Frames from Mandao of the Dead, a feature I shot in Jan/Feb 2018. Director: Scott Dunn Producer: Gina Gomez
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Love Begins
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Monterey Bay Aquarium
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JBB: An Artblog!

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@ajyoung-dp
Frames from Mandao of the Dead, a feature I shot in Jan/Feb 2018. Director: Scott Dunn Producer: Gina Gomez

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Frames from The Aftermath
Director: LaChelle Hunt
Frames from âImaginary Bulletsâ, a short film I shot in late 2017.
Director: Sean Oliver
Frames from âNoise and Colorâ, a feature I shot in 2017.
Director: Logan Stone
#AJYoung #Cinematography #DirectorofPhotography #NoiseAndColor
ACES Notes
I attended an ACES Seminar hosted at Canon Burbank. Here are my abbreviated notes from the seminar. I need to do more research on ACES, but hopefully these quick notes help any reader!
ACES is designed as a system, not a workflow or software
Sophisticated color science
Meets SMPTE Standards
Best practices for encoding, on set, post production, and archiving
Hardware/Software are 3rd party
ACES is not software, workflow, or look.
There is a âlookâ, but a baseline thatâs metadata. The look will change depending on the output
Why was ACES made?
Loss of film standards. Back in the day, color science and accuracy was largely left to two companies, Kodak and Fuji.
Digital has loss the standards of color science. Every camera manufacturer works in their own color science. Every display works in their own color science.
The tech explosion blurred the line between on-set and post processing
Explosion of end deliverableâs
DCP, TV, internet, DVD, Blu Ray, ???
ACES system designs to master once, tweak, and then distribute to desired output
ACES helps preserve archiving for future re-releases to retain original artist intent.
Example, indie film was shot on a 5D and viewed in Rec709. In 40 years, will Rec709 be a standard or will something new be a standard? ACES helps retain the original image intent and transform the data to fit the new standard in the future
Key Benefits of ACES
Maintains maximum image fidelity throughout workflow
Consistent color reproduction from set to edit to color
Ends âsnowflakeâ, proprietary, or unique color workflow
IE: post-production house âAâ works in REC709 8 bit, while post-production house âBâ works in REC2020 10 bit, while post-production house âCâ works in P3 12 bit, etc
No longer with ACES!
Reduces pre-grade time through camera matching at the start
HDR
Wide Gamut
Archiving Master
Why isnât everyone adopting it?
Change is hard
ACES replaces proprietary workflows
Not everyone needs to know about ACES
Colorist? Yes
DP? Maybe?
Director? Nah
ACESCentral.com = more info
IDT = Input Device Transform
Camera manufacturer dependent because ACES needs the manufacturerâs secret sauce to imaging the data from the sensor
This is the weak link in the chain of ACES. The transforming of the input values could be incorrect. Where is the reliability?
ODT = Output Device Transform
REC709 TV Screen? ACES transforms the image to perfectly fit the output device.
Iâm trying to learn more about ACES, but itâs becoming evident that I only need to understand how it works in a broad sense as a DP.
More to come!

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Canon Burbank Seminar 8/23/17
I attended a seminar hosted by Canon at their Burbank location. The night focused on using Canonâs logarithmic (Clog) curve for video and production use. Cinematographer John Gardiner lead the seminar and did a brilliant, relaxed job at educating the audience.
Here are quick notes I took from the event:
There are three different Canon LOG curves.
Canon Log = Now referred to as CLog1, this is the first generation log curve Canon introduced when they released their C100/300/500 line of video cameras.
About 12 stops of dynamic range
Designed for 8-bit depth images.
Has an incredible low noise floor and can be underexposed to retain highlights without much increase in noise.
Excellent for low light situations because of the low noise floor
Records between 0-100 IRE
Canon Log 2 = Referred to as Clog2, this was the second generation log curve, introduced when Canon released the C300 Mark II. The C700 and C200 will have Clog2.
About 15 stops of dynamic range
Designed for 10-bit depth images.
Has the best highlight retention of all Canon log formats
Notorious for a noisey image. This is due to the increased shadow retention and dynamic range
Best to overexpose the image and then pull down in post to eliminate noise
Records between 0-92 IRE
This allows highlights to be âwhiterâ by pushing them up in the color grade
Canon Log 3 = Referred to as Clog3, this was the third generation log curve, released by Canon after complaints about the noise on Clog2. It was a firmware update for the C300 Mark II and will be on the C700 and C200.
