https://deepmind.google/discover/blog/genie-3-a-new-frontier-for-world-models/

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Genie 3: A new frontier for world models

Published
    5 August 2025
Authors

    Jack Parker-Holder and Shlomi Fruchter

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Today we are announcing Genie 3, a general purpose world model that
can generate an unprecedented diversity of interactive environments.

Given a text prompt, Genie 3 can generate dynamic worlds that you can
navigate in real time at 24 frames per second, retaining consistency
for a few minutes at a resolution of 720p.

[RTzT-pSJGTU2293C7Q87Qlv8CsiSWfyMEWKqvFidOhubxJ-WXgr8oIQFd6-2rJrUz68S17faVMdDCiI6RAxTvw158xtwWvQFNh3i2Km76lqjFfyc4g]

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Towards world simulation

At Google DeepMind, we have been pioneering research in simulated
environments for over a decade, from training agents to master
real-time strategy games to developing simulated environments for
open-ended learning and robotics. This work motivated our development
of world models, which are AI systems that can use their
understanding of the world to simulate aspects of it, enabling agents
to predict both how an environment will evolve and how their actions
will affect it.

World models are also a key stepping stone on the path to AGI, since
they make it possible to train AI agents in an unlimited curriculum
of rich simulation environments. Last year we introduced the first
foundation world models with Genie 1 and Genie 2, which could
generate new environments for agents. We have also continued to push
the state of the art in video generation with our models Veo 2 and
Veo 3, which exhibit a deep understanding of intuitive physics.

Each of these models marks progress along different capabilities of
world simulation. Genie 3 is our first world model to allow
interaction in real-time, while also improving consistency and
realism compared to Genie 2.

[BTZLy7YX2zeZCnbOYhaHyyb4xhovsOmu7AvrncDWrBN_1EMCoxRIYopq0Ezw5Pvx8qTlOV6ij1ZKiOYZjJbMburLl6E8aN7qLH78H12EODN_7pjiI6c]
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Genie 3 can generate a consistent and interactive world over a longer
horizon.

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  * Capabilities
  * Embodied agent research
  * Limitations
  * Responsibility
  * Next steps

Genie 3's capabilities include:

The following are recordings of real time interactions from Genie 3.

Modelling physical properties of the world

Experience natural phenomena like water and lighting, and complex
environmental interactions.

Pause video Play video

Prompt: The video shows a first person perspective of someone
navigating difficult terrain in the middle of a volcanic area. This
is a real world video shot from the perspective of a wheeled robot
that needs to traverse across a terrain. The vehicle has chunky
offroad tires that crunch under the blackened rock. The camera is an
egocentric camera mounted to the vehicle, and you can see the front
tires just on the bottom of the camera along with the body of the
robot. In the distance you can see smoke and lava flowing from the
volcano. There are no other visible signs of life. There are lava
pools that the agent is trying to avoid and random rock formations.
The sky is a vivid blue.

+ -
Pause video Play video

Prompt: Jetski during the festival of lights

+ -
Pause video Play video

Prompt: Walking on a pavement in Florida next to a two-lane road from
one side and the sea on the other, during an approaching hurricane,
with strong wind and waves splashing over the road. There is a
railing on the left of the agent, separating them from the sea. The
road goes along the coast, with a short bridge visible in front of
the agent. Waves are splashing over the railing and onto the road one
after another. Palm trees are bending in the wind. There is heavy
rain, and the agent is wearing a rain coat. Real world, first-person.

+ -
Pause video Play video

Prompt: Fast tracking real world video following a jellyfish swimming
at high speed through the darkness of the deep sea between canyons
covered in densely packed vent mussels with tiny white crabs crawling
on them. Blurry hydrothermal vents in the distance spew thick,
billowing plumes of vibrant blue, mineral-rich smoke from glowing
rocky structures. Very dark, dim deep sea lighting, particles float
in the cloudy ocean.

+ -
Pause video Play video

Prompt: A helicopter pilot carefully maneuvering over a coastal cliff
with a small waterfall.

+ -
---------------------------------------------------------------------

Simulating the natural world

Generate vibrant ecosystems, from animal behaviors to intricate plant
life.

