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Posts Tagged ‘Range’

Sony a7R III dynamic range improved, nearly matches chart-topping Nikon D850

01 Nov

Sony has claimed 15 EV dynamic range from its newest ILC iteration: the a7R III. Is it true, or is it like Sony’s odd claim that the a7S had 15 EV dynamic range? Turns out: Sony has some strong grounds for its claim here.

The Sony a7R III retains its dynamic range even in bursts. That’s a big deal for a Sony ILC

At the launch event in NYC, we were able to gather enough data to measure the ‘engineering dynamic range’ of the a7R III.* And boy is it impressive. Possibly even more important: for the first time the a7R III retains this dynamic range even in continuous drive. That’s a big deal for sports and action photographers. But how true is Sony’s claim?

The Sony a7R II already had impressive Raw dynamic range, with the ability to expose short enough to keep highlights from blowing, but with low enough sensor noise to lift shadows without too much noise. The a7R III improves on this.

Oh and think this image is too dark? Wait till you view it on a HDR display, which is another can of worms altogether the stills industry should be discussing.

Photo: Rishi Sanyal

Sony has found a way to reduce shadow (or ‘read’) noise in its files such that the final output has higher dynamic range, and cleaner shadows if you need them, than files from its predecessor. To summarize it in a number at base ISO: 13.6 EV at the pixel, or for a 42.4MP file. Or 14.8 EV if you like to compare to DXO numbers (and only generate 8MP images from your 42.4MP camera). Either way, that’s a nearly half-stop improvement over its predecessor. See our table below, which also compares the a7R III to the full-frame chart-topping Nikon D850, ranking based on highest performer:

Pixel Dynamic Range 8MP ‘Print’ Dynamic Range
Nikon D850 (ISO 64) 13.78

15.03
Sony a7R III 13.63

14.84

Nikon D850 (ISO 100)

 13.27 14.53
Sony a7R II 13.21 14.41

While the Nikon D850 is the top performer here, its important to note that this is only the case if you can give the D850 the extra ~2/3 EV light it needs at ISO 64 (which you often can if you’re shooting bright light or a landscape photographer on a tripod). At ISO 100, the a7R III dynamic range actually exceeds that of the D850, thanks to incredibly low read noise. That’s impressive for a camera constantly running its sensor in live view.

At ISO 100, the a7R III dynamic range actually exceeds that of the D850… impressive for a camera constantly running in live view

Keep in mind, though, that if you can give the D850 the extra exposure to take advantage of its ISO 64 dynamic range, all tones in your image benefit from the higher signal:noise ratio—even midtones and brighter tones will be more amenable to post-processing and sharpening thanks to being more ‘clean’ and less noisy to begin with. The D850 is able to tolerate as much total light as the medium format Fujifilm GFX 50S, as we showed here. That’s what allows one to get unbelievably crisp, ‘medium format-like’ like files from a Nikon D810 (just zoom in to 100% on that shot and tell me you’re not impressed).

But the Sony a7R III gets you nearly there. While in some circumstances the Nikon D810/D850, or medium format, may afford you slightly cleaner more malleable files, the a7R III takes a significant step at closing the gap. And that’s nothing short of impressive for a mirrorless ILC constantly running its sensor for a live feed (and all its benefits).

As for Sony’s marketing, it sounds like the claim of 15 EV is believable, but only technically if you consider how your images look when shrunk to 8MP files. To be fair, there’s some benefit to comparing dynamic range figures after resizing camera outputs to 8MP, since it’s a common basis for comparison that doesn’t penalize cameras for having higher resolution (and therefore smaller pixels).

In depth vs. a7R II

Let’s take a deeper dive. Here are our ‘engineering’ dynamic range measurements of the a7R III vs. the a7R II. ‘Engineering’ dynamic range means we are measuring the range of tones recorded between clipping and when the shadows reach an unacceptable noise threshold where signal is indistinguishable from noise (or when signal:noise ratio = 1). Have a look (blue: a7R III | red: a7R II):

The a7R III shows a 0.42 EV, or nearly a half a stop, improvement in base ISO dynamic range over the a7R II. That’s not insignificant: it will be visible in the deepest shadows of base ISO shots of high contrast scenes. How did Sony do this given the already low levels of read noise its known for? Possibly by going to better or higher native bit-depth ADCs, something Bill Claff had suggested based on our largely 12-bit findings of the Sony a9’s output. But let’s save that for the PST forums.

