Camera
Adobe releases Photoshop for M1 Macs and introduces Super Resolution in ACR
Adobe has announced that a new version of Photoshop is now available, allowing the popular photo editing software to run natively on Macs with Apple’s M1 chip. This news comes nearly five months after Adobe announced that native versions were coming soon and after months of internal and public beta testing.
The new version of Photoshop for Apple Silicon includes nearly all features of Photoshop, more on that in a bit. It promises faster selections and filters among overall performance boosts. Adobe writes, ‘Our internal tests show that Photoshop delivers significant performance gains across the application for customers using [Macs with the M1 chip].’ Adobe’s internal tests show that a wide range of features are about 1.5x faster in the new version on M1 Macs than ‘similarly configured previous generation systems.’ Testing included a wide range of activities, including opening and saving files, running filters, using compute-heavy tools like Content-Aware Fill and Select Subject.
 |
Early Adobe benchmarking shows that some operations are even faster. A significant reason that the first public release promises such impressive performance is due to Adobe’s beta testing program. Adobe states that further development is ongoing as the company continues to work with Apple to optimize performance further.
Not every feature has made it into the first release, however, so not every user may want to update to the Apple silicon version of Photoshop immediately. A few features, including the recent Invite to Edit Cloud Documents and Preset Syncing, are not included in today’s release. If you require these features for your workflow, you should continue to use the Rosetta 2 build of Photoshop until these features are added to future native builds. Nonetheless, today’s news should excite users with M1 Macs. You can download the new build of Photoshop now and try it out for yourself.
 |
Adobe has also introduced an update for Photoshop on iPad. Two big features are now available in the tablet version of Photoshop: Cloud Documents Version History and the ability to work on Cloud Documents while offline.
Each Cloud Document, which is auto-saved as it is worked on, includes a version history. The history includes revisions for up to 60 days. Users on iPad can now bookmark, rename and save revisions permanently.
 |
| Photoshop on iPad now includes the ability to download Cloud Documents for offline use and editing. Image credit: Adobe |
Adobe has also added the ability for Photoshop users on iPad to select Cloud Documents for local storage, allowing access while working offline. This feature should appeal to users who regularly work in Photoshop on the go with their iPad.
Last but certainly not least, Adobe has updated Adobe Camera Raw to version 13.2. In the new version of ACR, a new Super Resolution feature has been added to the Enhance dialog. Using Super Resolution, users can double the width and height of their images, effectively quadrupling the resolution. For example, if you use Super Resolution on a 16MP image, the resulting image has 64MP resolution.
 |
| Super Resolution allows users to quadruple the total pixel count of their images. This feature may prove useful when working with heavily cropped wildlife photos. Image credit: Adobe |
Super Resolution, which will be added to Lightroom and Lightroom Classic later, uses an advanced machine learning model for enlarging photos. Adobe writes, ‘Backed by this vast training set, Super Resolution intelligently enlarges photos while maintaining clean edges and preserving important details.’ The training set comprises millions of photos.
 |
| In this example, there are two crops beneath the full image. The crop on the left was upsized using standard bicubic upsizing in Photoshop. The crop to the right was upsized using Super Resolution. Image credit: Adobe |
Adobe trained Super Resolution using millions of pairs of low-resolution and high-resolution image patches. Over a long period, the computer model figured out how to upsize low-resolution images in a natural and realistic way. Compared to standard bicubic upsizing, Super Resolution promises better preservation of small details and colors. As you can see in the example below, Super Resolution appears to deliver on this promise. You may recognize the image as our very own test scene.
 |
| This example from the DPReview studio test scene shows standard bicubic upscaling (left) versus Super Resolution (right). Image credit: Adobe |
While photographers with 50MP cameras may not need a feature like Super Resolution, it should prove very useful when heavily cropping high-resolution images and when printing images shot with lower-megapixel cameras. For example, many of us have images shot with 8-10MP cameras, and Super Resolution should make these files much higher quality.
 |
| In these crops, bicubic upscaling is again on the left and Super Resolution is on the right. The difference is quite noticeable. Image credit: Adobe |
To use Super Resolution, you right-click on the image and then click on ‘Enhance.’ This opens the Enhance Preview dialog box. Users then check the Super Resolution box and press Enhance. At this point, ‘Your computer will put on its thinking cap, crunch a lot of numbers, then produce a new raw file in the Digital Negative (DNG) format that contains the enhanced photo. Any adjustments you made to the source photo will automatically be carried over to the enhanced DNG. You can edit the enhanced DNG just like any other photo, applying your favorite adjustments or presets.’ As of now, Super Resolution is limited to images smaller than 500MP, which shouldn’t be an issue except in the case of huge panoramas.
 |
Super Resolution can also work on other file formats beyond RAW files, including JPEG, PNG and TIFF files. Adobe recommends using the cleanest source file possible, so a RAW file is ideal. Super Resolution uses your computer’s GPU, so the faster your GPU, the better. You can also apply Super Resolution to several images at a time by selecting the images in ACR’s filmstrip.
Camera
Pentax K-1 and K-1 II firmware updates include astrophotography features (depending on where you live)
Yesterday, Ricoh quietly released firmware 2.50 for its Pentax K-1 and K-1 II DSLRs. However, the features you can expect to gain from this update may depend on your geography.
Ricoh’s English-language firmware pages for the K-1 and K-1 II state that firmware 2.50 delivers “Improved stability for general performance.”
However, astute Pentax users noted that Ricoh’s Japanese-language firmware pages (translation) indicate that the update also includes a limited feature called “Astronomical Photo Assist,” a collection of three new features designed for astrophotography: Star AF, remote control focus fine adjustment, and astronomical image processing.
