High ISO does NOT cause NOISE! (but f/Stop & Shutter do!)

"THE NOISE IS CAUSED BY UNDEREXPOSURE" or "THE NOISE IS CAUSED BY RAISING THE BRIGHTNESS IN POST"
This is easy to test yourself, but I did it for you here: ruclips.net/video/xVS_amf0DQk/видео.html (warning: crappy screen recording). As that demonstrates, underexposed images can be cleaner than properly exposed images. Or not. There is no true correlation between exposure (meaning, the brightness of the image) and noise when shooting raw.
Many of us (myself included) have previously been taught that high ISO does cause high noise, and it's much harder to unlearn a concept than it is to learn it for the first time. Here's a nerdy summary for my more technical audience:
First, make sure you understand the difference between causation and correlation. In a car, your speedometer *correlates* with your speed, it does not cause it. Your accelerator *causes* your speed.
High ISO *correlates* with high noise. If you're using high ISO with a properly exposed picture, your image is going to be noisy... However, lowering your ISO does not lower the noise, just like forcing down the needle on your speedometer doesn't slow your car.
Low light *causes* high noise. Regardless of the ISO, regardless of the exposure, pictures with less light will have more noise than pictures with more light. Therefore, if you want to reduce noise, add light.
What I hope to accomplish by demonstrating the difference between correlation and causation is to change how we think about ISO... MANY photographers in low-light situations limit themselves to a low ISO, like ISO 800, because they incorrectly believe that choosing a high ISO will increase their noise. Instead, they get an underexposed picture that has the same amount of noise (but requires additional processing). Hopefully, this lesson teaches those photographers that they only way to reduce noise is to increase the light their sensor is getting.
I would also like all photographers interested in technical image quality (noise, sharpness, dynamic range) to be conscious of using giving their sensor as much light as it can handle - and using auto ISO as a measurement is a good way to do this. If you're camera isn't choosing the base ISO for the exposure, then you're not getting your camera's maximum image quality. You can't always add more light, but it's a good to quickly note, "Oh, I'm at ISO 200 - can I use a longer shutter or a wider aperture to get myself down to a proper exposure at ISO 100? Can I add light in some other way?" One stop more light improves image quality about as much as upgrading from APS-C to full-frame.

“The fourth corner of the exposure triangle.”

TONY: "People haven't hated me enough during this lockdown, what sould I do?"

Jared Polin Is going to dislike this 👍

It’s not film…it’s an electronic camera with adjustable gain. This is effectively an amplification circuit which is amplifying the signal coming off the sensor. What you’re talking about is signal to noise ratio. Obviously, if you have plenty of signal (light) you have less noise… less signal, more noise. It’s simple… and nothing like a speedometer. Also proving your point with a dual base ISO camera just confuses the argument totally.

ISO, beyond the basic sensitivity level of your sensor (usually 100-200) is a gain amplification applied to the signal coming from the sensor. If you use it to compensate underexposure, instead of using the real exposure parameters (duration and aperture) it will definitely amplify noise.

Tony just blew my mind! In the audio industry we often refer to this as signal to noise ratio. I now realize the sensor noise is static, and that the iso setting is just adding gain. I never realized how much photography has in common with audio engineering until now. Light is a wave just like sound. My camera is a transducer just like a microphone, so all the rules of reflection, absorption, and distance (inverse square) apply.

Hello,
An automation engineer here with some knowledge of signal processing. I don't agree with your explanation: there is always noise, but amplifying the signal to properly expose an image increases its visibility, nothing else. The true exposure is defined by the light transmission of a lens (approximated by the diaphragm) and the exposure time (shutter speed). The camera can also have several basic sensitivity levels: simply take the signal power spectrum of an image and apply a gain to it. You can amplify the signal by using a higher ISO in your camera or in post-production, but the result is very similar with the raw format. But it's usually best to do it as close to the source as possible to avoid adding transmission noise before amplification and to work with the actual analog information and not with the digital information that has already lost some of it due to the quantization process.

