惯性聚合 高效追踪和阅读你感兴趣的博客、新闻、科技资讯
阅读原文 在惯性聚合中打开

推荐订阅源

Threat Intelligence Blog | Flashpoint
Threat Intelligence Blog | Flashpoint
V
V2EX
大猫的无限游戏
大猫的无限游戏
腾讯CDC
博客园 - Franky
WordPress大学
WordPress大学
Jina AI
Jina AI
GbyAI
GbyAI
云风的 BLOG
云风的 BLOG
B
Blog RSS Feed
Last Week in AI
Last Week in AI
The Cloudflare Blog
V
Visual Studio Blog
P
Proofpoint News Feed
博客园 - 叶小钗
L
LangChain Blog
钛媒体:引领未来商业与生活新知
钛媒体:引领未来商业与生活新知
Recorded Future
Recorded Future
OSCHINA 社区最新新闻
OSCHINA 社区最新新闻
T
The Blog of Author Tim Ferriss
人人都是产品经理
人人都是产品经理
Y
Y Combinator Blog
罗磊的独立博客
雷峰网
雷峰网
博客园 - 【当耐特】
Microsoft Security Blog
Microsoft Security Blog
L
LINUX DO - 热门话题
Cisco Talos Blog
Cisco Talos Blog
L
Lohrmann on Cybersecurity
Martin Fowler
Martin Fowler
Spread Privacy
Spread Privacy
MongoDB | Blog
MongoDB | Blog
Engineering at Meta
Engineering at Meta
C
Cybersecurity and Infrastructure Security Agency CISA
小众软件
小众软件
CTFtime.org: upcoming CTF events
CTFtime.org: upcoming CTF events
cs.CV updates on arXiv.org
cs.CV updates on arXiv.org
Recent Announcements
Recent Announcements
T
Threat Research - Cisco Blogs
Security Archives - TechRepublic
Security Archives - TechRepublic
量子位
cs.AI updates on arXiv.org
cs.AI updates on arXiv.org
宝玉的分享
宝玉的分享
D
DataBreaches.Net
T
The Exploit Database - CXSecurity.com
Vercel News
Vercel News
IT之家
IT之家
Exploit-DB.com RSS Feed
Exploit-DB.com RSS Feed
T
Troy Hunt's Blog
aimingoo的专栏
aimingoo的专栏

