#opticalcomputing نتائج البحث
Back from an amazing week at #SC25! Thank you to everyone who visited booth 5415, shared ideas, and explored how our optical LPU brings AI-powered, nanosecond PDE solving to HPC. Great conversations, great community — we’re excited for what’s next. #HPC #OpticalComputing
We’re live at @Supercomputing #SC25! Stop by booth 5415 to meet the LightSolver team and learn how our all-optical LPU solves partial differential equations (PDEs) in nanoseconds. This holds great promise for the future of scientific modeling & simulation. #HPC #OpticalComputing
LightSolver is heading to #SC25! Meet our CEO Dr. Ruti Ben-Shlomi at booth #5415 to learn how our Laser Processing Unit (LPU) physically models and solves partial differential equations (PDEs) with light, at nanosecond speeds. #OpticalComputing #HPC #LightSolver @Supercomputing
Our co-founder/CTO Chene Tradonsky was honored to present “Harnessing Light: A Physics-Based Computing Paradigm for Simulating Nature” at the Chesapeake Large-Scale #Analytics Conference. Thank you to all who contributed to an inspiring exchange! #CLSAC #opticalcomputing
When Light Starts To Think: A Journey Into #OpticalComputing by Pooja Kashyap ai.gopubby.com/when-light-sta…
We’re excited to be featured in the latest issue of @TheMarker! LightSolver is redefining computation with our laser-based optical computer, solving complex problems 1,000× faster than classical systems. Read the article at: bit.ly/4hp3QiF #OpticalComputing #HPC
Training an LLM whose internal state becomes a printable optical mask. Illuminate this donut and you can reconstruct the semantics and predict the next word. First physical tests happening this week 🔥 #OpticalComputing #Photonics #OpticalGPT #LowPowerAI #SpaceTech #DeepTech
An Editors' Pick via #OPG_JOSA_B: Sub-quadratic scalable approximate linear converter using multi-plane light conversion with low-entropy mode mixers bit.ly/47bHflZ #OpticalComputing #LinearConverter #MultiPlaneLightConversion @UTokyo_News_en
Meet Yoav Blau, our new optical algorithm developer. With a PhD in optical metasurfaces and experience in optics, acoustics, software, and startups, he’ll help expand our laser-based compute platform into new problem spaces. Welcome, Yoav! #Photonics #OpticalComputing
Our scientists have developed photon-avalanching nanoparticles that exhibit a phenomenon called “intrinsic optical bistability,” which could enable optical memory for #OpticalComputing. newscenter.lbl.gov/2025/02/26/new… @molecularfndry @EmoryChanNano
People in the 1900s: Who needs cars if we have horses already and a supply chain to feed them? People in the 2000s: Who needs optical processors if we have electronic chips already and a $1T supply chain to manufacture them? #OpticalComputing #FutureOfComputing
🤯 AI Breakthrough! Optical processors are here, using light instead of electricity for faster computation! This could revolutionize AI training speeds. Source: Various research labs. #AI #OpticalComputing
Diffractive interconnects: all-optical permutation operation using diffractive networks #neuralnetworks #opticalcomputing degruyter.com/document/doi/1…
The next tech race isn’t for faster chips — it’s for light itself. Explore how nations are developing #OpticalComputing to power AI, defense, and communication at the speed of photons. 🔗 idstch.com/geopolitics/op… #Photonics #QuantumTech #FutureComputing #IDST
"AI-Powered Optical Computing: The Future of Smart Cameras" #AI #OpticalComputing #SmartCameras #FutureTech #MachineLearning #Metasurface #DeepTech #Photonics #Princeton #AIRevolution check more⤵️ journal4085.tistory.com/192
An Editors’ Pick via #OPG_OL: Dammann gratings-based truly parallel optical matrix multiplication accelerator ow.ly/R96E50OaLp7 #OpticalComputing
Microsoft's new analog optical computer is projected to be 100 times more efficient than leading GPUs, potentially disrupting the AI hardware landscape by offering a low-cost, high-efficacy alternative for inference. #AI #opticalcomputing
#ISC25 is a wrap. Thanks to all who joined our session to learn more about how LightSolver is solving major bottlenecks in engineering simulations. The future of #opticalcomputing for #CAE is bright! #HPC #Supercomputing
Using light, lenses, and filters, a new computer design can perform matrix multiplication and nonlinearity in a completely analog manner. This could be 100x more efficient than GPUs. #neuralnetworks #opticalcomputing
Scientists from the University of Washington and Princeton University have developed a groundbreaking compact camera designed for computer vision. This innovative prototype uses optics for computing #ComputerVision #AI #OpticalComputing #SelfDriving #DeepLearning #NeuralNetworks
