Friday, March 31, 2017

Travel Photography with a 35mm: How a Prime Lens Stole My Heart

From the beginning of my photography career—which is … almost 30 years ago (that can't be true!)—I've been shooting with zoom lenses. Due to the flexibility they offer, I was convinced they make the best choice; as far as I know, thousands of other travel photographers who would say the same.

I personally started with the classic 18-200mm zoom lens, sometimes referred to as "the travel zoom." But after some time, I moved to a heavier solution, the 24-70mm f/2.8 and the 70-200mm f/2.8, because I wanted faster glass and the option to compose with a thinner depth of field. Then, at some point, I started to travel with 2 bodies (currently Nikon D4s and Nikon D500 or D3s as second body).

By now I've traveled to roughly 50 countries in 5 continents and shot literally tens of thousands of photos with these lenses. Sometimes I would add a wide-angle zoom lens or some other prime to my bag, mainly for portrait shooting, but still, there was never a doubt that the 24-70mm and the 70-200m would remain my main lenses.

In 2012, I was leading a photo tour in Bhutan and one of the participating photographers had really bad luck: right in the beginning of the trip he dropped and destroyed his own 24-70mm. We were all full of sympathy for him, imagining what it would be like to travel all the way to Bhutan (in the Himalayas) and destroy our most important lens before we had even shot anything!

Fortunately, he had an additional 35mm prime lens in his bag, which he then used during the entire trip.

Some days later he told me that he was able to develop a different attitude thanks to this experience; that he would see his bad luck now as a great opportunity. He said because he had lost the ability to zoom, he would have to change his approach towards subject and scenery. Because of this, he said, he had captured very different pictures and was actually was developing a totally new style.

When he showed me his pictures, I was stunned.

Since then, I've thought about this man's experience quite often. Back then, I had only one prime lens in my bag (an 85mm f/1.4 that I used for portraits), but I started to equip myself with more primes. Still, I was too anxious to miss a good shot, so the zoom lenses remained my go-tos.

Then last year, I added a 35mm f/1.4 to my bag.

After playing with it a little in Germany, I almost forgot that I had it. When I packed my bags for another photo trip which I would lead in Kerala, south India in January 2017, I held it in my hands again and pondered whether I should carry the lens for the trip. Eventually, I decided to give it a try.

This turned out to be a meaningful decision for me.

In the beginning of the trip, I started using my zoom lenses as usual. But then on the second morning in Cochin we went out with a boat to shoot the sunrise and the legendary Chinese fishnets. On the way, we saw some nomadic fishermen in very small boats who started their business before sunrise.

Everybody was stunned by the beauty of the scenery and started shooting. As there was still very little light available, we used our widest apertures—which for the zoom lenses was f/2.8. But since our boat was also moving, we had to maintain a relatively high shutter speed resulting in very high ISO.

That's when I remembered my 35mm f/1.4 and quickly changed lenses. I used it at f/1.4 and a shutter of just 1/125; still I needed ISO 6400 to get enough light. Later, it turned out that I was the only one among the group who was able to capture a decent shot of the scene!

Of course, we also later shot the ancient Chinese fishnets which we came for, and here again I was using the 35mm lens.

From that day on I started to use the 35mm frequently, becoming more and more confident with actually using the 35 as my main lens. When we went out shooting a market in Cochin, I realized that the 35mm would also work well for portraits.

By the next occasion, I was using ONLY the 35mm. It was a laundry and I forced myself to keep the 35mm lens on the camera. As my fellow photographer in Bhutan suggested, I started to "zoom with my feet." I realized that using a zoom lens for so many years had, in a way, made me lazy. I was now getting agile again, moving around a lot more.

On our way to the north of Kerala, we stopped in a primary school where we were allowed to take some pictures. Here I was happy to see the shallow depth of field for my composition to isolate the two girls in the foreground. We also stopped at a Christian church (which you will find quite a lot due to Kerala's past as a Portuguese Colony) and I was able to convince the priest for portrait in his Church.

On another occasion, we stopped at a shadow puppet theater and I was allowed to shoot behind the scenes. Again I was very happy with my choice of the 35mm as there was relatively little light and the puppet players were moving much faster than you would have expected. So I shot with f/2.2 at 1/200 and ISO 2500, and was able to capture the atmosphere of the scene.

The next day we went to a martial arts school where kids learned the tradition of Kalarippayat. That is a century-old martial art form specifically found in Kerala.

Before the start of a training or fight, it is part of the ritual to do a small prayer, which I captured with one of the smallest boys in the school. Again I was using the 35mm, this time with f/1.4 at 1/80 and ISO 2000. A little later the actual training started, and I captured one girl in full-flight attacking her master—of course, with the 35mm at f/2.2 and 1/250, ISO 3200 and a fill-in flash.

Eventually, we arrived at our major destination in the north of Kerala where we were supposed to photograph the Theyyam festival.

During this festival a human person personifies a God. By certain rituals which include particular dressing, masking and getting into a trance they actually become this Hindu God for a small period of time. And because these protagonists are Gods for a specific time, they can do incredible things such as running through big fires without getting hurt. It's an otherworldly scene.

After their performance, the believers will also tell them their wishes, thank them for being gracious in the past, and/or seek advice in the matters of their lives. In one photo you can see the kids screaming at one of the Gods. I shot it with the 35mm at f/1.8 and 1/400 at ISO 100.

Some of these performances happened at night, so it was particularly difficult to capture the Hindu God and I was very happy I had my 35mm. First, I managed to get some good shots of him playing with the fire with f/1.4 and 1/320 at ISO 2200, and later when he was running through the fire with f/2.5 and 1/320 at ISO 100.

In the morning, some of the ritual drummers got very sleepy as they had played all night long, so I took a shot of them with f/1.8 at 1/100 and ISO 800. The friendly people of Kerala also invited us to join their lunch and I was impressed of the open air kitchen and the chefs doing their work for the crowds.

Again, I captured it with my 35mm. The vertical shot is with f/3.2 at 1/100 and ISO 3200 and the horizontal shot with f/2.8 at 1/200 and ISO 3200.

During the trip I really started to appreciate the incredible speed that was possible with this prime lens, and the particular feel, quality and sharpness of the pictures. I would have never thought this before, but while I was still on the road, I realized that the 35mm literally became my preferred lens.

I would start every morning with it, and even if I sometimes had changed lenses again over the day, I usually ended my day with the 35mm as well. After the trip I checked on the meta data in Lightroom and found the proof: the majority of my best pictures were shot with the 35mm.

Now it is certain that this lens will stay in my bag. We'll have to wait and see … but maybe one day I will even be brave enough to leave my zooms lenses at home.

About the author: Thorge Berger is a talented travel photographer and personal development trainer, coach and consultant. To see more of his work, visit his website. This post was also published here.


Source: Travel Photography with a 35mm: How a Prime Lens Stole My Heart

Thursday, March 30, 2017

Shoot Film Styles On Your Nikon In-Camera, For Free

There are a lot of reasons to love a Fuji X-system body and shooting experience, and aside from the small form factor and throw-back styling, Fuji's built-in film emulations are likely the next talking point. Love or disparage them, they are popular and broadly used. The thing is though, if you don't shoot Fuji but like the stylistic nature of those emulations, you can have it (a bit different) with a DSLR.

Most modern Nikon cameras, especially their upper tier (both DX and FX) have a menu option called Picture Control, and what Nikon Picture Control system does is allow you a certain variety in personalization of your shots sort of how old film emulsions used to. There's a standard bevy of them which are Standard, Neutral, Vivid, Monochrome, Portrait, Landscape, and Flat, and within each you can further adjust parameters for clarity, sharpening, contrast, brightness, saturation, and hue (coloration). Monochrome allows for adjustments to sharpening, contrast, brightness, filter effects and toning (I use this a lot when shooting in-camera B&W).

Portra 160

original

But if the popularity of VSCO and Fujifilm cameras and other presets are any indication, people want film stock simulations in-camera. Now, you can make your own, but if that's not your cup of tea, there are already good free ones to download and you can find them at Nikon Picture Control Editor, and there's a long list of them from Fuji Provia, Tri-X, Portra 160, and on and on. They are also dead easy to install on your camera and you can have them up and running in, no joke, about 2 minutes. Here's how:

[REVIEW: NIKON D750 REVIEW | IT'S ACHILLES, LESS HIS HEEL] How-To Steps:
  • Go to https://nikonpc.com
  • Select the ones you want and download them
  • Connect a memory card to your computer and do the following:Create a folder on the card and name it NIKON
  • Create another folder called CUSTOMPC within the NIKON folder you previously made. Drag the NPC files you downloaded into that CUSTOMPC folder.
  • Eject card and put into your Nikon.
  • Under the Shooting menu, select Manage Picture Control > Load/Save > Copy To Camera. The selections in your CUSTOMPC folder should be shown and you can load however many your camera can take (varied, most give you 9 slots).
  • And that's it, and you can change as you wish. As per Nikon:

    Custom Picture Controls can be edited and registered in the camera. You can change their names, delete them, and copy them to a memory card. You can also freely share files between cameras or photographers using a memory card, as well as importing custom Picture Controls created with Picture Control Utility and registering them in your camera. Moreover, you can import custom Picture Controls created in your camera to a computer via Picture Control Utility, then apply them to images using ViewNX 2 or Capture NX 2 software (and with newer cameras, launched after June 2014, using Picture Control Utility 2, which launches from within ViewNX-i or Capture NX-D).

    A few things to note, it's a bit annoying but you have to click through to load each one, and you are limited in how many you can store. If you use the Nikon Picture Control Utility you can store 150 or something like that, but again that's not on the camera.

    Also, when on Nikonpc.com you'll see previews of the emulations and they don't look good. Worry not, they don't look like that once you get them in camera. Do I think there as good as Fuji's? No. But I haven't tried them all. Give them a shot and let us know what you think.

    Portra 160

    Portra 160

    Fuji Provia 100F


    Source: Shoot Film Styles On Your Nikon In-Camera, For Free

    Wednesday, March 29, 2017

    These workers have the best LinkedIn profile photos. Here's how to improve yours.

    Whether you're a compulsive social media poster or not, your behavior online could have a big impact on your next job search: 92% of recruiters say they look at profiles to help find potential candidates, particularly on LinkedIn.

    And the first thing they're likely to see? Your smiling face and pearly whites, assuming you've taken a proper headshot, that is: LinkedIn reports that profiles with a photo are 14 times as likely as those without to get views. 

    At the least, your LinkedIn profile should cover some basics. You're best off wearing solid colors, not patterns, and making sure your face takes up at least 60% of the frame. The rule of thirds helps you stay centered, but look natural.

    Ideally, a recruiter could recognize you immediately if you were to meet them in person. In fact, taking a good headshot isn't all that hard — even selfies can suit the bill if you follow a few basic rules. Go with natural light instead of flash, if you can, and look up into the camera instead of down. No duck face. 

    And again, don't forget to smile, which research suggests will make people trust you more. 

    These rules seem pretty easy to follow, right?

    Well, surprisingly, photographers don't seem to be practicing what they preach, at least according to a new analysis of LinkedIn head shots and their composition: Strangely enough, photographers' profiles ranked at the bottom.