About 13-14 stops of dynamic range
Designed for 10-bit depth images
Designed to be a happy medium between Clog1 and Clog2; good highlight and shadow detail.
Low noise floor, but not as good as Clog1
Best suited for natural light situations
Can be underexposed like Clog1
Records between 0-100 IRE
Choose the log curve based on the situation youâre in. Of course, the C100 Mark I, C300 Mark I, and C500 only have Clog1, but the C300II/C200/C700 have both Clog2 and Clog3.
Clog2 = Best for situations needing highlight retention. Not ideal for lowlight situations because of the noise in the shadows
Clog3 = Best for low light situations and natural light.
Canon cameras work best with changing the ISO in camera rather than in post. The log curve was designed to work with the ISO selected and does its best to reduce the noise when the ISO is increased. Of course, noise will increase when boosting ISO, but youâll have FAR more noise and less information if you try to boost the ISO in post.
RAW from the C500, C300II, and C200 lock or âbakeâ in the ISO and white balance. The C700 is the only camera that records true RAW images that record the ISO and white balance as metadata that can be changed in post like ARRIRAW or R3D.
Black Balance should be done when changing from one location of a extreme brightness/darkness to a location of the extreme opposite. For example, if Day 1 is in the Sahara during the day and Day 2 is at night, then definitely black balance the camera on both days.
Black Balance the camera when it has warmed up in the environment youâll be shooting in. This is the true operating temperature of the camera.
Sensor Smear happens on the log images recorded by any Canon camera. Itâs an artifact of CMOS sensors. Only occurs in areas of HIGH contrast over a large area of pixels. Red, Panasonic, and Sony sensors suffer from this problem too.
Noise isnât the enemy, itâs a matter of taste. Furthermore, noise reduction software in post-production has grown incredibly advanced today. John pointed to this example of using noise reduction on the C200 exposed at incredibly high ISOâs: Cloak Room Media Vimeo
The burned in look of the WideDR is excellent for productions with no color correction.
You have to choose your color gamut on the camera. Cinema gamut has the widest range. The camera also has Rec709, Rec2020, and DCI-P3. You can not choose the color gamut on the first generation C100/C300/C500. They are Rec709, I believe.
You have to choose your color matrix in the camera. The color matrix is essentially how colors are rendered in the newer line of Canon cinema cameras. This is where the instruction became vague from both John and Canon.
Neutral = Well...they said itâs a neutral color. So, Canon look?
Production Camera = John said itâs Canonâs Alexa look, but Canon wonât call it that. haha
Canon Cinema Camera = The look weâve been used to from C100/C300/C500 first generation
Video = John said itâs Canonâs Sony look.
EOS Standard = The classic base setting on Canon DSLRs.
Off = Well...itâs actually a neutral color. So, Canon look again?
I want to thank John and Canon for providing this incredibly informative event! I hope these notes help anyone whoâs reading!
Dir: Michel Gondry DP: Ellen Kuras, ASC
Schlep (2016) Dir: Scott Dunn Producer: Gina Gomez
Behind the scenes of "Noise and Color" (Production: 2017, Release: TBD)
Behind the scenes of Jesus, Bro! (Production: 2016, Release: 2017)

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Behind the scenes of The Watchmanâs Canoe
Behind the scenes photos from The Watchmanâs Canoe, shot in summer 2016.
Frames from The Watchmanâs Canoe, a feature film I shot in Cooâs Bay, OR.
Dir: Barri Chase PD: Alan and Laronnica Dendinger Gaff: Jarrod Wilson KG: Joe Paulet Camera: ARRI Alexa Mini Glass: Cooke Anamorphics
Developing the Look of The Watchmanâs Canoe
âGod, I wish we could shoot this on film.â I remember Barri Chase, the director of The Watchman'sâ Canoe, lamenting over the reality of tiny budgets for indie films. Funds were forcing us to shoot the feature on digital, but we still wanted the aesthetics of emulsion. The question became, how can we make digital look like film?
Before landing on a camera, I researched what makes film look like film. Long story short, I discovered an inverse relationship between digital and film.