Suffice it to say the a7R III improves on low ISO dynamic range, without sacrificing anything on the high end

It’s worth noting our a7R II figures are higher than DXO’s published 12.69 EV (13.9 EV ‘Print’) figures, possibly because they tested an older unit prior to uncompressed Raw and improvements to Sony’s compression curve. We retested it literally today with the latest firmware, and get figures of 13.2 EV or 14.4 EV normalized for ‘Print’ (Bill measures 13.3 EV, which you can see by clicking the camera name in the legend). See our 8MP, or ‘Print’ normalized, dynamic range figures below. These are more comparable to what DXO might report, for the benefit of your own comparative efforts (blue: a7R III | red: a7R II):

You can see the Sony a7R III encroaching on the ~15 EV rating of the Nikon D850 at ISO 64, but achieved at ISO 100 on the Sony, thanks to lower read noise. Impressive, though keep in mind again that the overall image quality improvement of an ISO 64 file from a D850 is due to total captured light (and it’s all about total captured light, which you can read about here).

Independently, our friend Bill Claff has tested the a7R III and also shows a similar 0.3 EV improvement over the Mark II (you can see the dynamic range numbers by clicking on the relevant camera in the legend at the upper right). He also shows the slight advantage of the Nikon D850 over the a7R III, which comes in at 13.7 EV vs. the a7R III’s 13.6 EV at the pixel level.**

Sony: a job well done. And all this at no cost to high ISO performance (we have comparisons coming showing parity between high ISO a7R III and a9 performance). Now please offer us visually lossless compressed Raw so we don’t have to deal with >80MB files for no reason. 🙂

ISO-Invariance

A camera with such great dynamic range performance suggests it’s probably fairly ISO-invariant, but is it?

Well, yes and no. It’s ISO-invariant in exactly the way it should be, but not so in the ways it shouldn’t be. Confused? Read on.

The a7R III, like many Sony predecessors, has a second gain step at the pixel level that amplifies signal, at the cost of higher tones, to preserve higher signal, and less noise, in dark tones. But it does so at a higher ISO—640 to be exact. At this point, the camera has amplified its signal in the analog domain so much that any remaining noise barely affects it.

That’s why the camera shows no difference between amplifying that ISO 640-amplified signal digitally (in-post) or in the analog domain in-camera. While we’ll have a more rigorous and controlled ISO-invariance test coming soon, you can see even in our cursory test at the launch event below that comparing ISO 6400 vs ISO 640 shot at the same exposure but raised 3.3 EV in-post to maintain the same brightness as ISO 6400 shows no difference at all in noise performance.

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What’s the advantage to the latter? 3.3 EV of highlights you otherwise lose by amplifying to ISO 6400 levels in-camera, but that you don’t lose if you ask ACR to digitally brighten 3.3 EV in post (anything that gets blown from that 3.3 EV push can easily be recovered in ACR since it’s there in the Raw file).

Below ISO 640 there’s some extra noise to, say, shooting ISO 100 and boosting 6 EV in post as opposed to shooting ISO 640 and boosting 3.3 EV. But there’s simply no excuse to the camera’s traditional ISO 6400 method of shooting ISO 6400-appropriate exposure and then amplifying the analog signal 6 EV in post to get ISO 6400 levels of brightness; instead, 2.7 EV of that push could be done in the analog domain by switching dual gain to ISO 640 levels, but the remaining 3.3 EV push should be saved for Raw conversion in order to retain 3.3 EV (or more) of highlight detail. Indeed, this is easily seen in Bill Claff’s ‘Shadow Improvement’ graphs that show little to no benefit to analog amplification above ISO 640 on even the Sony a7R II (or ISO 400 on the Nikon D850). And only a highlight cost of stops, upon stops, upon stops, since tones get amplified above the clipping point of the ADC at higher ISOs.

I’m going to use this as an opportunity to ask manufacturers like Sony, Nikon and the like: please accept the digital revolution that even your video departments have accepted (in their ‘E.I.’ modes). Please stop throwing away highlight data for almost no shadow benefit to ostensibly stick to poor antiquated ‘film’ analogies, or to work around CCD/CMOS read noise limitations that no longer exist. We’ve been singing this tune since 2014 when we designed our ISO-invariance test, and it’s even more relevant today with dual-gain architectures. ACR understands digital ‘push’ tags and you can brighten the image preview (and JPEG) as necessary. This is not to single out Sony: Nikon, Olympus and Panasonic are just as easy to blame, if not Canon of late after having modernized its sensor architecture to catch up with the rest.

Footnotes:

* Sony’s claim that the a7S had 15 EV dynamic range was patently false, as even the a7R II which has been measured to have less than 15 EV dynamic range performs better. But since there’s no standard for dynamic range measurement, it’s hard to say whether or not anyone’s claim is right or wrong – manufacturers can claim whatever they wish.

