Tony Northrup - D810 vs. 5D Mk3

[raptor3x]

I can't speak specifically to the A7. I haven't edited any of it's files. I guess I assumed the A7 had similar quality to the A7s, which doesn't seem to be that bad. I'm not surprised, though. The A7 was the first of the A7 line, and I think Sony rushed it a bit. Hopefully they will get better with successive models...and hopefully, they will stop compressing the raws with a lossy algorithm.

I think it has to be something like that. I bought an A7R when it was first released and the high ISO was surprisingly good when downsampled. I was really surprised at how bad the A7 is at high ISO when I got mine, I expected it to be even better but that's not the case at all. Either that or I've got a bum copy.

 

[Perio]

Canon, Nikon, Sony.. come on, new Leica is out

 

[9VIII]

...some day, not terribly long into the future, we'll look at the kind of IQ that used to be quite normal a couple years ago like we look at 35mm film photos today.

I was considering getting rid of my 5D2, but you've got me thinking.

In not too long, that thing is going to have loads of retro appeal.
Right now it's is a nuisance, but in 2019 "Canon style banding noise" will be a trademark.
Fuji will make a filter effect just to try and capture that "classic Canon" look, but of course, no filter can produce random lines in lifted shadows like the real thing.
Man that sensor is all sorts of new cool now... or, in five years.

(on a serious note, I am looking forward to being able to photograph white things in sunlight)

 

[sarangiman]

Nikon has actually done a better job managing noise with the Exmor than Sony has. Ironic, but Sony doesn't seem as interested in extracting the maximum potential from their own sensor as Nikon does. Sony has gimped their own cameras in other ways as well, such as by using a lossy-compressed "raw" format instead of actually storing the real original RAW data (which is the only way it could legitimately be called RAW) with some kind of lossless compression.

Yes, the lossy Raw format really perplexes me. It leads to real problems, and is very unfortunate. Nikon offers 14-bit uncompressed 75MB of goodness per Raw file, along with the option for getting every ounce of detail out of the 36MP sensor using electronic 1st curtain. This means there's far more potential for image quality on the D810 than an A7R.

I also wouldn't say Canon "trounces" anything at high ISO. High ISO is primarily limited by physics. Canon has a marginal benefit at high ISO vs. cameras that are now becoming "last" generation, like the D800. The Nikon D810 closes the gap with the 5D III a bit more, and starts to encroach on 1D X territory at really high ISO (I actually think the D810 offers more DR at ultra high ISO than the 5D III...on a normalized basis, the D810 gets 7.7 stops of DR at ISO 51200 to the 5D III's 5.7 stops).

Glad I finally knocked some sense into your head re: Canon high ISO... but looks like I still haven't finished the task: what do you mean by the D810 'closes the gap with the 5D III a bit more'? The D800 was already neck-to-neck with the 5D3 in...

SNR:

... as well as DR:

The only thing out there right now that is really "trouncing" any other camera at high ISO is the A7s. It actually enjoys a two-stop advantage over the 1D X at ISO 51200, bringing nearly 9 stops (8.8 to be exact) of DR at that level. At lower ISO's it actually normalizes out a bit with the 1D X...the A7s' true advantage is at the ultra high ISO settings, and it does a remarkably good job.

Well, as long as we're talking of 'trouncing', Sony's new 50MP MF sensor actually trounces the A7S in ISO performance, so...

And the A7R holds up to the A7S in normalized comparisons quite well at high ISO:
http://bit.ly/1r8ZcGc

But, yeah, at 25.6k and above the A7S will noticeably pull ahead.

Note the (slight) extra detail in the building grills when the A7R's 36MP is downsized to the A7S' 12MP in the link above. In other words, extra resolution can help even when viewed at lower resolutions, though the benefit might be seen as very marginal in most cases.

Also, the noise in the downsampled A7R looks a little less speckled in mid- and brighter-tones - now doubt from the 3x downsampling. This is a tenuous thread to actually push, though, as soon the extra read noise of the A7R is going to lead to more noise in shadows. But I thought it was interesting given LTRLI's earlier comment about noise looking a little smoother when large resolution captures are downsized. Of course, for read noise per unit area to remain the same between two sensors, a n-times higher resolution sensor must have per-pixel read noise of sqrt. Which isn't the case here.

Oh, and yes: it's unfortunate the A7 seems perform worse than the A7R at high ISO (~1/3 EV worse?). Not sure what happened there. Lower effective QE b/c of on-sensor PDAF? If this weren't the case, the A7 would probably be the better camera b/c it has on-sensor PDAF that helps it track (noticeably better than the A7S/R, which just hunt back and forth while trying to track, potentially leading to completely OOF images in AF-C), and EFC which means you can actually use it with telephoto lenses.

