Excited to announce that Javier Sagastuy-Brena has joined us at Wispr! 🎉
Javier, an ICME Ph.D. from Stanford, carries 8+ years of experience in computational modeling and engineering. His computational neuroscience research from Stanford NeuroAI Lab and roles at Nvidia and Google!
When not solving complex problems, Javier is racing down slopes as a ski racer. Welcome aboard, Javier - we're excited for this thrilling journey ahead! ⛷️
#Wispr#generativeai#neurotech
🌌 Exciting News in Quantum Machine Learning and Astronomy! 🌌
Our latest paper, "Quantum-Enhanced Support Vector Machine for Large-Scale Stellar Classification with GPU Acceleration," is now published on arXiv! This project, developed during a QHack hosted by Xanadu, is a testament to international collaboration and the support from industry leaders.
🔭 A heartfelt thank you to my colleagues Kuan-Cheng Chen and Felix Xu (Imperial QuEST and QuantumPedia AI), Henry Makhanov (The University of Texas at Austin and qBraid), Hui-Hsuan Chung (Max Planck Institute for Radio Astronomy), and Chen-Yu Liu (National Taiwan University).
🚀 In this paper, we introduce a revolutionary QSVM approach for stellar classification, surpassing traditional models in accuracy and speed. Our work was significantly boosted by support from NVIDIA (cuQuantum team) and Run:ai, whose technologies played a crucial role in our research.
💖 We're also proud to present an HR diagram that artistically resembles a heart, reflecting the romantic spirit of astronomy. Our work playfully incorporates the "Oh, Be A Fine Girl, Kiss Me" (O, B, A, F, G, K, M) mnemonic for the K-M system, blending scientific rigour with the beauty of the universe.
💡 Discover how we're pushing the boundaries of quantum machine learning in astronomy:
https://lnkd.in/ewg4v4QP#QuantumComputing#QuantumMachineLearning#MachineLearning#Astronomy#InternationalCollaboration#Research#Nvidia#cuQuantum
For science nerds like myself today i wanted to shed a light on one of the biggest projects ever built that a small amount of people knows about which one day will be the milestone of great technologies, will unravel the mysteries of dark matter and the universe🫠
part 1 ~
Unveiling the Marvels of the LHC: A Journey into Particle Physics
🔬 The Large Hadron Collider (LHC) at CERN is a triumph of human curiosity and engineering. It’s the world’s largest and most powerful particle accelerator, designed to answer fundamental questions about the universe. Yet, despite its significance, many remain unaware of its existence and purpose.
🌐 This marvel of science, nestled deep beneath the Swiss-French border, accelerates particles to near-light speeds before colliding them. These collisions recreate conditions similar to those just after the Big Bang, allowing scientists to study the building blocks of matter.
🤔 But how many people truly know about the LHC? A study suggests that while the LHC’s discoveries, like the Higgs boson, make headlines, the broader public’s understanding is limited. Science communication is key to bridging this gap, and CERN has been making strides by offering open access to their findings and engaging with the community through various platforms.
📈 With the LHC reaching its first stable beams in 2024, marking the start of a new data-taking season, it’s more important than ever to raise awareness about this incredible machine’s role in shaping our understanding of the universe.
📚 Let’s spread the word about the LHC and inspire a new generation to look beyond the stars and into the very fabric of reality. Who knows what mysteries await to be unraveled?
Feel free to tailor this post to your voice and share it on your LinkedIn to spark conversations about the LHC and increase public awareness. Remember, every share counts in spreading knowledge about these groundbreaking scientific endeavors!
sources:
Copilot, en.wikipedia.org, theconversation.com ,home.cern ,ctpublic.org ,bing.com ,home.cern , about.cern#large_hadron_collider#science_nerds#big_projects#Cern
TITTLE : NEUROPHYSICS
Neurophysics is an interdisciplinary field that combines principles of physics with neuroscience to understand the brain's functions.
It leverages physical theories and methods, such as electromagnetism, quantum mechanics, and statistical mechanics, to investigate neural activities.
Key areas of study include how neurons generate electrical signals, the role of synaptic transmission in brain function, and the overall dynamics of neural networks.
Neurophysics aims to unravel the complexities of brain processes, from sensory perception to cognitive functions, by employing mathematical models and computational simulations.
This field is pivotal in advancing technologies like brain-computer interfaces and improving treatments for neurological disorders.
Through a blend of experimental and theoretical approaches, neurophysics provides profound insights into the fundamental workings of the brain, contributing to our broader understanding of consciousness and behavior.
#snsinstitutions#snsdesignthinkers#designthinking
📚 #Quantum30 Learning Journey: Day 10 📚
🌐 Navigating Rigetti's Quantum Roadmap and QML Classification 🌐
Greetings, fellow learners! Day 10 of my #Quantum30 journey was a dual exploration, unfolding Rigetti's quantum roadmap and diving into Quantum Machine Learning (#QML) classification. Let's uncover the highlights of this enlightening journey! 🌟🛤️
💡 Key Highlights:
1. Rigetti's Quantum Vision: I delved into Rigetti's roadmap, gaining insights into their quantum advancements and future prospects.