** But again, that’s not the whole story until you consider the higher signal:noise ratio of all tones at ISO 64 on a D850 compared to ISO 100 on any other full-frame at ISO 100.

Articles: Digital Photography Review (dpreview.com)

 
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Manfrotto unveils Element Carbon entry-level carbon fibre tripod range

09 Oct

Popular tripod and accessory maker Manfrotto has just revealed a new range of entry-level carbon fibre tripods that it hopes will attract photographers looking for good quality gear at a slightly more affordable price. The two new Element Carbon tripods are aimed at travel photographers and come in two sizes with payload recommendations of 4kg/8.82lb and 8kg/17.64lb.

The three-position carbon fibre legs feature twist locks, and the larger of the two has a detachable leg that can be fitted to the centre column to form a full-sized monopod. The ball-and-socket heads that come with the legs are made from aluminum and use an Arca-style quick release plate.

The maximum height of the Manfrotto Element Carbon tripods is 143cm/56.3in for the small version and 164cm/64.57in for the large one, and they weigh 1050g/2.3lb and 1400g/3.08lb, respectively. The new tripods will be priced at £175 and £200—US pricing has yet to be released. For more information, visit the Manfrotto website.

Press Release

INTRODUCING THE NEW MANFROTTO ELEMENT CARBON

Fast Setup. Perfect shot.

  • Smart traveller tripods for photographers who want to learn, experiment and travel free
  • Lightweight on your shoulders, stable on the ground.
  • Essential design ensures instant set up for an enjoyable shooting experience

Manfrotto, world leader in the photography, imaging equipment and accessories industry, presents Manfrotto Element Carbon. The Manfrotto Element Carbon tripods are the perfect fit for travel photographers who are just starting out and enthusiasts.

The two new Element Carbon traveller tripods are reliable, lightweight and easy to carry. Both feature a compact and sturdy carbon fibre construction that makes them strong but still very portable. The three leg-angle positions mean they are highly versatile so they are perfect for experimenting with all kinds of creative shots. The twist lock mechanism enables photographers to get into the right position fast, in a few, easy moves, while the aluminum ball head is designed to deliver the fast movement when framing and a firm lock for setting equipment up exactly as you need it. The ball head mounts an Arca-type quick release plate with a 1/4″-20 camera screw on top that ensures equipment is balanced even when using zoom lenses.

In addition, the Element Traveller Carbon Big Tripod features a detachable leg that, when removed and attached to the centre column, becomes a full size lightweight monopod.

The Element Carbon Tripods have a payload of 4kg on the small tripod, and 8kg on the big tripod and feature a branded Manfrotto bag, an additional set of spike feet (big tripod only) and an Allen key to fix and tighten your gear.

The Element Carbon Tripods are available from £174.95.

For more information, please visit www.manfrotto.co.uk

Articles: Digital Photography Review (dpreview.com)

 
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RED unveils Monstro 8K VV full-frame sensor with 17+ stops of dynamic range

07 Oct

RED has just announced its new Monstro 8K VV full-frame sensor for Weapon cameras. The device features a 35.4MP 40.96mm x 21.60mm sensor and is able to record at a full 8K/60fps resolution. RED explains that the Monstro 8K VV replaces its existing DRAGON 8K VV sensor, and that anyone who has ordered the DRAGON 8K VV will be offered the Monstro as of October 5th.

The Monstro 8K VV sensor has full support for RED’s IPP2 image processing pipeline, as well as an “unprecedented dynamic range [of 17+ stops] and breathtaking color accuracy,” according to RED President Jarred Land. When coupled with the Weapon 8K VV, the device can simultaneously record Redcode RAW and either Avid DNxHD/HR or Apple ProRes, likewise offering data speeds up to 300MB/s. The sensor’s full technical spec sheet is insane, and available for your viewing pleasure here.

Existing carbon fiber Weapon customers have the option of upgrading for $ 29,500, while the new Weapon with the full-frame Monstro sensor is priced at $ 79,500. New orders for the device will start shipping to customers in early 2018.

Press Release

RED ANNOUNCES THE NEW MONSTRO 8K VV

Today RED announced a new cinematic Full Frame sensor for WEAPON cameras, MONSTRO™ 8K VV. MONSTRO is an evolutionary step beyond the RED DRAGON 8K VV sensor with improvements in image quality, including dynamic range and shadow detail.

This new camera and sensor combination, WEAPON 8K VV, offers Full Frame lens coverage, captures 8K full format motion at up to 60 fps, produces ultra-detailed 35.4 megapixel stills, and delivers incredibly fast data speeds of up to 300 MB/s. Like all of RED’s DSMC2 cameras, WEAPON shoots simultaneous REDCODE RAWand Apple ProRes or Avid DNxHD/HR recording and adheres to RED’s dedication to OBSOLESCENCEOBSOLETE—a core operating principle that allows current RED owners to upgrade their technology as innovations are unveiled as well as move between camera systems without having to purchase all new gear.