 

[Khalai]

Thanks for the answer. I myself prefer to use LEE GNDs to avoid the need of too many files. Frankly, I'm quite bad in blending (learning about luminance masks at the moment as well as some other techniques) so I try to do all I can in the field so I can ideally work with single files.

But when I do bracket, I bracket like mad: -3,-2,-1,0,+1,+2,+3 is my usual starting point

I too use Lee's GNDs. I have a bunch of them, in both soft and hard grad. I really love the Lee filter system (although it failed me recently...i had my 2-stop proglass ND in...and when I was photographing rivers it just slipped out and shattered on the rocks...I am not sure why it did, but it was like a $160 filter. ). The thing that set me off not long ago was a bunch of scenes where the skies ended up totally blown out when I exposed to preserve some detail in the shadows...and the skies were patchy...not along a nice horizon where a GND filter could actually be used to fix the problem.

I've bracketed crazy-wide like that as well, but in my experience, at least when you have bright highlights (like the highlights in water, or bright skies backing a dark foreground, or the sun in the frame), you end up with posterization or haloing if your exposures differ by a stop or more. Getting the exposure differential down to 2/3rds of a stop seems to smooth out the highlight transitions, so you don't end up with posteriation or funky CA or color issues or things like that after merging to HDR.

Ouch on that ProGlass ND, those things aren't exactly cheap

Strange thing about that bracketing range. I can usually push or pull my 6D files +1 2/3 or -1 2/3 w/o any trouble, no posterization or any decay. So one would think, you can easily use whole f-stops for bracketing w/o any detrimental effect on the IQ. Could it be more of a problem in the software? I honestly cannot believe, that one stop difference in editing would somehow crush any file from any recent DSLR. From the sound of it, seems like the problem lies in the software. But since I have only limited experience with Photomatix (can't really start to like this one) and HDRPro from CS6 (still learning to grasp of this one), so I may be wrong, but it just sounds so unlikely...

 

[dtaylor]

Normalized difference is 11.7 vs 14.8 for the D810...

And that's where any knowledgeable person stops reading. >14 stops...from a linear 14-bit ADC...kind of impossible

 

[sarangiman]

Normalized difference is 11.7 vs 14.8 for the D810...

And that's where any knowledgeable person stops reading. >14 stops...from a linear 14-bit ADC...kind of impossible

Nope, that's where an unknowledgeable person stops reading, one who doesn't understand the math behind resampling.

 

[Khalai]

I'd rather have better data to start, that was more workable and flexible, and do what I could with a single file and maybe one single GND.

+1, I, too, want to minimize the time I spend behind my Eizo. Everything above 15 minutes/photo is a drag, unless it's really remarkable image worth tweaking.

 

[Khalai]

I guess I am a bit of a purist as well. I don't like to massively modify my images. I like to take photos that represent reality. I prefer less saturated colors (not dull and overly muted, but not ultra vibrant or saturated either), and I prefer things to appear as they were to my own eyes as much as I can. To that end, getting things done in-camera as best as possible is important to me.

Banded read noise makes it tough to achieve that goal. Shadows don't have banded noise, and shadows are rarely as dark in real life as they appear on screen. So, better data is of particular importance to me.

I agree. But when you expose for the shadows (maybe a little overexpose and then pull back in PP) and you filter the highlights (LEE has even 1.2 GNDs, I'm really considering the purchase of both hard and soft, but since one of them would cost me around ~225USD, I'm not very eager about it) or bracket and then use luminance masking or whatever, then you won't have this problem. I agree that not all compositions can be solved this way (although soft GNDs are amazing), but many of them can.

I just did a quick dirty check on rather badly exposed file (6D, ISO 800) and overexposed it +2 EV and even added +50 in shadows sliders. Yes, there is noise, but no pattern, no banding. Is 5D3 really worse? Then I'm glad I don't need the AF of the 5D3 and be happy with my 6D

 

[raptor3x]

Oh, and yes: it's unfortunate the A7 seems perform worse than the A7R at high ISO (~1/3 EV worse?). Not sure what happened there. Lower effective QE b/c of on-sensor PDAF? If this weren't the case, the A7 would probably be the better camera b/c it has on-sensor PDAF that helps it track (noticeably better than the A7S/R, which just hunt back and forth while trying to track, potentially leading to completely OOF images in AF-C), and EFC which means you can actually use it with telephoto lenses.

In terms of SNR I think the difference between the two is quite small, but something about the quality of the A7 noise doesn't respond well to LR's noise reduction and so in practice the difference is at least a full stop, if not more.

Also, any more detail on how you can get close to base ISO DR when using high ISO on the D810?

 

[FEBS]

Normalized difference is 11.7 vs 14.8 for the D810...

And that's where any knowledgeable person stops reading. >14 stops...from a linear 14-bit ADC...kind of impossible

Nope, that's where an unknowledgeable person stops reading, one who doesn't understand the math behind resampling.