    That report is from Snappr, a photography startup that built a tool to analyze head shots and assign a score based on facial expression, image composition and photo quality. To look for patterns, the company evaluated tens of thousands of anonymized profiles and assigned scores based on everyone's pictures. The company then ranked countries and professions by who had the "best" and "worst" photos on LinkedIn.

    Whose photos reigned supreme? Well-connected Chilean lawyers, apparently. The South American country must have some pretty competent shutterbugs, because they topped the national rankings, beating out Australia, Germany, and the United States.

    Curious as to how your own profession stacks up? Here are the ten best and ten worst professions in terms of head shot quality.

    Professions with the best head shots 

    1

    Professions with the worst head shots 

    1

    You'll notice that a lot of professions with good head shots are pretty high-paying, so it's perhaps not particularly surprising that companies might be willing to shell out more dough to make employees look good. 

    But photographers had the worst photos? Really? Snappr's theory is that too many photographers are taking creative liberties with their profiles, which means paying less attention to the strict rules that their algorithm seeks out — like how the jawline is framed, or how much contrast is used. 

    Curious how your own image stacks up? You can try out Snappr's tool here. 

    Sign up for The Payoff — your weekly crash course on how to live your best financial life. Additionally, for all your burning money questions, check out Mic's credit, savings, career, investing and health care hubs for more information — that pays off.


    Source: These workers have the best LinkedIn profile photos. Here's how to improve yours.

    Tuesday, March 28, 2017

    Finding Work as a Travel Photographer: ITB Round Up

    I left The Philippines – quite sadly, I might add – and headed toward Berlin.  I had a conference in the city called ITB.  It's essentially the biggest travel conference and trade fair on the planet.  It's massive. Like, overwhelmingly massive.  And, it's a great place to try to make contacts and for finding work as a travel photographer.  It's also a great place to network and hang out with some industry friends.

    So, I was actually pretty stoked about ITB this year.  I had a lot of good meetings planned, and some parties with some old friends and colleagues.  This is basically how it went.

    Reichstag Building

    Meeting Old Friends

    One of my favourite parts of ITB in Berlin is that it's like an annual meet up of old friends.  In this industry, most of our friends are scattered around the world. So, conferences like this are where we kind of all come together once a year.  Some of the others in the travel industry see each other a lot. But, since I travel so much, I tend to miss out on seeing most of them.

    So, after arriving to Berlin, I headed out to a Travel Massive party and had some drinks with old friends.

    Selfies and Business Meetings

    One of the things I love about daily vlogging is that it kind of forces me to do something creative each and every day.  Like, in the vlog below, I was at a conference in business meetings all day, and it should have been a boring day.  But, since I was forced to create something for the vlog, I had to come up with an idea for something fun to do.  So, I grabbed Greg and Dave and we went around the conference halls taking selfies with all the people dressed up in their country's outfits. It was a lot of fun.

    Of course, the fun was also mixed in with the business meetings.  My early meetings went pretty well.

    Some Insight into Finding Work as a Travel Photographer

    Finding work as a travel photographer almost seems like a bit of a dream.  And, the question I get asked all the time by people is "but, who is giving you the work?"  And, the truth is, there is almost an unlimited number of people who can look to hire travel photographers.

  • Tourism Boards
  • Travel Companies
  • Websites and Blogs
  • Magazines and Newspapers
  • Clothing Brands
  • Etc.
  • The truth is, almost any company in the world might benefit from having a travel angle to their imagery. And, while a lot of people are talking about travel photography being a dying art, I think it's actually one at higher demand now than ever.  Brands are looking for new imagery to fill their social media accounts every single day. Demand for the newest and latest imagery is higher than ever,At the conference, though, my pitch wasn't just to sell my photos.  I like to build a package that both sells my images to clients, and leverages my social media following a bit for the brand or destination's benefit.  The travel photography package I generally offer clients is:

  • Daily vlogs
  • Social media publication on facebook, twitter, instagram, etc.
  • A blog post
  • And a couple images for the brand's usage
  • It's a win-win.  The brand gets the publicity and imagery; I get paid, and content for my platforms.

    A Bit of A Photography Break

    I took one night off from partying at ITB and it did me really well.  It also allowed me to wake up in time to get out and photograph a sunrise in Berlin.I caught the subway down to Brandenberg Gate as well as the Reichstag Building and did some photography at both locations before the sun came up.  It was a bit of dreary morning, but I was in such good spirits after a good night's sleep and some good meetings at the conference. So, it was a nice break from "real work" related activities.

    Here are a couple of the images from that morning's shoot.

    Brandenberg Gate

    Brendan at Brandenberg Gate. I thought they named a gate after me, for a minute.

    Reichstag Building

    Last bit of blue light at the Reichstag Building

    Brandenberg Gate

    Brandenberg Gate

    Reichstag Building

    Puddle selfie at the Reichstag Building

    One Last Hurrah

    Generally the Saturday of ITB all the industry people have left. But, I stuck around for a couple more meetings.

    Then, the people at St. Christopher's Hostel in Berlin invited myself and some other bloggers over that way to have a couple drinks.  I told myself that I'd only stay for 1 drink and would leave by midnight.  As usual, those were words I really didn't follow.  I was out until fairly wee hours again, and had a flight at 7am.  So, as is the case at any ITB I left shattered and short about 100 hours of sleep.

    Goodbye Berlin

    I dragged myself out of bed at 430am, running on about 2 hours of sleep, and pushed to the airport.  Honestly, I was a little bit worried I was going to miss my flight to Madrid.  It's definitely the latest I've ever showed up to an airport for a flight.  But, it was drama-free and I got on the plane.

    Shattered, exhausted, and all other synonyms to the work tired, I arrived in Madrid.

    What's Next?

    I'm off to Argentina.

    I have a full month (nearly) planned in Buenos Aires.  I'm going to try to catch up on work, sleep, and maybe find a bit of balance in my life was well.  We'll see how that goes.

    Afterwards, I'll be heading on a big Patagonia road trip that will take me through parts of both Chile and Argentina. I honestly can not wait for that trip.


    Source: Finding Work as a Travel Photographer: ITB Round Up

    Monday, March 27, 2017

    PHOTOS: Alia-Sidharth set rumour mills abuzz with their hand-in-hand moment!

    (Photos source: Viral Bhayani)

    Bollywood stars Alia Bhatt and Sidharth Malhotra have the gossip mill running in full swing after the two left an event holding hands.

    The two actors were leaving an award show when they held hands and also posed for the shutterbugs before making an exit.

    The move created a hysteria amongst photographers to capture the moment. A video on social media shows a visibly excited Alia confirming to someone, "We are leaving together only".

    Alia and Sidharth have never confirmed or denied reports of dating each other.

    When asked about her relationship with Sidharth by Karan Johar on the popular celebrity talk show 'Koffee With Karan', Alia maintained silence and could only offer a shy smile in reply.   

    And now, this hand-in-hand moment will only fuel more gossip and anticipation.


    Source: PHOTOS: Alia-Sidharth set rumour mills abuzz with their hand-in-hand moment!

    Sunday, March 26, 2017

    Next Generation: John Crisanti

    I'm delighted to reintroduce a blog series that focuses on aspiring railroad photographers of the next generation. It's easier than ever to share your digital photos today and there's no shortage of talented folks capturing rail landscapes all across the world. As we bring the monthly series back to Observation Tower, I'm thrilled to share the work of John Crisanti, a Longmont, Colo., native who spends his time railfanning the former Denver & Rio Grande Western west of Denver and other Union Pacific and BNSF Railway scenes in Colorado and the neighboring area. 

    A self portrait of John Crisanti while railfanning the Union Pacific in Colorado.

    Crisanti is 24 years old and has enjoyed railroads for nearly two decades. John's father, Sal, who recently passed away, was an influential in John's interest in trains. As we bring back the Next Generation series, I couldn't think of a better photographer to profile. 

    Let's learn a bit more…

    Q. When and how did you get involved in railroad photography?

    A: I got interested in railroad photography when my dad, who recently passed, introduced me and got me to pick up a camera over ten years ago. I've been interested in trains since I was really young, maybe five or six years old. 

    A Union Pacific green train rolls through Rock River, Wyo., at sunset. John Crisanti.

    Q. What is your favorite place to visit for railroad photography?

    A. Probably my favorite place to visit to railfan is between Moffat in Colorado and Sherman Hill in Wyoming for the diverse scenery.

    Q. Any chance that your interest in photography could steer your career choice? If not photography, could you envision yourself in a railroad related career?

    A. I don't believe photography will be in my career choice in the future and I do not envision a railroad career in the future.

    Q. Any role models or photographers that inspire you?

    A. A couple of photographers that inspire me are: Ansel Adams, O. Winston Link, and a couple of modern railroad photographers. 

    Three Union Pacific locomotives lead the Ringling Brothers and Barnum & Bailey circus train through Chemical, Colo. John Crisanti.

    Q. We all have one… So, for you… What's your railfan bucket list?

    A. My railfan bucket list includes visiting Montana, the Pacific Northwest, Canada, and Alaska as they offer different and quality railroading in beautiful country.

    Q. What other general interests and hobbies do you enjoy?

    A. Other hobbies I have include traveling to brand new places, enjoying the Colorado outdoors that include hiking, biking, and more. On my free time, I sometimes like to draw, but most of the time I'll just pick up the camera. 

    Do you know someone who would make a good candidate for Next Generation? If so, email me at chase55671@hotmail.com.


    Source: Next Generation: John Crisanti

    Saturday, March 25, 2017

    Dior asked 9 female photographers to shoot its new collection, and the results will leave you breathless

    Today in girl power, we present a fashion campaign that's making our weekend so much better: Dior's 2017 #TheWomenBehindTheLens project. For its 2017 spring/summer campaign, Dior's artistic director, Maria Grazia Chiuri, asked nine female photographers to use their own personal taste and visions to interpret the pieces in the collection.

    Considering that women in media — especially professional photography — are fewer and farther between than we'd really like, we love that Dior gave this opportunity to a group of kick-ass ladies, and we love even more that the photographers were allowed to interpret the project in their own way. We're all about magnifying female voices and giving women opportunities to tell their stories, even in subtle ways.

    Dior released interviews with photographers Maripol, Brigitte Lacob, Brigitte Niedermair, and Janette Beckman, the women behind the lens in question, and the interviews discuss not just their approach to the project, but also what it's like to be a woman in a challenging, competitive, and often male-dominated field.

    We can't help but think how great projects like this are for girls growing up today — to be able to watch interviews with successful female photographers working for one of the most coveted brands in the world is exactly the sort of thing budding photographers need to see.

    We're definitely going to be looking out for more from this campaign, and from artistic director Maria Grazia Chiuri, in the future.


    Source: Dior asked 9 female photographers to shoot its new collection, and the results will leave you breathless

    Friday, March 24, 2017

    9 Astronomy Photographer of the Year Entries That Will Leave You Breathless

    Insight Astronomy Photographer of the Year 2017 Contest | POPSUGAR Tech

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    9 Astronomy Photographer of the Year Entries That Will Leave You Breathless

    Whether you dream of the day you might be able to visit something in space or just can't marvel enough at what the universe holds, prepare to feat your eyes on some of the entries for this year's Insight Astronomy Photographer of the Year contest.

