#qubits

@adityabasu.bsky.social

4 days ago

Quantum supremacy is reality! Google's Willow processor achieved a verifiable 13,000x speedup over supercomputers. The fault-tolerant quantum future is now. Read the deep analysis in NexTechie Qubits! 🔗 url.nextechie.in/NHoH5O
#QuantumComputing #GoogleWillow #Qubits

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XeedQ GmbH

@xeedq-gmbh.bsky.social

2 weeks ago

With them, they become computational tools capable of solving problems classical computers can't touch.

Quantum gates orchestrate quantum logic. Want to understand how they work?

#xeedq #xq #quantumcomputing #qubits #quantumalgorithm

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@techlife-blog.bsky.social

2 weeks ago

Real-time monitoring system tracks rapid fluctuations of qubits. Researchers have built a real-time monitoring system that tracks rapid fluctuations of qubits 100 times faster than previous methods, opening a path toward stabilizing and scaling future quantum proce...

Real-time monitoring system tracks rapid fluctuations of qubits.

techlife.blog/posts/quantu...

#quantumcomputing #qubits #FPGA #realtimemonitoring #quantumprocessors

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eddieoz

@eddieoz.mastodon.social.ap.brid.gy

2 weeks ago

De 20 milhões a 100 mil qubits — o que o paper revelou

Você consegue imaginar o que significa cortar de 20 milhões para 100 mil qubits? 🤯

- O que o paper diz:
• Com um algoritmo organizado de forma específica e controles de erro definidos, os qubits […]

[Original post on mastodon.social]

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Brian Jackson

@brianjackson.ca

2 weeks ago

Why Quantum Computing Still Isn’t Close To Its ChatGPT Moment The next time someone tells you that quantum computing is ready for prime time, take a breath.

The hype is all focused on gate-based quantum processors But there’s another type of quantum computer that’s seeing commercial deployments in enterprise environments today.
www.forbes.com/councils/for... #quantum #ciosky #qubits

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DomainGang.com

@domaingang.com

3 weeks ago

Qbits: Bangladeshi laptop retailer spent $50k on domains via Sedo Qbits, stylized as QBITS, is a laptop, monitor, and mini PC retailer in Dhaka, Bangladesh. The company went on a domain shopping spree recently, upgrading from Qbits.io to the full trifecta of the ...

Qbits: Bangladeshi laptop retailer spent $50k on domains via Sedo 💻 domaingang.com/domain-news/...

#Qbits #Domains #Brands #Qubits

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BioResire Research Labs

@bioresireresearch.bsky.social

1 month ago

Quantum computing leverages qubits, superposition, and entanglement to revolutionize drug discovery, AI, cryptography, and complex data processing globally.
#QuantumComputing #Qubits #Superposition #Entanglement #ArtificialIntelligence #DrugDiscovery #Cryptography #FutureTechnology #BioResire

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XeedQ GmbH

@xeedq-gmbh.bsky.social

1 month ago

This is why building practical, scalable quantum systems demands both innovation in error correction and advances in hardware stability.

Questions about the approach? Drop them below.

#xeedq #quantumcomputing #qubits

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LBNL Accelerator Technology & Applied Physics

@atap.lbl.gov

1 month ago

Photos of people working with various scientific equipment in laboratory settings.

Read how Berkeley Lab provides @uhmanoa.bsky.social students with hands-on opportunities, enabling them to perform experiments, analyze #qubits, compare model predictions, and publish their findings.

Department of Energy

atap.lbl.gov/news/university-of-hawai...