We’re live at @Supercomputing #SC25! Stop by booth 5415 to meet the LightSolver team and learn how our all-optical LPU solves partial differential equations (PDEs) in nanoseconds. This holds great promise for the future of scientific modeling & simulation. #HPC #OpticalComputing
A new optical chip smashes latency records in feature extraction for AI and trading - processing data at the speed of light!⚡️Discover how photonics could outpace electronics: azooptics.com/News.aspx?news… #OpticalComputing #AI #TechInnovation
An Editors' Pick via #OPG_JOSA_B: Sub-quadratic scalable approximate linear converter using multi-plane light conversion with low-entropy mode mixers bit.ly/47bHflZ #OpticalComputing #LinearConverter #MultiPlaneLightConversion @UTokyo_News_en
An Editors’ Pick via #OPG_OL: Dammann gratings-based truly parallel optical matrix multiplication accelerator ow.ly/R96E50OaLp7 #OpticalComputing
Diffractive interconnects: all-optical permutation operation using diffractive networks #neuralnetworks #opticalcomputing degruyter.com/document/doi/1…
Fully Homomorphic Encryption (FHE) allows computations to be performed on encrypted data. Optalysys' Echip technology can provide an order-of-magnitude acceleration in FHE calculations. 🤝 Apply to join our FHE Beta program: optalysys.com/fhe-beta-progr… #opticalcomputing #AI
#machinelearning w/ #opticalcomputing speeds #bigdata #processing arxiv.org/pdf/1510.06664…👉@LightOnIO🕯#light provides #insights💡 #RandNLA #AI
Via #OPG_Optica: Hyperspectral in-memory computing with optical frequency combs and programmable optical memories bit.ly/3Y4xDoT #OpticalComputing #MachineLearning
By forcing light to go through a smaller gap than ever before, @imperialcollege researchers have paved the way for computers based on light instead of electronics: ow.ly/z6nW30h0gvo #OpticalComputing #Tech
Superfast Fluorescence Sets New Speed Record @DukeEngineering bit.ly/1UyNqDb @AFOSRYIP #OpticalComputing
NEW ARTICLE: Encrypted search using fully homomorphic encryption We explore implementing an encrypted search operation using @zama_fhe Concrete Boolean library and running it with the aid of optical Fourier transform hardware: optalysys.com/encrypted-sear… #AI #opticalcomputing
Via #OPG_OpEx: Spin–orbit optical broadband achromatic spatial differentiation imaging bit.ly/4frP60P #OpticalComputing #ImageProcessing @jnu1906
Via #OPG_OMEx: Optical dendrites for spatio-temporal computing with few-mode fibers [Invited] ow.ly/B6S550JgChn #OpticalComputing #MultimodeFibers @IFISC_mallorca
![OpticaPubsGroup's tweet image. Via #OPG_OMEx: Optical dendrites for spatio-temporal computing with few-mode fibers [Invited] ow.ly/B6S550JgChn #OpticalComputing #MultimodeFibers @IFISC_mallorca](https://pbs.twimg.com/media/FTnZmMTX0AE2SU0.jpg)
Via #OPG_Optica: Realization of an integrated coherent photonic platform for scalable matrix operations ow.ly/kO3f50Rxv4Q #InformationProcessing #OpticalComputing @PittEngineering
An Editors' Pick via #OPG_OL: Total absorption and coherent perfect absorption in metal–dielectric–metal resonators integrated into a slab waveguide ow.ly/jm9250KAfSb #PhotonicCrystals #OpticalComputing
NEW ARTICLE: Optical computing for Computational Fluid Dynamics In this article we aim to provide an illustration of where the field is now, so we can later talk in detail where it might end up in the future. Read it here: bit.ly/3kzTijc #AI #opticalcomputing #CFD
#OpticalComputing is a technology that uses light waves instead of electrical signals to perform computational tasks. This approach aims to leverage the properties of light for data processing, storage, and communication in computing systems. photonicsonline.com/doc/computing-…
An Editors’ Pick via #OPG_OMEx: Towards “smart transceivers” in FPGA-controlled lithium-niobate-on-insulator integrated circuits for edge computing applications [Invited] ow.ly/AL7I50QkMW0 #OpticalComputing @UniHeidelberg
![OpticaPubsGroup's tweet image. An Editors’ Pick via #OPG_OMEx: Towards “smart transceivers” in FPGA-controlled lithium-niobate-on-insulator integrated circuits for edge computing applications [Invited] ow.ly/AL7I50QkMW0 #OpticalComputing @UniHeidelberg](https://pbs.twimg.com/media/GB-_n0TW0AE34Cd.jpg)
Neural computing with coherent laser networks Read the article that opens new possibilities for neural computation with coherent laser networks as novel analog processors. #machinelearning #neuralnetworks #opticalcomputing degruyter.com/document/doi/1…
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