    This year's photos are already proving to be just as impressive as those in 2016. The contest started on Feb. 27 and anyone can enter till 12 p.m. UK time on April 7. You can submit up to 10 photos in nine different categories: Aurorae; Skyscapes; People and Space; Our Sun; Our Moon; Planets, Comets, and Asteroids; Stars and Nebulae; Galaxies; and Young Competition. In addition to the grand prize of winning £10,000, there are two special prize winners.

    All winners will have their photos shown in an exhibition at the Royal Observatory Greenwich starting Sept. 16, 2017 and will receive £1,500. Check out some of the entries for this year's competition, along with the original captions and titles from the photographers.

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    Source: 9 Astronomy Photographer of the Year Entries That Will Leave You Breathless

    Thursday, March 23, 2017

    A Photo Of Kyle Eating Bacon? Thatรข€™s Worth $1000 Says Celeb Snapper

    It's the perennial question – why do paparazzi photographers hunt celebrities out buying a hamburger in a tracksuit, and why are we so obsessed at looking at them in trashy magazines and websites?

    Well, it's become clear there's some damn money to be had for shooting famous people doing unspectacular things.

    Sydney based paparazzo shooter, Jonathan Marshall, has told KIIS FM's Kyle and Jackie O this morning of the staggering amounts media companies were willing to stump-up for pictures of celebs being normal.

    Marshall said a photo of someone like Jackie O taking her kids to school could fetch as much as $500.

    However, due to his notoriety, photos of Kyle were worth much more.

    "If you were to get Kyle having a dart (smoking) in Double Bay which is a pretty regular occurrence, there's probably $700 in that," Marshall said.

    "But if you're also midway through a bit of bacon, I reckon you could add another couple of hundred bucks," he said, adding that it would enable media outlets to turn the innocuous image into something much sinister.

    Celebs in bikinis were worth much more, particularly if a boob or something similar popped out. "Every day can produce a different result," Marshall said, "but probably (they're worth) between $20,000 to $25,000".

    Paparazzo intrusions into celeb's lives reared its head this week when TV personality Chrissie Swan was snapped taking her three children to a local McDonald's. The images were reproduced on Woman's Day's and The Daily Mail's websites and resulted in a number of Daily Mail readers fat shaming Swan and her children in its comments section.

    Chrissie Swan spotted on an outing to McDonalds with her three young children, Leo (age 8) , Kit (age 5) and Peggy (age 3, possibly now 4) Chrissie and her brood walked into the fast food outlet briefly before getting back in the car and swinging into the drive-thru for some Maccas take away. EXCLUSIVE 11 March 2017 ยฉNO CREDIT

    Some were more sympathetic and argued most parents took their kids to Macca's every now and then. While others were disgusted that the kids had been identified in the image.

    News Corp columnist Susie O'Brien leapt to Swan's defence, calling The Daily Mail a "sewer rag" for publishing the images.

    "Now, I think Swan herself is fair game to some extent," O'Brien wrote. "She's a well-known media figure who has often talked about her weight in public and even signed once with Jenny Craig.

    "She's a gutsy, strong woman who gives as good as she gets and has a range of forums to respond to any criticism, including her NOVA show and The Project. But why the hell can't we leave the kids out of it? They didn't choose to have a famous mum. They don't deserve to be held up to ridicule for merely going about their day."


    Source: A Photo Of Kyle Eating Bacon? That's Worth $1000 Says Celeb Snapper

    Wednesday, March 22, 2017

    12 Architectural Earrings as Smart as the Women Who Wear Them

    Photographed by Josh Olins, Vogue, February 2017

    It's often thought that intellectual women don't necessarily have any interest in, or patience to keep up with, fashion. They're far too busy filling up their bookshelves to worry much about stocking their closets. But in truth, smart women simply look for smart design—something with a story. Bold, sculptural, and full of intent, the new wave of architectural statement earrings are practically pieces of art themselves. More conceptual than the staple (read: banal) gold hoop, these shapely danglers are made for the lobes of the creative set—photographers, painters, directors, and the like, the sort of women who appreciate aerodynamic contours and thoughtful composition.

    From Annie Costello Brown's Alexander Calder–inspired delicate blue mobile danglers, to Cรฉline's fire-engine red petal baubles, to J.W.Anderson's artful shoulder-grazing hammered gold chandelier, the season's offerings come in all shapes and sizes. Here, 12 of the best.


    Source: 12 Architectural Earrings as Smart as the Women Who Wear Them

    Tuesday, March 21, 2017

    Thinking about buying a Fujifilm GFX 50S? Read this first

    Fujifilm's GFX 50S announcement has turned a lot of heads, and for good reason. We love Fujifilm cameras. It's hard not to – they offer excellent ergonomics with a level of direct control that photographers itch for, and Fujifilm's color science renders images that harken back to the days of film, while retaining all the advantages of digital. Meanwhile, the X-Trans color filter array (CFA) offers a number of advantages compared to traditional Bayer CFAs, showing decreased false color and a slight noise advantage due to a (relatively) greater proportion of green pixels.

    Ultimately, though, the image quality of Fujifilm's best cameras was limited by their APS-C sized sensors, which simply cannot capture as much light as similar silicon in larger sizes. And if you've kept up with our recent technical articles, you'll know that the amount of total light you've captured is arguably the largest determinant of image quality.

    'Fujifilm skipped the arguably saturated full-frame market and went straight to medium format.'

    That left many of us wondering when Fujifilm would step up to full-frame (35mm). But Fujifilm went one better – they skipped the arguably saturated full-frame market and went straight to medium format. In a rather compact, lightweight mirrorless form-factor at that. That made a lot of sense especially when you consider Fujifilm's heritage in medium format film cameras, and its experience making medium-format lenses for other brands.

    So, finally, here comes the GFX 50S: Fujifilm ergonomics and colors, but with all the advantages offered by larger sensors. But while heads turn, eyes widen, and colleagues fight over who gets to take the camera out for a shoot, personally I'm in need of a little convincing. And think you should be too, if you're thinking about plopping down a fat wad of cash for this seemingly drool-worthy system.

    But what's not to like, you ask? Bear with me…

    Theoretical advantages of larger sensors

    The potential advantages of larger sensors can broadly be split into four areas: noise in low light, dynamic range, subject isolation (shallow depth-of-field), and resolution. But zoom into the following 36MP at 100% - are any of those lacking?

    The question is: does the GFX 50S currently deliver on all, or any, of these advantages over what the best of full-frame has to offer? Let's look at each separately.

    Low light (noise) performance

    For the same f-number and shutter speed (or 'focal plane exposure'), a larger sensor is exposed to more total light. The same light per unit area is projected by the lens, but the larger sensor has more area available capturing it. An image made with more light has less relative photon shot noise (the noise that results from the fact that light arrives randomly at the imaging plane). The more light you capture, the more you 'average' out these fluctuations, leading to a cleaner image (that's the laymen's description of it anyway; read about it more in-depth here).

    That's why a full-frame camera generally gives you cleaner images than your smartphone.* So if more light means better images, that's a clear win for the GFX 50S, right?

    Not so fast...

    No, literally, not so fast. The lenses available for the GFX format simply aren't as fast as those offered by full-frame competitors. The fastest lens on Fujifilm's GFX roadmap is F2, which in full-frame equivalent terms is F1.56** (the concept of equivalence is out of scope for this article, but you can read about it in-depth here; for now, just remember the GFX has a reverse crop factor, relative to full-frame, of 0.79x). And most of the current MF lenses hover around F2.8 and F4, or F2.2 and F3.2 equivalent, respectively. That means that if they had the exact same underlying silicon technology (or sensor performance), a full-frame camera with a F2.2 (or F3.2) lens should do just as well as the GFX 50S with its F2.8 (or F4) lens. Even if were were to think ahead to the MF 100MP sensor Sony provides in the Phase One cameras, its 0.64x crop factor at best yields a F1.3 full-frame equivalent lenses from the one F2 lens announced, still not beating out the Canon 85/1.2, and b arely beating out the plethora of available F1.4 full-frame lenses. So even if the newly announced G-mount lenses cover the wider medium format image circle (which I'd sure hope they would), things still aren't so exciting.

    But full-frame can do better than that: F1.4 and F1.8 lenses are routinely available for full-frame cameras, typically for less money too. An F1.4 lens projects twice as much light per unit area than a F2 lens, and 4x as much as a F2.8 lens, amply making up for the 1.7x smaller sensor surface area of full-frame.

    That means full-frame cameras can capture as much, or more, light as the GFX 50S simply by offering faster lenses. But wait, it there's more...

    Companies like Sony have poured a lot of R&D into their full-frame (and smaller) sensors, and the a7R II uses a backside-illuminated design that makes it more efficient than the sensor used in the 50S. It also offers a dual-gain architecture that flips the camera into a high gain mode at ISO 640, allowing it to effectively overcome any noise introduced by the camera's own electronics. In other words, the a7R II's sensor is better able to use the light projected onto it, relative to the MF sensor – ironically a sensor made by Sony itself - in the G50S (or Pentax 645Z, or Hasselblad X1D). This allows it to match the low light noise performance of the larger sensor Pentax 645Z even at the same shutter speed and f-number. See our studio scene comparison widget above.

    'The Sony a7R II's sensor is better able to use the light projected onto it, relative to the MF sensor'

    So if we start with parity, guess what happens when you open up that aperture on the a7R II to an f-number simply unavailable to any current medium format system? You guessed it: you get better low light performance on full-frame. Whoa.

    Dynamic Range

    Although the same f-number and shutter speed give a larger sensor more total light, they receive the same amount of light per unit area. Most sensors of a similar generation have broadly similar tolerance for light per unit area (technically: similar full well capacity per unit area). But a larger sensor devotes more sensor area to any scene element, so can tolerate more total light per scene element before clipping. That means that for the same focal plane exposure, despite clipping highlights at a similar point, a larger sensor will render shadows (whose noise levels define the other limit of dynamic range) from more total light. And the same logic that applies to low light noise applies here as well: more total light = less relative shot noise and less impact of any noise from camera electronics. That means cleaner shadows, and more dynamic range.

    So another clear win for the larger sensor GFX, no? Well, no. Because someone poured a lot of R&D into the Nikon D810 sensor (noticing a trend here?), giving it higher full-well capacity per unit area than any other sensor we've measured to date: its ISO 64 mode. Each pixel can hold more total charge before clipping, relative to equally-sized pixels on any other sensor in a consumer camera. That means it can tolerate a longer exposure at ISO 64, longer enough (at least 2/3 EV, or 60% more light) to capture as much total light as the 68% larger sensor in the GFX 50S exposed at its base ISO (100). Don't believe us? Check out our real-world dynamic range comparison of the Nikon D810 vs the Pentax 645Z, which ostensibly shares the same sensor as the GFX 50S:

    In this shoot-out, we exposed each camera to the right as far as possible before clipping a significant chunk of pixels in the brightest portion of the Raw (in the orange sky just above the mountains). The D810, in this case, was able to tolerate a full stop longer exposure***, which allows its (pushed) shadows to remain as clean as the 645Z. That's the (scientific, not baloney) reason we claimed the Nikon D810 to have medium format-like image quality. Because its dynamic range and overall signal:noise performance at ISO 64 rivals many current medium format cameras their base ISOs (though not the huge new 100MP MF Sony sensor in the new Phase One). Just look at its massive SNR advantage (read: image cleanliness) for all tones at ISO 64 over the Canon 5DS R at ISO 100 - we intend to plot the Fujifilm GFX 50S on the same graph, and don't expect it to show any advantage to the D810. Because science.