Star AF is intended to automate focusing on stars when using autofocus lenses. Rather than manually focusing on a bright star and changing your composition, it promises to let you compose your shot and let the camera focus.
Remote control fine adjustment allows users to adjust focus without touching the lens and requires Pentax’s optional O-RC1 remote. Astronomical image processing will enable users to make in-camera adjustments to astrophotography images, including shading correction, fogging correction, background darkness, star brightness, celestial clarity, and fringe correction.
 |
| Astronomical image processing on the K-1 and K-1 II will enable users to make in-camera adjustments to astrophotography images, including shading correction, fogging correction, background darkness, star brightness, celestial clarity, and fringe correction. |
According to Ricoh, Astronomical Photo Assist is a premium feature that must be purchased and costs ¥11,000 for an activation key (about $70 at current exchange rates).
Although these astrophotography features appear to be Japan-only for now, a Ricoh representative tells us, “Ricoh Imaging Americas confirmed that the premium firmware features for the PENTAX K-1 and PENTAX K-1 Mark II will eventually be available to US customers.”
Firmware update 2.50 for both the K-1 and K-1 II is available for download from Ricoh’s website.
As part of our twenty fifth anniversary, we’re looking back at some of the most significant cameras launched and reviewed during that period. Today’s pick was launched seven years ago today* and yet we’re only quite recently stepping out of its shadow.
The Nikon D850 is likely to be remembered as the high watermark of DSLR technology. We may yet still see impressive developments from Ricoh in the future (we’d love to see a significantly upgraded Pentax K-1 III), but the D850 was perhaps the green flash as the sun set on the DSLR as the dominant technology in the market.
Click here to read our Nikon D850 review
Why do we think it was such a big deal? Because it got just about everything right. Its 45MP sensor brought dual conversion gain to high pixel count sensors, meaning excellent dynamic range at base ISO and lower noise at high ISOs. Its autofocus system was one of the best we’ve ever seen on a DSLR: easy to use and highly dependable, with a good level of coverage. And then there was a body and user interface honed by years of iterative refinement, that made it easy to get the most out of the camera.
None of this is meant as a slight towards the other late-period DSLRs but the likes of Canon’s EOS 5DS and 5DSR didn’t present quite such a complete package of AF tracking, daylight DR and low-light quality as the Nikon did. With its ability to shoot at up to 9fps (if you used the optional battery grip), the D850 started to chip away at the idea that high megapixel cameras were specialized landscape and studio tools that would struggle with movement or less-than-perfect lighting. And that’s without even considering its 4K video capabilities.
In the seven years since the D850 was launched, mirrorless cameras have eclipsed most areas in which DSLRs once held the advantage. For example, the Z8 can shoot faster, autofocus more with more accuracy and precision, across a wider area of the frame and do so while shooting at much faster rates.
But, even though it outshines the D850 in most regards, the Z8 is still based around what we believe is a (significant) evolution of the same sensor, and its reputation still looms large enough for Nikon to explicitly market the Z8 as its “true successor.”
Nikon D850 sample gallery
*Actually seven years ago yesterday: we had to delay this article for a day to focus on the publishing the Z6III studio scene: the latest cameras taking precedence over our anniversary content.
| Photo: Richard Butler |
We’ve just received a production Nikon Z6III and took it into our studio immediately to get a sense for how the sensor really performs.
Dynamic range tests have already been conducted, but these only give a limited insight into the image quality as a whole. As expected, our Exposure Latitude test – which mimics the effect of reducing exposure to capture a bright sunrise or sunset, then making use of the deep shadows – shows a difference if you use the very deepest shadows, just as the numerical DR tests imply.
Likewise, our ISO Invariance test shows there’s more of a benefit to be had from applying more amplification by raising the ISO setting to overcome the read noise, than there was in the Z6 II. This means there’s a bigger improvement when you move up to the higher gain step of the dual conversion gain sensor but, as with the Z6 II, little more to be gained beyond that.
These are pushing at the extreme of the sensor’s performance though. For most everyday photography, you don’t use the deepest shadows of the Raw files, so differences in read noise between sensors don’t play much of a role. In most of the tones of an image, sensor size plays a huge role, along with any (pretty rare) differences in light capturing efficiency.
As expected, the standard exposures look identical to those of the Z6 II. There are similar (or better) levels of detail at low ISO, in both JPEG and Raw. At higher ISO, the Z6III still looks essentially the same as the Z6II. Its fractionally higher level of read noise finally comes back to have an impact at very, very high ISO settings.
Overall, then, there is a read noise price to be paid for the camera’s faster sensor, in a way that slightly blunts the ultimate flexibility of the Raw files at low ISO and that results in fractionally more noise at ultra-high ISOs. But we suspect most people will more than happily pay this small price in return for a big boost in performance.
-
Solar Energy3 years agoDLR testing the use of molten salt in a solar power plant in Portugal
-
Camera3 years agoCharles ‘Chuck’ Geschke, co-founder of Adobe and inventor of the PDF, dies at 81
-
world news8 months ago
Gulf, France aid Gaza, Russia evacuates citizens
-
world news3 months ago
Jewish diaspora expresses concern as Iranian drones launch toward Israel
-
Camera3 years ago80,000MP panoramas: EarthCam announces world’s highest-resolution robotic webcam
-
TOP SCEINCE3 months agoCan animals count?
-
Solar Energy8 months agoGlencore eyes options on battery recycling project
-
Camera8 months agoDJI Air 3 vs. Mini 4 Pro: which compact drone is best?