A few points for people still confused about this:
1. When we say "noise" we generally mean perceptible noise. Grain we can see. All sensor readouts contain noise (the noise floor of the signal). It's only a problem when we can perceive it. At the levels we deal with in photography, it's caused by a few things, but mainly the random quantum behavior of photons, and electronic readout noise.
2. Dynamic range is the difference between the brighest part of the image and the noise floor. When a sensor is underexposed, this difference - the dynamic range - is smaller. The noise is still there, but it's too dark to see. However, a smaller dynamic range means a larger gain is required, and that gain applies to both the parts of the image we want (the signal) *and* the noise.
3. On mirrorless/DSLR cameras, ISO knobs usually apply gain before the camera's image processor gets the data. The exposure slider in post does the same thing, but after. On some cameras, ISO gain happens during the analog stage, which can reduce the effects of read noise, but most cameras *generally* have low read noise. In any case, applying gain with the ISO knob or in post makes very little difference when we're talking a few stops (ie. ISO200->ISO800 or +2eV).
4. The effect of adjusting ISO is different depending on your camera's mode. I think this is the key that has most folks confused. If you use your camera's automatic modes (program mode, aperture priority, shutter speed priority, etc) then raising ISO *will result in more perceptible noise* because your camera will underexpose the sensor. It is this underexposing which results in a lower dynamic range, lower signal:noise ratio, and more perceptible noise after gain is applied.
5. In manual mode, the only thing that affects perceptible noise is dynamic range, and this is determined by your exposure, not your ISO.
The noise is always there. It's part of sensing our world. It's only a problem when we can perceive it, and that only happens when we amplify it. We only amplify it because the bright parts of the image aren't bright enough, and this only happens because we underexpose the sensor. The same is true in the audio world: in audio, we don't call it ISO, we just call it gain. When you turn the gain on a microphone up, you hear a hiss. That's noise, amplified. You can speak more quietly (akin to underexposing a camera sensor), but will acheive a higher signal:noise ratio with less hiss when you turn down the gain and speak more loudly (akin to a proper exposure).
Lastly - this is not something to get worked up about. These are subtle differences for camera and math nerds. We find them interesting, but at the end of the day, it's the art that counts. If you still don't understand the point Tony's trying to make, then don't worry about it! Composition, storytelling and emotion are far more important than the details of how cameras calculate numbers from a bunch of voltages. :)

Exposure is determined solely by shutter speed, lens aperture, and scene luminance. Insufficient exposure will make more noise visible. To get less noise, you have to raise the exposure. ISO just maps an exposure to a desired lightness.

Your sensors sensitivity to light is fixed. It cannot be changed in any way. How much light reaches your sensor is determined (camera wise) by aperture and shutter speed. If little light reaches your sensor, the signal to noise ratio goes up as the sensor starts to mis-read the vague light. ISO is a factor the processor/software of your camera applies to the readings of the sensor. High ISO when used to compensate for lack of light will hence amplify the noise that is already there. So the little word "cause" is the debate here. In my mind, high ISO does not cause noise as such but will amplify it if present. So if you shoot with auto ISO on and the ISO value goes ballistic then you know light is missing. I think that is Tony's point. And a good one. So see the ISO as the canary in a coal mine. And don't worry about all the tech stuff.

For all non-technical people: it's the low signal to noise ratio (SNR) that ruins your picture, not the boosted gain that is applied to make the image brighter.

If you a confused, the point Tony is trying to make is if you are shooting in the dark and already have aperture and shutter speed maxed out, lowering the ISO won’t do you any good in noise reduction. You need to physically get more light in the scene. Thanks for the tip Tony, I remember trying to reduce ISO thinking the darker image will have less noise when I brighten it in post before.

Wrong title. Should lower exposure cause more noise

0:43 uses dual gain sensor to show high ISO doesn't introduce noise in comparison to a low ISO image corrected in post with the high ISO image clearly superior in the low-mid tones.
DOH!
An apples to oranges comparison where the sensor is not operating with the same parameters, effectively being a completely different sensor with regards to dynamic range due to the gain applied at the sensor and not after the ADC conversion as is usually the case for these types of comparisons (digital gain).
Given that there are many strategies with regards to gain, it cannot be claimed as a universal that ISO settings are effectively noise neutral to the output when your first example clearly demonstrates that this is not the case.

I have to say, that I was very skeptical of your premise, however, I just got done performing the same procedures you showed, and I was shocked to get the same results with my D800!! Thank you and your wife for all the hard work and effort you put into these videos!!

He's testing this on a Sony A7Riv which is ISO invariant above ISO 320 (ie. where the second amplifier kicks in). However, if you choose another camera which doesn't have ISO invariance (eg. Canon 5D Mark III) then the results should be quite different...

The title should be: „+5 exposure in Lightroom causes more noise than with no adjustment”. Duh...

