flysurfer
Hall of Famer
Don't believe the "experts", better trust the "X-Pert".
I mean it! I recently had the "pleasure" of browsing through a few photography/camera guide books, and I almost lost my lunch digesting the misinformation I encountered doing so.
A particular annoying false "fact" that keeps being repeated in such reading matter is the claim that the dynamic range of your camera and images decreases with rising ISO numbers. This is wrong, as every reader of my book already knows. Looking at my book's JPEG ISO series at Index of /XPro1/Abbildungen/ISO-Reihe - ISO Test Series (yep, you can look at this stuff for free, no need to buy anything), it's easy to compare the sample images at ISO 200 and ISO 6400. You can see that the ISO 6400 sample covers pretty much the same dynamic range as the ISO 200 samples. In other words: The ISO 6400 sample (almost) doesn't show more blown highlights or blocked shadows than the ISO 200 sample.
Yes, I know: It's true that the dynamic range of your camera's sensor decreases with rising ISO numbers, but you don't render images with a sensor, you do that with a camera (or an external RAW conversion software like Lightroom). Your camera isn't just a sensor, most of it is image processing. This image processing takes care of keeping the practical dynamic range intact over the full ISO bandwidth. Yep, those engineers are smart, they know their stuff.
How does the camera (or the RAW conversion software) do it? Basically, it uses the same method that is used for the DR expansion function: underexposure combined with tone-mapping. You can read all about it in my book and most of it here for free.
Here comes the really fun part: Your Fuji APS-C camera offers MORE dynamic highlight headroom at ISO 3200 and yet even MORE again at ISO 6400 than between ISO 200-1600. Really! How can that be? Isn't that....totally crazy?
It is in theory, but not practically. Here's why: Your dear Fuji camera only processes and stores real RAW data between ISOs 200 and 1600. All the other ISOs (like ISO 100, or ISOs 3200-25600) are simply mathematical divisions of ISO 200 (to get ISO 100) or multiplications of ISO 1600 (to get ISOs 3200, 6400, 12800 and 25600).
So if you happen to overexpose an image at ISO 1600, you are in a tough spot, because the camera is recording the actual overexposure in the RAW file. Highlights will be blown and be quite hard or impossible to recover. However, at ISO 6400, it's all peachy, because your "overexposure" is actually an underexposure of 2 stops – the difference between ISO 1600 (the actual RAW data) and ISO 6400 (the RAW data the camera pretends to record). This means that you can easily recover blown highlights by simply moving the exposure slider in your RAW conversion software to the left. Shooting at ISO 6400, two full stops of highlights will magically reappear this way, w/o any visible quality loss. At the -2 EV setting of Lightroom's exposure slider, your ISO 6400 image will look exactly as it would have looked if the shot was taken at ISO 1600 in the first place (using the same aperture and shutter speed). No difference at all.
Let's illustrate this in a practical example of my messy desk.
This shot was taken in manual mode at ISO 1600 at f/4 and 1/50s:
Looks okay to me, no blown highlights.
Here's the same subject shot at ISO 6400, again at f/4 and 1/50s:
Yikes! This is obviously overexposed by two stops. Many people (probably those reading the "expert" books) would throw this shot away, because they'd assume that no RAW converter on earth can recover two full stops (EV) of missing highlights.
Well, let's give it a try, anyway and move the exposure slider 2 EV (two full stops) to the left in Lightroom. Here's what happens to our overexposed image:
Wow! It's magic!
Nah, it's simply a matter of common sense and knowing your camera.
What we see here is a result that, even though it was shot at ISO 6400, is pretty much identical to our first result at ISO 1600. That's because both pictures resulted in an ISO 1600 RAW file, even the one that was shot at ISO 6400. We basically recorded the same RAW image twice, but a tag in the RAW file made Lightroom push up the ISO 6400 file during import. The camera's JPEG engine does the same. All we needed to do was push it back down by manually moving Lightroom's exposure slider to the left. It's not rocket science, but it's quite effective.
