Camera Architecture and UX

In general, camera has become probably the single biggest point of differentiation between smartphones at this point. As smartphones are often the only camera that most people carry on a day to day basis, the rear camera on a smartphone really cannot be a disappointment relative to the competition. While we can talk about how much a front-facing camera matters in terms of quality, it’s pretty safe to say that for photos and videos that are worth saving will be taken with the rear-facing camera.

While post-processing and a number of other factors are going to have a huge impact on the overall camera experience, the foundation that makes it possible to deliver a great camera is always going to start at the hardware.

Samsung Galaxy S Cameras
  Galaxy S6
Galaxy Note5
Galaxy S7
Front Camera 5.0MP 5.0MP
Front Camera - Sensor Samsung S5K4E6
(1.34 µm, 1/4.1")
Samsung S5K4E6
(1.34 µm, 1/4.1")
Front Camera - Focal Length 2.2mm (22mm eff) 2.1mm (21mm eff)
Front Camera - Max Aperture F/1.9 F/1.7
Rear Camera 16MP 12MP
Rear Camera - Sensor Sony IMX240
Samsung S5K2P2
(1.12 µm, 1/2.6")
Sony IMX260
Samsung S5K2L1
(1.4 µm, 1/2.6")
Rear Camera - Focal Length 4.3mm (28mm eff) 4.2mm (26mm eff)
Rear Camera - Max Aperture F/1.9 F/1.7

In the case of the Galaxy S7, Samsung has done something that I thought they’d never do, which is move backwards in resolution in order to improve pixel sensitivity. In the case of the Galaxy S7, Samsung has moved from the Sony IMX240/Samsung S5K2P2 to the Sony IMX260/Samsung S5K2L1 sensor, with a 1.4 micron pixel size relative to a 1.12 micron pixel pitch in the previous generation. This means that there’s a 56% increase in sensitivity per pixel. Assuming the same process technology, this does improve low light performance significantly. While to some extent it’s true that improved CIS (CMOS image sensor) technology can alleviate the downsides of smaller pixels, on the same technology you have to reduce your fill factor/active sensor area. The other problem is that while read noise on the sensor does reduce per pixel as you reduce pixel size, the overall sensor read noise trends upwards. This means that the region in which the CIS noise is primarily limited by shot noise is going to be smaller as you reduce pixel size. Shot noise is an unavoidable reality of existence, to the extent that even our eyes can see this “visual snow” if ambient light is sufficiently dim.

However, in the case of the Galaxy S7 I suspect that there’s more to the story, because the dual pixel AF system means that for each 1.4 micron pixel each pixel needs two photodetectors. In order to make phase detection work, there has to be sufficient spatial separation to make this system work properly, so some of the benefit of these larger pixels will inevitably be eaten up in order to enable PDAF that works in basically all lighting conditions.

The other notable change here is that the Galaxy S7 uses an even wider f/1.7 aperture. Unfortunately, in Samsung's efforts to try and make the module thinner they've made the focal length slightly shorter than before which results in an effective focal length of 26mm. This and the wider aperture could lead to compromises as light is entering the optics at a more extreme angle than before.

With these basics covered, we can move on to a discussion of the user experience. While in the past it was easy enough to just take some still shots on a tripod, a holistic view of camera quality really needs to take into account far more than just the end result. A poorly designed camera application with low resolution, low frame rate preview, improper preview aspect ratio, poor control layout, and other issues can easily make it difficult, if not impossible to get the photo that you want. These issues are thankfully getting less common, but these problems can make it almost impossible to recommend a phone for its camera, no matter how good the results are.

In the case of the Galaxy S7, the camera application is a nice upgrade over the Galaxy S6 at launch, but for the most part nothing is really different this go around. I’m not going to spend too much time here, but the short story is that I don’t think that Samsung is doing anything wrong here, and things are pretty much as good as they’re going to get.

While leaving it at that would be enough, I want to recognize some of the improvements that Samsung has implemented here. The major improvement here is that Pro mode is finally useful, as this mode now allows for adjusting auto-exposure and AF targets, in addition to EV, shutter speed, ISO, white balance with 100K granularity, and manual focus. The one notable shortfall here is that Samsung only allows 800 ISO max in manual ISO mode when the true maximum is 1250. For better or worse though, that’s the only notable problem I encountered with the camera app itself. It’s easy to think that Samsung hasn’t done anything notable here, but this is more a testament to the execution of design more than anything else.

However, before we move on to image quality testing, we can take a look at our focus and capture latency tests. For those that are unfamiliar, this is a fairly simple test designed to see how long it takes for a phone to focus and capture a scene on our standard ISO test chart in good lighting conditions, which can give a fairly good idea for best case latencies.

