![]() We could also take a given colour space (such as REC709 or DCI P3) and create a profile that compresses (relative colorimetric) or clips (absolute colorimetric) the values of this into what was the measured gamut of the monitor.We can then use a ICC profile to neautralise any inaccuracies, creating a greyscale that is neutral from black to white.Use a probe to measure the gamut of colours that a given display can reproduce, and to measure what the output colour value of a given RGB input value is for the viewer.How I understand what the profiling is able to do is the following (forgive the misunderstandings and over-simplifications): ![]() I don't understand fully, the part that white points and gamma play in this task, and whether profiling takes these things into account. It was my hope to use dispcal with this to attempt to set up a computer display to view material as it would appear on a REC709 display. I have just ordered a i1 Display Pro, in order to begin to get some idea of profiling in general and the effects that it has. I keep finding myself thinking that I understand things a little more, only to realise later that I have missed some key part of the information somewhere. I am trying to improve my understanding of profiling and colour-spaces, to improve how I carry out my colour grading on REC709 material, and specifically how this relates to computer monitors, sRGB and conversions to colour spaces such as DCI P3 and XYZ. This may be quite long and rambling, so I hope it makes enough sense for someone to be able to assist in some way.
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