Now, it's important to recall that this "magic" only works beyond your camera's actual (aka physical) ISO range. Repeating the experiment at ISOs 400 and 1600 (another two stop difference) leads to quite different results:
Here's a sample at ISO 400:
Looks okay to me. Here's the same subject at ISO 1600, using the same aperture/speed as in the ISO 400 sample:
Grossly overexposed, as intended. So let's move the exposure slider 2 stops to the left in order to "recover" the shot:
Oh well, Lightroom tried its best, but there's no way even LR can recover (aka "guess") 2 stops of missing highlight information. Obviously, the RAW files of the ISO 400 and ISO 1600 shots are different, they contain different data, real RAW data that was generated in the camera by a mix of analog and digital processing. The ISO 1600 and ISO 6400 images, on the other hand, aren't really different. Their image data is the same, only the metadata differs. The metadata contains instructions to the RAW converter telling it how to digitally process the RAW data. In the case of the ISO 6400 RAW file it tells the RAW converter: "Push me up by +2 EV, but don't tell the user, 'cuz it might just confuse him."
Now we know that at ISO 3200 and 6400, we basically have 1 respectively 2 stops of additional highlight headroom that doesn't exist at ISO 1600 and lower. That's good to know, because it means that we can always shoot with DR200% at ISO 3200 or with DR400% at ISO 6400. As you know from reading my book or the article linked above, DR200% underexposes a shot 1 stop, and DR400% underexposes it 2 stops, creating extra highlight headroom. But your camera is doing this (the underexposure) anyway at ISOs 3200 and 6400, so the DR setting doesn't matter. Only the tone mapping changes, preserving more highlights with increased DR settings.
So practically, if you are shooting a night scene with bright lights and strong contrast at ISO 6400, simply set the camera to DR400%. It doesn't make a difference to the RAW file, which will always be our usual ISO 1600 RAW file, no matter what. However, it does make a difference to the in-camera JPEG processing, as DR400% will smoothen the highlights and preserve your highlight tones. If you find the result too flat, simply reprocess the image in your camera with DR200% or even DR100%. Basically, shooting at DR400% and ISO 6400 gives you three different in-camera JPEG options with different highlight-preserving tone curves to choose from, while shooting at DR100% will give you only one that doesn't preserve anything. Important: Unlike shooting with the DR function at lower ISOs, there will be no quality differences between the three options regarding shadow noise at ISO 6400.
I mean it! I recently had the "pleasure" of browsing through a few photography/camera guide books, and I almost lost my lunch digesting the misinformation I encountered doing so.
A particular annoying false "fact" that keeps being repeated in such reading matter is the claim that the dynamic range of your camera and images decreases with rising ISO numbers. This is wrong, as every reader of my book already knows. Looking at my book's JPEG ISO series at Index of /XPro1/Abbildungen/ISO-Reihe - ISO Test Series (yep, you can look at this stuff for free, no need to buy anything), it's easy to compare the sample images at ISO 200 and ISO 6400. You can see that the ISO 6400 sample covers pretty much the same dynamic range as the ISO 200 samples. In other words: The ISO 6400 sample (almost) doesn't show more blown highlights or blocked shadows than the ISO 200 sample.
Yes, I know: It's true that the dynamic range of your camera's sensor decreases with rising ISO numbers, but you don't render images with a sensor, you do that with a camera (or an external RAW conversion software like Lightroom). Your camera isn't just a sensor, most of it is image processing. This image processing takes care of keeping the practical dynamic range intact over the full ISO bandwidth. Yep, those engineers are smart, they know their stuff.
How does the camera (or the RAW conversion software) do it? Basically, it uses the same method that is used for the DR expansion function: underexposure combined with tone-mapping. You can read all about it in my book and most of it here for free.
Here comes the really fun part: Your Fuji APS-C camera offers MORE dynamic highlight headroom at ISO 3200 and yet even MORE again at ISO 6400 than between ISO 200-1600. Really! How can that be? Isn't that....totally crazy?
It is in theory, but not practically. Here's why: Your dear Fuji camera only processes and stores real RAW data between ISOs 200 and 1600. All the other ISOs (like ISO 100, or ISOs 3200-25600) are simply mathematical divisions of ISO 200 (to get ISO 100) or multiplications of ISO 1600 (to get ISOs 3200, 6400, 12800 and 25600).