Or a person who thinks he understands. How could you get more then 14stops out of a 14bit ADC? No math can solve this. Yes you might interpolate, expect what the value might be, but that is not correct. 14 bits means really only 14 bits max theoretical, and practical it will be lower. There is no logic and no math to find the REAL values outside the sampled values.

 

[sarangiman]

Or a person who thinks he understands. How could you get more then 14stops out of a 14bit ADC? No math can solve this. Yes you might interpolate, expect what the value might be, but that is not correct. 14 bits means really only 14 bits max theoretical, and practical it will be lower. There is no logic and no math to find the REAL values outside the sampled values.

I'm not arguing that you absolutely have more than 14 bits of data even after normalization. First of all, I personally don't use image data from SNR=1 regions. So in my book the D810 doesn't really even have 14 stops of usable DR per-pixel. I'm just saying that even for an area that has SNR less than 1, the SNR goes up when you average multiple samples. So let's just say that both the 11.7 and 14.8 numbers are inflated, for the sake of argument. They're still comparable, b/c SNR goes up by the sqrt of samples averaged. The per-pixel values are not comparable, not for any reasonable sort of viewing.

 

[sb in ak]

I think for most people, pitting these cameras against each other is sort of a waste of time, though it may be interesting to compare how they compare to each other. I wonder how often users are really trying to decide between a 810 and 5D3. This sort of makes the assumption that they don't have any lens investments or are willing to sell their lens collection (probably at a serious loss) to invest in a new system, when Canon could easily come out with a more compelling camera within a matter of months. The only real advantages I see to the current Nikon system is in landscape photography, where the addition of an A7r + lens adpater could be added.

One of my biggest epiphanies involving gear is that you buy a camera for your lenses, not the other way around.

 

[StudentOfLight]

Normalized difference is 11.7 vs 14.8 for the D810...

And that's where any knowledgeable person stops reading. >14 stops...from a linear 14-bit ADC...kind of impossible

Nope, that's where an unknowledgeable person stops reading, one who doesn't understand the math behind resampling.

Or a person who thinks he understands. How could you get more then 14stops out of a 14bit ADC? No math can solve this. Yes you might interpolate, expect what the value might be, but that is not correct. 14 bits means really only 14 bits max theoretical, and practical it will be lower. There is no logic and no math to find the REAL values outside the sampled values.

It's purely a noise thing. This is in a normalized context. I prefer to know the literal dynamic range of the hardware itself myself as well. That would be DXO's Screen DR measurement, which tells you the per-pixel dynamic range of a given sensor. For cameras with 14-bit ADC units, none of them have a Screen DR above 14 stops.

A normalized context is used to create a comparable basis. Comparing the noise levels of an image with smaller pixels to the noise levels of an image with larger pixels is ignoring the frame size. This is basic equivalence. Sensor size and quantum efficiency are by far the primary factors that affect noise levels in an image. Since a D810 has more total smaller pixels than say a 5D III with fewer total larger pixels, you have to resample the larger image to the same dimensions as the smaller image. By resampling, noise is averaged out, which reduces the per-pixel noise levels. For COMPARISON purposes, this is the only fair way of determining how one camera compares to another. Otherwise your comparing noise produced at a higher frequency with noise produced at a lower frequency...which is basically comparing apples to apples.

Downsampled comparisons have their limitations. For one, they can be misleading as to how much dynamic range on a sensor is actually usable on-scene. If your standing in front of a landscape, and you meter 14.8 stops of DR from the deepest shadows to the brightest highlights, you won't be able to capture that scene with a D810. Even though it's 8x12 "normalized" DR is 14.8, the hardware DR is 13.8. Your a full stop short with the D810, and you would either need to use a 1-stop GND to balance the scene DR, or use HDR, to capture the entire thing. Additionally, you won't be able to lift the single shot with the GND by seven stops in post (as would be indicated by a 14.8 stop Print DR number). You would be able to lift it by at most 5.8 stops, however trying to lift even a D810 shot that much is going to encounter read noise. Realistically, you probably have 4-5 stops of shadow lifting ability without unsightly read noise (which in the case of Exmor-based cameras, is pretty much just random color noise, still no banding.)

Sarangiman is talking about the normalized DR values from DXO. Those values are only valid if you assume an 8x12" 300ppi downsamplng target. When a 5D III and D810 are downsampled to that image size, the 5D III has 11.7 stops of DR and the D810 has 14.8 stops of DR (engineering DR...the raw measure from the RMS of noise to the saturation point...whether all of that DR is fully usable depends on too many factors, which completely reduces any comparison to mush. The actual usable range is dependent upon the tools you use to process, the precision of those tools algorithms, your capability at maximizing the effectiveness of those tools, your personal tolerances for noise, etc....so there is no real objective measure of "usable dynamic range.")