“RED’s internal sensor program continues to push the boundaries of pixel design and MONSTRO is the materialization of our relentless pursuit to make the absolute best image sensors on the planet,” says Jarred Land, President of RED Digital Cinema. “The Full Frame 8K VV MONSTRO provides unprecedented dynamic range and breathtaking color accuracy with full support for our IPP2 pipeline.”

The new WEAPON will be priced at $ 79,500 (for the camera BRAIN) with upgrades for carbon fiber WEAPONcustomers available for $ 29,500. MONSTRO 8K VV will replace the current RED DRAGON 8K VV sensor in RED’s lineup, and customers that had previously placed an order for a RED DRAGON 8K VV sensor will be offered this new sensor beginning today. New orders will start being fulfilled in early 2018.

RED has also announced a comprehensive service offering for WEAPON carbon fiber camera owners called REDARMOR-W. RED ARMOR-W offers enhanced and extended protection beyond basic RED ARMOR, and also includes one sensor swap each year.

“‘Good’ has never been ‘good enough’ for RED,” says Land. “We put ourselves in the shoes of our customers and see how we can improve how we can support them. RED ARMOR-W builds upon the foundation of our original extended warranty program and includes giving customers the ability to move between sensors based upon their shooting needs.”

Additionally, RED’s enhanced image processing pipeline (IPP2) is now available in-camera for all cameras with HELIUM and MONSTRO sensors through today’s v7.0 release firmware update. IPP2 offers a completely overhauled workflow experience, featuring enhancements such as smoother highlight roll-off, better management of challenging colors, an improved demosaicing algorithm, and more.

Articles: Digital Photography Review (dpreview.com)

 
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Nikon D850: a look at dynamic range

11 Sep

The D810 offered excellent DR combined with a low base ISO that allowed it to tolerate lots of light. A look at the D850 suggests it’s been able to repeat this trick, while also seeing an improvement at high ISO settings.

Articles: Digital Photography Review (dpreview.com)

 
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Raw bit depth is about dynamic range, not the number of colors you get to capture

03 Sep
Shooting this image in 14-bit helped retain the full dynamic range captured by the sensor. Most of the time, with most cameras, 12-bit is enough.

Raw bit depth is often discussed as if it improves image quality and that more is better, but that’s not really the case. In fact, if your camera doesn’t need greater bit depth then you’ll just end up using hard drive space to record noise.

In fairness, it does sound as if bit depth is about the subtlety of color you can capture. After all, a 12-bit Raw file can record each pixel brightness with 4096 steps of subtlety, whereas a 14-bit one can capture tonal information with 16,384 levels of precision. But, as it turns out, that’s not really what ends up mattering. Instead, bit depth is primarily about how much of your camera’s captured dynamic range can be retained.

Much of this comes down to one factor: unlike our perception of brightness, Raw files are linear, not logarithmic. Let me explain why this matters.

Half the values in your Raw file are devoted to the brightest stop of light you captured

The human visual system (which includes the brain’s processing of the signals it gets from the eyes), interprets light in a non-linear manner: double the brightness of a light source by, say, turning on a second, identical light, and the perceptual difference isn’t that things have got twice as bright. Similarly, we’re much better as distinguishing between subtle differences in midtones than we are vast differences in bright ones. This is part of the way we’re able to cope with the high dynamic ranges in the scenes we encounter.

Digital sensors are different in this respect: double the light and you’ll get double the number of electrons released by the sensor, which results in double the value generated by the analogue-to-digital conversion process.

This diagram shows how the linear response of a digital sensor maps to the number of EV you can potentially capture. Note how the brightest stop of light takes up 1/2 of the available values of your Raw file.

Why does this matter? Because it means that half the values in your Raw file (the values between 2048 and 4096 in a 12-bit Raw file) are devoted to the brightest stop of light you captured. Which, with most typical tone curves, ends up translating to a series of near-indistinguishably bright tones in the final image. The next stop of light takes up the next 1024 values, and the third stop is recorded with the next 512, taking half of the remaining values each time.

In a typical out-of-camera JPEG rendering, the first ~3.5EV are captured above middle grey, and the first three of these stops of highlights have used up 7/8th of your available Raw values. The remaining Raw values are used to capture tones from just above middle grey all the way down to black.

