Bueno, bueno...antes de ir a casa de mi cuñado, me he encontrado una PERLITA maravillosa, que ME DA LA RAZÓN al 100%.

Resulta que los filtros MAD VR junto con Media Player Classic Home Cinema, ya permiten la decodificación y visualización correcta de archivos HDR:

madVR

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* added tone mapping support for HDR content* added gamut mapping support for HDR BT.2020/DCI-P3 content* added support for SMPTE 2084 transfer function decoding* added support for receiving HDR metadata from LAV Video Decoder* added "maximum display luminance" option to display properties page* added "HDR" profile variable* SuperRes now supports being run after every ~2x upscaling step (again)* improved JVC projector ip control connection reliability
The big keyword for this build is HDR. I suppose many users might not know how it works exactly, so some explanations:

1) First of all, this madVR build does *not* aim to send HDR content untouched to the display, to let a "HDR compatible" display do all the processing. Doing that might be supported by some future version (as an option). But for now what madVR does is convert the HDR content in such a way that it looks well on *any* display (new and old), regardless of whether the display officially supports HDR or not.

2) The key idea of HDR is to increase the peak white luminance, so that we can get brighter highlights, and more texture detail in bright image areas. HDR content uses 10bit (or more) instead of the usual 8bit, and it also uses an improved transfer (gamma) function, which means we also get better shadow detail at the same time.

3) HDR content is encoded using a totally different transfer ("gamma") curve. So playing HDR content with a media player and display which don't understand the new transfer function won't look good/correct. It will look totally washed out.

4) The new transfer function directly maps each pixel to a specific desired luminance value (in "nits" or cd/m²). Possible values are 0 nits up to 10,000 nits. However, videos don't have to use the full 0 - 10,000 range, they often top out at either 4,000 nits or 1,200 nits (from what I've seen).

5) UHD Blu-Ray will usually be encoded in BT.2020 color space, which is extremely wide. However, videos don't have to use the full BT.2020 space, they usually only use DCI-P3, inside of the encoded BT.2020 container.

6) Today's displays (even the best of the best) cannot really properly reproduce HDR content. E.g. many display's don't reach full DCI-P3 colors yet (let alone BT.2020), and no available display today comes even close to be able to output 10,000 nits! Which means that someone somewhere has to convert the HDR content down to something the display can handle. The consumer electronics world plans that the display will do this conversion (only new models, obviously) - and every TV manufacturer will write their own conversion algorithms because there's no standard for that! From what I've been told those conversion algorithms (at least for the first few HDR display generations) are probably not going to be very high quality.

7) madVR is able to compress both the luminance and the colors down to what your display can handle. It uses reasonably high quality algorithms for that. I might find even better algorithms in the future, but for now these algorithms should be a good starting point.

8) UHD Blu-Rays will come with an updated copy protection. So madVR will not be able to play them - unless the copy protection gets broken at some point.

If you want to test HDR playback, please update to a new LAV nightly build because only the latest LAV nightlies are able to pass some HDR metadata information to madVR!

(P.S: There's also a new "madTestPatternSource" version available with some HDR test patterns. Link see first post in this thread.)
He probado con las demos que tengo, y EFECTIVAMENTE, se ven con los colores restituidos originalmente (obviamente, al no tener un display HDR, la parte más brillante queda mapeada dentro del gamut del propio display, pero NO se pierde información, tan solo se mapea).

Esto me demuestra que lo que hace un display HDR es EXACTAMENTE lo mismo, solo que con la habilidad de llevar más allá la parte luminosa.

Quiero reproducir estos archivos con la OLED, creo que tendré un look muy similar al del HDR, me da a mí. Pero previamente los veré en casa de mi cuñado para comparar.

Esto se pone cada vez más interesante...