D-Wave’s Post

Quantum computing in 2025 offers unparalleled solutions to critical global challenges. Read Blog: https://bit.ly/4h1Jquu #CSMTech #LandManagement #DigitalTransformation #SmartGovernance #LandSolutions #TransparentGovernance  

With Quantum Computing transitioning from the laboratory to the Data Centre, businesses must prepare for a transformative future. Early adopters embracing this technology witness enhanced operational efficiency, heightened competitiveness, and optimized resource utilization. By exploring proof of concepts (POCs) and fostering technical skills, organizations can cultivate talent, bolster intellectual property, and drive innovation. Failure to adapt may relegate businesses to a competitive disadvantage, marked by dwindling revenue and limited access to skilled professionals. Where does your business stand on its quantum computing journey? Contact NEC for Quantum Solutions and consultancy services to embark on this cutting-edge path. Quantum computing has transcended the Laboratory and is now at the core of Data Centre operations. #QuantumComputing #BusinessTransformation #Innovation #NEC #DataCentre #TechnologyTransformation #DWaveSystems

Despite remarkable progress by teams like Google’s on projects like Willow to reduce quantum errors, practical problems like satellite beam placement remain out of reach for current quantum computers. Why? The error rates are still high, and quantum computers can only handle small-scale problems effectively. One promising approach is reducing the size of the Hamiltonian matrix, which encodes the problem's structure. A standout method, FastHare, demonstrates that if we solve the reduced Hamiltonian optimally, we can reconstruct the optimal solution for the original problem. Kudos Thang N. Dinh and team. https://lnkd.in/gV-xDujV However, there’s a catch: the Hamiltonian needs to be sparse for this to work. In practice, many encoded Hamiltonian don’t meet this criterion. Here’s where inspiration from operational research—like kernelization and presolving techniques—comes in handy. My two cents? Reduce the problem size first, then create the encoded Hamiltonian. Of course, ensuring we can recover the original solution is crucial, much like with established solvers such as CPLEX or Gurobi. With these techniques, we can now tackle beam placement/frequency assignment problems with up to 15,000 variables, bringing us closer to explore quantum computing's full potential. For a deeper dive into this approach, check out our recent paper here https://lnkd.in/grisB4jV Son Hoang Dau Eva Lagunas Symeon Chatzinotas Hoang Dinh

Quantum computing in 2025 offers unparalleled solutions to critical global challenges.  Read Blog: https://bit.ly/3W7NYrs #CSMTech #CSMTechAfrica #FutureOfTech #DigitalTransformation #QuantumComputing 

Explore Edge computing's immense potential in the article below!

Quantum computing and light-based processing offer transformative benefits. quantum systems enable faster problem-solving for complex calculations, while light-based processing achieves high-speed data transfer with less energy and heat, leading to more efficient and scalable computing solutions. #quantumcomputers #lightspeed #mzort

Quantum computing is emerging, offering immense business benefits. If you're unfamiliar, you should begin to explore practical uses and capture these benefits early. Gartner for IT | #GartnerIT #QuantumComputing #Optimization

As an engineer at Cambridge Consultants, I'm thrilled to be part of the team harnessing the transformative potential of quantum technology. Alongside Nu Quantum we're pushing the boundaries to bring quantum out of the lab and into real-world applications. 🌐🔬   Nu Quantum's LYRA project, supported by Innovate UK, is set to revolutionize the use of quantum compute within data centers by integrating quantum processing units together.   This article by Edmund Owen captures some interesting points about quantum technologies which I think are important to emphasize...   ℹ️ Quantum tech promises to tackle problems we can't solve today and opens doors to applications we haven't even imagined yet.   ℹ️ Quantum technologies need to be scalable and commercially viable, and this work is a step towards that.   ℹ️ Autonomous quantum systems which can self calibrate and continuously operate are critical for real world applications.   If you have some time I'd recommend reading the article to see how Cambridge Consultants is helping move quantum technologies from theory to reality.   #QuantumTechnology #Innovation #DeepTech #FutureOfComputing #CambridgeConsultants #NuQuantum

Post-quantum computing isn’t just a challenge for cryptography—it’s a challenge for every system that handles sensitive data. To stay ahead, organizations need scalable, adaptive solutions that protect data throughout its lifecycle. What’s your approach to building post-quantum resilience into your operations?

😵💫 Google's latest announcement about its quantum chip 'Willow' is being called 'mind-boggling' by many. 📣 Our CEO Steve Brierley says it's his 'favourite paper of the year'. ❤️ At the heart of this breakthrough is Quantum Error Correction (QEC) – a foundational pillar for scalable quantum computing. 💡 Want to dive deeper into QEC? Check out Riverlane's QEC Report 2024, which: 1️⃣ Introduces the core concepts, opportunities and progress in QEC 2️⃣ Explains the current challenges of QEC (chips like Google's play a significant part - but there's a bigger story to tell) 3️⃣ Identifies 3 areas predicted to impact quantum computing over the next 2-3 years (Spoiler: quantum chips are one of those areas) 👉 Downloadable for free: https://lnkd.in/eDMutzbB #GoogleAI | #QuantumAI | #QuantumComputing | #QuantumErrorCorrection | #TheQECReport2024