Technology
2D Transistors Could Come Sooner Than Expected
Source
IEEE Spectrum
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MIT Technology Review
Pie Day 2026
The article discusses Pie Day 2026 at MIT, where Admissions Blogger Ellie Feng orchestrated the baking of 30 celebratory pies. The post offers a behind-the-scenes look at the making of the pies, reimagining MIT as the Massachusetts Institute of Tasteology. Ellie's Pi Day post and insights into the pie-making process are shared on the MIT Admissions website. The event showcases creativity and community spirit at MIT through a unique culinary celebration.
MIT Technology Review•
IEEE Entrepreneurship Connects Hardware Startups With Investors
IEEE Entrepreneurship is facilitating connections between hardware startups and investors through events that offer networking opportunities and pitch contests. At the 2025 event in San Francisco, startups engaged with Hard Tech investors and service providers during networking sessions. This initiative aims to support entrepreneurs in the hardware industry by providing them with valuable connections and resources to help their businesses thrive.
IEEE Spectrum•
Legendary Qualcomm, Apple, and Nuvia alumni form new CPU startup — Nuvacore promises to 'rewrite the rules of silicon'
Former Qualcomm, Apple, and Nuvia employees have come together to establish Nuvacore, a new CPU startup aiming to revolutionize silicon technology. The company plans to develop a high-performance general-purpose CPU core optimized for data center AI workloads, emphasizing performance and efficiency. Nuvacore's focus on AI-heavy environments sets it apart from traditional server CPUs, with potential optimizations for AI accelerators and data handling. While the specific architecture of Nuvacore's CPUs remains undisclosed, their expertise in developing cutting-edge processors suggests a promising future in the tech industry.
Tom's Hardware•
An Upper Bound on Effective Quantum Computation?
A recent paper suggests a theoretical upper bound on the number of qubits that can be effectively superposed and entangled in quantum computing, potentially impacting industrial cryptography. The proposed limit is on the interdependence of qubits in a quantum algorithm, not the total number of qubits in a quantum computer. The paper explores the concept of discretized space and its implications for quantum computing, proposing a limit of 1000 qubits for effectively addressing legal states. Practical tests for this limit could be conducted within the next 5-10 years, with potential implications for the future of quantum computing if the theory holds true.
SemiWiki•