Google DeepMind News

Strengthening Singapore’s AI Future: A New National Partnership Simulate real-world places with Project Genie and Street View Introducing Gemini Omni Gemini for Science: AI experiments and tools for a new era of discovery Making it easier to understand how content was created and edited Gemini 3.5: frontier intelligence with action Co-Scientist: A multi-agent AI partner to accelerate research How WeatherNext helped the National Hurricane Center better predict Hurricane Melissa’s historic landfall in Jamaica Fast-tracking genetic leads to reverse cellular aging Finding the molecular switches behind new infectious diseases Opening new paths in aging research Accelerating discovery of liver disease mechanisms Uniting biological toolkits for a new approach to ALS Uncovering repurposed medicines to fight liver fibrosis Google Antigravity We’re launching the Google DeepMind Accelerator program in Asia Pacific to tackle environmental risks. AlphaEvolve: How our Gemini-powered coding agent is scaling impact across fields Enabling a new model for healthcare with AI co-clinician Announcing our partnership with the Republic of Korea Decoupled DiLoCo: A new frontier for resilient, distributed AI training Partnering with industry leaders to accelerate AI transformation Gemini Robotics-ER 1.6: Powering real-world robotics tasks through enhanced embodied reasoning Protecting people from harmful manipulation From games to biology and beyond: 10 years of AlphaGo’s impact A new way to express yourself: Gemini can now create music Accelerating discovery in India through AI-powered science and education Accelerating Mathematical and Scientific Discovery with Gemini Deep Think D4RT: Teaching AI to see the world in four dimensions Veo 3.1 Ingredients to Video: More consistency, creativity and control Gemma Scope 2: helping the AI safety community deepen understanding of complex language model behavior Google DeepMind supports U.S. Department of Energy on Genesis: a national mission to accelerate innovation and scientific discovery Gemini 3 Flash: frontier intelligence built for speed Improved Gemini audio models for powerful voice interactions Deepening our partnership with the UK AI Security Institute Strengthening our partnership with the UK government to support prosperity and security in the AI era FACTS Benchmark Suite: Systematically evaluating the factuality of large language models Engineering more resilient crops for a warming climate AlphaFold: Five years of impact Revealing a key protein behind heart disease How we’re bringing AI image verification to the Gemini app Build with Nano Banana Pro, our Gemini 3 Pro Image model Introducing Nano Banana Pro We’re expanding our presence in Singapore to advance AI in the Asia-Pacific region Start building with Gemini 3 A new era of intelligence with Gemini 3 Google Antigravity WeatherNext 2: Our most advanced weather forecasting model SIMA 2: An Agent that Plays, Reasons, and Learns With You in Virtual 3D Worlds Teaching AI to see the world more like we do How AI is giving Northern Ireland teachers time back Mapping, modeling, and understanding nature with AI Accelerating discovery with the AI for Math Initiative MedGemma: Our most capable open models for health AI development VaultGemma: The world's most capable differentially private LLM Bringing AI to the next generation of fusion energy Introducing Veo 3.1 and advanced capabilities in Flow Introducing the Gemini 2.5 Computer Use model Introducing CodeMender: an AI agent for code security Gemini Robotics 1.5 brings AI agents into the physical world Strengthening our Frontier Safety Framework Discovering new solutions to century-old problems in fluid dynamics Gemini achieves gold-medal level at the International Collegiate Programming Contest World Finals Using AI to perceive the universe in greater depth Image editing in Gemini just got a major upgrade Introducing Gemma 3 270M: The compact model for hyper-efficient AI How AI is helping advance the science of bioacoustics to save endangered species Genie 3: A new frontier for world models Rethinking how we measure AI intelligence Try Deep Think in the Gemini app AlphaEarth Foundations helps map our planet in unprecedented detail Aeneas transforms how historians connect the past Gemini 2.5 Flash-Lite is now stable and generally available Exploring the context of online images with Backstory Advanced version of Gemini with Deep Think officially achieves gold-medal standard at the International Mathematical Olympiad T5Gemma: A new collection of encoder-decoder Gemma models Introducing Gemma 3n: The developer guide AlphaGenome: AI for better understanding the genome Gemini Robotics On-Device brings AI to local robotic devices We’re expanding our Gemini 2.5 family of models Gemini 2.5: Updates to our family of thinking models Behind “ANCESTRA”: combining Veo with live-action filmmaking How we're supporting better tropical cyclone prediction with AI Advanced audio dialog and generation with Gemini 2.5 Gemini 2.5: Our most intelligent models are getting even better SynthID Detector — a new portal to help identify AI-generated content Our vision for building a universal AI assistant Fuel your creativity with new generative media models and tools Announcing Gemma 3n preview: powerful, efficient, mobile-first AI Gemini 2.5 Pro Preview: even better coding performance Build rich, interactive web apps with an updated Gemini 2.5 Pro Start building with Gemini 2.5 Flash Generate videos in Gemini and Whisk with Veo 2 DolphinGemma: How Google AI is helping decode dolphin communication Gemini 2.5: Our most intelligent AI model Experiment with Gemini 2.0 Flash native image generation Introducing Gemma 3: The most capable model you can run on a single GPU or TPU Start building with Gemini 2.0 Flash and Flash-Lite Gemini 2.0 is now available to everyone State-of-the-art video and image generation with Veo 2 and Imagen 3 Introducing Gemini 2.0: our new AI model for the agentic era
Measuring progress toward AGI: A cognitive framework
Ryan Burnell · 2026-03-18 · via Google DeepMind News