2. QML Classification Mastery: Building upon my QML foundation, I ventured into classification techniques, unraveling the power of QML in categorization tasks.
With each step, I'm aligning myself with the pulse of quantum innovation. The blend of strategic vision and hands-on learning continues to fuel my quantum aspirations. Onward to a quantum-empowered future! 🚀🔬 #QuantumRoadmap#QMLClassification#LifelongLearnerQuantum Computing Indiahttps://lnkd.in/dwf93ucp
Transforming Vision into Reality : Student at IIT Madras | Merging Science, Mathematics and Programming for a Better tomorrow | WorkinG on 1. | 5.6+ Million impressions on LinkedIn | Joined LinkedIn in February 2024.
Today, I’m excited to share a visual treat that beautifully encapsulates some of the most pivotal equations in the world of physics.
These mathematical marvels have not only deepened our understanding of the universe but also paved the way for countless technological advancements. Let’s dive in!
** Note ** : For many of us, these equations may seem abstract and distant from our everyday lives. However, they collectively represent the bedrock of modern physics and engineering, influencing everything from the microchips in our computers to the way we understand the cosmos. While it's impossible to encapsulate every important equation on a single page, this selection showcases the diversity and depth of the physical laws governing our universe.
From the quantum realm to the vastness of cosmology, equations are the backbone of our understanding of the physical world. Here's a glance at some of the most pivotal equations in physics and their profound impact on science and technology:
Schrödinger Equation: The cornerstone of quantum mechanics, describing how quantum states evolve over time.
Dirac Equation: Marrying quantum mechanics with special relativity, paving the way for the discovery of antimatter.
Einstein’s Field Equations: The foundation of general relativity, explaining the gravitational interaction as the curvature of spacetime.
Navier-Stokes Equation: Essential for fluid dynamics, impacting everything from aerodynamics to oceanography.
Maxwell-Boltzmann Distribution: Describing the distribution of particle speeds in gases, crucial for statistical mechanics.
Planck’s Law: Fundamental in quantum theory, explaining black-body radiation and leading to quantum mechanics.
Ginzburg-Landau Equation: Key to understanding superconductivity and phase transitions.
Klein-Gordon Equation: A relativistic wave equation for spin-0 particles, important in quantum field theory.
Black-Scholes Equation: Revolutionizing finance by modeling options pricing.
Vlasov Equation: Describing the behavior of plasma and collisionless gases in astrophysics.
Fokker-Planck Equation: Fundamental in stochastic processes, describing the time evolution of probability distributions.
Landau-Lifshitz-Gilbert Equation: Modeling the dynamics of magnetization in ferromagnetic materials.
Einstein’s Mass-Energy Equivalence: E=mc2
- perhaps the most famous equation, showing the interchangeability of mass and energy.
Boltzmann Transport Equation: Crucial for understanding thermal and electrical conductivity in materials.
Van der Waals Equation: Enhancing our understanding of real gas behaviors and intermolecular forces.
Raychaudhuri Equation: Vital in general relativity, describing the focusing of geodesics and gravitational collapse.
Langevin Equation: A fundamental equation in the study of Brownian motion and stochastic processes.
🎉 Happy Quantum Day everyone! 🎉
Today, we celebrate the groundbreaking field of quantum mechanics and its profound impact on our understanding of the universe. Quantum Day marks a significant moment to reflect on the incredible advancements made in this field and the endless possibilities it presents for the future.
Quantum mechanics has revolutionized various industries, from computing to telecommunications, medicine to materials science. Its principles have given rise to technologies that seemed like science fiction just a few decades ago.
As we commemorate Quantum Day, let us also acknowledge the importance of continued research and innovation in this field. The mysteries of quantum mechanics are far from fully unravelled, and there is still much to explore and discover. Embracing quantum principles opens doors to unprecedented computational power, enhanced security, and novel ways of understanding the fundamental nature of reality.
Let's celebrate the ingenuity of the scientists and researchers pushing the boundaries of quantum science and engineering. Together, let's harness the power of quantum mechanics to create a brighter, more technologically advanced future for generations to come.
Happy Quantum Day to all, and may our journey into the quantum realm continue to inspire and astonish us! 🌌🔬 #QuantumDay#Science#Innovation#FutureTech
No más dolores de cabeza con automatizaciones 👍🏻
El clásico Less Work-More Clients con bots/IA 😎
Entro a tu negocio y vemos que sistemas inteligentes pueden mejorar tu empresa ¡YA!
🚀 Exciting insights from the Physics arXiv this week! 🌌 It's fascinating to see the cutting-edge research shaping the future of physics.
🔮 Prediction: Breakthroughs in quantum mechanics will revolutionize computing, leading to faster and more powerful AI algorithms.
- Advancements in quantum computing will pave the way for unprecedented machine learning capabilities.
🌟 Commentary:
- The intersection of physics and AI holds immense potential for groundbreaking innovation and technological advancement.
- Stay tuned for a new era of AI applications driven by the latest discoveries in physics!
Professor at Stanford (AI, Neuro, Physics) | Venture Partner at A16z
9moGreat hire! (As I told you in our phone call 😉). Congrats to Wispr and Javier!