Maybe it would be more correct to say that ISO is more like a volume control. You increase the volume control to hear the music better, but all the hum, static, and other noise is increased as well. The volume control is not causing the noise, just making it more apparent.

This is one of Tony's "duh!" videos. Raising ISO to avoid slow shutter speeds or to avoid large apertures essentially is underexposing a photo. So it is the same as taking an underexposed photo into Lightroom and increasing the Exposure slider. It turns out that more expensive wide-aperture lenses and/or Lens stabilization (to allow for a slower shutter speed) and/or tripods all allow for an exposure with the right amount of light. Anything else is using ISO as a cheat that will bite you later down the workflow. From other videos on RUclips, all sensors produce noise every time you take a picture. The more real light you are able to obtain during the exposure overrides that noise more and more (called signal to noise ratio). And yes, larger sensors do indeed have a lower native noise level than smaller sensors, all other things being equal.

I think a comparison to a tachometer (measuring RPMs) is more accurate than a speedomoeter. When the RPMs get too high, you change gears, which is effectively what you're doing by adjusting your shutter speed/aperture.

The lack of a greeting made me hear the opening as “Hi, ISO.” 😂

So if I uderexpose an image and drag the exposure up in post it'll be noisier than if I exposed it properly in the 1st place? What I've learned was that we need to end this lockdown so Tony can go outside and play!

If I understand correctly, the takeaways are:
1. Underexposing causes noise; a properly exposed image will always have less noise (regardless of ISO) than an underexposed image pushed in post, even for ISO-less sensors
2. Among properly exposed images, the one with the highest ISO setting will be the noisiest

I think the takeaway here should have been a properly exposed image reduces noise. In a dark environment, If you have the ability to add more light (ie. a constant light source or flash) then you will reduce noise, if you have the ability to lower your shutter by using a tripod thereby exposing the sensor to more light you will reduce noise, if you have a faster prime lens and you shoot wide open thus exposing the sensor to more light then you will reduce noise. I think this has to do with the signal to noise ratio no? Simply bumping the ISO will not in and of itself increase the amount of light available - thus more noise introduction. It's a fascinating topic though. Thanks for taking this one on Tony. Always one to face the controversy head-on - lol ;)

I honestly think that this lockdown is taking its toll on Tony’s sanity.

ISO is a signal amplifier. The signal in photography is light. Less signal = more noise. If you boost the exposure of a scene, either when taking the photo or during post-production, there will be more visible noise because of the lack of light. The information lacking in the picture because of not enough light is filled by random pixels of different colors by the digital cameras.

Anybody practicing "exposing to the right" knows that sensor saturation is paramount. If a high ISO helps/is required, OK, then use it. In my experience, using a lower ISO with proper exposure to the right results in less noise.

If you lower the image information level into the noise floor and then amplify both the image information and the noise in an attempt to recover the image, the image noise will be more apparent. The ISO setting amplifies the signal arriving on the sensor and by default the sensor’s noise, therefore the noise is a higher proportion of the signal if there is less signal. Amplifying the signal amplifies the noise.
High ISO is used because there is insufficient exposure of the sensor to light reflecting from the subject, raising ISO is used to amplify what is being received. Otherwise, we just accept that we run out of road and use the widest aperture and longest time necessary to decrease the proportion of our signal that is noise.
The noise is inherent to the sensor and the amount of signal amplification applied by the ISO setting, not the aperture or the shutter speed, those are independent of the sensor and its noise floor.
In any shot overexposing the sensor pulls the signal further above the noise floor. By recovering the image in post, because noise floor was already very low you reduced its effects by reducing image brightness to get the appearance of a correct exposure. Going the other way round and underexposing the sensor pushed the signal into the noise floor so changing the image brightness in post to compensate reveals the noise the image is imbedded in. The processing engine of a camera already does a lot of heavy lifting to fix the balance between noise and image. Adjusting the iso partially digitally processes noise effects away after amplifying the signal. Newer cameras tend to cope with under exposure better than older ones because noise processing may be better.

It’s kind of like saying, jumping off a building doesn’t kill you, it’s the sudden impact at the end that does.

Tony is actually right that high ISO isn't the demon. I found this out by mistake one time - eons ago when I accidentally kept one of the very older (Canon 60D) cameras at 1600 ISO when moving from a darker room to a brighter room. I changed the shutter speed but not the ISO and the fact that the sunlit room was awash in light, I was amazed at how clean the capture looked even at 1600 ISO - bear in mind this was back when 1600 ISO was pretty much a max limit for digital captures. It was the first time I realized that a bit of overexposure at higher ISOs was a GOOD thing - and that the real issue was combining underexposure (lack of light) with high ISO was the culprit. It's better to overexpose a bit with high ISO images and absolutely damning to not have enough light and shoot high ISO.