Film holds highlight detail incredibly well, while digital holds shadow detail. This is because the two mediums record light on a fundamentally different level. Silver halide in the film stock require a certain amount of photons (aka, threshold) to activate the chemical process for recording an image. Conversely, digital starts with a maximum threshold of photons and keeps reading less and less photons until the next exposure.
Film has grain, digital is clean. A no brainer, but definitely a distinguishing quality of emulsion that naturally occurs within film. At optimal settings (IE: native ISO or less), digital is clinically clean.
My sources of research were: How Video Works by Weise and Weynand, ASC Manual 10th Edition, Cambridge in Color, and working colleagues.
The inverse relationship between digital and film gave me an idea to use it to my advantage.
Colleagues recommended I check the work of Harris Savides, specifically Birth and The Yards, and of Jody Lee Lipes in Martha Marcy May Marlene. Both cinematographers severely under-exposed the negative and pushed them back in the lab. The resulting effects were seamless highlights and quick to black shadows. As a viewer, it gave an unsettling experience (Birth) and a worn old feeling (Martha).
We originally wanted to shoot on film because the story took place in the 1960â˛s. We wanted the image to look like an old home movie found in your grandmotherâs attic. Little care to the emulsion with grain, milky shadows, and soft highlights. I figured, based on the work of Savides and Lipes, I could play with underexposure to make my digital camera mimic film.
Our budget allowed for the Alexa Mini. The ARRI series of digital cameras looks like film straight out of the box which was an incredibly helpful starting point. However, I didnât believe the camera at base settings was enough; I wanted more of a filmic response to light. I decided to play with the ISO.
ISO (International Standards Organization), ASA (American Standards Association), or gain (measured in DB) are simply arbitrary units of measurement for a cameraâs sensitivity to light. Most digital cameras are rated in ISO, but ASA is the same measurement.
For many new cinematographers and filmmakers, changing ISO means the camera is more/less sensitive to light; great for dark locations that low budget films are forced to use. Changing ISO may be save the day on set, but can be deadly later in post.
The native ISO is determined by the camera manufacturer to be the most equal distribution of detail above and below proper exposure (18% grey). Theoretically, a camera with 12 stops of dynamic range at native ISO will have 6 stops of detail in the shadows and 6 stops of detail in the highlights.
The camera is only sensitive to a certain amount of light, whether it is a lot or a little. The dynamic range is based on this, which then the native ISO of a camera is determined.
When a DP deviates the ISO from the native ISO, theyâre not making the sensor more sensitive, but interpreting the data differently. For a rough example, if I decrease my ISO by two stops, then I lose two stops of detail in my highlights and gain two stops of detail in my shadows. The following graph is a visual representation of what Iâve described (assuming 800ISO is the native ISO for a hypothetical camera):
Film is the same way; pushing/pulling the film stock in the lab doesnât make the emulsion see more, it just interprets the latent image differently.
I entered the camera tests with a clear direction: how can I best shift my dynamic range into the highlights?
Testing was done at AbelCine Burbank, who supplied the camera package for the entire feature. I shot a grey card and color chart at various under exposures at various ISOâs. (For a control group, I recorded the native ISO as well) Then, on site, I threw them into DaVinci and pushed the images back up to proper exposure. In comparison to the control group, I chose six different under exposures to take with me out into the field with my actors.
I couldnât get the original actors for the camera tests (because both were in two separate states). Instead, I got the help of two friends (Kelly and Zak) who closely matched the look, skin tone, and hair color of the main cast.
You can watch the test results here:Â https://www.youtube.com/playlist?list=PLu4QCg_xGCQOvOaSmzkhGfNdUVoYwo3qa
The following are some stills of the test results:
Full shade
Sun as edge light
Sun as key light
On location, I seemed to favor the 1600ISO under exposed by two more stops, effectively under exposing the image three stops in total. It looked great in complete shade and when the sun was the edge light, but completely fell apart when the sun was the key light. That was to be expected, however, because the contrast between the highlights and shadows is extreme. Having little to no information in the shadows renders VERY milky blacks in such a high contrast situation.
I also tested at night with my friend Chris. Some scenes feature candle light:
(NOTE: Theses stills have a 1/2 BPM Filter on)
(NOTE: These stills have a 1/2 BPM Filter on)
Barri and I screened the results on a DCP projector and agreed that 1600ISO -2 would be the be ideal look for the film. Needless to say, the end results were fantastic when we entered production. I LOVED the images we were getting.