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@byteandpieces.bsky.social

1 month ago

Silicon Is Dead: Google vs. Microsoft & The Quantum Computing Revolution Is the AI revolution about to burn itself out? Here is the dirty secret the tech giants don't want to talk about: Traditional computing has hit a physical wall. We are running out of power, we are generating too much heat, and our current silicon chips literally cannot handle the AI future we were promised. But there is a "phase shift" coming that changes everything. In this episode, we explore the high-stakes race to build the ultimate exit ramp: Quantum Computing. We aren't talking about distant theories anymore. We break down the recent, game-changing breakthroughs from Google and Microsoft that prove the quantum era is finally transitioning from science fiction to a palm-sized reality. We deep dive into Microsoft’s ambitious Majorana 1 chip—a processor aiming to fit a million qubits into a device smaller than your phone—and Google’s mastery of "logical qubits," the error-correcting holy grail that makes quantum reliable. Inside this episode, we unpack: - The AI Energy Crisis: Why ChatGPT and LLMs are eating the power grid and why reversible operations are the only way to stop the bleed. - The Clash of Titans: How the rivalry between Google and Microsoft is accelerating the timeline for sustainable digital progress. - Beyond Speed: How this tech creates a revolution in material science and cryptography (and why your passwords might be obsolete soon). Forget Moore’s Law. We are entering a new dimension of computing where efficiency isn't just a feature—it’s survival. If you want to know what the next ten years of technology looks like, you need to understand the quantum leap happening right now. 🎧 Press play to see the future before it happens. Mind blown by the quantum future? Hit that follow button, rate us 5 stars, and share this episode with a tech-savvy friend who thinks they know where AI is going. Let’s decode the future together!

📣 New Podcast! "Silicon Is Dead: Google vs. Microsoft & The Quantum Computing Revolution" on @Spreaker #ai #artificialintelligence #coding #energycrisis #engineering #futuretech #google #innovation #machinelearning #majorana #microsoft #phaseshift #quantumcomputing #qubits #science #technews

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Persberichten

@persberichten.com

1 month ago

In 2026 stopt het experimenteren met kwantum: het is tijd voor strategische positionering

Door Arie Kraan en Ronald Bottenberg, Business Development – Quantum, HPC & Annealing bij FSAS Benelux

#Persbericht #Voorspelling #Fujitsu #Kwantumcomputing #Kwantumtechnologie #Qubits

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Persberichten

@persberichten.com

1 month ago

In 2026 stopt het experimenteren met kwantum: het is tijd voor strategische positionering

Door Arie Kraan en Ronald Bottenberg, Business Development – Quantum, HPC & Annealing bij FSAS Benelux

#Persbericht #Voorspelling #Fujitsu #Kwantumcomputing #Kwantumtechnologie #Qubits

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Thiard News@F4F

@newsen.bsky.social

2 months ago

Qubits and Cengage School Join Forces to Enhance Global K-12 Computer Science Education Qubits partners with Cengage to broaden access to innovative K-12 computer science curriculum, bridging the gap in student enrollment and engagement.

Qubits and Cengage School Join Forces to Enhance Global K-12 Computer Science Education #United_States #Indianapolis #Education #Qubits #Cengage

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WealthWise

@wealthwise-dca.bsky.social

2 months ago

Rigetti Computing has pushed general availability of its 108-qubit Cepheus-1-108Q system to the end of Q1 2026.

#RGTI #Rigetti #RGTIStock #RGTINews #RigettiComputing #RigettiStock #RigettiNews #QuantumComputing #QuantumComputingStocks #Cepheus #Cepheus1108Q #Qubits
$RGTI

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Whitty

@whittyatlarge.bsky.social

2 months ago

Plugging Leaks in Quantum Computing A new strategy improves error correction in quantum computation by mitigating the effects of qubits escaping from their intended states.

Plugging Leaks in Quantum Computing

A new strategy improves error correction in quantum computation by mitigating the effects of #qubits escaping from their intended states. #QuantumComputing

physics.aps.org/articles/v18...

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Brian N. Siegelwax

@bsiegelwax.bsky.social

2 months ago

May Your Qubits Be Merry and Bright And May All Your Quamputers Be... Crimsonite (like The Quantum Dragon)

The Quantum Dragon isn't the newsletter you need right now, but it's the newsletter you deserve.

bsiegelwax.substack.com/p/merry-chri...

#quantumcomputing #qubits #quantumcarousel #quantummachinelearning #quantumnoise @insidequantumtech.bsky.social

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Gadgets Times™

@gadgetstimesrd.bsky.social

2 months ago

**El Salto Cuántico:** Microsoft Anuncia Qubits Topológicos, Acercando la Estabilidad y la Escalabilidad de la Computación Cuántica en **2025**.

Microsoft avanza en Computación Cuántica: primeros qubits topológicos. Mejora estabilidad y reduce error en procesamiento, clave para escalabilidad. #Microsoft #Qubits #Cuántica

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@covermesad.bsky.social

3 months ago

[3/3] Key results:
• Lorentzian fraction: f=42.0±0.4%
• Nucleation scale: r_nuc=1.23ℓ_P
• Qubit prediction: ΔT2/T2=7.3% @ 77.3 GHz

Falsification protocol included. Who has 50mK cryostat + 77 GHz?

#QuantumGravity #Physics #Qubits

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Pure Science

@purescience.news

3 months ago

Qubits break quantum limit to encode information for longer Controlling qubits with quantum superpositions allows them to dramatically violate a fundamental limit and encode information for about five times longer during quantum computations

Qubits break quantum limit to encode information for longer #Science #Physics #QuantumPhysics #QuantumComputing #Qubits #InformationTechnology

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Tali

@talius2.bsky.social

3 months ago

#Quantum #sensor based on #silicon #carbide #qubits operates at #room #temperature

Google demonstrated three dynamic surface codes (QEC) to reduce errors in quantum computers, making them more reliable for complex tasks. scitechupdates.com/q...

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Mad City Labs (madcitylabs1)

@madcitylabs.bsky.social

3 months ago

Today is the last day of exhibits at MRS Fall in Boston. Stop by Booth 717 before 2pm today to discuss our AFM, #Quantum Scanning Microscope, and high precision nanopositioning systems.
#f25MRS #nanopositioning #nanoscopy #physics #qubits

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Cézanne Publishing

@cezannesales.bsky.social

3 months ago

Der diesjährige Physiknobelpreis hat Quantencomputer noch stärker in die Öffentlichkeit gerückt. Rund um die Funktionsweise und das Potenzial der komplexen Technologie kursieren jedoch zahlreiche Mythen.
#Quantencomputer #QuantumBrilliance #Qubits #HybridAI #PQC
www.sysbus.eu/?p=30299

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Pure Science

@purescience.news

3 months ago

Quantum computers that recycle their qubits can limit errors To make quantum computers more efficient and reliable, some of their basic components must be constantly reused – several quantum computer designs can now do just that

Quantum computers that recycle their qubits can limit errors #Science #Physics #QuantumPhysics #QuantumComputing #Qubits #ErrorCorrection

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Python-Job-Alert

@python-job-alert.activitypub.awakari.com.ap.brid.gy

3 months ago

This IBM Engineer Is Pushing Quantum Computing Out of the Lab Genya Crossman is a lifelong learner passionate about helping people understand and use quantum computing to solve the world’s most c...

#Ibm #Ieee #member #news #Ieee #quantum #week #Quantum […]

[Original post on spectrum.ieee.org]