Please correct me if I am misunderstanding...

My first assumption is that the measured value at a pixel is made up of (signal value)+(a multi-component noise value).

Secondly I don't like the word downsampling. I prefer to use the term downscaling. I also like to distinguish between "downscaling an image" and "oversampling" as done by astrophotographers.

Downscaling an image averages out the noise and averages out the signal in pixels which are combined. In my limited understanding, the only way that downscaling an image could improving signal to noise ratio is if the signal of the combined pixels coincidentally happens to be the same signal value. (e.g. you are shooting a flat-luminance subject, or you are shooting beyond the diffraction limited aperture...etc)

When oversampling one takes a number of exposures of the same scene and combines (stacks) these images to average out the noise. Pixels are mapped one-to-one and the frames are averaged. When oversampling the pixel signal is assumed to be constant from frame to frame so when these frames are stacked the noise is averaged out but the signal value (being constant) is unaffected.

I get the feeling that DxO uses the term "downsampling" and applies the calculations of "oversampling" to the case of "downscaling of an image". The image is captured at the time the shutter closes with the Dynamic range that the camera can capture it in. No matter how much you "downscale an image" you cannot recover blown highlights (overexposed pixels) or solid black (detail that was never captured).

 

[sarangiman]

I think for most people, pitting these cameras against each other is sort of a waste of time, though it may be interesting to compare how they compare to each other. I wonder how often users are really trying to decide between a 810 and 5D3. This sort of makes the assumption that they don't have any lens investments or are willing to sell their lens collection (probably at a serious loss) to invest in a new system, when Canon could easily come out with a more compelling camera within a matter of months. The only real advantages I see to the current Nikon system is in landscape photography, where the addition of an A7r + lens adpater could be added.

One of my biggest epiphanies involving gear is that you buy a camera for your lenses, not the other way around.

I always find this viewpoint interesting. I sell my lenses all the time. I usually lose something like 10-20% on my lenses, and once even earned 20% b/c the lens had appreciated.

The bigger issue for me is the time involved in selling lenses. Since I test at least three copies of each lens I buy, the time investment really adds up.

The other thing is you have to spend a lot of time learning all the quirks of the new system. Sometimes this can be a good thing, but it can also be daunting and, who knows, you may end up finding a particular set of quirks that ends up making the whole switch a wash.

 

[Mitch.Conner]

I disagree with her statement that New Zealand is a more fun accent. I live in Minnesota (ordinarily). I love how people talk when you're out in the rural parts of Minnesota.

 

[sagittariansrock]

I too use Lee's GNDs. I have a bunch of them, in both soft and hard grad. I really love the Lee filter system (although it failed me recently...i had my 2-stop proglass ND in...and when I was photographing rivers it just slipped out and shattered on the rocks...I am not sure why it did, but it was like a $160 filter. ).

You're not sure why it slipped out (those shifty filters ) or why glass shatters on the rocks?
That's why I use resin filters. The Big Stopper is enough of stress for me...

 

[Loswr]

...resin filters. I use them for GNDs as it's the only option...

Actually, it's not. Check out Schneider Optics (B+W's parent company) MPTV line. They have Schott glass grad ND filters.

 

[LetTheRightLensIn]

Normalized difference is 11.7 vs 14.8 for the D810...

And that's where any knowledgeable person stops reading. >14 stops...from a linear 14-bit ADC...kind of impossible

Nope, that's where an unknowledgeable person stops reading, one who doesn't understand the math behind resampling.

Or a person who thinks he understands. How could you get more then 14stops out of a 14bit ADC? No math can solve this. Yes you might interpolate, expect what the value might be, but that is not correct. 14 bits means really only 14 bits max theoretical, and practical it will be lower. There is no logic and no math to find the REAL values outside the sampled values.

No, the other guy was right.

(And they are not saying you get more than 14bits when taking full advantage of the resolution the sensor is capable of, just at 8MP of detail equivalent (which is what they use as the standard to compare all cameras at).)

 

[Etienne]

.....
One of my biggest epiphanies involving gear is that you buy a camera for your lenses, not the other way around.

Agreed. You buy a whole system. Lens selection keeps me away from Sony for now. And lenses like the 35 f/2 IS, the 70-200 f/2.8 IS mkII, and Canon's two 16-35 lenses keeps me in the Canon camp now. The 5DIII with 35 f/2 IS is a great combo, both for video and photos. For video, the IS is so good that the shots sometimes look like they are on a tripod. Can't do that with Sony or Nikon, and f/2 gives great low light performance as well as shallow DOF.

I think Canon will leap frog Sony and Nikon before too long, and I'll have my great lenses. If Sony gets some great lenses for the A7s, maybe I'll go there in version 2. Even the D750 is not tempting me away from the Canon lenses that I love.