{"podcast":{"title":"Hard Fork","slug":"hard-fork","podcast_index_feed_id":1026613,"rss_url":"https://feeds.simplecast.com/l2i9YnTd","website_url":"https://www.nytimes.com/column/hard-fork","image_url":"https://image.simplecastcdn.com/images/4105a47a-42e5-4ccc-887a-832af7989986/23965394-f5e4-4fdb-b150-639f4910353e/3000x3000/nyt-hf-album-art-3000-2.jpg?aid=rss_feed","author":"The New York Times","episode_count":195,"summary":"“Hard Fork” is a show about the future that’s already here. Each week, journalists Kevin Roose and Casey Newton explore and make sense of the latest in the rapidly changing world of tech. Subscribe today at nytimes.com/podcasts or on Apple Podcasts and Spotify. You can also subscribe via your favorite podcast app here https://www.nytimes.com/activate-access/audio?source=podcatcher. For more podcasts and narrated articles, download The New York Times app at nytimes.com/app.","last_synced_at":null,"page_url":"https://stenobird.com/podcast/hard-fork"},"episode":{"title":"Where Is All the A.I.-Driven Scientific Progress?","slug":"where-is-all-the-a-i-driven-scientific-progress","published_at":"2025-12-26T12:00:00+00:00","page_url":"https://stenobird.com/podcast/hard-fork/where-is-all-the-a-i-driven-scientific-progress","show_page_url":"https://stenobird.com/podcast/hard-fork","url":"https://www.nytimes.com/column/hard-fork","audio_url":"https://dts.podtrac.com/redirect.mp3/pdst.fm/e/pfx.vpixl.com/6qj4J/pscrb.fm/rss/p/nyt.simplecastaudio.com/3e43d072-f8a5-430f-bc8e-4c70aafdf3c7/episodes/2adf7272-2fc8-4749-abd7-8aca14809182/audio/128/default.mp3?aid=rss_feed&awCollectionId=3e43d072-f8a5-430f-bc8e-4c70aafdf3c7&awEpisodeId=2adf7272-2fc8-4749-abd7-8aca14809182&feed=l2i9YnTd","summary":"AI is currently a powerful tool for accelerating data analysis and protein modeling, but it lacks the fundamental knowledge required to solve complex biological mysteries like Alzheimer's. The true frontier lies in using generative models to scale scientific hypotheses without losing the serendipity of human error.","meta_description":"Can AI cure diseases? Future House CEO Sam Rodriguez discusses the reality of AI in labs, the cost of compute, and why human scientists remain indispensab…","key_points":["Main idea: AI excels at generative modeling for proteins and antibodies but cannot invent knowledge that doesn't yet exist","Practical takeaway: AI agents are expected to begin infiltrating laboratory workflows and automating hypothesis generation by 2026","Failure mode: High compute costs, such as $200 per prompt, currently limit the scalability of advanced scientific models","Main idea: The value of AI in science lies in its ability to accelerate the verification of hypotheses rather than just generating them","Critical nuance: Scientific progress requires 'noise' and serendipity, which can be intentionally integrated into generative models to mimic biological evolution"],"chapters":[{"start_ms":280000,"title":"The Scientist's Perspective","summary":"An introduction to Sam Rodriguez's background in physics and biotech and the current state of AI in research."},{"start_ms":505000,"title":"Scaling Science with AI","summary":"Exploring the concept of 'AI scientists' and the potential to expand scientific output beyond human capacity."},{"start_ms":690000,"title":"The High Cost of Intelligence","summary":"A discussion on the massive computational expenses and the economic barriers to running advanced scientific models."},{"start_ms":890000,"title":"Data, Analysis, and Reliability","summary":"Evaluating how AI handles the core scientific loop of gathering data and drawing conclusions."},{"start_ms":1095000,"title":"AI as a Research Assistant","summary":"Analyzing the utility of AI for analyzing existing experimental datasets and the necessity of human verification."},{"start_ms":1285000,"title":"The Power of Generative Models","summary":"The excitement surrounding generative models in creating novel proteins and antibodies from scratch."},{"start_ms":1670000,"title":"The Limits of Infinite Intelligence","summary":"Why even infinite computing power cannot solve scientific problems where the underlying biological knowledge is missing."}],"topics":["Artificial Intelligence","Scientific Discovery","Biotechnology","Generative Models","Protein Folding","Machine Learning","Computational Biology","Scientific Automation"],"duration_seconds":2368,"processing_state":"processed","actions":[{"name":"request_transcript","method":"POST","url":"https://stenobird.com/v1/public/podcasts/hard-fork/episodes/where-is-all-the-a-i-driven-scientific-progress/transcription-requests","description":"Idempotently request low-priority transcript generation for this episode."},{"name":"read_markdown","method":"GET","url":"https://stenobird.com/podcast/hard-fork/where-is-all-the-a-i-driven-scientific-progress.md","description":"Read the agent-friendly Markdown representation of this episode resource."}]}}