New Fast Company article includes Yuval Boger’s view that fault-tolerant logical qubits, not operating temperature, will define practical quantum computing. https://t.co/3Nq3w5u5oF @FastCompany

💊 Case study: Merck, Amgen, Deloitte & QuEra used Quantum Reservoir Computing (QRC) to improve clinical-trial predictions from small datasets — a major bottleneck in early-stage & rare-disease R&D. Hybrid quantum-HPC in action. 👉 Read more: https://t.co/AayduR13Bd

🧩 Researchers from QuEra, Harvard and MIT demonstrate logical magic-state distillation on a neutral-atom platform — a key step toward fault-tolerant quantum computing. 🔗 Nature, July 2025: https://t.co/28o7XiCTlg Video presentation: https://t.co/g5U40XOwMc

🎥 New video from QuEra: Harvard researchers describe their work on continuous operation of a 3,000-qubit neutral-atom system — showing how scalable, coherent quantum hardware moves from lab demos toward real-world reliability. Watch the full video 👉 https://t.co/czwEioutSA

Co-designing quantum error correction (QEC) techniques and quantum computing hardware is at the heart of QuEra's strategy. Our work with NVIDIA to leverage cutting edge, AI QEC decoding techniques is featured in a recent NVIDIA's blog post. https://t.co/FczepuIIpX

This presentation, summarizing arXiv:2508.09920, explains how scalable, high-speed, and ultrahigh-extinction photonic control is enabling fault-tolerant quantum computing. Watch here 👉 https://t.co/iM9yQ9Ursa

Learn more in our arxiv paper, Transversal STAR architecture for megaquop-scale quantum simulation with neutral atoms

Our next Science with QuEra webinar is coming up on Dec 4. We’ll discuss quantum criticality & nonequilibrium dynamics using 256+ qubit neutral-atom arrays, based on arXiv:2509.18294. Register: https://t.co/OkiWDnFG3t

Quantum error correction is advancing fast. Tech Monitor features QuEra’s Algorithmic Fault Tolerance (AFT), which reduces correction cycles and accelerates runtime. ⚛️ https://t.co/eOExgYEnft

⚛️ SDT joins the QuEra Quantum Alliance, boosting global neutral-atom momentum and advancing scalable, practical quantum computing. #GlobalQuantum https://t.co/mCnqEoSfNa

QuEra is proud to be recognized by the New England Venture Capital Association as part of the #NEVYs25, celebrating the New England teams shaping the future of innovation. We’re thrilled to be a part of this esteemed group: https://t.co/Fc0SXifrRC @NewEnglandVC

💡 How photonics unlocks neutral-atom scale. Ultrahigh extinction, low crosstalk, fast switching — precision optics for scalable qubit control. Better optics = better qubits. https://t.co/Wug95en2hP

Join us on Nov 13 for a "Science with QuEra" webinar covering Nature 646, 303–308 (2025), " Low-overhead transversal fault tolerance for universal quantum computation " Register at: https://t.co/CfcbXsBfzI

Encoding strategies are presented for both surface codes and high-rate codes, with corresponding performance analyses. We expect this milestone result to significantly advance the era of megaquop-scale quantum computing. Read the full paper here:

QuEra’s research team introduces a transversal STAR architecture for small-angle magic state generation with neutral atoms. They demonstrate that fault-tolerant simulations with > million T-gates could be achieved with only ten thousand qubits at a physical error rate of 0.1%.

While this is usually achieved through magic state distillation or cultivation, certain resource states could potentially be synthesized more efficiently in a semi–fault-tolerant way, accelerating our ability to perform complex workflows in fields such as materials simulation.

Transversal STAR architecture for megaquop-scale quantum simulation with neutral atoms https://t.co/IFzsE89Ypa Universal fault-tolerant quantum computation requires the synthesis of complex resource states.

Join us next week for a "Science with QuEra" webinar covering Nature 646, 303–308 (2025), " Low-overhead transversal fault tolerance for universal quantum computation " Register at: https://t.co/CfcbXsBfzI

Join us on Dec 4th for a "Science with QuEra" webinar series. We will host NESRC and University of Toronto researchers to describe our joint work "Quantum criticality and nonequilibrium dynamics with neutral atoms" (arXiv:2509.18294). Register here:

Three Harvard researchers presented their work on "Continuous operation of a coherent 3,000-qubit system" [Nature (2025): https://t.co/FyEwQTZ6OK ] on a recent "Science with QuEra" webinar. Catch the recording here: