Breaking Barriers in Quantum Tech 🚀 We’re thrilled to share that BlueQubit has secured a $10M Seed funding round, led by Nyca Partners and supported by Chaac Ventures, Restive Ventures, Alumni Ventures, NKM Capital, BigStory VC, DEPO Ventures, Formula VC, Untapped Ventures, Granatus Ventures and other visionary investors who believe in our mission 💙 This new funding fuels our efforts to deliver cutting-edge software tools and pioneering quantum algorithms, helping enterprises unlock the full potential of quantum computing. Our goal: accelerate the journey to true quantum advantage⚡ A heartfelt thank you to our customers, investors, advisors, partners, and the entire BlueQubit team—you make these breakthroughs possible. ✨ We’re expanding and eager to welcome new talent passionate about shaping the future of quantum. Let’s build something extraordinary together! #QuantumComputing #QuantumInnovation #QuantumAdvantage
BlueQubit
Technology, Information and Internet
Bay Area, California 4,264 followers
Democratizing Quantum Computing
About us
BlueQubit builds first-in-class quantum software for current and upcoming quantum computers. BlueQubit platform at https://app.bluequbit.io lets you run things on Quantum Computers with a single click.
- Website
-
https://bluequbit.io/
External link for BlueQubit
- Industry
- Technology, Information and Internet
- Company size
- 11-50 employees
- Headquarters
- Bay Area, California
- Type
- Privately Held
- Founded
- 2022
Locations
-
Primary
Bay Area, California, US
Employees at BlueQubit
-
Gabriele Musella
CEO Founder at Coinrule | Y Combinator S21 | Mentor at Google
-
Hrant Gharibyan, PhD
Founder & CEO at BlueQubit | 12+ years in Quantum Computing
-
Leo Zhou
UCLA Professor in Electrical and Computer Engineering
-
Vincent Su
Quantum Research @ BlueQubit | Cal '24 | Stanford '16 & '17
Updates
-
🌟 Quantum Error Correction Hits a Major Milestone 🌟 Researchers from Google Quantum AI and others showcase significant progress in quantum error correction, demonstrating that practical fault-tolerant quantum computing is within reach. 🚀Insight: This work proves that scaling error correction can meet the needs of large-scale quantum algorithms. It’s a significant step toward fault-tolerant quantum computing, bringing us closer to solving real-world problems with quantum power. 🔴 Read more here: https://lnkd.in/edNjt5m2 #QubitScript #QuantumComputing #ErrorCorrection
-
Achievements fueled by dedication and innovation 🚀 serve as a reminder to aim higher and push boundaries 🌟 The journey continues with a relentless drive to shape the future 🔥💡
🚀 Q2B 2024 was an absolute blast! I had the pleasure of giving a talk about running image classification with 10,000+ gates on today’s quantum hardware. ⚛️ We showcased how complex tasks like this can already be achieved on quantum computers that perform 10,000+ operations – a scale that felt unimaginable just a few years ago 💪 🔵 John Preskill's talk was a highlight! He also noted this same progress, emphasizing how far we’ve come. He predicted we’ll soon see hardware capable of running 1,000,000 quantum operations – the so-called Megaquop machine 💥 Another huge moment: 🔵 Hartmut Neven - Google Quantum Lead - presented their recent breakthrough that’s been everywhere in the news: a task running on 100+ qubits that would take regular super computers 10,0...(25 0s)...0 years. This news kind of eclipsed a more nuanced discovery: For the first time, Google demonstrated error correction in practice – encoding a single qubit across many qubits and achieving significantly lower error rates. This is huge for the future of scalable quantum systems 🚀 🛠️ It’s incredibly motivating to see both startups and giants pushing the boundaries of quantum computing, with tangible progress across the board. 2024 wrapped up on a high note – I can’t wait to see what 2025 has in store for the quantum ecosystem! 🚀 #QuantumComputing #Q2B24 #Innovation #QuantumHardware #BlueQubit
-