Using the D750’s default JPEG tone curve as an example, you can see that around 3.5EV of the camera’s dynamic range is used for tones above middle grey. 1/2 the Raw values are used to capture the tones that end up being JPEG values of roughly 240 upwards, and more than 7/8ths of the available values on tones about middle grey.

Follow this logic onwards and you’ll see that the difference between 12 and 14-bit Raw has less to do with subtle transitions (after all, even in the example I describe, the tones around middle brightness would be encoded using 256 levels: the same number of steps used for the entire dynamic range of the image if saved as a JPEG or viewed on most, 8-bit monitors). Instead it has much more to do with having enough Raw values left to encode shadow detail.

By the time you’ve created a JPEG, the brightest stop of your image is likely to be made up from the tones in this image. Half of your Raw file was used for storing just these near-white tones.

Since every additional ‘bit’ of data doubles the number of available Raw values, but the brightest stop of light takes up half of your Raw values, you can see that all of those additional values increase the capacity of your Raw file by 1EV. Which, assuming neither you nor your camera’s exposure calibration are completely mad, ends up meaning an extra stop in the shadows.*

A 14-bit Raw file won’t generally give extra highlight capture, it’ll mean having sufficient Raw numbers left to be able to capture detail in the shadows. And if your camera is swamped by noise before you get to 14EV (most are), all this extra data will effectively be used to record shadow noise.

In other words, 12-bits provides enough room to encode roughly 12 stops of dynamic range, while 14 bits gives the extra space to capture up to around 14EV. Or to look at it from the opposite perspective: if your camera is overwhelmed by noise before you get to 12 stops of DR, you don’t benefit from more bit depth: all you’d be doing is capturing the shadow noise in your image in greater detail.

Bit depth in video

It’s a similar story in video. Because video capture is so data intensive, it’s not usually practical to try to save all the captured data, which usually means crushing everything down to just 8 or 10 bits.

Log gamma is a way of taking the linear data captured by the sensor and reformatting it so that each stop of captured light is given the same amount of values in the smaller file. This makes more sensible use of the file space and retains as much processing flexibility as possible.

And, even if you own, say, a Sony a7S (one of the few cameras we’ve encountered that has sufficiently large/clean pixels that it doesn’t have enough bit depth to capture its full dynamic range at base ISO), you need to remember that you only get the camera’s full DR at base ISO. As soon as you increase the ISO setting, you’ll amplify the brightest stop of captured data beyond clipping, such that you very quickly get to the stage where you’re losing 1EV of DR for every 1EV increase in ISO.

If your camera doesn’t capture more than 12 stops of DR, you probably shouldn’t clamor for 14-bit Raw

So, even though you started with a camera whose DR outstrips its bit depth, that stops being true as soon as you hike up the ISO: instead you just go back to encoding shadow noise with tremendous precision.

Consequently, if your camera doesn’t capture more than 12 stops of DR, you probably shouldn’t clamor for 14-bit Raw: it’s not going to increase the subtlety of gradation in your final images (especially not if you’re viewing them as 8-bit). All those extra bits would do is increase the amount of storage you’re using by around 16% with all of that space being devoted to an archive of noise.

Articles: Digital Photography Review (dpreview.com)

 
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This eclipse photo shows the crazy dynamic range of today’s image sensors

23 Aug
Nikon D750 without any filters at 1/8s, F11, and ISO 100. Photo by Dan Plucinski

We talk about dynamic range (or lack thereof) a lot here at DPReview. But with all of the granular comparisons between the newest models, it’s easy to forget how incredible many of today’s image sensors have gotten in this regard. So here’s a quick example from photographer Dan Plucinski, who captured this photo in Oregon during the total solar eclipse on Monday.

The photograph on the right is a single image, not a composite. Plucinski simply took the shot on the left and pulled the shadows up in post; what you see on the right is the same image, with all of the shadow detail recovered.

The lesson is pretty straight-forward: always shoot Raw.

Photo by Dan Plucinski and used with permission.

Articles: Digital Photography Review (dpreview.com)

 
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Manfrotto targets 360° VR creators with new range of accessories

11 Aug

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Accessory creator Manfrotto has just launched a new range of bases, booms, heads and dollies aimed at Virtual Reality content creators. The company claims to be the first to produce, “unique, dedicated products designed to support professionals and enthusiasts shaping the future of photography and videography,” and that its new range makes VR creation easier and more enjoyable.

The Manfrotto 360° Virtual Reality range includes:

  • VR Clamp and VR Adjustable Dolly
  • VR Mini Tripod Kit
  • VR Aluminium Base with/without half ball
  • VR Pump Cup with spigot adapter
  • VR Carbon Tripod
  • VR Panoramic Head
  • VR Carbon Fibre Boom (Small, Medium, Large)

The company says that the bases have been designed to provide solid, motion-free support ensuring cameras remain as still as possible, and that their foot-prints are small enough that they won’t appear in the frame. The bases offer a choice of carbon fibre or aluminum materials, and booms are provided to enable images to be taken at various heights.

