Camera Raw 32 bit computation?

Thank you very much for your response and your patience with me. I am sorry if I am missing somthing here.  

I have read that when using the Merge To HDR option, LR/CR is using 32-bit float point math to do the computation, or somewhere put: "a 32-bit float point engine."  I have also been told that in order to process HDR, LR/CR "needs to have 32-bit float point."

Question 1:
Are you saying that when LR/CR is processing a single Raw file (DNG or Proprietery) but not a "Merge To HDR" Raw file, then it does not use 32-bit float point? 

Secondly, some Raw Converters (such as Raw Therapee...) claim their Raw converter is a "32-bit (floating point) processing engine."

Question 2:
Is LR/CR not ("a 32-bit floating point engine") with, maybe, the exception of HDR calculations?

Lastly, I'll double check later but I thought I had read somewhere in the Adobe DNG Specification PDF (2021) that 32-bit floating point bit depths were supported. 

Thank you (or anyone else) for your help and any clarification.  

Bit depth and DR are entirely separate attributes. More Bit depth doesn't equate to more DR.

Yes, there needs to be a certain bit depth to support a certain DR but this the two are not mutually exclusive.

The staircase analogy works: DR is the length of the staircase while the bit depth is the number of steps; you can have fewer steps, the length is what it is.

Thank you very much for taking time to respond here. I might not be making myself clear enough, but I understand DR vs bit depth. This is extremely basic. Just for background purposes I am a full time vetran photo professional and post-processing educator. Just trying to dig deeper into the computation.  

Thank you very much for taking time to respond here. I might not be making myself clear enough, but I understand DR vs bit depth. This is extremely basic. Just for background purposes I am a full time vetran photo professional and post-processing educator. Just trying to dig deeper into the computation.  

By @Camera Raw Fan

My reply was based on this comment:

"They do benefit from the higher bit depth since the dynamic range has been increased by using bracketed image files".

Thank you very much Todd for your response.  Although I showed an example of some Sony files, my questions do not relate to Sony cameras as I work on files from all digital camera systems.  

Would you be willing to take a stab at my response question to the digitaldog?

If so, thank you.  

Question 1:
Are you saying that when LR/CR is processing a single Raw file (DNG or Proprietery) but not a "Merge To HDR" Raw file, then it does not use 32-bit float point? 

Secondly, some Raw Converters (such as Raw Therapee...) claim their Raw converter is a "32-bit (floating point) processing engine."

Question 2:
Is LR/CR not ("a 32-bit floating point engine") with, maybe, the exception of HDR calculations?

Lastly, I'll double check later but I thought I had read somewhere in the Adobe DNG Specification PDF (2021) that 32-bit floating point bit depths were supported. 

Thank you (or anyone else) for your help and any clarification.  

Here's where I'm getting at. The history or computation of the initial Raw data is in 32 bit correct? Once it is rendered, or rasterized, it has to be in the 8 or 16 bit. Would you say that is correct?  A programmer friend of mine says that anyone who knows anything about how data works knows that raw data computation (history) is 32 bit. But with Adobe, must be output to 16 bit. 
Thoughts? 

That's exactly the point I'm trying to get at. I would appreciate a comment on my last reply to you if you have the time. Thank you very much.

Simple; it's doing this his correct. Go on and process your images. 

Very, very few actual output devices output 16-bit.

Thank you very much for your feedback here. It has been helpful!
 
If you will bear with me, I'd like to carefully reword this one more time just to make it as clear as I can.

What my programmer friend told me (at least what I believe I was understanding from what he was telling me) is that Raw Parametric computation (the virtual adjustments) - setting up the parameters in CR for the eventual tone mapped pixel values  - or maybe some other ways of putting it: setting up the "history/instructions" or the computation for the sensor data to be eventually tone mapped - or the computation of the demosaicing and eventual set up of tone mapped pixel values (what they will be eventually be - tone mapped to) is done in/with 32-bit computation (bits used for Raw processing, up to the initial tone mapped file).

Of course I am not yet talking about the bit depth of the tone mapped image (the "fixed attribute of capture"). The pixel image does not exist yet (although we do get a "virtual" pixel preview). 

Furthermore, the preview we see in CR (we have to see somthing or we could not process an image effectively) is not the same/real (fixed attribute) image that CR can/will eventually produce, which we end up saving.  The preview image we see as we are making Raw adjustments in LR/CR is a very good "virtual" pixel representation of what the data CR is computing, will look like.  Side note (not to get distracted from the main point) I have read that the preview image LR/CR uses to show us feedback of our Raw Adjusting, is a TIFF (temporary). But this is not what I am trying to clarify. 