There were some downsides to this look that essentially was baked into the image:
Little to no shadow detail - Naturally, in the color grade some shots (or parts of a shot) were too dark. Pulling exposure from the shadows yielded a lot of noise. It was also sometimes impossible to pull anything from the shadows if it was beyond 2 stops under exposed from our settings.
Color bounce - Because of the shooting ISO of 6400 (1600IS - 2), I generally needed to use less lights. However, the sunlight bounced a lot of green color onto my subjectsâ faces. Itâs not because the color information fell apart with such a look, itâs because the green colors of the forest were bouncing green light when the sun hit them. This happened a lot.
IR Pollution - The high ND filtration needed for the daytime shooting could result in IR pollution. Thankfully, the Alexa Miniâs built in filters were designed for this, but became a concern during the sand dune scenes.
Noise - Inherently, this method creates a lot of noise. It looked perfect for us because we wanted a filmic grain, but could be troublesome for other filmmakers. The color of the noise was noticeable, so my colorist Nicole and I desaturated our shadows to try and eliminate the color from the noise
S16 Mode - The Alexa Mini offers S16 mode, which crops the sensor to be S16 size. However, this made the noise BIG in the frame because the pixel elements were bigger in comparison to the normal 4k sensor.
I want to thank Zak Stonemover, Kelly Mis, Sara Clouse, Mike Stanislawski, Gabriel Mays, Jayson Crothers, Tai-lynia Jones, The Egyptian Theatre in Cooâs Bay, and AbelCine for helping me develop this look in prep and proceed with the testing.
I canât wait to share the final results with the world! Stay tuned!
I happened upon the work of photographer David D, from Ukraine. His work is above and here:Â http://photographers.ua/DavidD/
Stunning, elegant, and precise. To some, a lot of his work can seem sexually provocative, but the amount of class he injects into his nude photography elevates his work from pornography to a master painter.
His compositions are brilliant (evident with the ballerina completing a circle with the window), his use of the sun realistic with subtle mise en scene, and the stories he tells from the subjects are compelling. One canât help but find a connection with the characters in his images, albeit most of them stare directly at you.
I would love to see David expand his work from women to men, children, and animals. Thereâs not much I can find so far online about him other than his profile page on Photographers.ua. However, Iâve emailed him to find out more...and to compliment him on inspirational photography.

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Today Iâve started something new for me.
In an effort to expand my network and shoot new projects, Iâve started cold calling via email. Itâs very odd, I feel like a door-to-door salesman. However, after listening to âThe Wandering DPâ, it seems like a very natural thing to do as a cinematographer.
From what Iâve read, itâs best to email at least 20-25 people a day to see some real results. My approach is to build a relationship with the people I email, not just email a job request. I learned this method from Mark Schimmel, a commercial director I had as a professor at Columbia College. Developing a good relationship from the beginning, I believe, can make a long lasting relationship.
So, Iâll keep updating everyone on my cold calling! I was able to do 15 emails today, with two responses, and one coffee meeting scheduled! Not too bad!
The Watchmanâs Canoe is a feature film Iâm currently in pre-production for, with production slated in June 2016.
The film takes place in the 1960s focusing on a young girl living with her family on a reservation in the northwest US.
Barri Chase, the director, and I are playing around with making the cinematography look like it was from the 60s.
Right now, Iâm testing the idea that this movie was something you found in your grandmotherâs attic. Basically, a giant can of 16mm film that contains the memory and story of our character, Jet.
These photos are test shots I took on 35mm with my Yashica FX-3. I used a combination of Fuji and Kodak stock, but the feature will be shot most likely on 7219 (for grain structure).
Dirty, old, mis-used film is what I want the test shots to look. I developed this negatives myself in my kitchen sink and scanned them in myself with my Canon 5D.
Scanning the photos in was an experiment to make the image messier; I used cardboard to cut out a âframeâ for each shot on the negative.
Developing the photos by hand DIY also added dust, finger prints, hairs, and chemical stains.
The stills so far are looking great, and I still have another roll to complete. However, Iâm worried if this style will carry over to motion picture.
Luckily, we have the digital test footage from the concept trailer. This digital footage can help be a proof of concept and also give us insight on the post-process for making digital look like old film with we end up shooting digitally instead of on film.
More stills to come!