Prices for the range start at £30/$ 35 for a clamp and top out at £680/$ 690 for the Multi-Row Panoramic Head. For more information, visit the Manfrotto website.

Press Release

PRESENTING – MANFROTTO 360° VIRTUAL REALITY

  • The first dedicated range of solutions supporting virtual reality creation
  • Pro and enthusiast solutions for immersive content creation
  • Reliable, high-performance bases, accessories and extension booms
  • Engineered with high-quality materials and careful attention to ergonomics and detail

UK 9th August 2017 – Manfrotto, world leader in the photography, imaging equipment and accessories industry, is excited to introduce the brand new 360o Virtual Reality range and to be the first player to bring unique, dedicated products designed to support professionals and enthusiasts shaping the future of photography and videography.

Manfrotto’s new 360° Virtual Reality offering includes bases, accessories and extension booms that make it easier and more fun to create amazing 360-degree videos and photos.

With this new range, Manfrotto is facilitating the transition that is taking immersive content creation into the mainstream: from niche professional to widespread consumer application. Leveraging Manfrotto’s innovative offering, photographers and videographers can effortlessly capture entire scenes around their camera, enabling anyone viewing the content to look around and feel like they are experiencing the scenery in real life.

Manfrotto’s new 360° Virtual Reality Range provides a wide choice of combinations for individual content makers to select according to their specific needs and objectives.

Manfrotto VR bases provide reliably stable support and are compact enough not to show in 360° shots. They guarantee the stability photographers and videographers need to get a few meters off the ground and are available in a variety of sizes and materials to suit individual creative requirements.

Manfrotto’s VR accessories range makes flawless 360° shooting quicker and easier. These innovative accessories are compatible with all products in the range for the best results every time.

Manfrotto’s VR boom extensions maximize camera height when required. They can be connected to all the bases in the Manfrotto VR range, enabling users to achieve a wide variety of heights for the most breath-taking content.

The Manfrotto 360° VR range features a convenient selection of kits designed to make 360°content creation incredibly easy and intuitive. They are compatible with the most popular 360° cameras and are the smartest choice for anyone who wants to start creating high-quality immersive content easily, right away.

The Manfrotto 360° VR range starts from RRP £29.95 to £634.95

For more information, please visit www.manfrotto.co.uk

Articles: Digital Photography Review (dpreview.com)

 
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Canon 6D Mark II dynamic range falls behind modern APS-C cameras

20 Jul

We’ve reported in recent years how Canon’s newer sensor designs have started to close the dynamic range gap, compared with chips from the likes of Sony and Toshiba. Dynamic range isn’t everything, of course: Canon’s Dual Pixel sensors have brought advances in live view and video autofocus that for many people will be every bit as significant as the noticeable shortfall in Raw file malleability. But it was promising to see Canon getting competitive in an area where it had fallen behind.

Sadly though, it seems the benefits that appeared in the sensors used in the EOS 80D and EOS 5D IV have not been applied to the latest EOS 6D II, and the new camera has less dynamic range than we’ve become used to. Graphs plotted by regular DPR collaborator Bill Claff illustrate this pretty clearly. In this article, we’re taking a look at what this might mean for your images.

Dynamic range assessment

Our exposure latitude test shows what happens if you brighten a series of increasingly dark set of exposures. This illustrates what happens if you try to pull detail out of the shadows of your image.

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As you can see, the EOS 6D II begins to look noisy much sooner than the broadly comparable Nikon D750, meaning you have less processing flexibility before noise starts to detract from your images.

The EOS 6D II should have a 1.3EV image quality advantage over the 80D, when the images are compared at the same size, since its sensor is so much bigger. Despite this, the EOS 80D’s$ (document).ready(function() { $ (“#icl-3692–1019644042”).click(function() { ImageComparisonWidgetLink(3692); }); }) images shot with the same exposures look cleaner, when brightened to the same degree. Have a look and you’ll see the difference is around 1EV$ (document).ready(function() { $ (“#icl-3693–487818319”).click(function() { ImageComparisonWidgetLink(3693); }); }), despite the head start that the 6D II’s chip should have. This corroborates what Bill Claff’s data suggests.

ISO Invariance

The downside of our exposure latitude test is that reducing the exposure also increases the noise. Our ISO Invariance test uses the same exposure shot at different ISO settings, such that the shot noise contribution is the same in each image. This way any differences must be a consequence of electronic noise (and how well the camera’s amplification overcomes it, at higher ISO settings).