Pause video Play video

Prompt: Running by the shores of a glacial lake, exploring branching
paths through the forest, crossing flowing mountain streams. Set
amidst beautiful snow capped mountains and pine forest. Plentiful
wildlife makes the journey a delight.

+ -
Pause video Play video

Prompt: Real world tracking shot swimming through deep dimly lit
ocean between deep ocean canyons, densely packed vast school of
jellyfish swimming, bioluminescent lighting.

+ -
Pause video Play video

Prompt: This is a natural, real-world landscape designed as a
Japanese zen garden. The scene is set in the early morning under a
clear sky. Soft, warm sunlight illuminates the garden, casting long,
gentle shadows. The ground is covered in fine, white sand that is
raked into meticulous swirling patterns. A small, still pond is
present, with pink water lilies floating on its surface. Smooth, grey
rocks of various sizes are placed throughout the garden, some with
green moss on their surfaces. Key structures include a stacked stone
cairn and a traditional Japanese stone lantern. The entire area is
enclosed by a tall bamboo fence in the background. The visual style
is photorealistic, with high detail in the textures of the sand,
stone, and lush green vegetation.

+ -
Pause video Play video

Prompt: The environment is a natural, real-world landscape,
specifically a dense arrangement of lush, vibrant foliage. The leaves
are broad and deeply textured, displaying an array of green hues from
emerald to lime, interspersed with hints of yellow and red,
suggesting a rich, healthy ecosystem. Abstract dappled light filters
down from above, creating shifting patterns of illumination and
shadow across the leaves, highlighting their intricate veins and
varied surfaces. The atmosphere is serene and deeply immersive,
evoking a sense of being within a vibrant, living natural world.
Small water droplets are visible on some leaf surfaces, reflecting
the ambient light. The background is a soft blur of similar foliage,
emphasizing the foreground elements. The air appears humid and still.

+ -
---------------------------------------------------------------------

Modelling animation and fiction

Tap into imagination, creating fantastical scenarios and expressive
animated characters.

Pause video Play video

Prompt: A vibrant 3D style, an adorable, fluffy creature bounding
across a vibrant rainbow bridge in a fantastical landscape. The
creature is small and compact, with fur that mimics the warm hues of
a sunrise - oranges, yellows, and pinks blending seamlessly together.
Its most striking feature is a pair of large, perked ears, shaped
like those of a German Shepherd, adding a touch of playful contrast
to its otherwise rounded form. As it runs on four short legs across
the rainbow, its fur appears to ripple and flow, adding to its sense
of dynamism and energy. The rainbow bridge arches gracefully through
a whimsical landscape, perhaps filled with floating islands, glowing
flora, and swirling clouds. The lighting is bright and cheerful,
casting a warm glow on the creature and its surroundings. The overall
impression is one of joy, wonder, and boundless energy, capturing the
creature's playful spirit and the magical nature of the world it
inhabits. This image evokes a sense of childlike whimsy and invites
the viewer to imagine the adventures that await this charming
creature in its fantastical realm.

+ -
Pause video Play video

Prompt: Being a lizard, origami style

+ -
Pause video Play video

Prompt: A fantastical, wide-angle shot captures a lush, enchanted
forest bathed in the soft glow of twilight. The player controls a
large firefly flying through towering trees with vibrant foliage
creating a dense canopy overhead, filtering the sunlight and casting
dappled shadows on the forest floor. Nestled among the branches are a
handful of charming tree houses, each glowing with a warm, inviting
light. The tree houses vary in size and design, some resembling
whimsical castles, others cozy cabins. Tiny details, like glowing
windows and miniature balconies, add to their charm. A winding path,
barely visible beneath the undergrowth, leads the viewer's eye deeper
into the enchanted forest. The overall scene evokes a sense of
wonder, tranquility, and the magic of childhood dreams.