When i shoot the milky way with 1600 iso, the image has more noise then when i shoot outdoor with sunlight using iso2000. The missing of light cause the noise

Studying astronomy has made understanding photography so much easier. We work with CCDs and I'm responsible for checking the gain of the detector, which we use a monitoring script for. The gain is basically how sensitive the detector is to photons, and how much it can convert photons into electrons. The unit for gain (in astronomy) is electrons-per-DN where DN is digital number or the photon number. So if your gain is 2 e-/DN then for every photon that hits your sensor/detector/CCD you get 2 electrons of measurement.
So with ISO if you crank it up from 400 to 800, you're effectively going from let's say a gain of 1 e-/DN to 2 e-/DN. Same for 800 to 1600 and so on.
The amount of noise in a single pixel follows the poisson noise (shot noise) and is equal to square root of N, where N is the number of photons hit. If you don't have enough photons in an image (aka its severely underexposed), your shot noise relative to your photon count is going to be sizeable. If you have plenty of photons in an image (appropriately exposed) your shot noise is going to be minimized.
So if you had 1 photon hit a pixel, your shot noise is 1. Whereas if you had 100 photons hit a pixel, your shot noise is 10. 10/100 is less than 1/1. So basically if you appropriately expose your image given the gain of your detector (ISO), you can minimize your shot noise. This is basically what Tony demonstrated.
We have calculators set up to optimize the exposure for scientists who use our facilities, we call them exposure time calculators or ETCs. It's like the instant readout you get on your camera for your shot, but in this case scientists put in the object they want to look at in space plus what filter they want to observe in (infrared, ultraviolet, blue/green etc.) and it does a series of calculations to tell you what the exposure time should be, what the detector should be pre-flashed with light to, and what the final estimated brightness will be.

The first thing I said to myself was here we go again Tony hehe

I think I get it, but let me try to restate it in simple language for us simple old people: If I am taking pix of my lovely spring flowers, and I notice that I need to crank up my ISO to get "proper" exposure, what my camera is REALLY telling me is that my fstop is not low enough, or that my shutter speed is too high. And if I reply to my camera, "But camera, I need my aperture closed down this far for proper depth of field, and I need a higher shutter speed to stop motion blur because the wind is blowing," then the camera will reply, "Then shine some light on the flower, or wait until the wind calms down, and for heaven's sake use your tripod, because there's not enough light now to keep the noise down!!" Am I close?

It all comes down to the signal to noise ratio. If you cut down the light to the sensor, the ratio between your image and the noise floor decreases. You recover your image either through amplifying the signal+noise either in the camera (higher ISO) or in post processing. Same difference. So noise is caused by lowering the level of the signal (light) to the sensor. EE's point of view.

Mr. Northrop you have saved me, I have a Canon 90D and Sigma Art 18-35 F/1.8, my pictures always show noise even at base ISO, I was ready to quit and now I have watched and tested what you have said I have got rid of the noise problem. A massive thank you.

The process that you make in the computer when lifting the exposure is very different compared to shooting in a higher ISO (2 different stages in the image making/processing- Pre Gain VS After Gain). This whole video is extremely misleading. It only demonstrates the fact that you should get your exposure right and don't count on lifting it back in post. The claim that there is no correlation between High ISO to digital noise is ridiculous. The only thing that i can agree with is the statement at the end about using higher ISO as a last resort .

You are wrong on so many fronts! ISO is a gain control, it takes what you capture and amplifies it. If you have noise mixed with the light, SNR, then you will amplify both, if there is plenty of Signal (light), but very little noise in the capture, let's say, 90% signal and 10% noise, then any gain you apply, will increase both, but 2X 90% is far better than 2X 10%. In low light situations where the SNR is more in favour of noise, 60/40 split, using the gain will result in 2X 60% noise as opposed to 2X 40% signal. You don't need to be a mathematician to realise the bigger percentage will always win out. Electronic components also create their own noise, which adds to the total noise when engaging high ISO settings. The worst mistake you made, was using post production to try to compensate for shutter and aperture settings, as post production can add quite a lot, if not excessive noise to the already bad image. The answer is quite simple, you get the best SNR, ( light), from the composition you can, before you apply the ISO gain. In other words, in low light situations, drop your shutter speed, or pick a bigger aperture before you resort to picking a higher ISO. If you don't, and your capture has a high percentage noise level, upping your ISO will only boost the noise level and make the image worse. The more light that hits your sensor, the less noise there will be!