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This isn’t good, especially not by modern standards. We’re used to seeing sensors that add so little noise$ (document).ready(function() { $ (“#icl-3694–1065892121”).click(function() { ImageComparisonWidgetLink(3694); }); }) that there’s barely any visual difference between shooting at a high ISO and using a low ISO (retaining additional highlights) then brightening. Instead we see that you have to amplify to around ISO 3200 before you see no additional impact from the camera’s electronics. This suggests a reversion to the level of the original EOS 6D$ (document).ready(function() { $ (“#icl-3690-1001550611”).click(function() { ImageComparisonWidgetLink(3690); }); }).

Real world impact

If you shoot JPEG, you’ll never notice any of this, since the differences occur beyond the ~8.3EV or so that tend to be incorporated into a typical image. Similarly, at higher ISO settings, amplification overcomes the electronic noise, so you see the camera begin to out-perform the 80D and then close the gap with the D750, just as Bill’s chart suggests.

However, it means if you’re processing from Raw at low ISOs, you have much less flexibility in terms of what you can do with the file than we’d expect from a modern camera. Almost as soon as you start to push the image or pull detail out of the shadows, you risk hitting the camera’s electronic noise floor and hence you won’t see the advantage over the 80D that you might reasonably expect.

Canon EOS 6D Mark II | EF 35mm F2 IS | ISO 100| F9 | 1/200th Shadows lifted, highlights lowered, slight selective brightening to couples’ faces. As you’ll see if you click to view the full-sized image, noise in the areas of lifted shadow is very apparent.

This is an extreme example but it’s a photo I’d expect to be able to shoot on other full frame cameras without revealing so much noise. All of our test results suggest I could have achieved just as good a result from a contemporary APS-C camera.

Articles: Digital Photography Review (dpreview.com)

 
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7Artisans unveils range of low cost, fast lenses for mirrorless cameras

11 Jul

Chinese optical manufacturer 7Artisans has introduced a collection of four lenses that are intended to provide low-cost alternatives to branded optics. The lenses are all designed for mirrorless cameras, and the company intermittently provides mounts for Sony E, MFT, Fujifilm X and Canon EOS M users, as well as one lens for Leica M cameras.

The lenses are all manual focus, feature a copper core with an aluminum exterior and some of them come in a choice of black or silver finish. There isn’t much information on the company website but the Amazon sales pages reveal some of their specification.

25mm f/1.8 | Sony E/Fujifilm X/MFT | $ 70

This lens was designed for APS-C and Micro Four Thirds sensors, and boasts an aperture range of f/1.8-16. It uses seven elements in five groups, has 12 iris blades and offers a 46mm filter thread.

35mm f/2 | Sony E/Fujifilm X/Canon EOS M | $ 156

A lens capable of covering a full frame sensor, this 35mm f/2 uses a 10-bladed iris and has a minimum aperture of f/16. It is constructed with seven elements arranged in five groups and offers a 43mm filter thread.

50mm f/1.1 | Leica M | $ 369

Designed for the Leica M family, this standard focal length uses 12 iris blades to form its click-less f/1.1- f/16 aperture range. The company says it has used a Sonnar design and high-refractive index glass to optimize the lens for use at the widest apertures. The lens has seven elements arranged in six groups.

The current version isn’t compatible with the Leica M4 and M4A, but models from September onward will be.

7.5mm f/2.8 | Sony E/Fujifilm X/MFT | $ 139

This is a fisheye lens that the company claims offers a maximum angle of view of 180°. It has 11 elements that are arranged in eight groups, and the 12-bladed iris closes to f/22.

Articles: Digital Photography Review (dpreview.com)

 
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Sony a9: all that speed appears to have dynamic range cost

18 May

The Sony a9 is a powerhouse of technology, particularly when it comes to speed and autofocus. But does its image quality stack up? We’ve taken an initial look at Raw and JPEG image quality and have come away impressed, but how does the a9 stack up in terms of dynamic range?

At the recent launch in New York City, I had a chance to shoot our standard ISO-invariance test but on a real-world scene (our studio scene isn’t so portable…). Have a look at the performance below.

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It’s immediately obvious the a9 is not ISO-invariant (what is ‘ISO-invariance’?). This means the camera is adding a fair amount of read noise that results in noisy shadows, limiting dynamic range at base ISO. That’s why, for the same focal plane exposure, performing analog amplification by increasing ISO in-camera gets you a cleaner image than performing that amplification (or brightening) in post-processing.

It’s not the typical performance we’ve come to expect from Sony sensors and we suspect the higher readout speed is leading to greater noise. In other words, it appears this sensor was likely optimized for speed at the expense of low ISO dynamic range.

