Less Waiting, More Creating The GeForce RTX 5070 Ti accelerates 3D rendering, video editing, and AI creator workflows. Experience DLSS 4 in @ChaosGroup Vantage & @D5Render (beta) + @maxonredshift Blackwell GPU support. #RTXAIGarage blog: https://nvda.ws/41zISaB

The NVIDIA GeForce RTX 5070 Ti graphics cards built on the NVIDIA Blackwell architecture are out now, ready to power generative AI content creation and accelerate creative performance.GeForce RTX 5070 Ti GPUs feature fifth-generation Tensor Cores with support for FP4, doubling performance and reducing VRAM requirements to run generative AI models.In addition, the GPU comes equipped with two ninth-generation encoders and a sixth-generation decoder that add support for the 4:2:2 pro-grade color format and increase encoding quality for HEVC and AV1. This combo accelerates video editing workflows, reducing export times by 8x compared with single encoder GPUs without 4:2:2 support like the GeForce RTX 3090.The GeForce RTX 5070 Ti GPU also includes 16GB of fast GDDR7 memory and 896 GB/sec of total memory bandwidth a 78% increase over the GeForce RTX 4070 Ti GPU.The GeForce RTX 5070 Ti GPU a game changer.NVIDIA DLSS 4, a suite of neural rendering technologies that uses AI to boost frames per second (fps) and improve image quality, is now available in professional-grade 3D apps like Chaos Vantage. D5 Render also adds DLSS 4 in beta with the new Multi Frame Generation feature to boost frame rates by 3x. 3D rendering software Maxon Redshift also added NVIDIA Blackwell support, providing a 30% performance increase.The February NVIDIA Studio Driver, with support for the GeForce RTX 5070 Ti GPU, will be ready for download next week. For automatic Studio Driver notifications, download the NVIDIA app.Use NVIDIAs product finder to pick up a GeForce RTX 5070 Ti GPU or prebuilt system today. Check back regularly after 6 a.m. PT, as retail partners list their available models. Explore complete specifications.Ready for the Generative AI EraBlack Forest Labs FP4-optimized FLUX.1 [dev] suite of image generation models is now available on Hugging Face.FP4 is a lower quantization method, similar to file compression, that decreases model sizes. FLUX.1 [dev] at FP4 requires less than 10GB of VRAM, compared with over 23GB at FP16.This means the state-of-the-art FLUX.1 [dev] model can run on the GeForce RTX 5070 Ti GPU as well as all GeForce RTX 50 Series GPUs. This is important because the FLUX.1 [dev] model wouldnt be able to run at FP16, given memory constraints.On the GeForce RTX 5070 Ti GPU, the FLUX.1 [dev] model can generate images in just over eight seconds on FP4, compared with 20 seconds on FP8 on a GeForce RTX 4070 Ti GPU.Versatile ViewportsDLSS 4 is now available in Chaos Vantage and D5 Render in beta popular professional-grade 3D apps for architects, animators and designers.Both apps natively support DLSS 4s improved Super Resolution and Ray Reconstruction models powered by transformers to increase image detail and improve stability.D5 Render also supports DLSS 4s DLSS Multi Frame Generation to boost frame rates by using AI to generate up to three frames per traditionally rendered frame.This enables animators to smoothly navigate a scene with multiplied frame rates and render 3D content, even with massive file sizes, at 60 fps or more.Maxon Redshift a 3D rendering software that uses GPU acceleration to visualize 3D models, scenes, animations and designs has released an update to fully harness GeForce RTX 50 Series GPUs, accelerating performance by up to 30%.Every month brings new creative app updates and optimizations powered by the NVIDIA Studio platform. Follow NVIDIA Studio on Instagram, X and Facebook. Access tutorials on the Studio YouTube channel and get updates directly in your inbox by subscribing to the Studio newsletter.See notice regarding software product information.