I've never seen Tony respond to so many comments :) He's right. Test this with your own gear (without blowing out the highlights) before disputing it. I was surprised with my testing!

A lot of people are missing the point that high iso isnt inherently noisy. Which i always thought it was. Great vid for a beginner like me.

Sometimes Tony is the perfect image of that guy who butts into a conversation you're having with "ACKSHUALLY" and goes off, and you just roll your eyes.

probably you are saying it later in the vid (hope so)
But it's the lack of light, that causes noise (i think). It's the signal to noise ratio, what's important here.
and with higher iso, they crank up the voltage of the sensor, therefore your noise ratio is higher.
So i guess i am disagreeing with you here. Higher ISO does cause more noise, but the main culprit in the story is the lack of light. And because higher ISO's are being used at lower light environments, it's easy to point your finger at the ISO, it's just a little bit more complicated then that.

I normally think Tony gets stuff right.
But Flawed testing here.
The image noise primarily exists in the shadows.
So if you underexpose shots. You have more noise. Regardless of how you end up being underexposed. Shutter, aperture, light or ISO.
If you have the same decent exposure, but THEN increase ISO. You will get more noise.
That doesn’t happen for shutter or light or aperture.
If you have the same decent exposure but vary shutter, light and aperture for each. And keep ISO the same, Then you will have consistent noise level.

Increasing ISO does induce noise if used to correct exposure...If you increase ISO (or raise brightness in post) to correct the exposure 'when' there is insufficient light on the sensor you WILL increase the noise. In other words, if you use ISO (gain) to correct for underexposed, you will introduce noise in order to gain the correct exposure.

Great explanation Tony. I have always been an available light shooter and tended to towards wide apertures on expensive fast primes. I recently started playing around with some slower but modern Leica/Voigtlander/Zeiss M lenses adapted to my Fujifilm APS-C camera. I realized what I really enjoyed was clean images with sharpness and tone more than bokeh; shooting a scene at f5.6 or tighter gave me what I wanted more than at f1.4. The consequence was I just started setting my ISO to the most tolerable setting for that time of day and shooting with a mini tripod. Instead of wasting money on glass I started to use the creative restrictions of shooting with a $30 mini-tripod as my guide to setting up shots. I was always afraid to "waste" the expensive glass on more moderate f-stops but I knew I didn't want blurry photos; by admitting what I wanted I sold off some expensive glass and just focused on what was sharp as well as a few cool stabilization techniques. The noise (or signal to noise ratio) is always about available light and separating it from ISO is important in thinking about exposure; ISO is gain to boost signal (and noise) and the more likely you need to add gain the more likely you need more light in your shot for your preference in noise level. Like you, I always viewed the % of my maximum allowable ISO for the setting as a measure of my success in curating the shot. Excuse the long comment, hopefully someone finds that valuable.

thanks, this is really thought provoking. Just want to add something here, noisy image is caused by not high enough Signal-to-noise ratio, meaning the sensor cannot collect enough "good" light signal to combat the noise naturally occurring in the circuit of the sensor.
So high ISO is really not to be blamed, it's by increasing the ISO, you are allowed to use a faster shutter, which in turns reduces the amount of "good" light that hit the sensor.

This is flat earth conspiracy theory in photography.

At 1:13, increasing exposure gain on pic 1 to match with pic 2 on post. As far as I know, in/decreasing exposure gain on post depends on ISO base of the picture. In this case, for example, if you gain the exposure of pic 1 +3 stop (idk how much exactly exp. gain on pic 1 to match pic 2 exp., so I assume +3 stop) from base ISO 6400, it would be similar to ISO 51200 on exposure. Noise should be worst than before, right?
Lets say, you take pic 3 with 1/640s f2.8 ISO51200 , it would be nearly same as pic 1 after exp. gained. Pic 2 will be much more clearer with long shutter speed as compensation.

Wouldn't this only be true for cameras that are ISO-invariant?