    Read about this all more in-depth in our D810 review here, and check out Bill Claff's quantitative data that shows a 0.22 EV base ISO dynamic range difference between the D810 and 645Z - hardly noticeable, much less something to write home about.

    'OK but it's not fair to compare ISO 64 to ISO 100!'

    Fair enough, there's a little more to the story. ISO 64 does require more exposure than ISO 100, either via a brighter lens, or longer exposure time. But one might argue that under circumstances where you care about dynamic range – i.e. high contrast scenes – you're typically not light-limited to begin with, and can easily give the camera as much light as needed. Either because you're shooting on a tripod, you're using studio lights and can just crank them up, or because there's so much light to begin with (it is a high contrast scene, right?) You're working at or near base ISO anyway, so you shouldn't have trouble adding 2/3 EV exposure by opening up the lens or lengthening the shutter speed a bit.

    'You're working at or near base ISO anyway, so you shouldn't have trouble adding 2/3 EV shutter speed'

    But, yes, if you're in a light-limited situation (i.e. you're not shooting at base ISO) and it's high enough contrast that you care about dynamic range (have to expose for highlights then push shadows), then the GFX 50S will have the upper hand here. But dare I say, that's quite the niche use case: keep in mind that most situations demanding higher ISOs tend to be in lower light, where you care more about general noise performance, not dynamic range (since low light scenes tend to have lower contrast). And if that's what you care about, there's the a7R II which, although it may clip highlights a bit earlier, can give you as good, or better, low light noise performance… [link back to Noise section above].

    But I'll concede – if you want both the base ISO dynamic range of the D810, and the low light noise performance of an a7R II (albeit with F2 or slower lenses), then the GFX might be your ticket.

    Shallow Depth-of-Field

    As we calculated in our 'Low light (noise) performance' section above, the fastest lens on Fujifilm's roadmap is ~F1.6 full-frame equivalent, with most current available lenses being F2.2 equivalent or slower. Since full-frame routinely has F1.4 (equivalent) lenses available, you actually get more subject isolation, and blurrier backgrounds, with full-frame than with medium format.

    And, no, the 'but larger formats have more compression because you use longer focal length lenses for the same field-of-view' argument is false. Just say no to the compression myth. For equivalent focal lengths/apertures, there's no extra compression. Compression is relative only to equivalent focal length and subject distance (or subject magnification), and its relative distance to the background. Not the format you're shooting on. Don't believe us, have a look for yourself:

    46mm F2.8 on APS-C is roughly equivalent to 70mm F4.3 on full-frame - meaning the two shots above should be virtually identical. And they are, save for a tiny bit more DOF in the full-frame shot because F4.5 was the closest I could get to F4.3. Now, of course, you can get shallower DOF on full-frame, for example by shooting at F2.8. But that's because those faster lenses are available for full-frame.

    They're not in Fujifilm's lineup, which includes two F2.8 lenses, one F2 lens, and a few F4 lenses - which are equivalent to F2.2, F1.6, and F3.2 in full-frame terms, respectively.

    Without brighter lenses, there's just no reason to get excited about medium format for subject isolation and blurry backgrounds. If you're a bokeh fanatic, full-frame's arguably the sweet spot.

    Resolution

    OK, finally, some good news. Well, theoretically anyway.

    If you have two differently sized sensors with the same pixel count, the smaller one will be more demanding on its lens (it samples the lens at more lines per mm for the same scene frequency). Manufacturing larger lenses is also slightly easier, since the same relative tolerance level can be achieved, despite a larger absolute variance.

    So if you're looking for true 50MP of detail across the frame, you're more likely to get it with the GFX 50S than with a comparable 50MP full-frame sensor, simply because of the realities of lens design and tolerances. That said, we've been told that some of the newer full-frame lens designs were designed with 80 to 100MP in mind, on full-frame sensors. And with the eye-popping performance of some of the newest full-frame lenses we've seen, from varied manufacturers, we're not inclined to disagree. We've seen some 50MP files from the 5DS R paired with truly stellar lenses where we simply can't imagine anything better, resolution-wise. In fact, at ~F5.6-6.2 equivalent, I'm not seeing a major resolution advantage of the medium format cameras over the full-frame cameras in our studio scene comparison tool, and the 50MP full-frame image below isn't exactly starved for resolution, is it?

    Put another way: if you're seeing eye-popping resolution at F2 above and here and here (and even at F1.4 on some new lenses) when viewing a Canon 5DS R 50MP full-frame file at 100% (do click on the above image and view at 100%), do you want or need a truer 50MP? Or do you want even more than 50MP, particularly if it'll come at the cost of more depth-of-field, since there are hardly any F2 equivalent lenses that'll give you the subject isolation and background bokeh you see in the full-frame shot above?

    Only you can answer that question, but it is true that physics being physics, larger sensors will always tend to out-resolve smaller sensors with equivalent glass. And so this is the area where we most expect to see an advantage to the Fujifilm system, especially over time as we approach 100MP, and beyond. It's probably easier for a F1.8 prime paired with the GFX 50S to out-resolve a F1.4 prime on a 5DS R when both systems are shot wide open, but whether that will be the case (or if Fujifilm will even make a F1.8 or brighter prime for the system) remains to be seen. I certainly don't think it would be a cheap combination.

    Thanks, DPR, for saving me my money / killing my hopes and dreams

    Still excited about the Fujifilm GFX 50S and Hasselblad X1D? Perhaps you still should be. You get Fujifilm ergonomics and color science in a body capable of far better image quality that Fujifilm's APS-C offerings. But remember you can emulate much of that color science in Raw converters with proper profiles (we're looking into a separate article on this). More importantly, remember that equivalence tells us that a F1.8 medium format prime is what the GFX 50S actually needs to at least match the performance from modern full-frames paired with F1.4 lenses, from the perspective of noise and shallow depth-of-field. And that's before you consider the advanced silicon technologies we've seen in different full-frame (and smaller) sensors that we haven't yet seen in any medium format sensor. These advances have, for example, allowed a Nikon D810 to catch up to the dynamic range of the Pentax 645Z at base ISO, and the BSI, dual-gain a7R II sensor to catch up to the GFX 50S in low li ght noise performance.

    Still, as I've said, physics is physics. For equivalent apertures and final output resolutions, we do expect medium format to yield a slight resolution advantage, thanks to its lower demands on resolving power of lenses. But the extent of this advantage, especially given some of the tremendous progress we've seen in recent lens designs, remains to be seen: I'm not starving for eye-popping detail at 1:1 viewing of 50 and 42MP files when pairing a 5DS R or a7R II with stellar modern prime lenses.

    'as medium format evolves, the same gains we see in full-frame over smaller sensors might find their ways into the format.'

    Of course, as medium format evolves, the same gains we see in full-frame over smaller sensors might find their ways into the format. But this will require both the silicon to keep up, and for the development of faster lenses. At least as fast as the fastest lenses full-frame offers. One thing does make us hopeful - recent conversations with our forum extraordinaire Jim Kasson have alerted us to the fact that certain full-frame lenses, like the Zeiss Otus primes, actually project an image circle large enough for Fujifilm's new MF format. That would essentially get you high quality F1.1 equivalent glass on the GFX 50S. OK, that's cool. If you can focus it, anyway :) But if we see more and more fast full-frame lenses able to cover the image circle of the GFX G50S, then we're more likely to actually experience the benefits of the larger sensor format.

    Else, the potential advantages may be outweighed by the disadvantages: the extra weight, heft, price and severely lacking autofocus. And the GFX 50S has given up some of the noise and false color advantages their X-Trans cameras show...

    For now, we hope that looking at the problem through the lens of equivalence at least gives you an idea of how big (or small) you can reasonably expect the differences to be. Maybe it even saves you a dime or two. Or makes you want to yell at us for bringing up equivalence, again.

    But at the end of the day, equivalence has left me rather equivocal about the GFX 50S. What about you? Let us know in the comments below.

    Footnotes:

    * It's also why 'multi-shot' modes yield cleaner images than single shots: these modes essentially capture more total light, averaging out shot noise. It's also why brighter scenes generally look cleaner than low light scenes: more light = more photons captured = less relative shot noise = higher signal:noise ratio (SNR, or 'cleanliness' in laymen terms).

    ** The GFX 50S' 44x33mm sensor has an effective 0.78x crop factor, so you can multiply the MF lens' f-number by 0.78 to get the equivalent full-frame f-number.

    *** We don't control for T-stop, which could partially explain the drastic exposure difference. This doesn't affect our experiment though, as we applied well-vetted 'Expose to the Right' (ETTR) principles for a fair comparison

    Fujifilm's GFX 50S announcement has turned a lot of heads, and for good reason. We love Fujifilm cameras. It's hard not to – they offer excellent ergonomics with a level of direct control that photographers itch for, and Fujifilm's color science renders images that harken back to the days of film, while retaining all the advantages of digital. Meanwhile, the X-Trans color filter array (CFA) offers a number of advantages compared to traditional Bayer CFAs, showing decreased false color and a slight noise advantage due to a (relatively) greater proportion of green pixels.

    Ultimately, though, the image quality of Fujifilm's best cameras was limited by their APS-C sized sensors, which simply cannot capture as much light as similar silicon in larger sizes. And if you've kept up with our recent technical articles, you'll know that the amount of total light you've captured is arguably the largest determinant of image quality.

    'Fujifilm skipped the arguably saturated full-frame market and went straight to medium format.'

    That left many of us wondering when Fujifilm would step up to full-frame (35mm). But Fujifilm went one better – they skipped the arguably saturated full-frame market and went straight to medium format. In a rather compact, lightweight mirrorless form-factor at that. That made a lot of sense especially when you consider Fujifilm's heritage in medium format film cameras, and its experience making medium-format lenses for other brands.

    So, finally, here comes the GFX 50S: Fujifilm ergonomics and colors, but with all the advantages offered by larger sensors. But while heads turn, eyes widen, and colleagues fight over who gets to take the camera out for a shoot, personally I'm in need of a little convincing. And think you should be too, if you're thinking about plopping down a fat wad of cash for this seemingly drool-worthy system.

    But what's not to like, you ask? Bear with me…

    Theoretical advantages of larger sensors

    The potential advantages of larger sensors can broadly be split into four areas: noise in low light, dynamic range, subject isolation (shallow depth-of-field), and resolution. But zoom into the following 36MP at 100% - are any of those lacking?

    The question is: does the GFX 50S currently deliver on all, or any, of these advantages over what the best of full-frame has to offer? Let's look at each separately.

    Low light (noise) performance

    For the same f-number and shutter speed (or 'focal plane exposure'), a larger sensor is exposed to more total light. The same light per unit area is projected by the lens, but the larger sensor has more area available capturing it. An image made with more light has less relative photon shot noise (the noise that results from the fact that light arrives randomly at the imaging plane). The more light you capture, the more you 'average' out these fluctuations, leading to a cleaner image (that's the laymen's description of it anyway; read about it more in-depth here).