Editors note: This post is part of Into the Omniverse, a series focused on how developers, 3D practitioners and enterprises can transform their workflows using the latest advances in OpenUSD and NVIDIA Omniverse.Humanoid robots are rapidly becoming a reality. Those built on NVIDIA Isaac GR00T are already learning to walk, manipulate objects and otherwise interact with the real world.Gathering diverse and large datasets to train these sophisticated machines can be time-consuming and costly. Using synthetic data (SDG), generated from physically-accurate digital twins, researchers and developers can train and validate their AI models in simulation before deployment in the real world.Universal Scene Description, aka OpenUSD, is a powerful framework that makes it easy to build these physically accurate virtual environments. Once 3D environments are built, OpenUSD allows teams to develop detailed, scalable simulations along with lifelike scenarios where robots can practice, learn and improve their skills.This synthetic data is essential for humanoid robots to learn humanlike behaviors such as walking, grasping objects and navigating complex environments. OpenUSD is enhancing the development of humanoid robots and paving the way for a future where these machines can seamlessly integrate into peoples daily lives.The NVIDIA Omniverse platform, powered by OpenUSD, provides developers a way to unify 3D assets from disparate sources such as 3DCAD and digital content creation (DCC) tools. This allows them to build large-scale 3D virtual environments and run complex simulations to train their robots, streamlining the entire process and delivering faster, more cost-effective ways to collaborate and develop physical AI.Advancing Robot Training With Synthetic Motion DataAt CES last month, NVIDIA announced the Isaac GR00T Blueprint for synthetic motion generation to help developers generate exponentially larger synthetic motion datasets to train humanoids using imitation learning.Highlights of the release include:Large-Scale Motion Data Generation: Uses simulation as well generative AI techniques to generate exponentially large and diverse datasets of humanlike movements, speeding up the data collection process.Faster Data Augmentation: NVIDIA Cosmos world foundation models generate photorealistic videos at scale using the ground-truth simulation from Omniverse. This equips developers to augment synthetic datasets faster, for training physical AI models, reducing the simulation-to-real gap.Simulation-First Training: Instead of relying solely on real-world testing, developers can train robots in virtual environments, making the process faster and more cost-effective.Bridging Virtual to Reality: The combination of real and synthetic data along with simulation-based training and testing allows developers to transfer the robots skills learned in the virtual world to the real-world seamlessly.Simulating the Future of RoboticsHumanoid robots are enhancing efficiency, safety and adaptability across industries like manufacturing, warehouse and logistics, and healthcare by automating complex tasks and increasing safety conditions for human workers.Major robotics companies including Boston Dynamics and Figure have already started adopting and demonstrating results with Isaac GR00T.Get Plugged Into the World of OpenUSDLearn more about OpenUSD, humanoid robots and the latest AI advancements at NVIDIA GTC, a global AI conference running March 17-21 in San Jose, California.Dont miss NVIDIA founder and CEO Jensen Huangs GTC keynote on Tuesday, March 18 in person at the SAP Center or online. Hell share the latest technologies driving the next wave in AI, digital twins, cloud technologies and sustainable computing.The inaugural GTC Humanoid Developer Day will take place on Wednesday, March 18. Following the sessions, join the Physical AI Developer Meetup to network with developers and researchers at NVIDIA GTC. Discuss the latest breakthroughs in OpenUSD and generative AI-powered simulation and digital twins, as well as innovations in generalist robotics for the next frontier of industries.Learn how to use USD and continue to optimize 3D workflows with the new self-paced Learn OpenUSD curriculum for 3D developers and practitioners, available for free through the NVIDIA Deep Learning Institute. For more resources on OpenUSD, explore the Alliance for OpenUSD forum and the AOUSD website.Stay up to date by subscribing to NVIDIA news, joining the community and following NVIDIA Omniverse on Instagram, LinkedIn, Medium and X.Featured image courtesy of Fourier.

