Technical Analysis: Fujifilm GFX 100S, GF80mm, GF30mm, GF23mm, GF250mm, 1.4xTC, Metabones, and More



I have been a fan of Jim Kasson for a while now and decided to just start doing roundups of his excellent technical analysis for people to bing on like I do. The last roundup we shared from The Last Word can be found here. Jim has covered a lot more since my last roundup, which you can read more about below:

The Last Word – GFX Natural Live View and raw file histograms

Basically, the white balance of the camera in 5500 Kelvin light with the camera white balance set correctly is too green to properly represent the raw file. In the past, I’ve found that it takes about a CC30M to approximately match the camera’s histogram to the raw histogram, and the Natural Live View mode doesn’t seem to change that at all.

The Last Word – Adobe Super Resolution

Good performance. False color essentially eliminated with both of the AI demasicing techniques.

The Last Word – GFX 100S shadow performance with 14 and 16 bit precision

I guess I can convince myself that the 16-bit version is a bit better, but not by enough to make a material difference in normal photography. The 14-bit version is greener in the blacks. Probably due to small differences in the black point of the files. Green shadows indicates too high a black point.

The Last Word – GFX 100S dark-field histograms

You can tell a lot about a camera without attaching a lens. The first 70 or 80 images I made with the GFX 100S were with the body cap still installed. In this post, I’ll show you some histograms of the dark field raw files under the following conditions, and tell you what I learned from them.

The Last Word – GFX 100S read noise and EDR vs ISO setting

These curves show the engineering dynamic range (EDR), which I’m defining here as full scale divided by the root-mean-square (rms) value of the read noise, using lossless compression. Shutter speed was 1/1000 second. All these tests were done with no lens. I used a body cap to get the dark field. The curves are all done using 600×600 pixel crops that have been shifted leftward just far enough to avoid the center column of the sensor, which is sometimes the site of  aberrant behavior.

The Last Word – Fuji GFX 100S EDR vs shutter speed

This is essentially the same result that I got when I tested the GFX 100. Since the sensors appear to be the same, I’m not going to do photon transfer curves for the GFX 100S. I have no reason to think they won’t be the same as those for the GFX 100.

The Last Word – Fuji 80 mm f/1.7 on GFX 100S, Siemens star

I am surprised at how little focus shift there is.

I’ll be doing more testing, but this appears to be an excellent lens from the results seen here. I’m sure it has its foibles — what lens doesn’t? — and I hope to track them down in the next few days.

By the way, in spite of my using the nonlinear focus by wire mode, the focusing ring is overly sensitive for critical work. This is the first G lens I’ve seen with this issue.

The Last Word – GFX 100S 16-bit dark-field histograms

This has been an interesting exercise. It remains to be seen how these results relate to real photography.

The Last Word – GFX 100 PDAF banding is fixed

The 14-bit shadows are bluish, and the 16-bit ones are closer to what’s desired.

I think that 16-bit precision on the GFX 100 is no longer just for specmanship. In extreme circumstances, it is worth turning on.

The Last Word – Fuji 80 mm f/1.7 on GFX 100S, Siemens star analysis

I moved closer to the target for this test, to about 7 meters, so that the star covered about 1800 pixels in each direction. That allows the Imatest software I used to estimate modulation transfer function (MTF) for low spatial frequencies. With the exception of sharpening, the rest of the test conditions were the same as before.

The Last Word – Fujifilm 80/1.7 bokeh

The blobs are pretty clean, although they do show some onion-ring effects. The mechanical vignetting (cat’s eye) isn’t too bad. In fact, the OOF PSFs look a lot like those from the Fujifilm 110 mm f/2 lens.

The Last Word – Fujifilm GFX 100S pixel shift, visuals

Notice that the center of the pixel-shifted star goes gray at about the same place as it does with the normal image. There is no more extinction resolution. However, the middle of the normal image is rife with aliasing, and is improperly reconstructed. There is virtually no aliasing in the pixel-shifted image.

Pixel shifting can be a great thing, if you subject is static — I mean really, really static — and your camera is clamped to a sturdy tripod on solid ground.

The Last Word – Fujifilm 110/2, 80/1.7 slanted edge testing

It’s a tie.

The 80 mm lens is very close to the redoubtable 110 in on-axis sharpness.

The Last Word – Fujifilm GFZ 100S pixel shift, quantitative

There’s a lot more sharpening in the single shot image. That’s because the Lr default sharpening for this camera and lens always uses a 1-pixel radius, and one pixel is twice as big in the single shot image as it is in the 16-shot one, as measured in terms of field of view.

This chromatic aberration thing is going to need some more work. Is it a bug in the Fuji Pixel Stack combiner software?

The Last Word – Fuji 110/2, 80/1.7 on GFX 100S, foliage

Looks like f/8 might have been misfocused a bit with the 80. I don’t see any reason why you couldn’t use the 80 mm f/1.7 as a landscape lens at f/4 or narrower. I also don’t see much LoCA stopped down with that lens here.

The Last Word – Quick and dirty field curvature test on the Fuji 80/1.7

The lens front-focuses a bit towards the edge of the frame.

The Last Word – Fujifilm GFZ 100S pixel shift with the 110/2

The usual caveat about dividing the MTF30 and MTF50 numbers of the non-shifted image by two to compare them with the pixel shifted numbers applies. When you apply that to MTF50, you get 0.164 cy/px for the signal shot, versus 0.175 cy/px for the pixel-shifted image. The big difference is in aliasing.

By the way, there are some small-scale periodic artifacts in the pixel-shifted image.

The Last Word – Fuji 80/1.7, 110/2 chromatic aberrations compared

The new result, developed in Lightroom 10.2 with sharpening turned off, and white balance to the gray of the slanted edge.