    That's why a full-frame camera generally gives you cleaner images than your smartphone.* So if more light means better images, that's a clear win for the GFX 50S, right?

    Not so fast...

    No, literally, not so fast. The lenses available for the GFX format simply aren't as fast as those offered by full-frame competitors. The fastest lens on Fujifilm's GFX roadmap is F2, which in full-frame equivalent terms is F1.56** (the concept of equivalence is out of scope for this article, but you can read about it in-depth here; for now, just remember the GFX has a reverse crop factor, relative to full-frame, of 0.79x). And most of the current MF lenses hover around F2.8 and F4, or F2.2 and F3.2 equivalent, respectively. That means that if they had the exact same underlying silicon technology (or sensor performance), a full-frame camera with a F2.2 (or F3.2) lens should do just as well as the GFX 50S with its F2.8 (or F4) lens. Even if were were to think ahead to the MF 100MP sensor Sony provides in the Phase One cameras, its 0.64x crop factor at best yields a F1.3 full-frame equivalent lenses from the one F2 lens announced, still not beating out the Canon 85/1.2, and b arely beating out the plethora of available F1.4 full-frame lenses. So even if the newly announced G-mount lenses cover the wider medium format image circle (which I'd sure hope they would), things still aren't so exciting.

    But full-frame can do better than that: F1.4 and F1.8 lenses are routinely available for full-frame cameras, typically for less money too. An F1.4 lens projects twice as much light per unit area than a F2 lens, and 4x as much as a F2.8 lens, amply making up for the 1.7x smaller sensor surface area of full-frame.

    That means full-frame cameras can capture as much, or more, light as the GFX 50S simply by offering faster lenses. But wait, it there's more...

    Companies like Sony have poured a lot of R&D into their full-frame (and smaller) sensors, and the a7R II uses a backside-illuminated design that makes it more efficient than the sensor used in the 50S. It also offers a dual-gain architecture that flips the camera into a high gain mode at ISO 640, allowing it to effectively overcome any noise introduced by the camera's own electronics. In other words, the a7R II's sensor is better able to use the light projected onto it, relative to the MF sensor – ironically a sensor made by Sony itself - in the G50S (or Pentax 645Z, or Hasselblad X1D). This allows it to match the low light noise performance of the larger sensor Pentax 645Z even at the same shutter speed and f-number. See our studio scene comparison widget above.

    'The Sony a7R II's sensor is better able to use the light projected onto it, relative to the MF sensor'

    So if we start with parity, guess what happens when you open up that aperture on the a7R II to an f-number simply unavailable to any current medium format system? You guessed it: you get better low light performance on full-frame. Whoa.

    Dynamic Range

    Although the same f-number and shutter speed give a larger sensor more total light, they receive the same amount of light per unit area. Most sensors of a similar generation have broadly similar tolerance for light per unit area (technically: similar full well capacity per unit area). But a larger sensor devotes more sensor area to any scene element, so can tolerate more total light per scene element before clipping. That means that for the same focal plane exposure, despite clipping highlights at a similar point, a larger sensor will render shadows (whose noise levels define the other limit of dynamic range) from more total light. And the same logic that applies to low light noise applies here as well: more total light = less relative shot noise and less impact of any noise from camera electronics. That means cleaner shadows, and more dynamic range.

    So another clear win for the larger sensor GFX, no? Well, no. Because someone poured a lot of R&D into the Nikon D810 sensor (noticing a trend here?), giving it higher full-well capacity per unit area than any other sensor we've measured to date: its ISO 64 mode. Each pixel can hold more total charge before clipping, relative to equally-sized pixels on any other sensor in a consumer camera. That means it can tolerate a longer exposure at ISO 64, longer enough (at least 2/3 EV, or 60% more light) to capture as much total light as the 68% larger sensor in the GFX 50S exposed at its base ISO (100). Don't believe us? Check out our real-world dynamic range comparison of the Nikon D810 vs the Pentax 645Z, which ostensibly shares the same sensor as the GFX 50S:

    In this shoot-out, we exposed each camera to the right as far as possible before clipping a significant chunk of pixels in the brightest portion of the Raw (in the orange sky just above the mountains). The D810, in this case, was able to tolerate a full stop longer exposure***, which allows its (pushed) shadows to remain as clean as the 645Z. That's the (scientific, not baloney) reason we claimed the Nikon D810 to have medium format-like image quality. Because its dynamic range and overall signal:noise performance at ISO 64 rivals many current medium format cameras their base ISOs (though not the huge new 100MP MF Sony sensor in the new Phase One). Just look at its massive SNR advantage (read: image cleanliness) for all tones at ISO 64 over the Canon 5DS R at ISO 100 - we intend to plot the Fujifilm GFX 50S on the same graph, and don't expect it to show any advantage to the D810. Because science.

    Read about this all more in-depth in our D810 review here, and check out Bill Claff's quantitative data that shows a 0.22 EV base ISO dynamic range difference between the D810 and 645Z - hardly noticeable, much less something to write home about.

    'OK but it's not fair to compare ISO 64 to ISO 100!'

    Fair enough, there's a little more to the story. ISO 64 does require more exposure than ISO 100, either via a brighter lens, or longer exposure time. But one might argue that under circumstances where you care about dynamic range – i.e. high contrast scenes – you're typically not light-limited to begin with, and can easily give the camera as much light as needed. Either because you're shooting on a tripod, you're using studio lights and can just crank them up, or because there's so much light to begin with (it is a high contrast scene, right?) You're working at or near base ISO anyway, so you shouldn't have trouble adding 2/3 EV exposure by opening up the lens or lengthening the shutter speed a bit.

    'You're working at or near base ISO anyway, so you shouldn't have trouble adding 2/3 EV shutter speed'

    But, yes, if you're in a light-limited situation (i.e. you're not shooting at base ISO) and it's high enough contrast that you care about dynamic range (have to expose for highlights then push shadows), then the GFX 50S will have the upper hand here. But dare I say, that's quite the niche use case: keep in mind that most situations demanding higher ISOs tend to be in lower light, where you care more about general noise performance, not dynamic range (since low light scenes tend to have lower contrast). And if that's what you care about, there's the a7R II which, although it may clip highlights a bit earlier, can give you as good, or better, low light noise performance… [link back to Noise section above].

    But I'll concede – if you want both the base ISO dynamic range of the D810, and the low light noise performance of an a7R II (albeit with F2 or slower lenses), then the GFX might be your ticket.

    Shallow Depth-of-Field

    As we calculated in our 'Low light (noise) performance' section above, the fastest lens on Fujifilm's roadmap is ~F1.6 full-frame equivalent, with most current available lenses being F2.2 equivalent or slower. Since full-frame routinely has F1.4 (equivalent) lenses available, you actually get more subject isolation, and blurrier backgrounds, with full-frame than with medium format.

    And, no, the 'but larger formats have more compression because you use longer focal length lenses for the same field-of-view' argument is false. Just say no to the compression myth. For equivalent focal lengths/apertures, there's no extra compression. Compression is relative only to equivalent focal length and subject distance (or subject magnification), and its relative distance to the background. Not the format you're shooting on. Don't believe us, have a look for yourself:

    46mm F2.8 on APS-C is roughly equivalent to 70mm F4.3 on full-frame - meaning the two shots above should be virtually identical. And they are, save for a tiny bit more DOF in the full-frame shot because F4.5 was the closest I could get to F4.3. Now, of course, you can get shallower DOF on full-frame, for example by shooting at F2.8. But that's because those faster lenses are available for full-frame.

    They're not in Fujifilm's lineup, which includes two F2.8 lenses, one F2 lens, and a few F4 lenses - which are equivalent to F2.2, F1.6, and F3.2 in full-frame terms, respectively.

    Without brighter lenses, there's just no reason to get excited about medium format for subject isolation and blurry backgrounds. If you're a bokeh fanatic, full-frame's arguably the sweet spot.

    Resolution

    OK, finally, some good news. Well, theoretically anyway.

    If you have two differently sized sensors with the same pixel count, the smaller one will be more demanding on its lens (it samples the lens at more lines per mm for the same scene frequency). Manufacturing larger lenses is also slightly easier, since the same relative tolerance level can be achieved, despite a larger absolute variance.

    So if you're looking for true 50MP of detail across the frame, you're more likely to get it with the GFX 50S than with a comparable 50MP full-frame sensor, simply because of the realities of lens design and tolerances. That said, we've been told that some of the newer full-frame lens designs were designed with 80 to 100MP in mind, on full-frame sensors. And with the eye-popping performance of some of the newest full-frame lenses we've seen, from varied manufacturers, we're not inclined to disagree. We've seen some 50MP files from the 5DS R paired with truly stellar lenses where we simply can't imagine anything better, resolution-wise. In fact, at ~F5.6-6.2 equivalent, I'm not seeing a major resolution advantage of the medium format cameras over the full-frame cameras in our studio scene comparison tool, and the 50MP full-frame image below isn't exactly starved for resolution, is it?

    Put another way: if you're seeing eye-popping resolution at F2 above and here and here (and even at F1.4 on some new lenses) when viewing a Canon 5DS R 50MP full-frame file at 100% (do click on the above image and view at 100%), do you want or need a truer 50MP? Or do you want even more than 50MP, particularly if it'll come at the cost of more depth-of-field, since there are hardly any F2 equivalent lenses that'll give you the subject isolation and background bokeh you see in the full-frame shot above?

    Only you can answer that question, but it is true that physics being physics, larger sensors will always tend to out-resolve smaller sensors with equivalent glass. And so this is the area where we most expect to see an advantage to the Fujifilm system, especially over time as we approach 100MP, and beyond. It's probably easier for a F1.8 prime paired with the GFX 50S to out-resolve a F1.4 prime on a 5DS R when both systems are shot wide open, but whether that will be the case (or if Fujifilm will even make a F1.8 or brighter prime for the system) remains to be seen. I certainly don't think it would be a cheap combination.

    Thanks, DPR, for saving me my money / killing my hopes and dreams

    Still excited about the Fujifilm GFX 50S and Hasselblad X1D? Perhaps you still should be. You get Fujifilm ergonomics and color science in a body capable of far better image quality that Fujifilm's APS-C offerings. But remember you can emulate much of that color science in Raw converters with proper profiles (we're looking into a separate article on this). More importantly, remember that equivalence tells us that a F1.8 medium format prime is what the GFX 50S actually needs to at least match the performance from modern full-frames paired with F1.4 lenses, from the perspective of noise and shallow depth-of-field. And that's before you consider the advanced silicon technologies we've seen in different full-frame (and smaller) sensors that we haven't yet seen in any medium format sensor. These advances have, for example, allowed a Nikon D810 to catch up to the dynamic range of the Pentax 645Z at base ISO, and the BSI, dual-gain a7R II sensor to catch up to the GFX 50S in low li ght noise performance.

