SVT Achieves Industry-Leading Sustainable TV Production With Ateliere Live
“The Great Moose Migration” demonstrates Ateliere Live’s efficient and eco-friendly remote production workflow leveraging advanced NVIDIA GPU technology; streamlines overhead for 50% or more cost reductions.
Ateliere Creative Technologies, a leading GenAI media software solutions company, has announced Sveriges Television’s (SVT) groundbreaking use of Ateliere Live to remotely produce the popular TV show, “The Great Moose Migration,” achieving record sustainability goals while cutting costs. Leveraging the NVIDIA RTX 4000 Ada Generation GPU, Ateliere Live represents a significant step forward for eco-friendly broadcasting while significantly reducing overhead costs. To help contribute to additional sustainability efforts, Ateliere’s GPU-based solution will also be deployed on NVIDIA Holoscan for Media, an AI-enabled, software-defined platform for live media.
Since its debut in 2019, “The Great Moose Migration” has captivated audiences with its serene, slow-TV format, providing a counterbalance to fast-paced reality shows and action films. The show follows a herd of moose on their ancient migration paths, streaming non-stop for over 500 hours each season. This year, SVT has revolutionized its production process by eliminating the physical presence of a large on-site crew, thanks to Ateliere Live’s REMI technology and proxy workflow.
Sustainable Storytelling
Initially, producing “The Great Moose Migration” required significant resources. Forty robotic cameras deployed in the wilderness were managed by a team stationed in a remote cabin for the entire production period. With Ateliere Live, SVT has reduced this physical footprint, achieving considerable cost savings and minimizing environmental impact. This shift is vital for ensuring the long-term viability of the show and preserving the natural habitats it pays homage to.
Efficiency Through Advanced Technology
Ateliere Live’s innovative design using NVIDIA GPU processing and remote proxy capabilities has reduced costs by more than 50% per hour of live TV produced. Unlike with traditional methods, video remains within the GPU from just after reception from remote sites until just before distribution, cutting down the need for repeated encoding and decoding. This streamlined production pipeline results in significant reductions in carbon footprint, with initial estimates indicating at least a 70% reduction compared to traditional broadcast technology.
Producing “The Great Moose Migration” involves intricate logistical planning and the ability to operate in extreme weather conditions. The use of solar-powered equipment and advanced compression technology ensures high-quality footage from remote locations without disturbing wildlife. The production team can now work from familiar environments, with live video feeds transmitted over 650 kilometres to SVT’s broadcasting facilities.
A Vision for the Future
SVT’s commitment to sustainability extends beyond “The Great Moose Migration.” The introduction of Project Neo, a digital transformation initiative, aims to convert SVT into a modern digital media company. This includes using standard IT hardware for production, significantly cutting costs and environmental impact. Ateliere Live and NVIDIA GPUs are integral to this transformation, offering a flexible, efficient, and eco-friendly approach to live TV production.
You might also like...
The Changing Face Of Live Sports: Part 1 - The Rise Of Nimble Production
Live sports broadcasting has always been the preserve of big leagues and big broadcasters with the infrastructure, the clout and the resources to match. But it is no longer the only game in town.
Standards: Audio - High Efficiency Audio Codecs (HE-AAC)
HE-AAC builds on the foundations of AAC to deliver near CD-quality audio at bitrates as low as 32 kbps, making it the codec of choice for mobile TV, digital radio and low-bandwidth streaming. This guide unpacks the key technologies behind its…
IP Security For Broadcasters 2026 – The Psychology Of Security
As engineers and technologists, it’s easy to become bogged down in the technical solutions that maintain high levels of computer security. But as the boundaries between traditional broadcast engineering and IT continue to dissolve, the first port of call i…
Standards: Audio - Advanced Audio Coding (AAC)
AAC succeeded MP3 by delivering better quality at lower bitrates. This guide examines how it works, compares the leading encoder implementations, and explains where it sits within the broader MPEG audio standards landscape.
Broadcast Standards - The Science Of AI: New Foundations
We begin this series with the foundational building blocks of AI. Basic principles, the technology stack and the types of AI based upon it, and how to apply them effectively in a broadcasting enterprise.