Emily Summerbell’s Post

Ready for a tech challenge? 🚀💬 Test your Tuesday with this question: Which field is dedicated to developing algorithms for computers to exhibit human-like intelligence? Share your answers! 🤖🧠 #TestYourTuesday #TechChallenge #isrc

Ready for a tech challenge? 🚀💬 Test your Tuesday with this question: Which field is dedicated to developing algorithms for computers to exhibit human-like intelligence? Share your answers! 🤖🧠 #TestYourTuesday #TechChallenge #isrc

Ready for a tech challenge? 🚀💬 Test your Tuesday with this question: Which field is dedicated to developing algorithms for computers to exhibit human-like intelligence? Share your answers! 🤖🧠 #TestYourTuesday #TechChallenge #isrc

Excited to share the latest release of Plaquette! With just a few lines of code, our customers can study the performance of complex quantum LDPC codes, a crucial concept in bringing fault-tolerant quantum computers to reality. If you are interested in learning more, reach out to us! #quantumcomputing #technology #startups #Plaquette

🚀Exciting New Release🚀 At QC Design, we are thrilled to introduce Plaquette v2024.6 with support for qLDPC codes 🎉 Quantum low-density parity-check (qLDPC) codes are promising in their efficiency of encoding more logical information in the same number of physical qubits. This is why top quantum computing research groups and companies including IBM Quantum, QuEra Computing Inc., Photonic Inc., Alice & Bob, and IQM Quantum Computers, are considering architectures based on these codes. Designing qLDPC-based architectures requires understanding different families of qLDPC codes under the specific noise properties of real-world hardware. Plaquette v2024.6 now supports the construction and simulation of quantum LDPC codes, offering an easy-to-use pipeline for the full simulation under the broadest variety of hardware error models. 🛠️ What's new with this release:  🎯New functionality that allow the straightforward generation of several families of qLDPC codes including important codes from recent literature on the topic such as hypergraph product codes, bivariate bicycle codes, and generalised bicycle codes. 🎯Automatic compilation of the user-defined qLDPC codes into a circuit. 🎯Introduction of the BP-OSD decoder, that can exploit the full connectivity of qLDPC codes to provide lower error rates than the standard MWPM-like decoders. 🎯New user-friendly and highly customizable plotting functions, and the possibility to conveniently save and load threshold data to disk in a JSON format. 🎯Extensive documentation on qLDPC codes with a focus on hardware aspects. With this update, we make it easy for our customers to quickly get an overview of the topic of qLDPC codes to start simulating them independently, and much more! 🔍If you’re interested in learning more, reach out to us at hello@plaquette.design Kudos to the whole team for this massive upgrade Varun S., Mainak Bhattacharyya, Matteo Santandrea, Solmar Varela, Raul Conchello Vendrell, Marcello Massaro, Shreya P. Kumar, Ish Dhand, Martin B Plenio! #quantumcomputing #technology #innovation #startups #Plaquette #QCDesign

Every day, we encounter performance data comparing various products, but a flashy graphic alone doesn’t always reflect the real-world performance of our solutions. Understanding benchmarks and what they truly measure is crucial for making informed decisions. That is why, I'd like to introduce you to Crossmark and provide insights into what it tests and how it can be useful. What is Crossmark? Crossmark is a performance benchmarking tool used to measure and compare the efficiency of CPU and GPU components in a computer system. It's particularly useful for understanding how your hardware performs under different scenarios. Key Features: 🔹 Standardized Tests: Assess key performance metrics with reliable, repeatable tests. 🔹 Comprehensive Evaluation: Includes CPU performance, GPU rendering, multitasking efficiency, and more. 🔹 Comparative Analysis: Easily compare your system’s performance with others to identify strengths and areas for improvement. 🔹 Optimization Insights: Use results to fine-tune settings or decide on upgrades. What does Crossmark test? Document Editing, Spreadsheets, Web Browsing, Photo Editing, Photo Organization, Video Editing, and Responsiveness. (in summary, every day applications 😎) Crossmark provides a clear, standardized method for evaluating computer performance, helping users make informed decisions about their systems. #IAmIntel

MOS Concepts We have completed 28 days in 111 days verification challenge. The topics we covered: 1. Digital Electronics 2. Computer Architecture 3. Optimization techniques 4. Cache memories 5. STA 28 days & 5 skills!!!! That's the power of: Consistency Organized way of learning Today in 29 challenge, let's learn about MOS Concepts. Link in COMMENT #sweetypinjani #switispeaks

The Parallel Ultra Low Power (PULP) Platform explores and develops new and efficient computing architectures leveraging the RISC-V open ISA and open-source, collaborative hardware design #RISC-V #opensource #hardware

#digitalelectronics hashtag #vlsi #XILINXISE #nrsdesigntechnology #pinetrainingacademy #halfSubtractor #DigitalCircuits #ComputerArchitecture #TechFundamentals ⭕ 𝐀𝐛𝐨𝐮𝐭 𝐭𝐡𝐞 𝐜𝐢𝐫𝐜𝐮𝐢𝐭: - A Half Subtractor is a digital circuit that subtracts one binary number from another, producing a Difference and a Borrow output. Circuit Diagram: A --> XOR --> D B --> XOR --> D A' --> AND --> B --> Borrow 🔸Inputs: It takes two binary numbers (composed of 0s and 1s) as input, let's call them A and B. 🔸Outputs: Difference (D), Borrow So, a half subtractor is essentially a tiny digital tool that helps computers do basic subtraction with binary numbers, while also taking care of the borrowing process if needed. It's a fundamental component in building more complex digital circuits for arithmetic operations. 𝐩𝐫𝐞𝐯𝐢𝐨𝐮𝐬 𝐩𝐨𝐬𝐭 𝐥𝐢𝐧𝐤 (𝐅𝐮𝐥𝐥 𝐚𝐝𝐝𝐞𝐫):https://lnkd.in/gpz38fuN

GPUs and Quantum Computers are making waves in #OperationsResearch, but the real breakthroughs are happening in software. It’s a topic that’s heating up: software vs. hardware in solving optimization problems. In my next post, I'll dive into: ⚙️ Why hardware alone might not be enough for future gains 📈 How software advancements are outpacing hardware in solver performance 🔮 The future of optimization - and why software innovation holds the key to real progress If you're not keeping an eye on the rapid evolution of software, you could be missing the true edge in OR. 🗓️ Next Sunday at 11:30 AM CEST, I’ll share all my insights in Feasible. Want it in your inbox? Click 'view my blog' 👆 to subscribe.