide by 100, then add 1 for actual value.
24: Power Management and Supported Feature(s):
bit 7: standby
bit 6: suspend
bit 5: active-off/low power
bit 4-3: display type.
00=monochrome, 01=RGB colour, 10=non RGB multicolour, 11=undefined
bit 2: standard colour space
bit 1: preferred timing mode
bit 0: default GTF supported
25-34: CHROMA INFO
25: low significant bits for Red X (bit 7-6), Red Y (bit 5-4), Green X (bit 3-2), Green Y (bit 1-0).
26: low significant bits for Blue X (bit 7-6), Blue Y (bit 5-4), White X (bit 3-2), White Y (bit 1-0).
27-34: high significant bits for Red X, Red Y, Green X, Green Y, Blue X, Blue Y, White X, White Y.
To decode actual value, rearrange bits as follows:
High significant bits 7-0 for (channel), low significant bits for (channel).
Actual value is between 0.000 and 0.999, but encoded value is between 000h and 3FFh.
35: ESTABLISHED TIMING I
bit 7-0: 720x400@70 Hz, 720x400@88 Hz, 640x480@60 Hz, 640x480@67 Hz,
640x480@72 Hz, 640x480@75 Hz, 800x600@56 Hz, 800x600@60 Hz
36: ESTABLISHED TIMING II
bit 7-0: 800x600@72 Hz, 800x600@75 Hz, 832x624@75 Hz, 1024x768@87 Hz (Interlaced),
1024x768@60 Hz, 1024x768@70 Hz, 1024x768@75 Hz, 1280x1024@75 Hz
37: Manufacturer's Reserved Timing
38-53: Standard Timing Identification.  2 bytes for each record.
First byte
Horizontal resolution.  Multiply by 8, then add 248 for actual value.
Second byte
bit 7-6: Aspect ratio.  Actual vertical resolution depends on horizontal resolution.
00=16:10, 01=4:3, 10=5:4, 11=16:9
bit 5-0: Vertical frequency.  Adds 60 to get actual value.

54-71: Descriptor Block 1
54-55: Pixel Clock (in 10 kHz) or 0
If Pixel Clock is non null:
56: Horizontal Active (in pixels)
57: Horizontal Blanking (in pixels)
58: Horizontal Active high (4 upper bits)
Horizontal Blanking high (4 lower bits)
59: Vertical Active (in pixels)
60: Vertical Blanking (in vertical pixels/lines)
61: high significant bits for Vertical Active (4 upper bits)
high significant bits for Vertical Blanking (4 lower bits)
62: Horizontal Sync Offset (in pixels)
63: Horizontal Sync Pulse Width (in pixels)
64: Vertical Sync Offset (in lines) (4 upper bits)
Vertical Sync Pulse Width (in lines) (4 lower bits)
65: high significant bits for Horizontal Sync Offset (bit 7-6)
high significant bits for Horizontal Sync Pulse Width (bit 5-4)
high significant bits for Vertical Sync Offset (bit 3-2)
high significant bits for Vertical Sync Pulse Width (bit 1-0)
66: Horizontal Image Size (in mm)
67: Vertical Image Size (in mm)
68: high significant bits for Horizontal Image Size (4 upper bits)
high significant bits for Vertical Image Size (4 lower bits)
69: Horizontal Border
70: Vertical Border
71: Interlaced or not (bit 7)
? (bit 6)
Stereo or not (bit 5)
Separate Sync or not (bit 4-3)
Horizontal Sync positive or not (bit 2)
Vertical Sync positive or not (bit 1)
? (bit 0)
If Pixel Clock is null:
56: 0
57: Block type
FFh=Monitor Serial Number, FEh=ASCII string, FDh=Monitor Range Limits, FCh=Monitor name,
FBh=Colour Point Data, FAh, Standard Timing Data, F9h=Currently undefined, F8h=defined by manufacturer
58: Unknown
59-71: Descriptor block contents.
If block type is FFh, FEh, or FCh, the entire area is a text string.
If block type is FDh:
59-63:
Min Vertical frequency, Max Vertical frequency,
Min Horizontal frequency (in kHz), Max Horizontal frequency (in kHz), pixel clock (in MHz)
64-65: Secondary GTF toggle
If encoded value is 000A, bytes 59-63 are used.  If encoded value is 0200, bytes 67-71 are used.
66: Start horizontal frequency (in kHz).  Multiply by 2 for actual value.
67: C. Divide by 2 for actual value.
68-69: M (little endian).
70: K
71: J. Divide by 2 for actual value.
If block type is FBh:
59: W Index 0.  If set to 0, bytes 60-63 are not used.  If set to 1, 61-63 are assigned to white point index #1
64: W Index 1.  If set to 0, bytes 65-68 are not used.  If set to 2, 65-68 are assigned to white point index #2
White point index structure:
First byte
bit 3-2: low significant bits for White X (bit 3-2), White Y (bit 1-0)
Second to third byte: high significant bits for White X, White Y.
Fourth byte: Gamma.  Divide by 100, then add 1 for actual value.
To decode White X and White Y, see bytes 25-34.
If block type is FAh:
59-70: Standard Timing Identification.  2 bytes for each record.
For structure details, see bytes 38-53.

72-89: Descriptor Block 2
90-107: Descriptor Block 3
108-125: Descriptor Block 4
126: Extension EDID Block(s).  In EDID 1.1, it is ignored, and should be set to 0.
127: Checksum.

For example, here is a summary of the data reported by an Envision EN-775e monitor:

Monitor Name                 EPI EnVision EN-775e
Monitor ID                   EPID775
Model                        EN-775e
Manufacture Date             Week 26 / 2002
Serial Number                1226764172
Max. Visible Display Size    32 cm x 24 cm (15.7")
Picture Aspect Ratio         4:3
Horizontal Frequency         30 - 72 kHz
Vertical Frequency           50 - 160 Hz
Maximum Resolution           1280 x 1024
Gamma                        2.20
DPMS Mode Support            Active-Off

Supported Video Modes:
640 x 480                    140 Hz
800 x 600                    110 Hz
1024 x 768                   85 Hz
1152 x 864                   75 Hz
1280 x 1024                  65 Hz

Monitor Manufacturer:
Company Name                 Envision, Inc.

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