+ -
Pause video Play video

Prompt: A serene Irish landscape, with rolling emerald-green hills,
misty lakes, and rugged mountains, suddenly trembles violently--as if
the earth itself is being torn apart. In a moment of surreal chaos,
entire sections of land rip free, rising into the sky in jagged,
brutalist formations, their rocky undersides exposed like raw,
fractured earth. The lakes are wrenched upward, now suspended in the
sky, their waters spilling downward in colossal waterfalls, creating
an apocalyptic storm of mist and rain over the land below. The camera
pulls back, revealing a new impossible geography--mountains floating,
cliffs inverted, rivers twisting mid-air--as gravity itself bends,
turning the once-peaceful countryside into a brutalist, surreal
monument to nature's violent transformation.

+ -
---------------------------------------------------------------------

Exploring locations and historical settings

Transcend geographical and temporal boundaries to explore places and
past eras.

Pause video Play video

Prompt: A real world mountainous environment in the Alps. The
landscape features steep, rocky cliffs and narrow gorges filled with
loose scree and debris. The rock is predominantly grey and white,
with patches of green vegetation clinging to the cliff faces. The top
of the gorge opens up to a vista of dense evergreen forests and
meadows. The overall theme is one of rugged, natural beauty and
extreme terrain.

+ -
Pause video Play video

Prompt: Venice by Vaporetto. The canals of Venice are recreated with
painstaking detail. The water has realistic reflections and wakes.
The buildings show crumbling plaster and centuries of weathering. The
scene is populated with other gondolas, water taxis, and barges.

+ -
Pause video Play video

Prompt: Exploring the palace of Knossos on Crete as it would have
stood in its glorious heyday.

+ -
Pause video Play video

Prompt: Walking around on a beautiful day out in Hinsdale, Illinois.
Real world. There are cars parked. The person filming is standing on
the sidewalk, there are flocks of birds flying overhead.

+ -
Pause video Play video

Prompt: A biking enthusiast driving on a narrow road on an edge of a
cliff in India, the Killar-Kishtwar Road. Real-world, first-person,
only hands on handles visible.

+ -
---------------------------------------------------------------------

Pushing the frontier of real-time capabilities

Achieving a high degree of controllability and real-time
interactivity in Genie 3 required significant technical
breakthroughs. During the auto-regressive generation of each frame,
the model has to take into account the previously generated
trajectory that grows with time. For example, if the user is
revisiting a location after a minute, the model has to refer back to
the relevant information from a minute ago. To achieve real-time
interactivity, this computation must happen multiple times per second
in response to new user inputs as they arrive.

Environmental consistency over a long horizon

In order for AI generated worlds to be immersive, they have to stay
physically consistent over long horizons. However, generating an
environment auto-regressively is generally a harder technical problem
than generating an entire video, since inaccuracies tend to
accumulate over time. Despite the challenge, Genie 3 environments
remain largely consistent for several minutes, with visual memory
extending as far back as one minute ago.

Pause video Play video

Prompt: POV action camera of a tan house being painted by a first
person agent with a paint roller

+ -
Pause video Play video

Prompt: A Victorian street with a grey house. The grey house has a
portal ringed by magical sparks. The portal leads to a vast desert
filled with dunes, and that desert is visible from the outside. The
agent can walk into the portal and is teleported to the desert.

+ -
Pause video Play video

Prompt: A classroom where on the blackboard at the front of the room
it says GENIE-3 MEMORY TEST and underneath is a beautiful chalk
picture of an apple, a mug of coffee, and a tree. The classroom is
empty except for this. Outside the window are trees and a few cars
driving past.

+ -
Pause video Play video

Prompt: This is a fantastical, whimsical forest environment. The
lighting is bright and cheerful, suggesting a sunny day with dappled
light filtering through a dense canopy of lush, oversized leaves. The
air is clear and still. The ground is a soft, verdant carpet of moss
and unusually large, brightly coloured mushrooms in shades of red and
blue, their caps dotted with white. Winding dirt paths, well-trodden
and narrow, weave between towering, ancient trees with smooth, grey
bark. Interspersed throughout the forest are charming,
mushroom-shaped houses, with intricate wooden doors and tiny,
circular windows, each one unique in its design and colour palette,
ranging from vibrant reds to gentle blues and greens. Various small,
friendly forest creatures, such as colourful butterflies and tiny
singing birds, flit amongst the foliage, adding to the lively
atmosphere. There is an abundance of peculiar, oversized flowers
blooming in an array of pastel and bright hues, releasing a gentle
glow.