The Last Word – Fujifilm 80 mm f/1.7 field curvature for landscape use

I still think this would make a pretty good landscape lens.

As a bonus, a 16-shot stack. You can’t normally get away with this for landscapes, but it was a very still morning.

The Last Word – Fuji 45-100 at 80 mm vs 80/1.7, foliage

Not all that different in sharpness

The Last Word – Chromatic aberration in the Fuji 45-100/4

The lens has the most CA at 45 mm and the least at 100.

The Last Word – How fast is the GFX 100S electronic shutter?

Now there are 42 bands. 8.33*42 = 350 ms, or about 1/3 of a second.

This is exactly the same as the GFX 100.

The Last Word – Chromatic aberration in the Fuji 45-100/4, 45/2.8

The zoom has more chromatic aberration, but it’s certainly not bad. Remember, the pixels referenced above are half the pitch of the GFX 100 physical pixels because of the pixel-shift processing.

The prime is sharper.

The Last Word – Choosing CoC for precision photography in practice

The good news is that DOF calculators work, although the one I used just know doesn’t include the effects of diffraction. And we know what CoC to plug in for critical work.

The bad news is that CoC will not give us much DOF. Optics is cruel sometimes.

The Last Word – Smallrig GFX 100S L-bracket

The bracket provides a useful place to put your little finger, improving the grip.

Viewed from the back, the bracket provides both portrait and landscape orientation center line markings, and they appear to be accurate.

In the past, the Smallrig brackets have not used the RRS dovetail spec, making the use of RRS cam-clamps dangerous. This bracket fits perfectly in those clamps.

The Last Word – Fujifilm G lenses hotspotting at 720 nm

OK means no hotspotting, or very little. H means hotspotting that I consider to be unacceptable. I threw the Coastal Optical 60 mm f/4 UV-VIS-IR into the mix. All lenses were tested with subjects tens of meters away. The second row is the f-stop.

The Last Word – Shutter shock in the GFX 100s

ES wins. Why? It could be that it’s better in isolation, or it could be that the 2 seconds between shots wasn’t enough time for the vibrations to die down. I ran another test with 10 seconds between shots.

The Last Word – Three dimensionality and sensor format

I do get some sense of depth in all of the images. I get more at around 4K resolution than I do with the above web-downsampled ones. I see very little depth differences between the two formats.

The Last Word – GFX 100S sensor is a 4-shot stitch

If you aren’t doing stacked astro, I don’t think this is of any concern.

The Last Word – Relative sensitivity of Sony a7RIV and GFX 100S

The red channel of the GFX appears to be substantially more sensitive than the a7RIV. With the blue channel, it’s the other way around, although not ot such a  great degree. The green channels are about the same, with the Fuji being a bit more sensitive.

The Last Word – Sheen and specular surfaces with Fuji pixel shift on the GFX 100

This is not the kind of subject for which pixel shift offers much improvement, aside from the noise reduction due to averaging.

The Last Word – Fujifilm Pixel Shift Combiner Accurate Color mode

I used a sinusoidal Siemens Star; it’s not supposed to be sharp. There is virtually no aliasing in the 400 MP image, and a fair amount in the 100 MP open.  This is about what you’d expect comparing a 4-shot pixel shift image to a 16-shot one.

The Last Word – Two ways to make 100 MP pixel-shifted images with the GFX 100S

A reader asked if you got better quality 100 MP images by using Fujifilm Pixel Shift Combiner in Accurate Color mode or by using High Resolution Plus Accurate Color mode and downsampling in post. This post attempts to answer that question, using a number of Photoshop standard resampling methods, and GigaPixel AI as well.

The Last Word – An important GFX 100S accessory

I said a few choice words, and felt stupid. I sat down at my computer and ordered a Hoodman H32MB Hoodloupe. It came yesterday.

The Last Word – Using the Fuji 250/4 and 1.4TC on the GFX 100S vs FF alternatives

You can see the aliasing quite distinctly. The Nikon zoom needs a finer-pitch sensor. Remember, this is a sinusoidal Siemens Star, so the edges aren’t supposed to be crisp. Also, this was with zero sharpening.

My take is that, especially for birds, for which aliasing is often an issue, the 250/4 and the 1.4X TC isn’t a bad choice. It’s not as sharp as a decent medium-high res full frame MILC with a really good zoom, though.

The Last Word – Fuji 23/4, 30/3.5 field curvature and corner sharpness on GFX 100S

Now the 30 looks a hair better.

Both of these lenses will do a fine job for aerials or distant landscapes.

The Last Word – Zeiss 15/2.8 Distagon, Metabones 1.26x on GFX 100S

Still not winning any prizes.

Well, it was worth a try.

The Last Word – Which is sharper on-axis, the Fuji 23/4 or 30/3.5?

No significant change.

I am beginning to raise my opinion of the 30 mm lens, and I already thought it was quite good.

The Last Word – How much sharpness do you lose with the 1.4x TC on the Fuji 250/4?

In all cases, chromatic aberration is quite low.

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Fujifilm GFX100S: B&H Photo / Amazon / Moment / Adorama

Fujifilm GFX100: B&H Photo / Amazon / Adorama

Fujifilm GFX50R: B&H Photo / Amazon / Adorama

Fujifilm GFX 50S: B&H Photo / Amazon / Adorama

Fujinon GF80mm f/1.7: B&H Photo / Amazon / Moment / Adorama

Fujinon GF30mm f/3.5 R WR: B&H Photo / Amazon / Adorama

Fujinon GF 23mm f/4 R LM WR: B&H Photo  / Amazon / Adorama

Fujinon GF 250mm f/4: B&H Photo / Amazon / Adorama

Fujinon GF 1.4x Teleconverter: B&H Photo / Amazon / Adorama