Fudan University
复旦大学
elsewhere's corpus does not cover Fudan University as a subject — none of the retrieved material is actually about the institution itself. The only mention appears as background context in a Yunqi Capital piece on embodied AI that happens to involve Tsinghua University .
AI-generated — may contain errors, please verify.
Coverage
Yunqi Capital Joins Taiyi Liangsheng's 300 Million Yuan Pre-A Round, Neutral-Atom Quantum Computing Enters Acceleration Phase | Yunqi Partners
Accelerating into the Fast Lane of Neutral-Atom Quantum Computing
云启资本·5Y News|Minghui Pharma Closes $131 Million Pre-IPO Round to Accelerate Pipeline Development and Global Expansion
Dedicated to developing innovative therapies that address unmet clinical needs worldwide.
五源资本·Vozo AI's Changyin Zhou: Early Google X Engineer, Video Product Goes Viral on Product Hunt, 6 Million Global Users | Z Talk
The market for video creation is a $100 billion opportunity that's severely underestimated.
真格基金·18 Reasons We Miss Tsung-Dao Lee
A life where dreams contain only geometric shapes.
暗涌Waves·Qiming Venture Partners' Kan Chen: There's an Optimal Path for Chinese Innovative Drugs Going Global
Move beyond single concepts and invest in "global biotech."
暗涌Waves·A Deep Dive into 70 Years of Optical Computing: What New Breakthroughs Await Beyond Moore's Law? | Yunqi Science --- In 1965, Gordon Moore, then director of the R&D laboratory at Fairchild Semiconductor, published an article in *Electronics* magazine titled "Cramming More Components onto Integrated Circuits." In it, he made a bold prediction: the number of transistors on an integrated circuit would double approximately every year, with computing power growing exponentially while costs declined. This observation, later refined to a doubling every 18–24 months, became the famous "Moore's Law" that has driven the semiconductor industry for nearly six decades. However, as transistor sizes approach the atomic scale, the physical limits of silicon-based electronic computing are becoming increasingly apparent. Heat dissipation, quantum tunneling effects, and manufacturing costs are all pushing traditional computing toward a wall. In this context, optical computing — using photons instead of electrons as information carriers — has emerged as one of the most promising paths beyond Moore's Law. This article traces 70 years of optical computing development, examining its technical principles, key breakthroughs, and the new frontiers it may open in the post-Moore era. ## The Physical Advantages of Photons Why light? The answer lies
"The Future Computer" will have a computing architecture composed as follows —
云启资本·Linear Capital Leads Angel Round for Shanghai Umibio Umibio, a Shanghai-based biotechnology company, has announced the completion of a multi-million-yuan angel funding round led by Linear Capital.
Shanghai-based Umibio announced today that it has raised tens of millions of RMB in an angel round led by Linear Capital, with participation from Suzhou SND Angel Fund.
线性资本·5Y News | After Raising Hundreds of Millions in Three Consecutive Rounds, "Yahaha" to Build Real-Time Digital Entertainment UGC Platform
A no-code, multiplayer interactive entertainment creation platform for global users.
五源资本·5Y News | Buddy Leads the No-Code Digital Transformation Market with $17 Million Series B Round
A no-code app builder and data collaboration platform.
五源资本·The Collision of AI and Pharmaceuticals: Galaxy Pharma Tech Raises Nearly $10 Million in Funding | Light Moments
Galixir announced the completion of a nearly $10 million Pre-A funding round. The round was co-led by Source Code Capital and DCM, with 5Y Capital participating as a follow-on investor. Gaorong Capital, the lead investor in the company's angel round, continued to increase its stake.
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