We’re introducing a framework to measure progress toward AGI, and launching a Kaggle hackathon to build the relevant evaluations.

orankelly

Oran Kelly

Product Manager, Google DeepMind

General summary

Google DeepMind wants to help measure the progress of Artificial General Intelligence (AGI) using cognitive science. Their new paper, "Measuring Progress Toward AGI: A Cognitive Taxonomy," presents a framework for understanding AI systems' cognitive capabilities. You can participate by designing evaluations for key cognitive abilities in their Kaggle hackathon for a chance to win from a prize pool of $200,000.

Summaries were generated by Google AI. Generative AI is experimental.

Several rectangles in lines diagonally across the image. Each rectangle has swirls.

Your browser does not support the audio element.

Listen to article

This content is generated by Google AI. Generative AI is experimental

[[duration]] minutes

Artificial General Intelligence (AGI) has the potential to accelerate scientific discovery and help solve some of humanity’s most pressing problems. But it can be difficult to know how close we are to this key milestone, because there’s a lack of empirical tools for evaluating systems’ general intelligence. Tracking progress toward AGI will require a wide range of methods and approaches, and we believe cognitive science provides one important piece of the puzzle.

That’s why today, we’re releasing a new paper, “Measuring Progress Toward AGI: A Cognitive Taxonomy,” that presents a scientific foundation for understanding the cognitive capabilities of AI systems.

Alongside the paper, we are partnering with Kaggle to launch a hackathon, inviting the research community to help build the evaluations needed to put this framework into practice.

Deconstructing general intelligence

Our framework draws on decades of research from psychology, neuroscience and cognitive science to develop a cognitive taxonomy. It identifies 10 key cognitive abilities that we hypothesize will be important for general intelligence in AI systems:

  1. Perception: extracting and processing sensory information from the environment
  2. Generation: producing outputs such as text, speech and actions
  3. Attention: focusing cognitive resources on what matters
  4. Learning: acquiring new knowledge through experience and instruction
  5. Memory: storing and retrieving information over time
  6. Reasoning: drawing valid conclusions through logical inference
  7. Metacognition: knowledge and monitoring of one's own cognitive processes
  8. Executive functions: planning, inhibition and cognitive flexibility
  9. Problem solving: finding effective solutions to domain-specific problems
  10. Social cognition: processing and interpreting social information and responding appropriately in social situations

Bubbles all connecting to the central bubble "Cognitive faculties". Each bubble list a cognitive faculty.

To understand AI capabilities across these cognitive abilities, we propose a three-stage evaluation protocol that benchmarks system performance in relation to human capabilities:

  1. Evaluate AI systems across a broad suite of cognitive tasks covering each ability, using held-out test sets to prevent data contamination
  2. Collect human baselines for the same tasks from a demographically representative sample of adults
  3. Map each AI system’s performance relative to the distribution of human performance in each ability

Going from theory to practice

Defining these cognitive abilities is a crucial first step, but we need more than a framework to measure progress. To put this theory into practice, we are launching a new Kaggle hackathon — “Measuring progress toward AGI: Cognitive abilities”. The hackathon encourages the community to design evaluations for five cognitive abilities where the evaluation gap is the largest: learning, metacognition, attention, executive functions and social cognition.

Participants can use Kaggle's newly launched Community Benchmarks platform to build and test their evaluations against a lineup of frontier models.

We are offering a total prize pool of $200,000: $10,000 awards for the top two submissions in each of the five tracks, and $25,000 grand prizes for the four absolute best overall submissions. Submissions are open March 17 through April 16, and we’ll announce the results June 1. Head over to the Kaggle website to start building.

Get more stories from Google in your inbox.

Done. Just one step more.

Check your inbox to confirm your subscription.

You are already subscribed to our newsletter.

You can also subscribe with a

Related stories