So if you happen to overexpose an image at ISO 1600, you are in a tough spot, because the camera is recording the actual overexposure in the RAW file. Highlights will be blown and be quite hard or impossible to recover. However, at ISO 6400, it's all peachy, because your "overexposure" is actually an underexposure of 2 stops – the difference between ISO 1600 (the actual RAW data) and ISO 6400 (the RAW data the camera pretends to record). This means that you can easily recover blown highlights by simply moving the exposure slider in your RAW conversion software to the left. Shooting at ISO 6400, two full stops of highlights will magically reappear this way, w/o any visible quality loss. At the -2 EV setting of Lightroom's exposure slider, your ISO 6400 image will look exactly as it would have looked if the shot was taken at ISO 1600 in the first place (using the same aperture and shutter speed). No difference at all.
Let's illustrate this in a practical example of my messy desk.
This shot was taken in manual mode at ISO 1600 at f/4 and 1/50s:
Looks okay to me, no blown highlights.
Here's the same subject shot at ISO 6400, again at f/4 and 1/50s:
Yikes! This is obviously overexposed by two stops. Many people (probably those reading the "expert" books) would throw this shot away, because they'd assume that no RAW converter on earth can recover two full stops (EV) of missing highlights.
Well, let's give it a try, anyway and move the exposure slider 2 EV (two full stops) to the left in Lightroom. Here's what happens to our overexposed image:
Wow! It's magic!
Nah, it's simply a matter of common sense and knowing your camera.
What we see here is a result that, even though it was shot at ISO 6400, is pretty much identical to our first result at ISO 1600. That's because both pictures resulted in an ISO 1600 RAW file, even the one that was shot at ISO 6400. We basically recorded the same RAW image twice, but a tag in the RAW file made Lightroom push up the ISO 6400 file during import. The camera's JPEG engine does the same. All we needed to do was push it back down by manually moving Lightroom's exposure slider to the left. It's not rocket science, but it's quite effective.
Now, it's important to recall that this "magic" only works beyond your camera's actual (aka physical) ISO range. Repeating the experiment at ISOs 400 and 1600 (another two stop difference) leads to quite different results:
Here's a sample at ISO 400:
Looks okay to me. Here's the same subject at ISO 1600, using the same aperture/speed as in the ISO 400 sample:
Grossly overexposed, as intended. So let's move the exposure slider 2 stops to the left in order to "recover" the shot:
Oh well, Lightroom tried its best, but there's no way even LR can recover (aka "guess") 2 stops of missing highlight information. Obviously, the RAW files of the ISO 400 and ISO 1600 shots are different, they contain different data, real RAW data that was generated in the camera by a mix of analog and digital processing. The ISO 1600 and ISO 6400 images, on the other hand, aren't really different. Their image data is the same, only the metadata differs. The metadata contains instructions to the RAW converter telling it how to digitally process the RAW data. In the case of the ISO 6400 RAW file it tells the RAW converter: "Push me up by +2 EV, but don't tell the user, 'cuz it might just confuse him."
Now we know that at ISO 3200 and 6400, we basically have 1 respectively 2 stops of additional highlight headroom that doesn't exist at ISO 1600 and lower. That's good to know, because it means that we can always shoot with DR200% at ISO 3200 or with DR400% at ISO 6400. As you know from reading my book or the article linked above, DR200% underexposes a shot 1 stop, and DR400% underexposes it 2 stops, creating extra highlight headroom. But your camera is doing this (the underexposure) anyway at ISOs 3200 and 6400, so the DR setting doesn't matter. Only the tone mapping changes, preserving more highlights with increased DR settings.
So practically, if you are shooting a night scene with bright lights and strong contrast at ISO 6400, simply set the camera to DR400%. It doesn't make a difference to the RAW file, which will always be our usual ISO 1600 RAW file, no matter what. However, it does make a difference to the in-camera JPEG processing, as DR400% will smoothen the highlights and preserve your highlight tones. If you find the result too flat, simply reprocess the image in your camera with DR200% or even DR100%. Basically, shooting at DR400% and ISO 6400 gives you three different in-camera JPEG options with different highlight-preserving tone curves to choose from, while shooting at DR100% will give you only one that doesn't preserve anything. Important: Unlike shooting with the DR function at lower ISOs, there will be no quality differences between the three options regarding shadow noise at ISO 6400.