ProPhoto RGB color space

ProPhoto RGB
Reference Output Medium Metric RGB
	CIE 1931 xy chromaticity diagram showing the chromaticities enclosed by the ProPhoto RGB color space and location of the primaries. The D50 white point is shown in the center. The areas of the triangle that are outside the colored area are imaginary colors.
Abbreviation	ROMM RGB
Native name	Reference Output Medium Metric RGB; ISO 22028-2:2013; ANSI/I3A IT10.7666-2002;
Status	Published
Latest version	2013; April 2013; 11 years ago
Organization	Kodak; IEC; ANSI;
Committee	ISO/TC 42 (TC)
Authors	Kodak
Base standards	RGB
Domain	Color space, color model
Website	ISO: www.iso.org/standard/56591.html; ANSI: webstore.ansi.org/Standards/I3A/ANSII3AIT1076662002;

The ProPhoto RGB color space, also known as ROMM RGB (Reference Output Medium Metric), is an output referred RGB color space developed by Kodak. It offers an especially large gamut designed for use with photographic output in mind. The ProPhoto RGB color space encompasses over 90% of possible surface colors in the CIE L*a*b* color space, and 100% of likely occurring real-world surface colors documented by Michael Pointer in 1980,^[3]^[4] making ProPhoto even larger than the Wide-gamut RGB color space. The ProPhoto RGB primaries were also chosen in order to minimize hue rotations associated with non-linear tone scale operations. One of the downsides to this color space is that approximately 13% of the representable colors are imaginary colors that do not exist and are not visible colors.

When working in color spaces with such a large gamut, it is recommended to work in 16-bit color depth to avoid posterization effects. This will occur more frequently in 8-bit modes as the gradient steps are much larger.

There are two corresponding scene space color encodings known as RIMM RGB (Reference Input Medium Metric) intended to encode standard dynamic range scene space images, and ERIMM RGB intended to encode extended dynamic-range scene space images.^[5]^[6]

Development

The development of the ProPhoto RGB and other color spaces is documented in an article^[7] summarizing a presentation by one of its developers Geoff Wolfe at Kodak, currently senior research manager at Canon Information Systems Research Australia, at the IS&T/SPIE Color Imaging Conference in 2011.

Encoding primaries

Color	CIE x	CIE y	CIE X	CIE Y	CIE Z
Red	0.734699	0.265301	0.79767	0.28804	0.00000
Green	0.159597	0.840403	0.13519	0.71188	0.00000
Blue	0.036598	0.000105	0.03134	0.00009	0.82491
White	0.345704	0.358540	0.96420	1.00000	0.82489

Viewing environment

Luminance level is in the range of 160–640 cd/m².
Viewing surround is average.
There is 0.5–1.0% viewing flare.
The adaptive white point is specified by the chromaticity values for CIE Standard illuminant D50 ( $x=0.345704$ , $y=0.358540$ ).
The image color values are assumed to be encoded using flareless (or flare corrected) colorimetric measurements based on the CIE 1931 Standard Colorimetric Observer.

Encoding function

X'_{\mathrm {ROMM} }=I_{\mathrm {MAX} }\cdot {\begin{cases}0;&X_{\mathrm {ROMM} }<0.0\\16\cdot X_{\mathrm {ROMM} };&0.0\leq X_{\mathrm {ROMM} }<E_{t}\\X_{\mathrm {ROMM} }^{1/1.8};&E_{t}\leq X_{\mathrm {ROMM} }<1.0\\1;&X_{\mathrm {ROMM} }\geq 1.0\end{cases}}

where

X=R,\,G,\,or\,B

and

I_{\mathrm {MAX} }

is the maximum integer value used in the encoding function (e.g. 255 for 8-bit configuration)