Wield magic and steel as GeForce NOWs fifth-anniversary celebration summons Obsidian Entertainments highly anticipated Avowed to the cloud.This first-person fantasy role-playing game is ready to enchant cloud gamers, leading the charge of six titles joining the over 2,000 games in the cloud gaming library.GeForce NOW day passes are available to purchase again, in limited quantities each day. Members can currently purchase one day at a time, based on available capacity. Day pass users get 24-hour access to powerful cloud gaming with all the benefits of a GeForce NOW Ultimate or Performance membership. Stay tuned for updates as more membership options become available.Choose Your Own AdventureCloudy with a chance of dragons.Embark on a thrilling adventure in Avowed, set in the captivating world of Eora. As an envoy of Aedyr, explore the mysterious Living Lands, an island teeming with ancient magic and shifting secrets, as a dire threat looms over the realm: a mysterious plague that defies nature and reason, spreading chaos across the sprawling wilderness.The Living Lands offer a diverse array of environments to explore, each with a unique ecosystem. Engage in visceral combat by mixing and matching swords, spells, guns and shields. Companions of various species, each with their own abilities and quests, will join the adventure, their fates intertwined with the players choices. As the story unfolds, every decision will ripple across the Living Lands, shaping the future of its inhabitants and testing the players resolve in the face of intrigue, power and danger.GeForce NOW members can dive into this immersive fantasy world with the power of GeForce RTX-powered gaming rigs in the cloud. Ultimate members can stream the game at up to 4K resolution and 60 frames per second with high dynamic range on supported devices. These members enjoy additional benefits like NVIDIA DLSS 3 technology for enhanced frame rates and NVIDIA Reflex for ultra-low latency, delivering a seamless and visually stunning adventure through the Living Lands.Time to PlaySome mixtapes are better left unplayed.Lost Records: Bloom & Rage is the recently released narrative-adventure game by Dont Nod, the creators of Life Is Strange. Set in the fictional Michigan town of Velvet Cove, the game follows four friends Swann, Nora, Autumn and Kat during the summer of 1995, as well as 27 years later in 2022.Explore Swanns world through a nostalgic 90s lens, complete with a camcorder for capturing and reliving memories. The story unfolds across two timelines, delving into themes of friendship and identity, as well as a mysterious secret that tore the group apart. With its immersive storytelling, interactive environments and choice-driven gameplay, Lost Records: Bloom & Rage promises a captivating journey through time, nostalgia and the complexities of lifelong friendships.Look for the following games available to stream in the cloud this week:Avowed (New release on Steam, Battle.net and Xbox, available on PC Game Pass, Feb. 18)Warhammer 40,000: Rogue Trader (New release on Xbox, available on PC Game Pass, Feb. 20)Lost Records: Bloom & Rage (New release on Steam, Feb. 18)Abiotic Factor (Steam)HUMANITY (Steam)Songs of Silence (Steam)What are you planning to play this weekend? Let us know on X or in the comments below.What's a gaming promise you made to yourself this year? NVIDIA GeForce NOW (@NVIDIAGFN) February 19, 2025