🌟 Cracking the Code on Quantum Witness Cloning 🌟 Check out the latest paper 📄 "On the hardness of cloning and connections to representation theory" by researchers Vojtěch Havlíček (IBM Quantum) and Chinmay Nirkhe (University of Washington) dive deep into the computational challenge of cloning quantum witnesses, linking it to the intricate world of representation theory and quantum complexity. ❓ What’s the Problem? In quantum computing, witnesses are quantum states accepted by a circuit. While it's known that creating witnesses is hard (assuming BQP ≠ QMA), the difficulty of cloning these witnesses hasn’t been fully explored. This research investigates whether efficient cloning algorithms can exist. 🌟Lowdowns: 🔹 Hardness of Cloning: Evidence suggests that cloning a witness state ∣ψ⟩|\psi\rangle∣ψ⟩ isn’t significantly easier than constructing the state itself. 🔹 Connections to Representation Theory: The work ties quantum state complexity to Kronecker coefficients, making it a multi-disciplinary challenge. 🔹 Hidden Maximally Entangled States: Proves that cloning such states requires disentangling them, a process inherently tied to revealing the generating circuit—a key barrier to efficient cloning. 🔹 Open Conjecture: Researchers propose a cloning conjecture and invite the community to explore this unfinished problem further. 🔬Future impact: This research bridges quantum complexity and mathematics, opening new avenues in theoretical and applied quantum computing! 📄 📍 Read the full paper here: https://lnkd.in/dYgHeMth #QubitScript #QuantumComputing #Cloning
-
✨Proud moment ! 🤩We are incredibly proud of our visionary CEO and Co-Founder, Hrant Gharibyan, whose leadership and innovation are making waves in the quantum computing industry. His dedication to advancing cutting-edge technology at BlueQubit is not just shaping the future of computing but also inspiring everyone around him to dream bigger and achieve more. 👏 A heartfelt thank you to GlowUp Network for recognizing Hrant’s exceptional contributions and featuring him in their platform. It’s always inspiring to see leaders like him celebrated for their impact and achievements. ⚡️Thank you for shining a light on the incredible work happening at BlueQubit! Together, we are building a brighter, more quantum-powered future.
Meet Hrant Gharibyan, PhD – Founder & CEO at BlueQubit Hrant is a Stanford-trained quantum computing researcher with an impressive track record in quantum algorithms, machine learning, and theoretical physics. With over 1,000 citations across 25+ peer-reviewed articles, Hrant’s contributions are shaping the future of quantum computing. As the CEO of BlueQubit, Hrant is making quantum technology accessible to industries like defense, automotive, and finance, unlocking its potential for real-world impact. Let’s celebrate Hrant’s dedication to pushing the boundaries of innovation in quantum computing! #QuantumComputing #Innovation #BlueQubit #TechnologyLeadership #FutureOfTech
-
🌟 Magic State Cultivation: Making T Gates as Cheap as CNOT Gates! 🌟 Magic state cultivation is here, and it’s changing the game for fault-tolerant quantum computing. Forget the costly, resource-heavy methods of the past—this new approach grows T states (essential for T gates) faster, cheaper, and with fewer qubits. 🤔What’s Magic State Cultivation? It’s like gardening for quantum states: 🔹 Gradually grows a single T state, improving both size and reliability. 🔹 Fits seamlessly into surface code patches, requiring about as many resources as a CNOT gate of similar reliability. 🔹 Slashes spacetime costs by 10x compared to older methods. ▪️Impact ✨ Makes T gates affordable, transforming quantum algorithm design. ✨ Enables faster and more efficient quantum arithmetic (think carry-lookahead adders replacing slower ripple-carry adders). ✨ Paves the way for practical fault-tolerant quantum computers. 🔺Magic state cultivation isn’t just a technical improvement—it’s a major leap toward scalable, cost-effective quantum computing. The quantum future just got a whole lot brighter! 💡 📑 📍Read the full paper here: https://lnkd.in/dRu6zg7n #QubitScript #QuantumComputing #Magic
-
⚡ Energizing moments captured during the recent event! The team engaged deeply with quantum computing innovations, sharing insights and fostering connections. A sense of collaboration and enthusiasm filled the atmosphere, highlighting the potential of technology to transform industries. 🚀 Looking forward to future opportunities and continued growth in this dynamic field! 🌟
🌟 Had a fantastic time at Q2B with the BlueQubit Team 🚀 The Q2B Conference in Silicon Valley was an inspiring experience. We connected with quantum scientists, quantum companies, and customers from around the world 🌍, sharing ideas and exploring collaborations. The conference made it clear: scientific quantum advantage is just around the corner. The progress we’re seeing across the field is laying the foundation for breakthroughs that will soon change the world of computing. Grateful for the insightful conversations and excited about the opportunities ahead. Thank you to everyone who made it so memorable! Hayk Tepanyan Jake Malliaros Vincent Su #QuantumComputing #Q2B #BlueQubit #QuantumTech
-
🌟 Inspiring News from PsiQuantum ! 🌟 The company announced the opening of a new office in Brisbane, Australia! 🎉 This advanced facility marks a significant milestone in the mission to build the world’s first photonic quantum computer. 🎯 Designed to foster innovation and collaboration, the Brisbane office strengthens efforts to revolutionize computing and deliver groundbreaking solutions across industries. 🎊 Congratulations to the entire team and best wishes to the Brisbane location on this incredible new chapter! #PsiQuantum #QuantumComputing #TechNews #FutureIsQuantum
We are thrilled to announce the opening of our Asia-Pacific HQ in Brisbane’s CBD and reveal the first renderings of our quantum computing site adjacent to the Brisbane Airport. Co-founder & Chief Architect Terry Rudolph, Australian Chief Technical Director Geoff Pryde and our Australian team welcomed guests from across the country for the opening of our new office and shared a look at the progress across PsiQuantum’s technical efforts and our operations in Queensland. It was our pleasure to host Krista Adams, Deputy Mayor Brisbane City Council who joined to help cut the ribbon on our new Asia-Pacific HQ. For decades, Queensland has been a leader in the research and development of quantum technologies. PsiQuantum’s project with the Queensland and Commonwealth governments is aimed at scaling up this technology and ensuring Queensland continues lead globally in quantum computing. Our work continues at pace and we look forward breaking ground on the facility that will house the world’s first utility-scale quantum computer. Read more here: https://lnkd.in/gyamYc75
-
🎉 Exciting breakthrough in quantum computing! IBM Quantum has demonstrated two connected quantum processing units (QPUs) working together to execute a circuit beyond the capabilities of either processor alone—a major step toward quantum-centric supercomputing (QCSC). 🌌 This achievement showcases the power of modular quantum computing and innovative circuit cutting techniques, paving the way for scalable quantum systems. 🚀 🖇️Learn more about this groundbreaking research: https://ibm.co/41to7xy 👏 Congrats to IBM on this incredible milestone! #QuantumComputing #Innovation #IBMQuantum
A new IBM paper recently published in Nature offers the world’s first demonstration of an essential step toward our vision of quantum-centric supercomputing (QCSC): two connected quantum processing units (QPUs) working together to execute a circuit beyond the capabilities of either processor alone. In our latest post on the IBM Quantum blog, we’re taking a deep dive into the novel circuit cutting methods that made this research possible: https://ibm.co/41to7xy Just like today’s classical high-performance computing clusters are made up of hundreds or thousands of CPUs and GPUs working together to solve problems no single processor could handle on its own, we believe the future of quantum computing will be *modular*. In modular quantum computing architectures, we use circuit cutting techniques to decompose large quantum circuits into more manageable subcircuits we can run on individual QPUs, and classical post-processing to stitch their outputs back together to get the desired results. The quantum community has spent years exploring the theory of circuit cutting, but the new IBM research is among the first to experimentally demonstrate the specific decompositions and other methods needed to execute two-qubit gates across separate processors. The IBM researchers behind these experiments say the novel methods they created will have not only long-term relevance to the future of QCSC, but also near-term relevance for researchers working on utility-scale simulations of nature and other quantum computing applications. In the blog, you’ll learn many more details about the recent experiments—including the pros and cons of LO vs. LOCC circuit cutting schemes, the role of dynamic circuits in circuit cutting protocols, and more. Give it a read at the link above.
-
Big thanks to our friend Hayk Chakyan for the shoutout and support! 🙌 💡 At BlueQubit, we’re thrilled to have friends who believe in the vision. 🖤 Also, Hayk C. good luck with that crypto sale! 🚀 Cheers to more breakthroughs and collaborations ahead. 🥂 #QuantumComputing #Innovation #BlueQubit
Congratulations to my friends at BlueQubit for being right about quantum. Also, someone hold my beer while I sell this crypto. If you’d like an introduction to them, or anyone in my network. Don’t hesitate to reach out! I’m on LinkedIn to help!