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IEEE Spectrum

@spectrum.ieee.org.web.brid.gy

3 months ago

This IBM Engineer Is Pushing Quantum Computing Out of the Lab Genya Crossman is a lifelong learner passionate about helping people understand and use quantum computing to solve the world’s most complex problems. So, she is excited that quantum computing is in the spotlight this year. UNESCO declared 2025 the International Year of Quantum Science and Technology. It’s also the 100th anniversary of physicist Werner Heisenberg’s “On the Quantum-Theoretical Reinterpretation of Kinematic and Mechanical Relationships,” the first published paper on quantum mechanics. Crossman, an IEEE member, is a quantum strategy consultant at IBM in Germany. As a full-time staff member, she coordinates and manages five working groups focused on developing quantum-based solutions for near-term problems in health care and life sciences, materials science, high-energy physics, optimization, and sustainability. ### Genya Crossman **Employer** ****IBM in Germany **Job title** ****Quantum strategy consultant **Member grade** ****Member **Alma maters** University of Massachusetts, Amherst; Delft University of Technology and the Technische Universität Berlin She attended the sixth annual IEEE Quantum Week, held from 31 August to 5 September in Albuquerque. This year’s event, also known as the IEEE International Conference on Quantum Computing and Engineering, marked the first time that the IBM- and community-created working groups’ experts and collaborators publicly presented their research together. “We got great feedback and information about identifying common features across groups,” Crossman says. “The audience got to hear real-life examples to understand how quantum computing applies to different scenarios and how it works.” Crossman understands the importance of sharing research more than most because she works at the intersection of quantum computing research and practical application. The quantum field might seem intimidating, she says, but you don’t need to understand it to use a quantum computer. “Anyone can use one,” she says. “And if you know programming languages like Python, you can code a quantum computer.” ## The basics of quantum computing IBM has a long-standing history with quantum computing. IEEE Member Charles H. Bennett, an IBM Fellow, is called the father of quantum information theory because he wrote the first notes on the subject in 1970. In May 1981, IBM and MIT held the first Physics of Computation Conference. “Quantum computing is often used to describe all quantum work,” including quantum science and quantum technology, Crossman says. The field involves a variety of technologies, including sensors, meteorology, and communications. Classical computers use bits, and quantum computers use quantum bits, called __qubits__. Qubits can exist in more than one state simultaneously (both one and zero), known as the ability to exist in “superposition.” Computers using qubits can store and process highly complex information and data faster and more efficiently, possibly using significantly less energy than classical computers. With so much power and processing ability, quantum computers are complex and still not fully understood. Engineers are working to make quantum computing more accessible to everyone, so more people can understand how to work with the technology, Crossman says. ## Inspired by her father and IEEE Growing up in the North Shore of Boston, Crossman spent many summer mornings poring over the latest issues of __IEEE Spectrum__ and __Scientific American__ with her older sister. Her father, Antony Crossman, is an electrical and electronics engineer and an IEEE life member. He often discussed science and engineering concepts with his daughters. Looking back, Crossman says, she sees reading __Spectrum__ as her first introduction to how research is presented. “I loved reading about new research and what could be done with it,” she says. “It helped point me toward engineering as a career.” When she enrolled at McGill University in Montreal in 2011 to pursue a bachelor’s degree in physics, her father gifted her an IEEE student membership. “Montreal is a beautiful, creative city that’s also relatively easy to travel to from Boston within a day,” she says. “Plus, the school was known for its physics program.” After two years, she dropped out and moved to Paris, where she worked in a café. A year later, in 2014, she enrolled in the physics degree program at the University of Massachusetts, Amherst. In the summer of 2016, Crossman’s undergraduate advisor, Professor Stéphane Willocq, recommended her for a research project in the Microsystems Technology Laboratory within MIT’s electrical engineering department. “Quantum computing is often used to describe all quantum work, including quantum computing, quantum science, and quantum technology.” “I had been conducting research” with Willocq, she says, “and he knew I was considering going into electrical engineering, so he suggested I apply for this summer research opportunity.” As a research assistant, she examined carrier transport in transistors and diodes made with two-dimensional materials. After graduating with a bachelor’s degree in physics in 2017, she initially planned to go straight to graduate school, she says, but she wasn’t sure what she wanted to focus on. A friend and former classmate from an undergraduate quantum mechanics course referred her to a quantum computing job opening at Rigetti Computing in Berkeley, Calif. She was hired as a junior quantum engineer. She started by creating the predecessor to, and then the schema for, the company’s first device database. She then designed, modeled, and simulated quantum devices such as circuits for superconducting quantum computers, including some used in the first deployed quantum systems. She also managed the Berkeley fabrication facility. In that role, she learned a great deal about electrical and microwave engineering, she says, and that introduced her to computational modeling. It led her to better understand practical applications of quantum computing, she says. Her newfound knowledge made her “want to learn why and how people use quantum technology,” she says, which is how she became interested in the end users’ needs. To further her career, she left Rigetti in 2020 and moved to Germany to pursue a dual master’s degree in computational and applied mathematics through a joint program between the Delft University of Technology and the Technische Universität Berlin. When she first began her master’s program, IBM recruiters offered her two jobs, she says, but she declined because she wanted to finish her degree. During her studies, she worked with her mentor Eliska Greplova, an associate professor at TU Delft, who invited Crossman to join her quantum matter and AI research group. Crossman learned about condensed matter, machine learning, and quantum learning, and she participated in discussions about the technologies’ implications. Despite being a great experience, it ultimately led her to decide against pursuing a Ph.D., she says, because she enjoyed working in the industry and that’s where she wanted to be in the long run. She had planned to focus her master’s thesis on quantum computing from the end user’s perspective, but she switched to writing about integrating topological properties onto superconducting hardware. She graduated in 2022. In January 2023, she accepted a full-time position at IBM Research in Germany as a quantum strategy consultant, supporting enterprise clients. Since then, her job has changed to technical engagement lead, overseeing the five quantum working groups. She is also part of the team that oversees the company’s responsible computing initiative. IBM defines responsible quantum computing as the type that’s “aware of its effects.” The company says it wants to ensure it develops and uses quantum computing in line with its principles. Established in 2022 by IBM and researchers from other organizations, the working groups tackle near-term problems and look for quantum and interdisciplinary solutions in their area of focus, Crossman says. The groups are community-driven, with researchers from both quantum and nonquantum backgrounds collaborating to identify key problems, decide what to pursue, and pool their expertise to fill gaps, allowing them to look at problems holistically, she says. The groups regularly publish papers and make them publicly available. Crossman’s job is to support the researchers, locate resources, help them use the IBM ecosystem, and identify experts to answer niche questions. Her other focus is on the end users, the people who will employ the research emerging from the working groups. She says she seeks to understand their needs and how to best support them. “I really enjoy quantum engineering and working with everyone because it’s such an interdisciplinary field,” she says. “It combines problem-solving with creativity. It’s really at an exciting stage of development.” With so much momentum, Crossman says, she is eager to see where quantum technologies go next. “When I started learning about quantum mechanics in undergrad, there wasn’t much information out there,” she says. “The beginning of my career was when the quantum computing industry was just getting started. I’m really grateful for that.” ## Staying current on research Being an IEEE member allows Crossman to stay updated on research across multiple fields, she says, and that’s important because most of them “are becoming much more interdisciplinary, especially quantum computing.” She says she is looking forward to collaborating more with IEEE members working on quantum computing. “I’ve always found IEEE useful,” she says. “I can learn about new research in my and other fields, and I really enjoyed attending this year’s Quantum Week.”