American Sign Language is the third most prevalent language in the United States but there are vastly fewer AI tools developed with ASL data than data representing the countrys most common languages, English and Spanish.NVIDIA, the American Society for Deaf Children and creative agency Hello Monday are helping close this gap with Signs, an interactive web platform built to support ASL learning and the development of accessible AI applications.Sign language learners can access the platforms validated library of ASL signs to expand their vocabulary with the help of a 3D avatar that demonstrates signs and use an AI tool that analyzes webcam footage to receive real-time feedback on their signing. Signers of any skill level can contribute by signing specific words to help build an open-source video dataset for ASL.The dataset which NVIDIA aims to grow to 400,000 video clips representing 1,000 signed words is being validated by fluent ASL users and interpreters to ensure the accuracy of each sign, resulting in a high-quality visual dictionary and teaching tool.Most deaf children are born to hearing parents. Giving family members accessible tools like Signs to start learning ASL early enables them to open an effective communication channel with children as young as six to eight months old, said Cheri Dowling, executive director of the American Society for Deaf Children. And knowing that professional ASL teachers have validated all the vocabulary on the platform, users can be confident in what theyre learning.NVIDIA teams plan to use this dataset to further develop AI applications that break down communication barriers between the deaf and hearing communities. The data is slated to be available to the public as a resource for building accessible technologies including AI agents, digital human applications and video conferencing tools. It could also be used to enhance Signs and enable ASL platforms across the ecosystem with real-time, AI-powered support and feedback.Whether novice or expert, volunteers can record themselves signing to contribute to the ASL dataset.Supporting ASL Education, Exploring Language NuanceDuring the data collection phase, Signs already provides a powerful platform for ASL language acquisition, offering opportunities for individuals to learn and practice an initial set of 100 signs so they can more effectively communicate with friends or family members who use ASL.The Signs learning platform could help families with deaf children quickly search for a specific word and see how to make the corresponding sign. Its a tool that can help support their everyday use of ASL outside of a more formal class, Dowling said. I see both kids and parents exploring it and I think they could play with it together.While Signs currently focuses on hand movements and finger positions for each sign, ASL also incorporates facial expressions and head movements to convey meaning. The team behind Signs is exploring how these non-manual signals can be tracked and integrated in future versions of the platform.Theyre also investigating how other nuances, like regional variations and slang terms, can be represented in Signs to enrich its ASL database and working with researchers at the Rochester Institute of Technologys Center for Accessibility and Inclusion Research to evaluate and further improve the user experience of the Signs platform for deaf and hard-of-hearing users.Improving ASL accessibility is an ongoing effort, said Anders Jessen, founding partner of Hello Monday/DEPT, which built the Signs web platform and previously worked with the American Society for Deaf Children on Fingerspelling.xyz, an application that taught users the ASL alphabet. Signs can serve the need for advanced AI tools that help transcend communication barriers between the deaf and hearing communities.The dataset behind Signs is planned for release later this year.Start learning or contributing with Signs at signs-ai.com, and learn more about NVIDIAs trustworthy AI initiatives. Attendees of NVIDIA GTC, a global AI conference taking place March 17-21 in San Jose, will be able to participate in Signs live at the event.

In financial services, AI has traditionally been used primarily for fraud detection and risk modeling. With recent advancements in generative AI, the banking industry as a whole is becoming smarter and more intuitive, offering hyper-personalized services and real-time insights for customers.In the latest episode of the NVIDIA AI Podcast, Barb Morgan, chief product and technology officer at banking and financial services technology company Temenos, shares how AI is reshaping the banking landscape, from enhancing customer experiences to ensuring robust data security.Morgan explains that AI can tailor financial products and services to customer needs, making interactions more meaningful and relevant. Plus, AI-powered chatbots and digital interfaces can provide 24/7 support, addressing customer queries in real time.The AI Podcast Temenos Barb Morgan Shares How AI Is Reshaping Banking Ep. 246AI adoption has grown significantly in financial services. Notably, the use of generative AI for customer experience, especially through chatbots and virtual assistants, has more than doubled, rising from 25% to 60% over the last year. Learn more in NVIDIAs fifth annual State of AI in Financial Services report.And see more of the latest technological advancements by registering for NVIDIA GTC, the conference for the era of AI, taking place March 17-21. Temenos will share more insights and examples in the session titled, Generative AI for Core Banking.Time Stamps08:30 How AI can help banks process and analyze vast amounts of data to provide deeper insights and predictions.11:56 The importance of data management for effective AI implementation.16:13 Sustainability in the banking industry, and how AI can help banks and customers track and reduce their carbon footprints.You Might Also LikeFirsthands Jon Heller Shares How AI Agents Enhance Consumer Journeys in RetailLearn how AI agents are transforming the retail landscape by personalizing customer journeys, converting marketing interactions into valuable research data and enhancing the customer experience with hyper-personalized insights and recommendations.Snowflakes Baris Gultekin on Unlocking the Value of Data With Large Language ModelsSee how Snowflakes AI Data Cloud platform helps enterprises unlock the value of data by transforming it into actionable insights and applications, using large language models.Sequoia Capitals Pat Grady and Sonya Huang on Generative AIHear how AI is revolutionizing art, design and media by enabling unique, personalized content creation at an unprecedented scale.Subscribe to the AI PodcastGet the AI Podcast through Amazon Music, Apple Podcasts, Google Podcasts, Google Play, Castbox, DoggCatcher, Overcast, PlayerFM, Pocket Casts, Podbay, PodBean, PodCruncher, PodKicker, SoundCloud, Spotify, Stitcher and TuneIn.

