colour.models.eotf_inverse_ST2084#

colour.models.eotf_inverse_ST2084(C: FloatingOrArrayLike, L_p: float = 10000, constants: colour.utilities.data_structures.Structure = CONSTANTS_ST2084) FloatingOrNDArray[source]#

Define SMPTE ST 2084:2014 optimised perceptual inverse electro-optical transfer function (EOTF).

Parameters
  • C (FloatingOrArrayLike) – Target optical output \(C\) in \(cd/m^2\) of the ideal reference display.

  • L_p (float) – System peak luminance \(cd/m^2\), this parameter should stay at its default \(10000 cd/m^2\) value for practical applications. It is exposed so that the definition can be used as a fitting function.

  • constants (colour.utilities.data_structures.Structure) – SMPTE ST 2084:2014 constants.

Returns

Color value abbreviated as \(N\), that is directly proportional to the encoded signal representation, and which is not directly proportional to the optical output of a display device.

Return type

numpy.floating or numpy.ndarray

Warning

SMPTE ST 2084:2014 is an absolute transfer function.

Notes

  • SMPTE ST 2084:2014 is an absolute transfer function, thus the domain and range values for the Reference and 1 scales are only indicative that the data is not affected by scale transformations. The effective domain of SMPTE ST 2084:2014 inverse electro-optical transfer function (EOTF) is [0.0001, 10000].

Domain

Scale - Reference

Scale - 1

C

UN

UN

Range

Scale - Reference

Scale - 1

N

UN

UN

References

[Mil14], [SocietyoMPaTEngineers14]

Examples

>>> eotf_inverse_ST2084(100)  
0.5080784...