It's not a fair comparison as you made the pics brighter in post. A fair comparison would be iso 6400 f2.8 , 1/8th of a second vs iso 100 f2.8 8 sec.

good point, we can understand the video like this: increasing ISO = increasing exposure in post editing, they're same technical light boosting which causes more noise, but the ISO in the camera might work a little better in some way, that's why (ISO100 + increasing exposure in post editing) looks worse than High ISO

Raising exposure in post is simulating high sensor gain. This is a misleading video

I have an older Canon 50D. At ISO 400 is is noiceless with a well exposed image. At ISO 1600 it's very noisy with the same well exposed image. Same lens, same camera, same aperture (f2.8) and the shutterspeed is two stops higher.
I've always thought of ISO in digital cameras along the lines as radio reception. At the base ISO that the camera has - and it has only one - the noise is excellent. A radio picks up sound from a local station and it sounds good. If we want to listen to a radio station whose signal is weak because it's a distance away, we turn up the sound and hear the broadcast more clearly but we also hear popping and buzzing as the background signal noise. When we raise the ISO in the camera we are telling the camera that we will accept the weaker signal (less light) and through camera noise reduction and RAW noise reduction algorithms we reduce the noise to make it acceptable.

RUclips - "Tony, do you want to say something crazy or something that will piss off the internet?" Tony - "Yes"

I just took 2 (identical) shots of a house ... both in aperture priority at f/13.... both with correct exposure...
One was shot at iso 200 and one shot at iso 3200.... not surprisingly- one yielded 1/200th sec shutter speed- the other 1/3200th...
No prizes for guessing which image yielded the most noise... I'll leave you to decide if it was the high iso or the 1/3200th sec shutter speed that was the cause...

Coming up next: Focal length has nothing to do with the FOV.

The noise is always there. The same noise is in every photo here. When more light hits the sensor it overrides the noise. So Tony's right, more light (signal-to-noise ratio) less noise seen in image. Look through your viewfinder with the lens cap on.
There's your noise.

I found this out myself by trying to limit my camera to low iso which meant I was underexposing and got noisy images so now I let the camera choose iso and keep checking the histogram for correct exposure and yes using the auto iso as a “speedometer” is a handy tip .

So I came a little late to this, but it's as simple as to think that raising ISO is just like raising your exposure bar in lightroom. So it creates noise by retrieving the details in the shadows and mid tones. So technically it is not the ISO what creates noise, actually noise isnt created, its always there, it's just a matter of how visible it will be. And it will be more visible when there is less light, when there is more light, the light overlaps the noise (SNR).

is this a troll? I don't get it.

in short: noise is a function of total light gathered which is affected by aperture (flow) and shutter (time). ISO is a gain applied to the signal post-capture.

2:28 "But officer, I wasn't speeding, the accelerator was speeding"

Great information. Thank you for sharing this as has helped changed my perspective. I am attempting to apply this insight to getting better drone footage at night. I have been having trouble getting the right settings to reduce noise while still getting enough brightness in the key areas of the image. The aperture is fixed so its been coming down to adjustments in the shutter speed and ISO. I have also found that that for the Anafi PLOG produces the better footage. And that HDR adds a ton of noise. Do you have any recommended settings for capturing night video via Drone?

Since high ISO do not cause noise Tony , please show us a well-exposed image at very high ISO that do not contain noise.
(It's sad to write and say things that are NOT true! Very sad...)

I proved this to myself last night. We frequently have whitetail deer in our back yard. In the last month I upgraded my Canon Rebel T6 to a 90D, and upgraded my glass from the 75-300mm kit lens to a Sigma 150-600 Contemporary. I live on the west side of a hill, so light fades in my back yard well before sunset. I first tried photographing the deer at 600mm F6.3 (wide-open for this lens), 1/1000, and auto ISO (25,600). I got nice sharp images, but there was a lot of noise. Taking the advice of this video, and another of Tony's videos (on finding out how low you can get your shutter speed hand-held), I moved the shutter speed down to 1/250. The image was underexposed, but when I looked closely there was little to no noise in the image. Thanks, Tony!

Tony: High iso doesn't cause noise.
Also Tony: Don't use high iso if you can, because your pictures will look bad.