Scientists everywhere can now access Evo 2, a powerful new foundation model that understands the genetic code for all domains of life. Unveiled today as the largest publicly available AI model for genomic data, it was built on the NVIDIA DGX Cloud platform in a collaboration led by nonprofit biomedical research organization Arc Institute and Stanford University.Evo 2 is available to global developers on the NVIDIA BioNeMo platform, including as an NVIDIA NIM microservice for easy, secure AI deployment.Trained on an enormous dataset of nearly 9 trillion nucleotides the building blocks of DNA and RNA Evo 2 can be applied to biomolecular research applications including predicting the form and function of proteins based on their genetic sequence, identifying novel molecules for healthcare and industrial applications, and evaluating how gene mutations affect their function.Evo 2 represents a major milestone for generative genomics, said Patrick Hsu, Arc Institute cofounder and core investigator, and an assistant professor of bioengineering at the University of California, Berkeley. By advancing our understanding of these fundamental building blocks of life, we can pursue solutions in healthcare and environmental science that are unimaginable today.The NVIDIA NIM microservice for Evo 2 enables users to generate a variety of biological sequences, with settings to adjust model parameters. Developers interested in fine-tuning Evo 2 on their proprietary datasets can download the model through the open-source NVIDIA BioNeMo Framework, a collection of accelerated computing tools for biomolecular research.Designing new biology has traditionally been a laborious, unpredictable and artisanal process, said Brian Hie, assistant professor of chemical engineering at Stanford University, the Dieter Schwarz Foundation Stanford Data Science Faculty Fellow and an Arc Institute innovation investigator. With Evo 2, we make biological design of complex systems more accessible to researchers, enabling the creation of new and beneficial advances in a fraction of the time it would previously have taken.Enabling Complex Scientific ResearchEstablished in 2021 with $650 million from its founding donors, Arc Institute empowers researchers to tackle long-term scientific challenges by providing scientists with multiyear funding letting scientists focus on innovative research instead of grant writing.Its core investigators receive state-of-the-art lab space and funding for eight-year, renewable terms that can be held concurrently with faculty appointments with one of the institutes university partners, which include Stanford University, the University of California, Berkeley, and the University of California, San Francisco.By combining this unique research environment with accelerated computing expertise and resources from NVIDIA, Arc Institutes researchers can pursue more complex projects, analyze larger datasets and more quickly achieve results. Its scientists are focused on disease areas including cancer, immune dysfunction and neurodegeneration.NVIDIA accelerated the Evo 2 project by giving scientists access to 2,000 NVIDIA H100 GPUs via NVIDIA DGX Cloud on AWS. DGX Cloud provides short-term access to large compute clusters, giving researchers the flexibility to innovate. The fully managed AI platform includes NVIDIA BioNeMo, which features optimized software in the form of NVIDIA NIM microservices and NVIDIA BioNeMo Blueprints.NVIDIA researchers and engineers also collaborated closely on AI scaling and optimization.Applications Across Biomolecular SciencesEvo 2 can provide insights into DNA, RNA and proteins. Trained on a wide array of species across domains of life including plants, animals and bacteria the model can be applied to scientific fields such as healthcare, agricultural biotechnology and materials science.Evo 2 uses a novel model architecture that can process lengthy sequences of genetic information, up to 1 million tokens. This widened view into the genome could unlock scientists understanding of the connection between distant parts of an organisms genetic code and the mechanics of cell function, gene expression and disease.A single human gene contains thousands of nucleotides so for an AI model to analyze how such complex biological systems work, it needs to process the largest possible portion of a genetic sequence at once, said Hsu.In healthcare and drug discovery, Evo 2 could help researchers understand which gene variants are tied to a specific disease and design novel molecules that precisely target those areas to treat the disease. For example, researchers from Stanford and the Arc Institute found that in tests with BRCA1, a gene associated with breast cancer, Evo 2 could predict with 90% accuracy whether previously unrecognized mutations would affect gene function.In agriculture, the model could help tackle global food shortages by providing insights into plant biology and helping scientists develop varieties of crops that are more climate-resilient or more nutrient-dense. And in other scientific fields, Evo 2 could be applied to design biofuels or engineer proteins that break down oil or plastic.Deploying a model like Evo 2 is like sending a powerful new telescope out to the farthest reaches of the universe, said Dave Burke, Arcs chief technology officer. We know theres immense opportunity for exploration, but we dont yet know what were going to discover.Read more about Evo 2 in Arcs technical report.See notice regarding software product information.