    Still, as I've said, physics is physics. For equivalent apertures and final output resolutions, we do expect medium format to yield a slight resolution advantage, thanks to its lower demands on resolving power of lenses. But the extent of this advantage, especially given some of the tremendous progress we've seen in recent lens designs, remains to be seen: I'm not starving for eye-popping detail at 1:1 viewing of 50 and 42MP files when pairing a 5DS R or a7R II with stellar modern prime lenses.

    'as medium format evolves, the same gains we see in full-frame over smaller sensors might find their ways into the format.'

    Of course, as medium format evolves, the same gains we see in full-frame over smaller sensors might find their ways into the format. But this will require both the silicon to keep up, and for the development of faster lenses. At least as fast as the fastest lenses full-frame offers. One thing does make us hopeful - recent conversations with our forum extraordinaire Jim Kasson have alerted us to the fact that certain full-frame lenses, like the Zeiss Otus primes, actually project an image circle large enough for Fujifilm's new MF format. That would essentially get you high quality F1.1 equivalent glass on the GFX 50S. OK, that's cool. If you can focus it, anyway :) But if we see more and more fast full-frame lenses able to cover the image circle of the GFX G50S, then we're more likely to actually experience the benefits of the larger sensor format.

    Else, the potential advantages may be outweighed by the disadvantages: the extra weight, heft, price and severely lacking autofocus. And the GFX 50S has given up some of the noise and false color advantages their X-Trans cameras show...

    For now, we hope that looking at the problem through the lens of equivalence at least gives you an idea of how big (or small) you can reasonably expect the differences to be. Maybe it even saves you a dime or two. Or makes you want to yell at us for bringing up equivalence, again.

    But at the end of the day, equivalence has left me rather equivocal about the GFX 50S. What about you? Let us know in the comments below.

    Footnotes:

    * It's also why 'multi-shot' modes yield cleaner images than single shots: these modes essentially capture more total light, averaging out shot noise. It's also why brighter scenes generally look cleaner than low light scenes: more light = more photons captured = less relative shot noise = higher signal:noise ratio (SNR, or 'cleanliness' in laymen terms).

    ** The GFX 50S' 44x33mm sensor has an effective 0.78x crop factor, so you can multiply the MF lens' f-number by 0.78 to get the equivalent full-frame f-number.

    *** We don't control for T-stop, which could partially explain the drastic exposure difference. This doesn't affect our experiment though, as we applied well-vetted 'Expose to the Right' (ETTR) principles for a fair comparison

    Fujifilm's GFX 50S announcement has turned a lot of heads, and for good reason. We love Fujifilm cameras. It's hard not to – they offer excellent ergonomics with a level of direct control that photographers itch for, and Fujifilm's color science renders images that harken back to the days of film, while retaining all the advantages of digital. Meanwhile, the X-Trans color filter array (CFA) offers a number of advantages compared to traditional Bayer CFAs, showing decreased false color and a slight noise advantage due to a (relatively) greater proportion of green pixels.

    Ultimately, though, the image quality of Fujifilm's best cameras was limited by their APS-C sized sensors, which simply cannot capture as much light as similar silicon in larger sizes. And if you've kept up with our recent technical articles, you'll know that the amount of total light you've captured is arguably the largest determinant of image quality.

    'Fujifilm skipped the arguably saturated full-frame market and went straight to medium format.'

    That left many of us wondering when Fujifilm would step up to full-frame (35mm). But Fujifilm went one better – they skipped the arguably saturated full-frame market and went straight to medium format. In a rather compact, lightweight mirrorless form-factor at that. That made a lot of sense especially when you consider Fujifilm's heritage in medium format film cameras, and its experience making medium-format lenses for other brands.

    So, finally, here comes the GFX 50S: Fujifilm ergonomics and colors, but with all the advantages offered by larger sensors. But while heads turn, eyes widen, and colleagues fight over who gets to take the camera out for a shoot, personally I'm in need of a little convincing. And think you should be too, if you're thinking about plopping down a fat wad of cash for this seemingly drool-worthy system.

    But what's not to like, you ask? Bear with me…

    Theoretical advantages of larger sensors

    The potential advantages of larger sensors can broadly be split into four areas: noise in low light, dynamic range, subject isolation (shallow depth-of-field), and resolution. But zoom into the following 36MP at 100% - are any of those lacking?

    The question is: does the GFX 50S currently deliver on all, or any, of these advantages over what the best of full-frame has to offer? Let's look at each separately.

    Low light (noise) performance

    For the same f-number and shutter speed (or 'focal plane exposure'), a larger sensor is exposed to more total light. The same light per unit area is projected by the lens, but the larger sensor has more area available capturing it. An image made with more light has less relative photon shot noise (the noise that results from the fact that light arrives randomly at the imaging plane). The more light you capture, the more you 'average' out these fluctuations, leading to a cleaner image (that's the laymen's description of it anyway; read about it more in-depth here).

    That's why a full-frame camera generally gives you cleaner images than your smartphone.* So if more light means better images, that's a clear win for the GFX 50S, right?

    Not so fast...

    No, literally, not so fast. The lenses available for the GFX format simply aren't as fast as those offered by full-frame competitors. The fastest lens on Fujifilm's GFX roadmap is F2, which in full-frame equivalent terms is F1.56** (the concept of equivalence is out of scope for this article, but you can read about it in-depth here; for now, just remember the GFX has a reverse crop factor, relative to full-frame, of 0.79x). And most of the current MF lenses hover around F2.8 and F4, or F2.2 and F3.2 equivalent, respectively. That means that if they had the exact same underlying silicon technology (or sensor performance), a full-frame camera with a F2.2 (or F3.2) lens should do just as well as the GFX 50S with its F2.8 (or F4) lens. Even if were were to think ahead to the MF 100MP sensor Sony provides in the Phase One cameras, its 0.64x crop factor at best yields a F1.3 full-frame equivalent lenses from the one F2 lens announced, still not beating out the Canon 85/1.2, and b arely beating out the plethora of available F1.4 full-frame lenses. So even if the newly announced G-mount lenses cover the wider medium format image circle (which I'd sure hope they would), things still aren't so exciting.

    But full-frame can do better than that: F1.4 and F1.8 lenses are routinely available for full-frame cameras, typically for less money too. An F1.4 lens projects twice as much light per unit area than a F2 lens, and 4x as much as a F2.8 lens, amply making up for the 1.7x smaller sensor surface area of full-frame.

    That means full-frame cameras can capture as much, or more, light as the GFX 50S simply by offering faster lenses. But wait, it there's more...

    Companies like Sony have poured a lot of R&D into their full-frame (and smaller) sensors, and the a7R II uses a backside-illuminated design that makes it more efficient than the sensor used in the 50S. It also offers a dual-gain architecture that flips the camera into a high gain mode at ISO 640, allowing it to effectively overcome any noise introduced by the camera's own electronics. In other words, the a7R II's sensor is better able to use the light projected onto it, relative to the MF sensor – ironically a sensor made by Sony itself - in the G50S (or Pentax 645Z, or Hasselblad X1D). This allows it to match the low light noise performance of the larger sensor Pentax 645Z even at the same shutter speed and f-number. See our studio scene comparison widget above.

    'The Sony a7R II's sensor is better able to use the light projected onto it, relative to the MF sensor'

    So if we start with parity, guess what happens when you open up that aperture on the a7R II to an f-number simply unavailable to any current medium format system? You guessed it: you get better low light performance on full-frame. Whoa.

    Dynamic Range

    Although the same f-number and shutter speed give a larger sensor more total light, they receive the same amount of light per unit area. Most sensors of a similar generation have broadly similar tolerance for light per unit area (technically: similar full well capacity per unit area). But a larger sensor devotes more sensor area to any scene element, so can tolerate more total light per scene element before clipping. That means that for the same focal plane exposure, despite clipping highlights at a similar point, a larger sensor will render shadows (whose noise levels define the other limit of dynamic range) from more total light. And the same logic that applies to low light noise applies here as well: more total light = less relative shot noise and less impact of any noise from camera electronics. That means cleaner shadows, and more dynamic range.

    So another clear win for the larger sensor GFX, no? Well, no. Because someone poured a lot of R&D into the Nikon D810 sensor (noticing a trend here?), giving it higher full-well capacity per unit area than any other sensor we've measured to date: its ISO 64 mode. Each pixel can hold more total charge before clipping, relative to equally-sized pixels on any other sensor in a consumer camera. That means it can tolerate a longer exposure at ISO 64, longer enough (at least 2/3 EV, or 60% more light) to capture as much total light as the 68% larger sensor in the GFX 50S exposed at its base ISO (100). Don't believe us? Check out our real-world dynamic range comparison of the Nikon D810 vs the Pentax 645Z, which ostensibly shares the same sensor as the GFX 50S:

    In this shoot-out, we exposed each camera to the right as far as possible before clipping a significant chunk of pixels in the brightest portion of the Raw (in the orange sky just above the mountains). The D810, in this case, was able to tolerate a full stop longer exposure***, which allows its (pushed) shadows to remain as clean as the 645Z. That's the (scientific, not baloney) reason we claimed the Nikon D810 to have medium format-like image quality. Because its dynamic range and overall signal:noise performance at ISO 64 rivals many current medium format cameras their base ISOs (though not the huge new 100MP MF Sony sensor in the new Phase One). Just look at its massive SNR advantage (read: image cleanliness) for all tones at ISO 64 over the Canon 5DS R at ISO 100 - we intend to plot the Fujifilm GFX 50S on the same graph, and don't expect it to show any advantage to the D810. Because science.

    Read about this all more in-depth in our D810 review here, and check out Bill Claff's quantitative data that shows a 0.22 EV base ISO dynamic range difference between the D810 and 645Z - hardly noticeable, much less something to write home about.

    'OK but it's not fair to compare ISO 64 to ISO 100!'

    Fair enough, there's a little more to the story. ISO 64 does require more exposure than ISO 100, either via a brighter lens, or longer exposure time. But one might argue that under circumstances where you care about dynamic range – i.e. high contrast scenes – you're typically not light-limited to begin with, and can easily give the camera as much light as needed. Either because you're shooting on a tripod, you're using studio lights and can just crank them up, or because there's so much light to begin with (it is a high contrast scene, right?) You're working at or near base ISO anyway, so you shouldn't have trouble adding 2/3 EV exposure by opening up the lens or lengthening the shutter speed a bit.

    'You're working at or near base ISO anyway, so you shouldn't have trouble adding 2/3 EV shutter speed'

    But, yes, if you're in a light-limited situation (i.e. you're not shooting at base ISO) and it's high enough contrast that you care about dynamic range (have to expose for highlights then push shadows), then the GFX 50S will have the upper hand here. But dare I say, that's quite the niche use case: keep in mind that most situations demanding higher ISOs tend to be in lower light, where you care more about general noise performance, not dynamic range (since low light scenes tend to have lower contrast). And if that's what you care about, there's the a7R II which, although it may clip highlights a bit earlier, can give you as good, or better, low light noise performance… [link back to Noise section above].

    But I'll concede – if you want both the base ISO dynamic range of the D810, and the low light noise performance of an a7R II (albeit with F2 or slower lenses), then the GFX might be your ticket.

    Shallow Depth-of-Field

    As we calculated in our 'Low light (noise) performance' section above, the fastest lens on Fujifilm's roadmap is ~F1.6 full-frame equivalent, with most current available lenses being F2.2 equivalent or slower. Since full-frame routinely has F1.4 (equivalent) lenses available, you actually get more subject isolation, and blurrier backgrounds, with full-frame than with medium format.

