I use canon's DPP raw converter (still using the v3 series but v4 has DLO as well). Yesterday I came across a thread on dpreview that commented that canon says that using DLO can reduce diffraction in shots. This sounded a bit far fetched to me but I decided to try it out.
2 shots below a bee have been cropped to twice the linear pixel number of a 100% crop (not sure what that makes them in % terms). Both have been processed exactly the same in DPP and Photoshop using my normal processing flow except in one of them I applied the DLO for an MPE-65 lens. The shot was taken at 3:1 F9 on my FF canon 5dmk2 using flash at ISO400.
Can you see a difference ?
you can click on the first picture to get to the flickr version and then use the left arrow and right arrow to flick between the pics to make comparison easier (I know the crops aren't quite the same)
I do see quite a large difference and it seems to have increased the actual detail rather than just sharpening. Is it possible it has reduced diffraction softening?
Brian V.
Digital lens optimiser in canon's DPP raw converter
Moderators: rjlittlefield, ChrisR, Chris S., Pau
Digital lens optimiser in canon's DPP raw converter
www.flickr.com/photos/lordv
canon20D,350D,40D,5Dmk2, sigma 105mm EX, Tamron 90mm, canon MPE-65
canon20D,350D,40D,5Dmk2, sigma 105mm EX, Tamron 90mm, canon MPE-65
- rjlittlefield
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Re: Digital lens optimiser in canon's DPP raw converter
I have no access to the math that's used inside DPP. But I'm guessing that the following explanation applies...
Think about those MTF curves. A perfect lens, suffering only from diffraction, has an MTF curve that drops almost linearly from MTF=1 at the left (frequency=0) to MTF=0 at some finite cutoff frequency. An impossibly perfect lens, not even suffering from diffraction, would have an MTF curve that would be constant at MTF=1 for all frequencies.
A real lens won't be any better than the perfect diffraction curve, but it can come pretty close to that.
The question then is how to make it better.
And the answer is simple, kinda sorta: just apply a sharpening filter that pushes up the curve so that MTF=1 for all frequencies, up to some limit imposed by noise, then let it drop quickly off to zero at the same cutoff frequency that diffraction alone requires.
So, has it reduced diffraction softening? Absolutely! You will be able to see much finer detail than before the sharpening.
Has it changed the cutoff frequency? No way.
Has it done anything magical that you couldn't do with other sharpening methods? Not really, but it's a lot simpler to use a filter that addresses the problem directly, than to cobble together other filters like various sizes and strengths of USM to get approximately the same result.
--Rik
Think about those MTF curves. A perfect lens, suffering only from diffraction, has an MTF curve that drops almost linearly from MTF=1 at the left (frequency=0) to MTF=0 at some finite cutoff frequency. An impossibly perfect lens, not even suffering from diffraction, would have an MTF curve that would be constant at MTF=1 for all frequencies.
A real lens won't be any better than the perfect diffraction curve, but it can come pretty close to that.
The question then is how to make it better.
And the answer is simple, kinda sorta: just apply a sharpening filter that pushes up the curve so that MTF=1 for all frequencies, up to some limit imposed by noise, then let it drop quickly off to zero at the same cutoff frequency that diffraction alone requires.
So, has it reduced diffraction softening? Absolutely! You will be able to see much finer detail than before the sharpening.
Has it changed the cutoff frequency? No way.
Has it done anything magical that you couldn't do with other sharpening methods? Not really, but it's a lot simpler to use a filter that addresses the problem directly, than to cobble together other filters like various sizes and strengths of USM to get approximately the same result.
--Rik
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As I linked to from THIS thread, canon has a page here http://web.canon.jp/imaging/dlo/effect/index03.html
Unfortunately it doesn't really tell us much of anything about what they are doing. It is my guess that it is just an USM though.
Unfortunately it doesn't really tell us much of anything about what they are doing. It is my guess that it is just an USM though.
It does a lot more, some kind of deconvolution:TheLostVertex wrote:Unfortunately it doesn't really tell us much of anything about what they are doing. It is my guess that it is just an USM though.