The "real image" will eventually exist once the image is rasterized (demosaiced, parameter adjusted/rendering instructions, tone mapped and turned into pixels) into an 8-bit or 16-bit pixel output (the "fixed attribute of the capture").

The developed Raw "history" of the image adjustment settings, or what might be described as the initial computation taking place to turn the initial camera sensor data into a demosaiced, tone mapped 8-bit or 16-bit rasterized file, is done in 32-bit computation.

Of course the rasterized output file is 8 bit or 16 bit.

And as you previously wrote, we "can store the 'history' of the image adjustment settings in 32-bit TIFF or DNG." 

So, when we save a Raw Smart Object (not rasterized or flattened yet) as a TIFF, that TIFF still holds the initial Raw data, 32-bit computation "history/rendering instructions" (and the Raw data parameters or "instructions" can be readjusted again at a later time).  

In Photoshop, if we double click on a Raw Smart Object image thumbnail (in the Layers Palette) we still have access to continuing Raw Parameter Editing (Camera Raw).

If/when the image gets rasterized or flattened, it then becomes an 8-bit or 16-bit "fixed attribute of capture" depending on our choice of working space option/settings, and/or our saving options. 

If we process (make adjustments) in LR/CR, to a proprietary Raw file or a Raw DNG, but simply click on "done" we are simply recomputing/changing and re-saving an updated "history/set of rendering instructions" (32-bit computation).  Or put another way, we are simply setting up new paremeters (new history/rendering instructions) for the eventual output tone mapped pixel values.  The proprietary Raw file (or a Raw DNG) holds that re-computed data.

CR is used to demosaic the initial sensor data, set up the rendering instructions, and when the time is right, tone map the data to a pixel file ("fixed attribute of capture"). These, generally speaking, lossless edits (although nothing is literally totally lossless) are done in high bit.  

Lastly, with the exception of Adobe Merge to HDR Pro, the computation for all rasterized pixel data adjustments is done in a lower (not 32) bit depth. 

AND even if a person brings a Raw image into Photoshop as a Raw Smart Object Layer, then immediately changes Photoshops working space to 32-bit, then rasterizes (flattens) the file to a 32 bit file... No adjustments done to the rasterized image is 32-bit computation, and the image is not 32-bit (not over 16, 536 levels)?

Thank you for your help. 

Parametric edits and history are just text; such as XMP. There's nothing here to with bit depth or otherwise. 

ALL making a SO does is embed a copy of the raw (and parametric edits) into the Photoshop stack and allows you to then re-edit the raw using ACR there. That's really it. If you render the raw/SO into that stack and save it as a TIFF, it's all 'burned' to pixels in the layers and of course, LR can't do anything with those layers that it doesn't support. You're now editing what amounts to a 'flattened' TIFF if editing inside LR. The source bit depth is what it is. 

All parametric edits are truly non-destructive; the raw is read-only in Adobe raw processing. 

Anything else would require your engineer friend to discuss with an Adobe engineer outside an NDA which is unlikely. 

Thank you.  I really appreciate your noted patience with me! I'm an Adobe advocate and educator and my take home so far is that:

The beginning pipeline computational bit depth of Adobe taking the initial raw data, demoasicing it, computing/creating text instructions for the creation of the future rasterized pixel values based on the specific profile used, as well as the variety of raw edits chosen (when the image is adjusted in LR Develop/Camera Raw) and then finally gets tonemapped to create the initial 8 bit or 16 bit rasterized file, although lossless, might not (or is not) being done using any 32-bit computation. 

Also, what exactly happens when a raw smart object file is brought into Photoshop (not rasterized) as a Raw Smart Object Layer and then Photoshop's working space is immediately changed to the 32-bit space (and rasterization is not chosen during the working space change) although clearly the data amount displayed in Photoshop (below on the left) DOUBLES (from what is says in the 16 bit workspace) if the raw file next becomes rasterized (flattened) in the 32bit  working space (it can be saved as a 32-bit tiff or psb...) it is either NOT really 32-bit, and has no increase in levels/gradations/data or editing headroom...

OR, at this point it may be, or literally IS STILL 16 bit (no more levels than 16,536) BUT this is PROPRIETARY  information not available to the public in any open disclosure documents such as the DNG SPECIFICATION PDF on the Adobe website.

Lastly, also the masks, brushes or any alpha channels created in this 32-bit space (granted no selections were used to create them...) are also not 32-bit, or is also withheld proprietary information not openly disclosed?