Camera Focus Latency (Shooting ISO 12233 Target)

Camera Shot Latency (Shooting ISO 12233 Target)

Camera Latency (Shooting ISO 12233 Target)

It’s probably not a surprise, but the Galaxy S7 is really, absurdly quick to take photos and focus. There is nothing out there that can realistically match the dual pixel AF system in the Galaxy S7, especially once you get into low light scenarios where traditional PDAF systems are overwhelmed by noise that can’t be easily canceled out. Samsung’s sheer prowess in semiconductor design and manufacture is really showing here, even in the best case.

System Performance Cont'd Still Image Performance
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  • lilmoe - Tuesday, July 5, 2016 - link

    No...................... (wiping eyes)
  • lilmoe - Tuesday, July 5, 2016 - link

    OK, now that I've read the whole review (and some parts twice), I can come to two conclusions.

    1) The author is sort-of unhappy with Samsung's decision to dual source the SoC.
    2) Lots of testing metrics (and data) don't match my personal experience with the phone (Edge, Exynos version), nor the hundreds of videos and reviews online. The only significant issue I have is with the front facing camera compared with other new hardware; it could be a LOT better (but I'm not a huge selfie person).

    The Exynos variant is significantly better than the SD variant this time around, probably because Samsung's software leans more to higher core count, but also because it takes advantage of the *better* co-processors on Samsung's silicon. The Exynos variant has better image/video post processing, better audio, better and more sustained performance, better RAM management and significantly better battery life compared to the SD variant. Too bad all the hype Qualcomm has been selling for the additional parts didn't live up.

    That being said, I do agree, to some extent, about the radios. They're definitely better than previous models (after the migration to metal design), but my wife's Note4 has noticeably better reception. Not huge, but noticeable. In that regard, nothing beats good ole' plastic designs.
  • cknobman - Tuesday, July 5, 2016 - link

    The Apple bias you get from this site is annoying at best.

    Everything in this review is laced with a undertone of how iPhone is just as good or better.

    Camera on the S7 is actually pretty danged amazing and easily better than what iPhone has right now. Other sites and reviews have posted their figures and results and they all show it but for some reason here the camera is just ok?

    Battery life on the S7 is actually quite amazing and noticeably better than past Galaxy iterations.

    The design is well executed and I did not see any mention of the water resistant feature which is a nice inclusion most other manufacturers dont even have.

    I'm a Windows phone user but I did recently upgrade my son to the S7.
  • ikjadoon - Tuesday, July 5, 2016 - link

    While Anandtech is getting better at moving away from esoteric benchmarks to show "in the lab" performance...these reviews were not holistic.

    How can you write a review comparing the iPhone 6s to the Galaxy S7 and NOT mention water resistance?

    I think it's because, in the end, performance is what matters to Anandtech above all else. If the device doesn't perform well in day-to-day use, then whatever other benefits it may have are always painted against that background.
  • ikjadoon - Tuesday, July 5, 2016 - link

    Why can't we edit? Yeesh. "Doesn't perform well compared to its equally-priced peers"...
  • DERSS - Wednesday, July 6, 2016 - link

    iPhone 6s/Plus already has water resistance, Apple covered the mainboard with special foam, and there are other measures. It is tested in videos, and it works. So the degree here is that SGS 7/Edge has better water resistance. The practical difference, though, is debatable.
  • pablo906 - Friday, July 8, 2016 - link

    I dropped my 6s in the sink full of water. Pulled it out shook it off, sucked the water out of the speaker holes, charging port holes, and headphone holes and it was fine. I've never had an iPhone survive that. They're not water proof, but their water resistance is certainly far better than it used to be and can survive day to day spills and accidents unlike the older models. That's nowhere near as good as the waterproof Samsung phones I've seen go underwater fully submerged for more than a few seconds in videos and come out alive, but it's an improvement. I agree with you here. If you want to compare water resistance among phones, then you have to take the non water resistant Android and get it wet measure the effects and then do the same with the Apple phones. I think that's a pointless road to go down. It's better to just mention the water proofing in the description or not at all and move on.
  • theduckofdeath - Saturday, July 9, 2016 - link

    I hope you don't live by that belief, DERSS. most mainboards has a protective coating, including the one in your PC. Mostly for dust and humidity protection. The ports, camera, sensors and most other things on the iPhone aren't water resistant. So... You might get lucky to survive getting it wet, but it most likely won't work properly after it.
    My previous (wireless) keyboard survived a glass full of Coke spilled all over it once. No issues, I just rinsed it off and let it dry off for a couple of days. Somehow I managed to spill another glass on in a month later (yay! I guess I subconsciously wanted a new keyboard) and it instantly fried.
  • theduckofdeath - Saturday, July 9, 2016 - link

    *it
  • Bigbank - Tuesday, January 9, 2018 - link

    Boo
    Go get wet sinker

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