    And, no, the 'but larger formats have more compression because you use longer focal length lenses for the same field-of-view' argument is false. Just say no to the compression myth. For equivalent focal lengths/apertures, there's no extra compression. Compression is relative only to equivalent focal length and subject distance (or subject magnification), and its relative distance to the background. Not the format you're shooting on. Don't believe us, have a look for yourself:

    46mm F2.8 on APS-C is roughly equivalent to 70mm F4.3 on full-frame - meaning the two shots above should be virtually identical. And they are, save for a tiny bit more DOF in the full-frame shot because F4.5 was the closest I could get to F4.3. Now, of course, you can get shallower DOF on full-frame, for example by shooting at F2.8. But that's because those faster lenses are available for full-frame.

    They're not in Fujifilm's lineup, which includes two F2.8 lenses, one F2 lens, and a few F4 lenses - which are equivalent to F2.2, F1.6, and F3.2 in full-frame terms, respectively.

    Without brighter lenses, there's just no reason to get excited about medium format for subject isolation and blurry backgrounds. If you're a bokeh fanatic, full-frame's arguably the sweet spot.

    Resolution

    OK, finally, some good news. Well, theoretically anyway.

    If you have two differently sized sensors with the same pixel count, the smaller one will be more demanding on its lens (it samples the lens at more lines per mm for the same scene frequency). Manufacturing larger lenses is also slightly easier, since the same relative tolerance level can be achieved, despite a larger absolute variance.

    So if you're looking for true 50MP of detail across the frame, you're more likely to get it with the GFX 50S than with a comparable 50MP full-frame sensor, simply because of the realities of lens design and tolerances. That said, we've been told that some of the newer full-frame lens designs were designed with 80 to 100MP in mind, on full-frame sensors. And with the eye-popping performance of some of the newest full-frame lenses we've seen, from varied manufacturers, we're not inclined to disagree. We've seen some 50MP files from the 5DS R paired with truly stellar lenses where we simply can't imagine anything better, resolution-wise. In fact, at ~F5.6-6.2 equivalent, I'm not seeing a major resolution advantage of the medium format cameras over the full-frame cameras in our studio scene comparison tool, and the 50MP full-frame image below isn't exactly starved for resolution, is it?

    Put another way: if you're seeing eye-popping resolution at F2 above and here and here (and even at F1.4 on some new lenses) when viewing a Canon 5DS R 50MP full-frame file at 100% (do click on the above image and view at 100%), do you want or need a truer 50MP? Or do you want even more than 50MP, particularly if it'll come at the cost of more depth-of-field, since there are hardly any F2 equivalent lenses that'll give you the subject isolation and background bokeh you see in the full-frame shot above?

    Only you can answer that question, but it is true that physics being physics, larger sensors will always tend to out-resolve smaller sensors with equivalent glass. And so this is the area where we most expect to see an advantage to the Fujifilm system, especially over time as we approach 100MP, and beyond. It's probably easier for a F1.8 prime paired with the GFX 50S to out-resolve a F1.4 prime on a 5DS R when both systems are shot wide open, but whether that will be the case (or if Fujifilm will even make a F1.8 or brighter prime for the system) remains to be seen. I certainly don't think it would be a cheap combination.

    Thanks, DPR, for saving me my money / killing my hopes and dreams

    Still excited about the Fujifilm GFX 50S and Hasselblad X1D? Perhaps you still should be. You get Fujifilm ergonomics and color science in a body capable of far better image quality that Fujifilm's APS-C offerings. But remember you can emulate much of that color science in Raw converters with proper profiles (we're looking into a separate article on this). More importantly, remember that equivalence tells us that a F1.8 medium format prime is what the GFX 50S actually needs to at least match the performance from modern full-frames paired with F1.4 lenses, from the perspective of noise and shallow depth-of-field. And that's before you consider the advanced silicon technologies we've seen in different full-frame (and smaller) sensors that we haven't yet seen in any medium format sensor. These advances have, for example, allowed a Nikon D810 to catch up to the dynamic range of the Pentax 645Z at base ISO, and the BSI, dual-gain a7R II sensor to catch up to the GFX 50S in low li ght noise performance.

    Still, as I've said, physics is physics. For equivalent apertures and final output resolutions, we do expect medium format to yield a slight resolution advantage, thanks to its lower demands on resolving power of lenses. But the extent of this advantage, especially given some of the tremendous progress we've seen in recent lens designs, remains to be seen: I'm not starving for eye-popping detail at 1:1 viewing of 50 and 42MP files when pairing a 5DS R or a7R II with stellar modern prime lenses.

    'as medium format evolves, the same gains we see in full-frame over smaller sensors might find their ways into the format.'

    Of course, as medium format evolves, the same gains we see in full-frame over smaller sensors might find their ways into the format. But this will require both the silicon to keep up, and for the development of faster lenses. At least as fast as the fastest lenses full-frame offers. One thing does make us hopeful - recent conversations with our forum extraordinaire Jim Kasson have alerted us to the fact that certain full-frame lenses, like the Zeiss Otus primes, actually project an image circle large enough for Fujifilm's new MF format. That would essentially get you high quality F1.1 equivalent glass on the GFX 50S. OK, that's cool. If you can focus it, anyway :) But if we see more and more fast full-frame lenses able to cover the image circle of the GFX G50S, then we're more likely to actually experience the benefits of the larger sensor format.

    Else, the potential advantages may be outweighed by the disadvantages: the extra weight, heft, price and severely lacking autofocus. And the GFX 50S has given up some of the noise and false color advantages their X-Trans cameras show...

    For now, we hope that looking at the problem through the lens of equivalence at least gives you an idea of how big (or small) you can reasonably expect the differences to be. Maybe it even saves you a dime or two. Or makes you want to yell at us for bringing up equivalence, again.

    But at the end of the day, equivalence has left me rather equivocal about the GFX 50S. What about you? Let us know in the comments below.

    Footnotes:

    * It's also why 'multi-shot' modes yield cleaner images than single shots: these modes essentially capture more total light, averaging out shot noise. It's also why brighter scenes generally look cleaner than low light scenes: more light = more photons captured = less relative shot noise = higher signal:noise ratio (SNR, or 'cleanliness' in laymen terms).

    ** The GFX 50S' 44x33mm sensor has an effective 0.78x crop factor, so you can multiply the MF lens' f-number by 0.78 to get the equivalent full-frame f-number.

    *** We don't control for T-stop, which could partially explain the drastic exposure difference. This doesn't affect our experiment though, as we applied well-vetted 'Expose to the Right' (ETTR) principles for a fair comparison

    Fujifilm's GFX 50S announcement has turned a lot of heads, and for good reason. We love Fujifilm cameras. It's hard not to – they offer excellent ergonomics with a level of direct control that photographers itch for, and Fujifilm's color science renders images that harken back to the days of film, while retaining all the advantages of digital. Meanwhile, the X-Trans color filter array (CFA) offers a number of advantages compared to traditional Bayer CFAs, showing decreased false color and a slight noise advantage due to a (relatively) greater proportion of green pixels.

    Ultimately, though, the image quality of Fujifilm's best cameras was limited by their APS-C sized sensors, which simply cannot capture as much light as similar silicon in larger sizes. And if you've kept up with our recent technical articles, you'll know that the amount of total light you've captured is arguably the largest determinant of image quality.

    'Fujifilm skipped the arguably saturated full-frame market and went straight to medium format.'

    That left many of us wondering when Fujifilm would step up to full-frame (35mm). But Fujifilm went one better – they skipped the arguably saturated full-frame market and went straight to medium format. In a rather compact, lightweight mirrorless form-factor at that. That made a lot of sense especially when you consider Fujifilm's heritage in medium format film cameras, and its experience making medium-format lenses for other brands.

    So, finally, here comes the GFX 50S: Fujifilm ergonomics and colors, but with all the advantages offered by larger sensors. But while heads turn, eyes widen, and colleagues fight over who gets to take the camera out for a shoot, personally I'm in need of a little convincing. And think you should be too, if you're thinking about plopping down a fat wad of cash for this seemingly drool-worthy system.

    But what's not to like, you ask? Bear with me…

    Theoretical advantages of larger sensors

    The potential advantages of larger sensors can broadly be split into four areas: noise in low light, dynamic range, subject isolation (shallow depth-of-field), and resolution. But zoom into the following 36MP at 100% - are any of those lacking?

    The question is: does the GFX 50S currently deliver on all, or any, of these advantages over what the best of full-frame has to offer? Let's look at each separately.

    Low light (noise) performance

    For the same f-number and shutter speed (or 'focal plane exposure'), a larger sensor is exposed to more total light. The same light per unit area is projected by the lens, but the larger sensor has more area available capturing it. An image made with more light has less relative photon shot noise (the noise that results from the fact that light arrives randomly at the imaging plane). The more light you capture, the more you 'average' out these fluctuations, leading to a cleaner image (that's the laymen's description of it anyway; read about it more in-depth here).

    That's why a full-frame camera generally gives you cleaner images than your smartphone.* So if more light means better images, that's a clear win for the GFX 50S, right?

    Not so fast...

    No, literally, not so fast. The lenses available for the GFX format simply aren't as fast as those offered by full-frame competitors. The fastest lens on Fujifilm's GFX roadmap is F2, which in full-frame equivalent terms is F1.56** (the concept of equivalence is out of scope for this article, but you can read about it in-depth here; for now, just remember the GFX has a reverse crop factor, relative to full-frame, of 0.79x). And most of the current MF lenses hover around F2.8 and F4, or F2.2 and F3.2 equivalent, respectively. That means that if they had the exact same underlying silicon technology (or sensor performance), a full-frame camera with a F2.2 (or F3.2) lens should do just as well as the GFX 50S with its F2.8 (or F4) lens. Even if were were to think ahead to the MF 100MP sensor Sony provides in the Phase One cameras, its 0.64x crop factor at best yields a F1.3 full-frame equivalent lenses from the one F2 lens announced, still not beating out the Canon 85/1.2, and b arely beating out the plethora of available F1.4 full-frame lenses. So even if the newly announced G-mount lenses cover the wider medium format image circle (which I'd sure hope they would), things still aren't so exciting.

    But full-frame can do better than that: F1.4 and F1.8 lenses are routinely available for full-frame cameras, typically for less money too. An F1.4 lens projects twice as much light per unit area than a F2 lens, and 4x as much as a F2.8 lens, amply making up for the 1.7x smaller sensor surface area of full-frame.

    That means full-frame cameras can capture as much, or more, light as the GFX 50S simply by offering faster lenses. But wait, it there's more...

    Companies like Sony have poured a lot of R&D into their full-frame (and smaller) sensors, and the a7R II uses a backside-illuminated design that makes it more efficient than the sensor used in the 50S. It also offers a dual-gain architecture that flips the camera into a high gain mode at ISO 640, allowing it to effectively overcome any noise introduced by the camera's own electronics. In other words, the a7R II's sensor is better able to use the light projected onto it, relative to the MF sensor – ironically a sensor made by Sony itself - in the G50S (or Pentax 645Z, or Hasselblad X1D). This allows it to match the low light noise performance of the larger sensor Pentax 645Z even at the same shutter speed and f-number. See our studio scene comparison widget above.

