Tag
GPT-5.2 assisted in deriving a new theoretical physics result showing that single-minus gluon tree amplitudes can be nonzero under specific half-collinear momentum conditions, challenging decades of assumptions in particle physics. The AI model identified patterns in complex Feynman diagram expressions and conjectured a general formula that was subsequently verified through formal proofs.
OpenAI introduces Prism, a free AI-native workspace for scientific writing and collaboration powered by GPT-5.2, integrating advanced mathematical reasoning directly into a LaTeX-native environment to streamline research workflows.
OpenAI releases GPT-5.2-Codex, an advanced agentic coding model optimized for complex software engineering tasks with improved long-horizon capabilities, Windows support, and cybersecurity features. The release includes comprehensive safety documentation through a system card outlining model and product-level mitigations.
OpenAI releases GPT-5.2, featuring GPT-5.2 Pro and GPT-5.2 Thinking variants optimized for scientific and mathematical work. The models achieve state-of-the-art performance on benchmarks like GPQA Diamond (93.2%) and FrontierMath (40.3%), demonstrating improved reasoning capabilities designed to accelerate scientific research across physics, chemistry, biology, and mathematics.
OpenAI introduces GPT-5.2, the most capable model series yet, with significant improvements in knowledge work, code generation, image perception, long-context understanding, and tool-calling. The GPT-5.2 Thinking variant achieves state-of-the-art performance on professional benchmarks, outperforming human experts on 70.9% of GDPval tasks across 44 occupations.