The telecom industrys efforts to drive efficiencies with AI are beginning to show fruit.An increasing focus on deploying AI into radio access networks (RANs) was among the key findings of NVIDIAs third annual State of AI in Telecommunications survey, as more than a third of respondents indicated theyre investing or planning to invest in AI-RAN. The survey polled more than 450 telecommunications professionals worldwide, revealing continued momentum for AI adoption including growth in generative AI use cases and how the technology is helping optimize customer experiences and increase employee productivity.Of the telecommunications professionals surveyed, almost all stated that their company is actively deploying or assessing AI projects. Here are some top insights on impact and use cases:84% said AI is helping to increase their companys annual revenue77% said AI helped reduce annual operating costs60% said increased employee productivity was their biggest benefit from AI44% said theyre investing in AI for customer experience optimization, which is the No. 1 area of investment for AI in telecommunications40% said theyre deploying AI into their network planning and operations, including RANBusiness Impact on AI in TelecommunicationsSurvey results highlight that use of AI in the telecom industry has helped increase revenue and reduce costs. 84% of respondents said that the technology is helping increase their companys annual revenue, with 21% saying that AI had contributed to a more than 10% revenue increase in specific business areas. In addition, 77% agreed that AI helped reduce annual operating costs.The wide array of AI use cases and impact on the bottom line has led to greater confidence in the future: 80% of respondents believe that AI is crucial for their companys future success, while two-thirds plan to increase spending on AI infrastructure this year.The telecommunications industry is at the forefront of AI adoption, with a clear focus on enhancing employee productivity, customer experience and network operations. By continuing to invest in AI infrastructure and training, telecom companies can stay ahead of the curve and capitalize on the numerous benefits that AI offers.AI Finds Its Way Into the Network StackAI in the telecommunications network is gaining momentum, with 37% of respondents saying theyre investing in AI to improve network planning and operations. Similarly, 33% said they invested in using AI for field-operations optimization in the last year.Of the respondents investing in AI for 5G monetization and/or 6G research and development, 66% are aiming to deploy AI services on RAN for operational and user needs, 53% are aiming to enhance spectral efficiency for the RAN, and 50% are aiming to colocate AI and RAN applications on the same infrastructure.Generative AI Goes MainstreamGenerative AI is gaining significant attention in telecoms. More than half of survey respondents who said theyre using generative AI have already deployed their first use case, while another third plan to do so this year.Of those respondents adopting generative AI, 84% said that their companies plan to offer generative AI solutions externally to customers. 52% said they would offer generative AI as a software-as-a-service solution, while 35% will offer generative AI as a platform for developers, including for compute services.Theres also a notable trend toward using multiple approaches for AI development, including a rise in in-house and open-source capabilities.Download the State of AI in Telecommunications: 2025 Trends report for in-depth results and insights.Explore NVIDIAs AI solutions and enterprise-level platforms for telecommunications.

