Isaac Reynolds has been working on the Pixel television camera team at Google for all but 10 months since the first Google Pixel phone launched in 2016. And yet, I think it’s fair to say that he’s never been more optimistic about the applied science that Google has tightly knit into a phone television camera than he is with this year’s Pixel 10 Pro. A new wave of AI breakthroughs in the past year has allowed Google to use large speech models, auto-learning, and productive AI imaging to unlock new capabilities to power different meaningful leaps forward in phone picture taking.
I got the find to sit down with Reynolds as he was still catching his breath from the launching of the Pixel 10 phones—and at the same time, ramping up for the next set of television camera upgrades. The team is preparing for the 2026 Pixel phones.
Google Pixel 10 Pro television camera
ZDNET’s Kerry Wan takes a photo with the Google Pixel 10 Pro television camera.
Sabrina Ortiz/ZDNET
Isaac Reynolds has been working on the Pixel television camera team at Google for all but 10 months—since the first Google Pixel phone launched in 2016. And yet I think it’s fair to say that he’s never been more optimistic about the applied science that Google has tightly knit into a phone television camera than he is with this year’s Pixel 10 Pro. A new wave of AI breakthroughs in the past year has allowed Google to use large speech models, auto-learning, and productive AI imaging to unlock new capabilities to power different meaningful leaps forward in phone picture taking.
I got the find to sit down with Reynolds as he was still catching his breathfrom the launching of the Pixel 10 phones—and at the same time, ramping up for the next set of television camera upgrades, the team is preparing for the 2026 Pixel phones.
Also—Pixel just zoomed ahead of iPhone in the television camera picture-taking race.
I peppered Reynolds with all of my burning questions about ProRes Zoom informal editing, television camera coach AI models, the Tensor G5 chip, Aut Best Take, and the bigger ambitions of the Pixel television camera team. At the same time, he challenged me with info I didn’t bear on telephotograph panoramas, C2PA AI metadata-conducted frames, and educating the state about AI.
I got to take out a lot about how the Google team was able to applysuch big advances in the Pixel 10 Pro television camera organization, and we delved far deeper into the new picture-taking features than Google talked about in its 2025 Made by Google event or in its publicized blog post.
Mission of the Pixel Camera team
“I think the major thing our team has ever been adjusted on is what I call long-lasting [picture-taking] problems—low light, zoom, energizing range, and contingent,” said Reynolds. “And every propagation [of Pixel] has brought new technologies.”
Camera Coach
Reynolds noted, “LLMs have such a big circumstance windowpane, and they’re so muscular at understanding that we can really teach life to do things that tech can’t do.
“Today, tech cannot move the television camera down four feet. Tech can’t walk the television camera over 100 yards to the wagerer’s vantage point. It can’t tell you to turn 90 degrees. Now, with a television camera, Coach can do that kind of stuff. So that’s just a different way we’re using applied science to solve some of these long-lasting problems.”
Pro Res Zoom
As a photographer who loves zoom picture taking, this was the feature film I craved to talk with Reynolds about the most. I take a lot of photos with smartphones, but long-space zooms are where I most often need to pull out my Sony mirrorless telephoto camera and 70—200 mm lens. I’ve already left slanting about how aflutter I am to exhaustively test ProRes Zoom, since it could help develop a lot more available zoom photos from a phone by using productive AI to fill in the gaps in digital zoom.