+ -
Pause video Play video

Prompt: An extremely enormous, realistic gorilla, draped in a
flamboyant, emerald red vest with ornate brass buttons and an
elaborate, feathered bicorne hat, brandishing only a vintage silk
parasol, navigates a series of outrageously extravagant, moss-laden
McMansions where grand marble structures are subtly embraced by
sprawling, ancient rose bushes and creeping ivy.

+ -
Pause video Play video

Prompt: Walking around ancient Athens, Greek architecture, marble

+ -
[GXFqAgI-fsYmaAuLxEuOmKujwEKd7i1x-2VXvIPUWtlbf7rtvckgTDIKmWPgW4t2gCGvFgP1GpEEb6x2JMZfcK3OGXsPJ685tFcdOSm5Badoqnx4iQ]

The trees to the left of the building remain consistent throughout
the interaction, even as they go in and out of view.

Genie 3's consistency is an emergent capability. Other methods such
as NeRFs and Gaussian Splatting also allow consistent navigable 3D
environments, but depend on the provision of an explicit 3D
representation. By contrast, worlds generated by Genie 3 are far more
dynamic and rich because they're created frame by frame based on the
world description and actions by the user.

Pause video Play video

Prompt: First-person view drone video. High speed flight into and
along a narrow canyon in Iceland with a river at the bottom and moss
on the rocks, golden hour, realworld

+ -
---------------------------------------------------------------------

Promptable world events

In addition to navigational inputs, Genie 3 also enables a more
expressive form of text-based interaction, which we refer to as
promptable world events.

Promptable world events make it possible to change the generated
world, like altering weather conditions or introducing new objects
and characters, enhancing the experience from navigation controls.

This ability also increases the breadth of counterfactual, or "what
if" scenarios, that can be used by agents learning from experience to
handle unexpected situations.

Choose a world setting. Then, pick an event, and see Genie 3 create
it.

---------------------------------------------------------------------

Fueling embodied agent research

To test the compatibility of Genie 3 created worlds for future agent
training, we generated worlds for a recent version of our SIMA agent,
our generalist agent for 3D virtual settings. In each world we
instructed the agent to pursue a set of distinct goals, which it aims
to achieve by sending navigation actions to Genie 3. Like any other
environment, Genie 3 is not aware of the agent's goal, instead it
simulates the future based on the agent's actions.

Choose a world setting. Then, pick a goal you'd like an agent to
achieve and watch how it accomplishes it.

Since Genie 3 is able to maintain consistency, it is now possible to
execute a longer sequence of actions, achieving more complex goals.
We expect this technology to play a critical role as we push toward
AGI, and agents play a greater role in the world.

Pause video Play video
Pause video Play video
Pause video Play video
---------------------------------------------------------------------

Limitations

While Genie 3 pushes the boundaries of what world models can
accomplish, it's important to acknowledge its current limitations:

  * Limited action space. Although promptable world events allow for
    a wide range of environmental interventions, they are not
    necessarily performed by the agent itself. The range of actions
    agents can perform directly is currently constrained.
  * Interaction and simulation of other agents. Accurately modeling
    complex interactions between multiple independent agents in
    shared environments is still an ongoing research challenge.
  * Accurate representation of real-world locations. Genie 3 is
    currently unable to simulate real-world locations with perfect
    geographic accuracy.
  * Text rendering. Clear and legible text is often only generated
    when provided in the input world description.
  * Limited interaction duration. The model can currently support a
    few minutes of continuous interaction, rather than extended
    hours.

Responsibility

We believe foundational technologies require a deep commitment to
responsibility from the very beginning. The technical innovations in
Genie 3, particularly its open-ended and real-time capabilities,
introduce new challenges for safety and responsibility. To address
these unique risks while aiming to maximize the benefits, we have
worked closely with our Responsible Development & Innovation Team.

