This is the era of fault tolerant quantum computing. 2025 has seen SQC open up about our world leading progress and leadership in silicon based quantum computing. Now, we're incredibly proud to be collaborating with NVIDIA on NVQLink: tightly coupling HPC, GPUs and QPUs today and into the quantum future. We make our own chips, but we can't do it alone. Systems that can solve problems of exponential complexity will require purity, precision and fabrication uniformity at their heart. They will also require the world's best classical hardware and software to correct errors and realise algorithmic fidelity. Announced today at NVIDIA GTC DC, NVQLink marks a major step toward commercial-grade quantum computing, unlocking new possibilities in cybersecurity, materials science and AI. SQC’s qubits already demonstrate world-leading algorithmic fidelity. Now, with NVQLink, we’re integrating quantum and classical systems at scale to bring the quantum future in from the horizon into your datacenter or directly to you, via cloud. #QuantumComputing #SQC #NVIDIA #NVQLink #GTC #HPC
Silicon Quantum Computing
Technology, Information and Internet
Sydney, NSW 11,080 followers
Creating technology at the cutting edge of science.
About us
We manufacture the world's highest quality qubits and deliver the highest algorithmic performance of any quantum system. We deliver quantum advantage, today, with our QML chips and molecular simulators. This is SQC. The CEO, Michelle Simmons, is the world's leading materials scientist. She developed both the world’s first single-atom transistor and the first integrated circuit made with atomic precision. The company is Chaired by Simon Segars, the former ARM CEO (2013-'22). With AU$283m (US$180m) in funding to date and a highly integrated team of over 70 engineers, SQC has developed a full-stack quantum computer. SQC manufactures our own quantum computing chips in-house at Sydney HQ using machines which allow us to see and control matter atom-by-atom. This ultra-precise approach is crucial to realising the quantum future and has already resulted in the company achieving the highest reported fidelities on quantum algorithms of any company. Owning our key manufacturing also means that we can design, produce and test new chip designs every week. The story of every tech success has been one of speed and iteration. Quantum will be the same. Web: www.sqc.com.au Contact: [email protected]
- Website
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http://sqc.com.au
External link for Silicon Quantum Computing
- Industry
- Technology, Information and Internet
- Company size
- 51-200 employees
- Headquarters
- Sydney, NSW
- Type
- Privately Held
- Founded
- 2017
- Specialties
- quantum computing
Locations
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Primary
Get directions
Newton Building
UNSW Sydney, Kensington Campus
Sydney, NSW 2052, AU
Employees at Silicon Quantum Computing
Updates
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Thank you for the opportunity to talk about the interesection of AI and quantum computing at CEDA - Committee for Economic Development of Australia The possibilities are boundless and, as we’ve shown alongside Telstra, quantum can deliver faster and more resource efficient AI today. Thanks in particular for the moving Welcome To Country from Uncle Billy Cummings of Turrbal Dippil
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Today we have announced results of the performance of our quantum machine learning chip - Watermelon - alongside the biggest telco in Australia, Telstra. "Put simply, the quantum-enhanced model matched the performance of Telstra’s current model - but was trained much faster." Quantum technologies are useful, today. Our ability to manufacture atomically precise chips in our labs here in Sydney yields a leading roadmap to commercially useful quantum computing...and it enables us to build application-specific quantum systems that deliver value to our customers today. Our Watermelon systems, which are in the hands of some of the largest organisations in the world, are delivering tangible value today. It's AI just faster and less resource intensive. Sandy Cameron Kim Krogh Andersen Simon Segars Michelle Simmons Matthew Bradley Brett Freeman Cristian Danci Shailin Sehgal Sam Gorman Simeon Baker-Finch
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Commonwealth Bank have been with us since before the beginning, supporting our founder Michelle Simmons work for over a decade. They're now one of the ten largest banks in the world and have always been leaders in financial technology. Yesterday we had the opportunity to talk about the future of quantum x finance to employees in Sydney and across Australia from their HQ in Eveleigh. Here's to the decades to come!
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Commercial scale quantum computing does not exist without scalable cooling. Building quantum computers takes a global network of suppliers who are willing to push the limits of technology alongside you which is why we’re proud to be partners with Bluefors. We manufacture our own QPUs in our Sydney fab and turn round new chip designs in a week: so we need cryogenics that match that speed of research and development. It’s exactly what the XLD offers and we’re in close collaboration with the team as our requirements evolve as we scale qubit count to commercial utility. You can read more on our site, or theirs 🧊🧊🧊🧊🧊
Silicon Quantum Computing is building the first commercial quantum computer platform capable of hosting millions of qubits in a single system with scalable cooling. Founded in 2017 by Professor Michelle Simmons as a spinout from UNSW, Silicon Quantum Computing (SQC) is pioneering atomic-scale quantum technology. Simmons’ team created the first single atom transistor in 2012, followed by the 3D atom transistor in 2019 and an atomic-precision integrated circuit in 2022. Today, SQC’s team is focused on scaling qubits and building the world’s first commercial-scale quantum computer with millions of qubits by 2033. At the heart of SQC’s approach is the 14|15 platform—named after silicon and phosphorus on the periodic table. Using isotopically pure silicon-28 and atomically precise placement of phosphorus atoms, SQC builds ultra-quiet, solid-state environments for their atomic qubits. This architecture enables long coherence times, low error rates, and robust multi-qubit operations, setting new benchmarks in quantum fidelity and scalability. Since these qubits consist of only two types of atoms, SQC can also fit thousands of qubits on a QPU and millions on one chip. “The ultimate aim is to develop a commercial scale quantum computer that will fit in one dilution refrigerator: a scalable, cost-effective solid-state platform that combines the stability of atomic qubits with the scalability of modern chip fabrication. It is the most viable path to make large-scale quantum computing both technically and economically viable,” Michelle says. Silicon Quantum Computing’s atomic-level engineering demands equally high-performance cryogenics. That’s where Bluefors comes in. “Our commercial scale quantum computer fits into one dilution fridge. This is exceptional science – leading to superior economics of the commercial system – that requires the very best technology in cryogenic technology. This is why we partner with Bluefors,” Head of Quantum Engineering Ludwik Kranz from SQC says. In our case story, we look at SQC's unique 14|15 Platform, how their incredibly precise engineering capabilities push the boundaries of atomic electronics, and the role cryogenics plays in scaling the platform. Read it here: https://lnkd.in/dUPvjh-k 📸: SQC #quantumcomputing #quantumtechnology #quantum #cryogenics #CoolForProgress
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