Winter Express Urban transit meets icy wilderness in this jaw-dropping winter scene by @artarchives_. Share your own cold-weather creations with #WinterArtChallenge for a chance to be featured!

Asteroids were responsible for extinction events hundreds of millions of years ago on Earth, providing no shortage of doomsday film plots for Hollywood.But researchers focused on asteroid tracking are on a mission to locate them for todays real-world concerns: planetary defense.The new and unexpected discovery tool applied in this research is NASAs James Webb Space Telescope (JWST), which was tapped for views of these asteroids from previous research and enabled by NVIDIA accelerated computing.An international team of researchers, led by MIT physicists, reported on the cover of Nature this week how the new method was able to spot 10-meter asteroids within the main asteroid belt located between Jupiter and Mars.These rocks in space can range from the size of a bus to several Costco stores in width and deliver destruction to cities on Earth.The finding of more than 100 space rocks of this size marks the smallest asteroids ever detected in the main asteroid belt. Previously, the smallest asteroids spotted measured more than half a mile in diameter.Researchers say the novel method tapping into previous studies, asteroid synthetic movement tracking and infrared observations will help identify and track orbital movements of asteroids likely to approach Earth, supporting asteroid defense efforts.We have been able to detect near-Earth objects down to 10 meters in size when they are really close to Earth, Artem Burdanov, the studys co-lead author and a research scientist in MITs Department of Earth, Atmospheric and Planetary Sciences, told MIT News. We now have a way of spotting these small asteroids when they are much farther away, so we can do more precise orbital tracking, which is key for planetary defense.New research has also supported follow-up observations on asteroid 2024YR4, which is on a potential collision course with Earth by 2032.Capturing Asteroid Images With Infrared JWST Driven by NVIDIA GPUsObservatories typically look at the reflected light off asteroids to determine their size, which can be inaccurate. Using a telescope with infrared, like the JWST, can help track the thermal signals of asteroids for a more precise way at gauging their size.Asteroid hunters focused on planetary defense are looking out for near-Earth asteroids. These rocks have orbits around the Sun that are within 28 million miles of Earths orbit. And any asteroid around 450 feet long is capable of demolishing a sizable city.The asteroid papers co-authors included MIT professors of planetary science co-lead Julien de Wit and Richard Binzel. Contributions from international institutions included the University of Liege in Belgium, Charles University in the Czech Republic, the European Space Agency, and institutions in Germany including the Max Planck Institute for Extraterrestrial Physics and the University of Oldenburg.The work was supported by the NVIDIA Academic Grant Program.Harnessing GPUs to Save the Planet From AsteroidsThe 2024YR4 near-Earth asteroid estimated as wide as 300 feet and capable of destroying a city the size of New York has a 2.3% chance of striking Earth.Movies like Armageddon provide fictional solutions, like implanting a nuclear bomb, but its unclear how this could play out off screen.The JWST technology will soon be the only telescope capable of tracking the space rock as it moves away from Earth before coming back.The new study used the JWST, the best-ever telescope in the infrared, on images of TRAPPIST-1, a star studied to search for signs of atmospheres around its seven terrestrial planets and located about 40 light years from Earth. The data include more than 10,000 images of the star.After processing the images from JWST to study TRAPPIST-1s planets, the researchers considered whether they could do more with the datasets. Theyre looking at if they can search for otherwise undetectable asteroids using JWSTs infrared capabilities and a new detection technique they had deployed on other datasets called synthetic tracking.The researchers applied synthetic tracking methods, which doesnt require previous information on an asteroids motion. Instead it does fully blind search by testing possible shifts, like velocity vectors.Such techniques are computationally intense, and they created bottlenecks until NVIDIA GPUs were applied to such work in recent years. Harnessing GPU-based synthetic tracking increases the scientific return on resources when conducting exoplanet transit-search surveys by recovering serendipitous asteroid detections, the study said.After applying their GPU-based framework for detecting asteroids in targeted exoplanet surveys, the researchers were able to detect eight known and 139 unknown asteroids, the papers authors noted.Todays GPU technology was key to unlocking the scientific achievement of detecting the small-asteroid population of the main belt, but there is more to it in the form of planetary-defense efforts, said de Wit. Since our study, the potential Earth-impactor 2024YR4 has been detected, and we now know that JWST can observe such an asteroid all the way out to the main belt as they move away from Earth before coming back. And in fact, JWST will do just that soon.Gif attribution: https://en.wikipedia.org/wiki/2024_YR4#/media/File:2024_YR4_ESO-VLT.gif

