Venturus is an important member of the QuEra Quantum Alliance, a group of global leaders in quantum computing and HPC, partnering to drive positive change in the world through neutral-atom computers. Daniel Moraes, Head of Emerging Technologies, describes their activities and why they joined the alliance. Learn more at https://hubs.ly/Q02P23zQ0
QuEra Computing Inc.
Research Services
Boston, Massachusetts 16,952 followers
QuEra Computing is the leader in quantum computers based on neutral atoms. Use our 256-qubit machine on AWS Braket.
About us
Located in Boston, QuEra Computing is a maker of advanced neutral-atoms based quantum computers, pushing the boundaries of what is possible in the industry. Founded in 2018, the company is built on pioneering research recently conducted nearby at both Harvard University and MIT. QuEra is building the industry’s most scalable quantum computers to tackle useful but classically intractable problems for commercially relevant applications. Our signature 256-qubit machine, Aquila, the largest publicly-accessible machine in the world, is available now for general use over the Amazon Braket cloud. For more information, visit us at quera.com.
- Website
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https://www.quera.com/
External link for QuEra Computing Inc.
- Industry
- Research Services
- Company size
- 51-200 employees
- Headquarters
- Boston, Massachusetts
- Type
- Privately Held
- Founded
- 2018
- Specialties
- Quantum computing, Quantum algorithms, Neutral atoms, Quantum optimization, Quantum simulation, Quantum machine learning, and Quantum applications
Locations
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Primary
1284 Soldiers Field Rd
Boston, Massachusetts 02135, US
Employees at QuEra Computing Inc.
Updates
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Quantum supremacy in five years? Read CIO Magazin article on the subject (in German), describing results from our recent survey of nearly 1000 professionals. https://hubs.ly/Q02P23420
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#QWC2024 Quantum World Congress starts today, and the QuEra team is there to help with establishing national quantum programs, integrate quantum into HPC centers and facilitate quantum research breakthroughs. Catch us at: - The exhibit hall (booth 32) - Tuesday at 2:15 when Yuval Boger will lead the "Quantum Computing in Asia" discussion in the "Market acceleration track" - Tuesday at 3:30 when Nate Gemelke will be speaking at the "Market acceleration" track in a "Fostering Innovation through Collaboration" panel Pedro Leopoldo e Silva Lopes Yelissa Lopez
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One key benefit of quantum computers is that their power consumption is orders of magnitude less than supercomputers. Once quantum computers can replace classical supercomputers for some computational tasks, data centers may feel some relief. How big is this problem? This article from EdTech Magazine explains How AI Is Affecting Data Center Power Consumption https://hubs.ly/Q02NgcRZ0
How AI Is Affecting Data Center Power Consumption
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The Global Quantum Intelligence, LLC article “How to Assess (Quantum) Uncertainty - GQI Guide for Investors” outlines strategies for investors to navigate uncertainties in the quantum technology sector. It emphasizes scenario analysis, technological roadmapping, and the Quantum Addressable Market (QAM) model to predict potential futures and market opportunities in quantum computing, communications, and sensing. The guide helps stakeholders make informed decisions by analyzing technological progress and market dynamics across various scenarios and timelines. When we meet with customers that analyze quantum vendors, we typically see them looking at: - TRL level: do you have a deployed, publicly-accessible system? For how long? - Scalability roadmap and the challanges that need to be overcome to meet it. - Error correction strategy and current progress How to Assess (Quantum) Uncertainty - GQI Guide for Investors - Quantum Computing Report https://hubs.ly/Q02Ngdh70
How to Assess (Quantum) Uncertainty - GQI Guide for Investors - Quantum Computing Report
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Magic-state distillation is a key protocol to perform fault-tolerant quantum computing. This process is deemed mandatory for performing fault-tolerant calculations that involve non-Clifford operations - that is, operations hard to simulate classically and necessary for universal computations. Yet this is a resource intensive protocol, with no strong demonstration on quantum hardware yet. In this work, authors propose a new protocol that optimizes the overhead for magic state distillation, concluding that polynomial time is achievable. This marks a concrete step forward in reducing the resource demands for fault-tolerant quantum computing. https://lnkd.in/gzHWhprB
Constant-Overhead Magic State Distillation
arxiv.org
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Our 256-qubit Aquila is being used to solve a wide range of optimization, simulation and quantum machine problems. Join us on Oct 8th for a "Aquila in action: tasting menu" webinar in which three QuEra experts demonstrate results in each of these three areas. Secure your spot here: https://hubs.ly/Q02NgblM0
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QMware AG is an important member of the QuEra Quantum Alliance, a group of global leaders in quantum computing and HPC, partnering to drive positive change in the world through neutral-atom computers. George Gesek, CEO, describes their activities and why they joined the alliance. Learn more at https://hubs.ly/Q02LDwyd0
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Join us next Wednesday and every second Wednesday of the month for virtual office hours. Hang out with QuEra scientists to talk about error correction, quantum machine learnin, optimization using neutral atoms, Python and Julia quantum software and much more. Register here: https://hubs.ly/Q02NgcrW0
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"Our collaboration with them has been very successful", says Katie Klymko from National Energy Research Scientific Computing Center (NERSC) about their first-year collaboration with QuEra Computing Inc. We are excited to continue to the second year and beyond. Read NERSC's full press release https://lnkd.in/gy4k2W8h #HPC #quantumComputing
Collaboration Exploring Neutral Atom Technology Expanded for Second Year
nersc.gov