While under exposing and correcting in post certainly reveals more noise, it’s also true that the sensor’s signal to noise ratio is more favorable at lower ISO. I think he has a point about less light causing more noise, but I don’t think it’s true to say that noise is not at all related to ISO.

people who haven't watched the previous videos Tony made on ISO invariance and how ISO is fake are going to be so confused lol

The logic of your argument is not fully correct here. Noise is intrinsic to the light itself, but the more light (exposure) you get, the less noise. So, the question is what gives more exposure. Low f-number and long exposure time (low shutter speed)! But often the problem is that the shutter speed is limited because of motion blur, and the f-number is limited because of the focus depth that we want. Now, to have less noise always the lowest ISO is the best. Because the higher the ISO, the faster we get to saturation level, thus we should end our exposure. This is unless for any of those limiting factors we can not fully expose our full dynamic range (exposing to the right of the histogram). ONLY THEN, we can increase the ISO to get actually less noise, and that is because it will reduce the part of the readout noise that lies after the ISO amplification circuitry. ISO amplification is just a like a multiplier, it does not increase the real exposure.

Shoot a photo at iso 52000! That is high ISO!

I actually just figured this out yesterday doing macro photography. It was a very cloudy and overcast day. I went outside and I was using a flash with a paper plate setup on my Canon 100mm f2.8 lens.. I was shooting at 1/200s of a second f16 with ISO 6400. Because I was using the flash to introduce extra light. When I checked my photos in Lightroom there was no extra noise. Originally I was upset I had to crank up my ISO to 6400 because I knew that the amount of noise being introduced with the aggravating. Or at least I thought so. But the end result came out phenomenal. After doing a Google search of this I could not find a definitive answer until your video Tony. Thank you again for the wonderful upload and I hope you and Chelsea have a blessed and wonderful week.

i hope that Tony and Jared can do a photo shootout collab someday. It'd be really interesting

This isn't a very productive video, for beginners watching this it will confuse and mislead them. I understand that this video is intended for pros and makes for a very clickbaitey title but I think overall it will confuse people who dont know any better. Its also very misleading since Tony uses 6400 ISO (A higher ISO) on all of the pictures and specifically chooses the under exposed images to bring back in post which will always introduce noise into the image. Bringing back exposure in post introduces noise and Tony knows this, you might know this, I know this but someone who is just beginning might now know this.

So it's similar to gain, and noise caused by electronic (digital) amplification of sensor when there's not enough light
(Sorry but speedometer comparison was a bit confusing to me)

Electronics inside the camera like the sensor and ADC this is what makes noise. The noise is just a constant and by making shorter exposures it will look like we have more noise (because the noise is the same all the time, though it will be a bit bigger in higher temperatures).

The “noise” Tony is referring to is his own voice. The solution is to turn off this RUclips video and watch someone who knows what they’re talking about. Hope that helps!!

Dead wrong as usual, Silver Fox. You’re raising the exposure of the ISO100 shot so much to get it to see details that are in your ISO6400 shot that it’s causing noise. You can’t push that far in post without getting noise in the shadows. That’s why you’re getting more noise in the ISO100 shot. And btw, the 6400 shot also has a lot of noise - because it’s taken at a high ISO. It looks better to you because the ISO100 shot that you DESTROYED in post by pushing it so far in the shadows has degraded. ISO is, has always been, and will always be applied gain in a DSLR or mirrorless camera. It’s applied AFTER the shot is captured to artificially apply more light to the shot. Anything done artificially in the camera (and even in your destruction of the ISO100 shot in post) to compensate for the light that should have been in the shot to begin with will degrade the image and add noise. Not opinion, it’s a fact. Maybe you are ignorant - nothing wrong with that. But you should (1) learn how a camera really works; and (2) apologize on a future video to all those you are trying to learn the same thing you should already know by now. We’re not perfect, but ou need to admit when you’ve made a mistake.

What a great concept, speedometer.

He does make some sense, I don't think his statements can be entirely dismissed. Think of bird or sports photography in daylight. We shoot with high ISO so we can get the shutter speed as low as possible. An ISO of 6400 in sunlight will definitely not show as much noise as 6400 in low light. So it is certainly acting as a speedometer in this case, directly correlating to faster shutter speed.

Spot on. Low iso's don't prevent noise in my milky way shots if I fail to gather enough light. I often need 3 or 4 minute long exposures of my foreground to prevent high noise when i bring the shadows up. Gathering light is like catching rain in a bucket; if you don't have enough you're screwed regardless of how good your sensor is.

Tony, As pro's, we are taught that "shadows create detail". That's fine in theory, but not always applicable in real world situations. For example, in my real estate photography business, I shoot a majority hand-held at a higher ISO's than I would like - this is dictated by pricing, and number of homes I shoot daily. I have found with my EOS R and 16-35L f4 IS, a comfortable ISO to be around 800. This means I am shooting a standard room 1/60 @ f8 with flash at 1/4 power (angled 45 degrees back over my head) . I am able to add enough fill to not create bounce shadows, while retaining detail shadows and not blowing out highlights (windows).