    'The Sony a7R II's sensor is better able to use the light projected onto it, relative to the MF sensor'

    So if we start with parity, guess what happens when you open up that aperture on the a7R II to an f-number simply unavailable to any current medium format system? You guessed it: you get better low light performance on full-frame. Whoa.

    Dynamic Range

    Although the same f-number and shutter speed give a larger sensor more total light, they receive the same amount of light per unit area. Most sensors of a similar generation have broadly similar tolerance for light per unit area (technically: similar full well capacity per unit area). But a larger sensor devotes more sensor area to any scene element, so can tolerate more total light per scene element before clipping. That means that for the same focal plane exposure, despite clipping highlights at a similar point, a larger sensor will render shadows (whose noise levels define the other limit of dynamic range) from more total light. And the same logic that applies to low light noise applies here as well: more total light = less relative shot noise and less impact of any noise from camera electronics. That means cleaner shadows, and more dynamic range.

    So another clear win for the larger sensor GFX, no? Well, no. Because someone poured a lot of R&D into the Nikon D810 sensor (noticing a trend here?), giving it higher full-well capacity per unit area than any other sensor we've measured to date: its ISO 64 mode. Each pixel can hold more total charge before clipping, relative to equally-sized pixels on any other sensor in a consumer camera. That means it can tolerate a longer exposure at ISO 64, longer enough (at least 2/3 EV, or 60% more light) to capture as much total light as the 68% larger sensor in the GFX 50S exposed at its base ISO (100). Don't believe us? Check out our real-world dynamic range comparison of the Nikon D810 vs the Pentax 645Z, which ostensibly shares the same sensor as the GFX 50S:

    In this shoot-out, we exposed each camera to the right as far as possible before clipping a significant chunk of pixels in the brightest portion of the Raw (in the orange sky just above the mountains). The D810, in this case, was able to tolerate a full stop longer exposure***, which allows its (pushed) shadows to remain as clean as the 645Z. That's the (scientific, not baloney) reason we claimed the Nikon D810 to have medium format-like image quality. Because its dynamic range and overall signal:noise performance at ISO 64 rivals many current medium format cameras their base ISOs (though not the huge new 100MP MF Sony sensor in the new Phase One). Just look at its massive SNR advantage (read: image cleanliness) for all tones at ISO 64 over the Canon 5DS R at ISO 100 - we intend to plot the Fujifilm GFX 50S on the same graph, and don't expect it to show any advantage to the D810. Because science.

    Read about this all more in-depth in our D810 review here, and check out Bill Claff's quantitative data that shows a 0.22 EV base ISO dynamic range difference between the D810 and 645Z - hardly noticeable, much less something to write home about.

    'OK but it's not fair to compare ISO 64 to ISO 100!'

    Fair enough, there's a little more to the story. ISO 64 does require more exposure than ISO 100, either via a brighter lens, or longer exposure time. But one might argue that under circumstances where you care about dynamic range – i.e. high contrast scenes – you're typically not light-limited to begin with, and can easily give the camera as much light as needed. Either because you're shooting on a tripod, you're using studio lights and can just crank them up, or because there's so much light to begin with (it is a high contrast scene, right?) You're working at or near base ISO anyway, so you shouldn't have trouble adding 2/3 EV exposure by opening up the lens or lengthening the shutter speed a bit.

    'You're working at or near base ISO anyway, so you shouldn't have trouble adding 2/3 EV shutter speed'

    But, yes, if you're in a light-limited situation (i.e. you're not shooting at base ISO) and it's high enough contrast that you care about dynamic range (have to expose for highlights then push shadows), then the GFX 50S will have the upper hand here. But dare I say, that's quite the niche use case: keep in mind that most situations demanding higher ISOs tend to be in lower light, where you care more about general noise performance, not dynamic range (since low light scenes tend to have lower contrast). And if that's what you care about, there's the a7R II which, although it may clip highlights a bit earlier, can give you as good, or better, low light noise performance… [link back to Noise section above].

    But I'll concede – if you want both the base ISO dynamic range of the D810, and the low light noise performance of an a7R II (albeit with F2 or slower lenses), then the GFX might be your ticket.

    Shallow Depth-of-Field

    As we calculated in our 'Low light (noise) performance' section above, the fastest lens on Fujifilm's roadmap is ~F1.6 full-frame equivalent, with most current available lenses being F2.2 equivalent or slower. Since full-frame routinely has F1.4 (equivalent) lenses available, you actually get more subject isolation, and blurrier backgrounds, with full-frame than with medium format.

    And, no, the 'but larger formats have more compression because you use longer focal length lenses for the same field-of-view' argument is false. Just say no to the compression myth. For equivalent focal lengths/apertures, there's no extra compression. Compression is relative only to equivalent focal length and subject distance (or subject magnification), and its relative distance to the background. Not the format you're shooting on. Don't believe us, have a look for yourself:

    46mm F2.8 on APS-C is roughly equivalent to 70mm F4.3 on full-frame - meaning the two shots above should be virtually identical. And they are, save for a tiny bit more DOF in the full-frame shot because F4.5 was the closest I could get to F4.3. Now, of course, you can get shallower DOF on full-frame, for example by shooting at F2.8. But that's because those faster lenses are available for full-frame.

    They're not in Fujifilm's lineup, which includes two F2.8 lenses, one F2 lens, and a few F4 lenses - which are equivalent to F2.2, F1.6, and F3.2 in full-frame terms, respectively.

    Without brighter lenses, there's just no reason to get excited about medium format for subject isolation and blurry backgrounds. If you're a bokeh fanatic, full-frame's arguably the sweet spot.

    Resolution

    OK, finally, some good news. Well, theoretically anyway.

    If you have two differently sized sensors with the same pixel count, the smaller one will be more demanding on its lens (it samples the lens at more lines per mm for the same scene frequency). Manufacturing larger lenses is also slightly easier, since the same relative tolerance level can be achieved, despite a larger absolute variance.

    So if you're looking for true 50MP of detail across the frame, you're more likely to get it with the GFX 50S than with a comparable 50MP full-frame sensor, simply because of the realities of lens design and tolerances. That said, we've been told that some of the newer full-frame lens designs were designed with 80 to 100MP in mind, on full-frame sensors. And with the eye-popping performance of some of the newest full-frame lenses we've seen, from varied manufacturers, we're not inclined to disagree. We've seen some 50MP files from the 5DS R paired with truly stellar lenses where we simply can't imagine anything better, resolution-wise. In fact, at ~F5.6-6.2 equivalent, I'm not seeing a major resolution advantage of the medium format cameras over the full-frame cameras in our studio scene comparison tool, and the 50MP full-frame image below isn't exactly starved for resolution, is it?

    Put another way: if you're seeing eye-popping resolution at F2 above and here and here (and even at F1.4 on some new lenses) when viewing a Canon 5DS R 50MP full-frame file at 100% (do click on the above image and view at 100%), do you want or need a truer 50MP? Or do you want even more than 50MP, particularly if it'll come at the cost of more depth-of-field, since there are hardly any F2 equivalent lenses that'll give you the subject isolation and background bokeh you see in the full-frame shot above?

    Only you can answer that question, but it is true that physics being physics, larger sensors will always tend to out-resolve smaller sensors with equivalent glass. And so this is the area where we most expect to see an advantage to the Fujifilm system, especially over time as we approach 100MP, and beyond. It's probably easier for a F1.8 prime paired with the GFX 50S to out-resolve a F1.4 prime on a 5DS R when both systems are shot wide open, but whether that will be the case (or if Fujifilm will even make a F1.8 or brighter prime for the system) remains to be seen. I certainly don't think it would be a cheap combination.

    Thanks, DPR, for saving me my money / killing my hopes and dreams

    Still excited about the Fujifilm GFX 50S and Hasselblad X1D? Perhaps you still should be. You get Fujifilm ergonomics and color science in a body capable of far better image quality that Fujifilm's APS-C offerings. But remember you can emulate much of that color science in Raw converters with proper profiles (we're looking into a separate article on this). More importantly, remember that equivalence tells us that a F1.8 medium format prime is what the GFX 50S actually needs to at least match the performance from modern full-frames paired with F1.4 lenses, from the perspective of noise and shallow depth-of-field. And that's before you consider the advanced silicon technologies we've seen in different full-frame (and smaller) sensors that we haven't yet seen in any medium format sensor. These advances have, for example, allowed a Nikon D810 to catch up to the dynamic range of the Pentax 645Z at base ISO, and the BSI, dual-gain a7R II sensor to catch up to the GFX 50S in low li ght noise performance.

    Still, as I've said, physics is physics. For equivalent apertures and final output resolutions, we do expect medium format to yield a slight resolution advantage, thanks to its lower demands on resolving power of lenses. But the extent of this advantage, especially given some of the tremendous progress we've seen in recent lens designs, remains to be seen: I'm not starving for eye-popping detail at 1:1 viewing of 50 and 42MP files when pairing a 5DS R or a7R II with stellar modern prime lenses.

    'as medium format evolves, the same gains we see in full-frame over smaller sensors might find their ways into the format.'

    Of course, as medium format evolves, the same gains we see in full-frame over smaller sensors might find their ways into the format. But this will require both the silicon to keep up, and for the development of faster lenses. At least as fast as the fastest lenses full-frame offers. One thing does make us hopeful - recent conversations with our forum extraordinaire Jim Kasson have alerted us to the fact that certain full-frame lenses, like the Zeiss Otus primes, actually project an image circle large enough for Fujifilm's new MF format. That would essentially get you high quality F1.1 equivalent glass on the GFX 50S. OK, that's cool. If you can focus it, anyway :) But if we see more and more fast full-frame lenses able to cover the image circle of the GFX G50S, then we're more likely to actually experience the benefits of the larger sensor format.

    Else, the potential advantages may be outweighed by the disadvantages: the extra weight, heft, price and severely lacking autofocus. And the GFX 50S has given up some of the noise and false color advantages their X-Trans cameras show...

    For now, we hope that looking at the problem through the lens of equivalence at least gives you an idea of how big (or small) you can reasonably expect the differences to be. Maybe it even saves you a dime or two. Or makes you want to yell at us for bringing up equivalence, again.

    But at the end of the day, equivalence has left me rather equivocal about the GFX 50S. What about you? Let us know in the comments below.

    Footnotes:

    * It's also why 'multi-shot' modes yield cleaner images than single shots: these modes essentially capture more total light, averaging out shot noise. It's also why brighter scenes generally look cleaner than low light scenes: more light = more photons captured = less relative shot noise = higher signal:noise ratio (SNR, or 'cleanliness' in laymen terms).

    ** The GFX 50S' 44x33mm sensor has an effective 0.78x crop factor, so you can multiply the MF lens' f-number by 0.78 to get the equivalent full-frame f-number.

    *** We don't control for T-stop, which could partially explain the drastic exposure difference. This doesn't affect our experiment though, as we applied well-vetted 'Expose to the Right' (ETTR) principles for a fair comparison


    Source: Thinking about buying a Fujifilm GFX 50S? Read this first