and

E_{t}=16^{1.8/(1-1.8)}=2^{-9}=1/512=0.001953125

References

^ ^a ^b ^c ISO (April 2013). "ISO - ISO 22028-2:2013 - Photography and graphic technology — Extended colour encodings for digital image storage, manipulation and interchange — Part 2: Reference output medium metric RGB colour image encoding (ROMM RGB)". ISO. 2013. Retrieved 2021-04-19.
^ International Imaging Industry Association (2002). "ANSI/I3A IT10.7666-2002 - Photography - Electronic Still Picture Imaging - Reference Output Medium Metric RGB Color Encoding (ROMM-RGB)". ANSI Webstore. Retrieved 2021-04-19.
^ Pointer, M. R. (1980). "The Gamut of Real Surface Colours. Color Res. Appl., 5". Color Research & Application. 5 (3) (published 2007-03-15): 145–155. doi:10.1002/col.5080050308. Retrieved 2021-04-19.
^ Jansen, Kid (2014-02-19). "The Pointer's Gamut - The coverage of real surface colors by RGB color spaces and wide gamut". TFT Central. Retrieved 2017-10-29.
^ ISO (August 2012). "ISO - ISO/TS 22028-3:2012 - Photography and graphic technology — Extended colour encodings for digital image storage, manipulation and interchange — Part 3: Reference input medium metric RGB colour image encoding (RIMM RGB)". ISO. 2012. Retrieved 2021-04-19.
^ International Imaging Industry Association (2002). "ANSI/I3A IT10.7466-2002 - Photography - Electronic still picture imaging - Reference Input Medium Metric RGB Color encoding (RIMM-RGB)". ANSI Webstore. Retrieved 2021-04-19.
^ Naty (2011-12-21). "Real-Time Rendering · 2011 Color and Imaging Conference, Part VI: Special Session". www.realtimerendering.com. Retrieved 2017-10-29.

External links

Specification of ROMM RGB
Information page about ROMM RGB including a downloadable ICC format profile.
Understanding ProPhoto RGB
Color Spaces: Beyond Adobe RGB
Why Use the ProPhoto RGB Color Space?

[standard-iso-1] ISO (April 2013). "ISO - ISO 22028-2:2013 - Photography and graphic technology — Extended colour encodings for digital image storage, manipulation and interchange — Part 2: Reference output medium metric RGB colour image encoding (ROMM RGB)". ISO. 2013. Retrieved 2021-04-19.

[standard-ansi-2] International Imaging Industry Association (2002). "ANSI/I3A IT10.7666-2002 - Photography - Electronic Still Picture Imaging - Reference Output Medium Metric RGB Color Encoding (ROMM-RGB)". ANSI Webstore. Retrieved 2021-04-19.

[3] Pointer, M. R. (1980). "The Gamut of Real Surface Colours. Color Res. Appl., 5". Color Research & Application. 5 (3) (published 2007-03-15): 145–155. doi:10.1002/col.5080050308. Retrieved 2021-04-19.

[4] Jansen, Kid (2014-02-19). "The Pointer's Gamut - The coverage of real surface colors by RGB color spaces and wide gamut". TFT Central. Retrieved 2017-10-29.

[standard-iso-rimm-5] ISO (August 2012). "ISO - ISO/TS 22028-3:2012 - Photography and graphic technology — Extended colour encodings for digital image storage, manipulation and interchange — Part 3: Reference input medium metric RGB colour image encoding (RIMM RGB)". ISO. 2012. Retrieved 2021-04-19.

[standard-ansi-rimm-6] International Imaging Industry Association (2002). "ANSI/I3A IT10.7466-2002 - Photography - Electronic still picture imaging - Reference Input Medium Metric RGB Color encoding (RIMM-RGB)". ANSI Webstore. Retrieved 2021-04-19.

[7] Naty (2011-12-21). "Real-Time Rendering · 2011 Color and Imaging Conference, Part VI: Special Session". www.realtimerendering.com. Retrieved 2017-10-29.

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v t e Color space
List of color spaces Color models
CAM	CIECAM02 iCAM CAM16 CIECAM16
CIE	XYZ (1931) RGB (1931) YUV (1960) UVW (1964) CIELAB (1976) CIELUV (1976) CIECAM02 CIECAM16
RGB	RGB color spaces sRGB rg chromaticity Adobe Wide-gamut ProPhoto scRGB DCI-P3 Rec. 601 SMPTE 240M/"C" Rec. 709 Rec. 2020 Rec. 2100
Y′UV	YUV PAL YDbDr SECAM YIQ NTSC YCbCr Rec. 601 Rec. 709 Rec. 2020 Rec. 2100 ICtCp Rec. 2100 YPbPr MAC xvYCC YCoCg
Other	CcMmYK CMYK ColorADD Coloroid LMS Hexachrome HSL, HSV HCL Imaginary color Oklab OSA-UCS PCCS RG RYB HWB YJK TSL
Color systems and standards	ACES ANPA Colour Index International CI list of dyes DIC Federal Standard 595 HKS ICC profile ISCC–NBS Munsell NCS Ostwald Pantone RAL list JIS Z8102 [ja]
For the vision capacities of organisms or machines, see Color vision.