From http://web.canon.jp/imaging/dlo/effect/index03.html
My cheap EF-S 18-55 IS III becames a true excellent lens when I apply DLO and Distorsion options in RAW processing, I'm just doing it with my holidays tourist pictures.The factors such as aberrations, diffraction, and low-pass filter influence differ for different lenses and cameras, and they also are dependent on shooting parameters. The Digital Lens Optimizer therefore uses inverse functions that are carefully optimized and based on precise data. This makes it possible to compensate even for complex and asymmetric aberrations such as coma.
Unfortunaltely my only Canon macro lens, the old EF 50 2.5 Compact Macro is not supported so I can't test its effect on macro images.
Pau
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Here's a thread from a Photoshop forum where one user has a side by side with ACR sharpening vs DLO.
https://c.getsatisfaction.com/photoshop ... _optimizer
He claims a loss of detail from excessive sharpening at the edges and speculates that DLO uses a lens profile to do more sharpening at the edges of the photo.
Though, on the pages Pau linked to, Canon does clearly imply they're doing some more voodoo than mere sharpening. Of course, it's a marketing page, and those people have imaginations unbounded by our current understanding of the laws of physics (or ethics).
https://c.getsatisfaction.com/photoshop ... _optimizer
He claims a loss of detail from excessive sharpening at the edges and speculates that DLO uses a lens profile to do more sharpening at the edges of the photo.
Though, on the pages Pau linked to, Canon does clearly imply they're doing some more voodoo than mere sharpening. Of course, it's a marketing page, and those people have imaginations unbounded by our current understanding of the laws of physics (or ethics).
If your pictures aren't good enough, you're not close enough. - Robert Capa
Thanks for the discussion.
Can only say I was surprised at the result- it certainly does something that I can't do with just simple USM use.
Brian v.
Can only say I was surprised at the result- it certainly does something that I can't do with just simple USM use.
Brian v.
www.flickr.com/photos/lordv
canon20D,350D,40D,5Dmk2, sigma 105mm EX, Tamron 90mm, canon MPE-65
canon20D,350D,40D,5Dmk2, sigma 105mm EX, Tamron 90mm, canon MPE-65
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In Canon's zoomed in sample, you can put the "before" in Photoshop and try matching the "after" side by side.
I couldn't get as sharp looking a photo without adding more artifacts. That is a jpeg and not a Raw sample, but still, it seems like something interesting is going on.
I couldn't get as sharp looking a photo without adding more artifacts. That is a jpeg and not a Raw sample, but still, it seems like something interesting is going on.
If your pictures aren't good enough, you're not close enough. - Robert Capa
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Using images screen-grabbed from the bottom of http://web.canon.jp/imaging/dlo/effect/index03.html, here's an animated GIF example of what I mean by getting approximately the same result with USM:
To my eye, there are some clear advantages in the DLO image around the high contrast edges at upper left, but I have the feeling that's more in CA than sharpening. Over most of the area, these look pretty similar to me.
I'd be interested in others' thoughts.
--Rik
PS. For comparison, here's the unsharpened versus DLO:
To my eye, there are some clear advantages in the DLO image around the high contrast edges at upper left, but I have the feeling that's more in CA than sharpening. Over most of the area, these look pretty similar to me.
I'd be interested in others' thoughts.
--Rik
PS. For comparison, here's the unsharpened versus DLO:
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Thanks Rik! That's really interesting.
The results are remarkably close. Though around the high contrast areas you can see maybe more exaggeration of the boundary differences with USM.
Interestingly, there seems to be a little bit of a color shift with DLO (unless that's a GIF palette artifact).
Also, if I magnify the GIF, it looks like the pixel noise is enhanced more with USM.
The results are remarkably close. Though around the high contrast areas you can see maybe more exaggeration of the boundary differences with USM.
Interestingly, there seems to be a little bit of a color shift with DLO (unless that's a GIF palette artifact).
Also, if I magnify the GIF, it looks like the pixel noise is enhanced more with USM.
If your pictures aren't good enough, you're not close enough. - Robert Capa