At Google DeepMind, we're dedicated to developing our best-in-class
models in a way that amplifies human creativity, while limiting
unintended impacts. As we continue to explore the potential
applications for Genie, we are announcing Genie 3 as a limited
research preview, providing early access to a small cohort of
academics and creators. This approach allows us to gather crucial
feedback and interdisciplinary perspectives as we explore this new
frontier and continue to build our understanding of risks and their
appropriate mitigations. We look forward to working further with the
community to develop this technology in a responsible way.

Next steps

We believe Genie 3 is a significant moment for world models, where
they will begin to have an impact on many areas of both AI research
and generative media. To that end, we're exploring how we can make
Genie 3 available to additional testers in the future.

Genie 3 could create new opportunities for education and training,
helping students learn and experts gain experience. Not only can it
provide a vast space to train agents like robots and autonomous
systems, Genie 3 can also make it possible to evaluate agents'
performance, and explore their weaknesses.

At every step, we're exploring the implications of our work and
developing it for the benefit of humanity, safely and responsibly.

Please cite using the following BibTex

  * Download BibTeX

Acknowledgments

Genie 3 was made possible due to key research and engineering
contributions from Phil Ball, Jakob Bauer, Frank Belletti, Bethanie
Brownfield, Ariel Ephrat, Shlomi Fruchter, Agrim Gupta, Kristian
Holsheimer, Aleks Holynski, Jiri Hron, Christos Kaplanis, Marjorie
Limont, Matt McGill, Yanko Oliveira, Jack Parker-Holder, Frank
Perbet, Guy Scully, Jeremy Shar, Stephen Spencer, Omer Tov, Ruben
Villegas, Emma Wang and Jessica Yung.

We thank Andrew Audibert, Cip Baetu, Jordi Berbel, David Bridson,
Jake Bruce, Gavin Buttimore, Sarah Chakera, Bilva Chandra, Paul
Collins, Alex Cullum, Bogdan Damoc, Vibha Dasagi, Maxime Gazeau,
Charles Gbadamosi, Woohyun Han, Ed Hirst, Ashyana Kachra, Lucie
Kerley, Kristian Kjems, Eva Knoepfel, Vika Koriakin, Jessica Lo, Cong
Lu, Zeb Mehring, Alex Moufarek, Henna Nandwani, Valeria Oliveira,
Fabio Pardo, Jane Park, Andrew Pierson, Ben Poole, Helen Ran, Nilesh
Ray, Tim Salimans, Manuel Sanchez, Igor Saprykin, Amy Shen, Sailesh
Sidhwani, Duncan Smith, Joe Stanton, Hamish Tomlinson, Dimple
Vijaykumar, Luyu Wang, Piers Wingfield, Nat Wong, Keyang Xu,
Christopher Yew, Nick Young and Vadim Zubov for their invaluable
partnership in developing and refining key components of this
project.

Thanks to Tim Rocktaschel, Satinder Singh, Adrian Bolton, Inbar
Mosseri, Aaron van den Oord, Douglas Eck, Dumitru Erhan, Raia
Hadsell, Zoubin Gharamani, Koray Kavukcuoglu and Demis Hassabis for
their insightful guidance and support throughout the research
process.

Feature video was produced by Suz Chambers, Matthew Carey, Alex Chen,
Andrew Rhee, JR Schmidt, Scotch Johnson, Heysu Oh, Kaloyan Kolev,
Arden Schager, Sam Lawton, Hana Tanimura, Zach Velasco, Ben Wiley,
and Dev Valladares. Including samples generated by Signe Norly, Eleni
Shaw, Andeep Toor, Gregory Shaw, and Irina Blok.

Finally, we extend our gratitude to Mohammad Babaeizadeh, Gabe
Barth-Maron, Parker Beak, Jenny Brennan, Tim Brooks, Max Cant, Harris
Chan, Jeff Clune, Kaspar Daugaard, Dumitru Erhan, Ashley Feden, Simon
Green, Nik Hemmings, Michael Huber, Jony Hudson, Dirichi Ike-Njoku,
Bonnie Li, Simon Osindero, Georg Ostrovski, Ryan Poplin, Alex
Rizkowsky, Giles Ruscoe, Ana Salazar, Guy Simmons, Jeff Stanway,
Metin Toksoz-Exley, Petko Yotov, Mingda Zhang and Martin Zlocha for
their insights and support.

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