Ready to add more life to your 3D creations?In Part 5 of our 'Creating a 3D Isometric Garage' tutorial series, 3D Cube Visionary takes shading to the next level. Dont miss these expert tips! Watch here: https://nvda.ws/3PMzhpU

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What was the first NVIDIA GPU you started your digital art on?

What's that one keyboard shortcut you use so much, you try to use it in real life?

Winter winds howl, and danger looms... Get inspired by this incredible piece from Ryan Ritterbusch and share your own winter creations using #WinterArtChallenge for a chance to be featured on our channels!

The grand finale is here! From animation to perfect finishing touches, Part 6 of our 'Creating a 3D Isometric Garage' tutorial series hosted by 3D Cube Visionary is a must-watch. Watch now: https://nvda.ws/42yeUnV

Lights, camera, new GPUs. GeForce RTX 5090 & 5080 GPUs are now available - delivering groundbreaking performance for creators. Plus, check out new AI features in the latest NVIDIA Broadcast update. #RTXAIGarage blog https://nvda.ws/4jv6i7T

New NVIDIA Broadcast update! The latest NVIDIA Broadcast app release features two new AI effects Studio Voice and Virtual Key Light both currently in beta.Download today https://nvda.ws/3EiqSIv

The January #NVIDIAStudio Driver has arrived. Download now for support on GeForce RTX 5090 & 5080 GPUs + the latest optimizations in your favorite apps https://nvda.ws/4h6M3vz

RTThe VergeNvidias latest AI trick made our mediocre webcam mic sound practically professional https://www.theverge.com/news/603518/nvidia-broadcast-ai-studio-voice-virtual-key-light

RTNVIDIA GeForce New NVIDIA Broadcast update! The latest NVIDIA Broadcast app release features two new AI effects Studio Voice and Virtual Key Light both currently in beta.Download today https://nvda.ws/3CG2H67

What's the best piece of advice you've ever gotten about creating art?

Step into a dreamy winter landscape! This stunning piece by @slavoartist makes us want to bundle up and explore. How do you bring winter to life in your art? Share your chilly creations using #WinterArtChallenge for a chance to be featured!

Ready to bring your 3D worlds to life? James Tralie breaks down his RTX-powered PC setup & how it transforms his 3D workflow using #OpenUSD, @Blender & @UnrealEngine.Watch Part 1 now https://nvda.ws/4gB8GHf

Whats your go-to snack during a long art session?

RTNVIDIAGameDevJoin us at #GDC2025 to discover how RTX neural rendering is powering the next era of graphics innovation in games.Register now https://nvda.ws/3Es8IUA

Snow-covered rooftops and frosty forests @aidan_3d_arts winter village is pure magic! Show us your own winter magic with #WinterArtChallenge for a chance to be featured.

Dive into a 3D masterclass! In Part 2 of our Studio Sessions tutorial series, James Tralie reveals the secrets of his 3D animation workflow in Blender with #OpenUSD. Your next creative breakthrough awaits https://nvda.ws/42UNbOt

Share some art that you creating. #StudioShare

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