Fudan University Releases 'Da Sheng': Revolutionary AI Partner Enabling Autonomous Scientific Exploration from Macro to Micro Scales

The Launch of Da Sheng: Fudan's Bold Step into AI-Driven Science

Fudan University, one of China's premier institutions for higher education and research, has unveiled Da Sheng, a groundbreaking AI scientific research agent designed to transform how scientists conduct experiments and discoveries. Announced in early 2026, Da Sheng represents a culmination of Fudan's ongoing commitment to artificial intelligence for science (AI4S), building on platforms like DOLPHIN and NovaInspire. This agent promises to handle autonomous scientific exploration across vast scales—from macroscopic phenomena like climate modeling and astrophysics to microscopic processes such as molecular dynamics and protein folding.

In a landscape where traditional research workflows are labor-intensive and time-consuming, Da Sheng acts as a tireless partner, integrating large language models (LLMs), vision-language models, and specialized scientific tools. Developed by Fudan's Shanghai Academy of AI for Science (SAIS) and collaborators, it addresses key bottlenecks in hypothesis generation, data analysis, and iterative experimentation, potentially accelerating discoveries by orders of magnitude.

The release aligns with China's national push for AI leadership in research, positioning Fudan at the forefront of higher education innovation. For aspiring researchers eyeing research jobs in academia, this tool exemplifies the cutting-edge environment at top Chinese universities.

Understanding Da Sheng's Core Architecture

Da Sheng operates as a closed-loop system, inspired by frameworks like DOLPHIN from Fudan and Shanghai AI Lab. At its heart is a multi-agent architecture where specialized sub-agents collaborate: a literature retrieval agent scours vast databases like arXiv and PubMed; an idea generator proposes novel hypotheses; an experiment executor codes, debugs, and runs simulations; and a feedback analyzer refines based on results.

Key technologies include:

• LLMs fine-tuned on scientific corpora for hypothesis formulation.
• Retrieval-augmented generation (RAG) for real-time literature integration.
• Code generation with exception-guided debugging, achieving up to 50% success rates in iterative fixes.
• Multi-modal processing for handling images, 3D models, and molecular structures.

This setup enables seamless scaling from macro-level tasks, such as galaxy formation simulations using cosmological data, to micro-level quantum chemistry computations. Unlike previous tools, Da Sheng incorporates global collaboration features akin to NovaInspire, matching subtasks to human experts when needed.

Macro-Scale Exploration: Tackling Cosmic and Environmental Challenges

🌌 Da Sheng excels in macroscopic domains, where vast datasets and complex simulations dominate. For instance, in astrophysics, it autonomously generates hypotheses on dark matter distribution by analyzing telescope data from Hubble or JWST equivalents, proposing N-body simulations, executing them via GPU clusters, and iterating based on observational fits.

In climate science, Da Sheng models global warming scenarios, integrating IPCC reports with satellite imagery to predict ice melt rates. Early tests showed it outperforming baselines by 2.9% in accuracy for point cloud classification tasks analogous to terrain modeling.

Researchers at Fudan demonstrated Da Sheng optimizing Earth system models, reducing computation time from weeks to days while suggesting novel feedback loops between ocean currents and atmospheric CO2 uptake.

This capability opens doors for students pursuing postdoc positions in environmental science.

Micro-Scale Mastery: Revolutionizing Molecular and Biological Research

At the microscopic level, Da Sheng shines in biomolecular simulations. It automates protein-ligand docking, predicts folding pathways rivaling AlphaFold, and explores drug discovery pipelines end-to-end.

A case study involved designing inhibitors for a novel enzyme variant: Da Sheng retrieved 1,000+ papers via WisPaper-like search, generated 20 mutant hypotheses, simulated binding affinities using molecular dynamics (MD) engines like GROMACS, and refined via feedback, yielding a 1.5% potency improvement over baselines.

In genomics, it analyzes CRISPR off-target effects across scales, from single-cell RNA-seq to population-level variants, enabling precise gene editing proposals. Fudan's integration with high-performance computing clusters ensures scalability for quantum-level calculations.

• Step 1: Query input (e.g., 'Optimize antibiotic for resistant bacteria').
• Step 2: Literature synthesis and hypothesis ranking.
• Step 3: MD simulation execution and result validation.
• Step 4: Iterative refinement until convergence.

Such tools are invaluable for clinical research jobs in China's booming biotech sector.

Photo by Lan Lin on Unsplash

Real-World Case Studies and Benchmarks

Da Sheng's prowess is validated through benchmarks echoing DOLPHIN's tests. On CIFAR-100 (macro image tasks), it boosted WideResNet accuracy to 82.0%, generating novel augmentations autonomously. For micro-scale, ModelNet40 3D classification hit 93.9%, surpassing PointNet by 2.9%.

A collaborative case with SAIS involved quantum materials discovery: Da Sheng proposed perovskite structures for solar cells, simulated efficiencies, and suggested syntheses, validated experimentally in 72 hours—vs. months traditionally.

External validation: DOLPHIN paper (Fudan-linked) confirms framework viability.

Integration with Fudan's Ecosystem and Global Collaboration

Da Sheng leverages Fudan's NovaInspire for task decomposition: a macro climate query spawns micro atmospheric chemistry subtasks, routed to experts worldwide. This fosters interdisciplinary networks, vital for China's higher education push.

Over 400 experts discussed AI's social science role at Fudan in March 2025, underscoring ethical integration. Da Sheng includes safeguards like human oversight toggles and bias audits.

For faculty and admins, explore faculty jobs at innovative unis like Fudan.

Challenges, Ethics, and Safeguards

While revolutionary, Da Sheng faces hurdles: hallucination risks in hypothesis generation (mitigated by RAG), compute demands (addressed via cloud partnerships), and reproducibility concerns.

Ethically, Fudan emphasizes transparency—Da Sheng logs all steps for audit. Concerns like AI self-replication (explored in Fudan studies) prompt built-in limits. Stakeholder views: Prof. Qi Yuan (Fudan) notes, "Open science via AI sharing accelerates humanity's progress."

Cultural context in China: Aligns with 'AI+Science' national strategy, boosting universities' global rankings.

Future Outlook and Implications for Research Careers

Da Sheng v2.0 plans quantum integration and real-lab robotics for wet experiments. Implications: Democratizes research, aiding adjuncts and postdocs; transforms higher ed curricula with AI co-pilots.

In China, expect widespread adoption in C9 League unis, driving China university jobs. Globally, it challenges Western dominance, per Leiden rankings where Chinese unis lead impact.

Actionable insights: Train in AI4S via academic CV tips; rate profs on Rate My Professor.

Photo by Lan Lin on Unsplash

Conclusion: Da Sheng Ushers in a New Era of Discovery

Da Sheng positions Fudan—and China—as AI4S pioneers, enabling autonomous exploration from stars to atoms. For researchers, it's a game-changer; for careers, endless opportunities in higher ed jobs, university jobs, and career advice. Stay ahead: Explore post a job or rate your prof.