This sensor was likely optimized for speed at the expense of dynamic range

Ultimately, this limits the exposure latitude of a9 Raws so, much like with older Canon DSLRs, you’ll have limited ability to expose high contrast scenes for the highlights, then tonemap* (raise) shadows in post. You can check the effect of changing the Drive mode in the widget (EFCS = electronic first curtain, S = single, C = continuous), but there’s not much difference between them.

Effect of Drive mode

There is little to no difference in base ISO dynamic range in different drive modes. So the good news is that the drop to 12-bit in continuous drive comes at no cost. The bad news is that the 14-bit Raws aren’t any better than the 12-bit ones. Click here to load the above as a widget.

As we mentioned above, there’s no difference in shadow noise as you change Drive mode. This is particularly interesting because all Single drive modes, including fully electronic, support full 14-bit Raw (we shot uncompressed). The Continuous drive modes, however, switch the sensor into a 12-bit** readout mode which, by definition, means files with no more than 12 stops of dynamic range.

This indicates that even the 14-bit Raws have at most 12 EV of dynamic range at the pixel level, placing our estimates of base ISO dynamic range almost a full stop behind the a7, and likely further behind the a7R II at equivalent viewing size (normalized).

‘Dual Gain’ helps improve high ISO dynamic range

In our widget up top, you may have noticed that noise suddenly starts increasing once you fall below ISO 640 (how’s that for sounding completely back-to-front?). Below you’ll see this more clearly: shadow noise dramatically clears up as you go from an ISO 500 image (with a 3.7 EV push) to an ISO 640 image (with 3.3 EV push):

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Things clean up at ISO 640 (as with the a7R II) because of the sensor’s ‘dual gain’ architecture, where the camera increases the conversion gain (effectively amplification) at the pixel-level during readout, helping overcome the camera’s relatively high (for a Sony design) read noise.

Above ISO 640, the camera is fairly ISO-invariant, since it’s overcome most of its downstream read noise, but there’s still some benefit to increasing ISO to keep noise levels low if your scene demands it. Below ISO 640, the lower conversion gain means that you’ll start to see read noise if you push shadows.

Take home

The good news is that those worried about the camera dropping to 12-bit readout in continuous shooting needn’t worry: there’s no decrease in quality, since a 12 bit file can contain all its dynamic range. The bad news is that this is because the a9 doesn’t appear to have more than 12 EV pixel-level dynamic range to begin with, putting its base ISO dynamic range well behind that of the a7R II. By high ISO, general image quality catches up as the higher downstream read noise is overcome by the sensor’s (similar to the a7R II) dual gain architecture. Take a look at this ISO 51,200 comparison with the a7R II:

ISO 51,200 comparison of a7R II vs a9. Not much difference at all. In fact, normalized signal:noise ratio (SNR) measurements place the two neck-to-neck: 1.82 vs. 1.48 for the a7R II and a9 at the dark patches here, respectively. At ISO 25,600, the normalized SNR is exactly the same.

This means that if you’re shooting in conditions demanding high ISO, for any given focal plane exposure you may wish to at least increase in-camera amplification to ISO 640 to get most tones above the noise floor, if your scene demands the extra amplification to get a usable image. Dropping below ISO 640 to preserve highlights, and then raising shadows afterwards, will come at a greater noise cost than, say, Sony’s own a7R II.

Interestingly, this means there’s little advantage to those large (47MB) uncompressed 14-bit Raw files, save for the lack of compression artifacts. In a perfect world, Sony would have offered a 12-bit Raw mode with a lossless compression curve (without that second stage of localized compression that leads to edge artifacts) for smaller file sizes with minimal loss in quality.

Footnotes:

* There’s a very specific reason I like to use the word ‘tonemap’ instead of ‘raise the shadows’. We’re forced to raise shadows of high contrast Raw files exposed for the highlights today because of the limited brightness of most current displays. Future displays capable of far higher brightnesses (perhaps even ten-fold) will need less shadow pushing, or tone-mapping, to make visible what you currently see as ‘shadows’ in such traditionally underexposed Raw files. For example, shadows you currently push +4 EV will likely be visible without any pushing at all on a 4,000 nit-capable display. 

** We confirmed that continuous modes were in fact 12-bit, while single modes were in fact 14-bit, by comparing histograms of respective Raw files. The 14-bit single drive files do, in fact, have 14-bits of data compared to the 12-bit files (the histogram shows the latter missing levels 1, 2, and 3, in between 0 and 4, but the 14-bit files do have pixels with these values).

Articles: Digital Photography Review (dpreview.com)

 
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