Ken is gonna love this

Interesting manipulation of information...not real, but nice.
ISO works like a booster for low light environment...it boosts everything....also the noise is provided by parts of sensor that are not excited by photons, so increase of ISO is the increase of sensitivity of this parts...
A good sensor can have reduced noise as the software can analyze and eliminate part of noise (wrong signals from photodiodes) by comparing pairs of them and reducing fake electric signals.
This is why so called "night shots with reduced noise" have smaller size, as the matrix of photodiodes will be used partially for canceling the noise induced.

when you adjust the exposure in post(shadows highlight ....), you virtually increase your iso, noise is only dependant of the iso value (in camera + post)
when you have a short stutter speed, you pull the post processing iso up, so more iso and more noise
technically in low light it's better to stay at the lowest iso where your camera is iso invariant, 400 or 800 iso most of the time, so you won't clip the highlight (in a concert for exemple) (also be carefull with the new mirrorless and banding effect)

I'm really happy you posted this vid, I was starting to watch some of your material. I'm glad you stopped that quickly by revealing your level of competence.

But dont you bring up the "ISO" in post? Thats why there is always more noise....

Easier said than done when shooting wildlife with telephoto lenses and the need to use fast shutter speeds to prevent motion blur! The light outdoors at any given place on any given day is fixed.
The beauty of larger sensors is that you can dial up the ISO more and still see less noise. ISO 6400 on my Panasonic G85 is nearly unusable. ISO 6400 on a Sony a7s II is VERY usable. And that can be crucial in a situation where you don't have much control over the light or as much flexibility to reduce shutter speeds. I have found sports and wildlife photography can really push a camera to its limits like no other type of photography.

Tony, You are Saying The Same Thing in a different WAY, Right ?
i.e.
Less Light Makes Noise !!!

Simple setup: take images with the lens cap on. Change ISO. Change Shutter speed. Change Aperture. Do the same for each setting of ISO. Look in Lightroom. Do not adjust exposure. Look at the difference. Then increase the exposure for EVERY image to the SAME increase of exposure (+5). Look at the difference. On my Canon 5D MK IV, at ISO 100, the images are black and stay black, regardless of shutter speed or aperture. At ISO 32000, the noise from the sensor can be seen in the image before exposure adjustment and is accentuated drastically when exposure is increased. This means there is, at least for Canon, a direct correlation to increased noise at higher ISO settings. (ISO100,1/60,F1.8;ISO16000,1/60,F1.8;ISO32000,1/60,F:1.8;ISO100,30",F16;etc.etc.etc.)
The point about low light is valid, but to say that ISO doesn't produce noise, at least for Canon, is pretty easy to show is not correct by doing the lens cap test.

Very interesting. Thank you for showing me how to think about ISO in a different way :)

Noise isn't caused by high iso but by the lack of light - Simon d'Entremont.

*sits and waits patiently for Ken Wheelers response 😳

Great video. But to nitpick, f/ stop and shutter speed and lack of light don’t *cause* noise. The noise is always in the sensor. What f/ stop and shutter speed and light affect is the signal to noise ratio (SNR). When you float the ISO and it reaches high levels, it’s an indicator that SNR is dropping.

The ISO in this cases is caused by the shadow lifting in your editing.
I think the correct way to compare in this case would be having the on image correctly exposed, and the other one over exposed, but correcting it with an ND so both would be at correct exposure. That would be a fair comparison

Fair argument, except the iso isn't bound to shutter speed or f stop, you can set it manually. And regarding that, iso introduces noise!
because in video you can't change any other settings..
This is called SPS in engineering or paramater dependance in equations. velocity and acceleration are bound to each other as with the throttle/spedometer example. Tonys argument only makes sence with camera in shutter, auto iso or aperture priority

High ISO doesn't cause the noise to exist, but it does amplify it.

Shoot something exposed correctly at base ISO and then shoot it again exposed correctly with the ISO cranked higher and there will be more noise...this is nonsense, its like saying improper shutter speed doesnt cause motion blur a fast moving object does

3:12 "change your settings to reduce your iso" then 3:50 "changing these settings doesnt change iso", does this not contradict itself?

I watched your previous video about ISO long time ago, and I have to say you're right. The conclusion is, every photographer needs to get the correct amount of light before taking any photos.