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@thetheatom.bsky.social

3 months ago

TANTALUM superconducting qubits with MILLISECOND coherence times! Nature breakthrough - tantalum-silicon systems reduce contamination in quantum processors. Quantum computing just leveled up. ⚛️💻 #QuantumComputing #Qubits #Nature #Physics #Science

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@jyves94.bsky.social

3 months ago

Materials developed at Purdue University incorporated into new Microsoft Quantum qubit platform WEST LAFAYETTE, Ind. — Microsoft Quantum published an article in Nature on Feb. 19 detailing recent advances in the measurement of quantum devices that will be needed to realize a topological quantum…

Matériaux développés à l’université Purdue intégrés dans la nouvelle plateforme de #Qubits "qubit #Microsoft Quantum", utilise un système d’épitaxie à faisceau moléculaire #Riber #MBE412 pour créer des structures hybrides supraconducteur- #SemiConducteur ⚡️

www.purdue.edu/newsroom/202...

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WealthWise

@wealthwise-dca.bsky.social

4 months ago

IBM unveiled its new Quantum Nighthawk processor, marking a major step toward delivering quantum advantage by late 2026 and fault-tolerant quantum computing by 2029.

#IBM #IBMStock #IBMNews #IBMStockNews #QuantumComputing #QuantumProcessor #Nighthawk #Loon #IBMNighthawk #IBMLoon #Qubits
$IBM