Designing PCBs in consumer electronic devices require a good understanding of electromagnetic fields and forces in electronic components. Moreover, simulations can be computationally intensive and time-consuming. You can reduce your simulation time with the high-performance computing (HPC) capability built into the Ansys Maxwell tool. Discover why the world's largest consumer electronics companies use Maxwell to solve the many low frequency challenges they encountered in the design of consumer electronic devices. Join us next Tuesday July 9 by clicking on the webinar link below: https://ansys.me/4cqB0uG
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Hi everyone, 👉 RedHawk-sc Tool (ANSYS COMPANY) 🌱 Ansys RedHawk-SC advanced power analytics (APA) deliver high coverage for capturing dynamic power supply noise, thereby avoiding frequency loss due to unexpected dynamic voltage drop (DvD). 🌱 It’s all-inclusive DvD diagnostics immediately capture and measure the causes of dynamic IR-drop. A rich GUI and ‘what-if’ capability instantaneously report the voltage impact of design changes for IR ECO fixing. 🌱 In addition, it analyzes thermal-aware current density in both signal and power net and provides statistical electomigration budgeting. Both vector and vectorless activity inputs are supported with advanced analytic capabilities that determine the timing impact of voltage variability. 🌱 Full-system thermal and power integrity co-simulation for chips and 2.5D/3D-IC packages, including package signal integrity and thermal-mechanical stress and warpage. #VLSI #physicaldesign #qualcomm #intel #amd #nvidia #semiconductor
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🎉 In case you missed it! 🚀 Check out the latest article by our very own Sanjay Gangadhara, Senior Program Director for Optics at Ansys, featured in Laser Focus World. Ever wondered how those sleek optical devices powering our tech world come to life? Sanjay spills the beans on the wizardry behind optical design software. From tinkering with nanostructures to revolutionizing data centers with photonic integrated circuits (PICs), it's a wild ride! 💡 Discover how Ansys is leading the pack with tools like Ansys Zemax OpticStudio, Ansys Lumerical, and Ansys Speos, making optical design a breeze. Sanjay also discusses hot topics like co-packaged optics (CPO) and metalenses, giving us a sneak peek into the future of optical tech. 🔮 Ansys is not just dreaming up the future; we're building it! Dive into Sanjay's article now and join the optical revolution! 🤓✨ https://lnkd.in/ek89Un_m #OpticalDesignRocks #AnsysMagic #AnsysOptics #LaserFocusWorld
Optical design software: From nano to system scale
laserfocusworld.com
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Power is the biggest factor impacting semiconductors from custom silicon to CPU/GPU products. System-level Power modeling and simulation is needed to measure power accurately and efficiently. The scope of power studies has expanded to include the software, thermal and generation to feed into the UVM/UPF methodology. Join me on 9th May, An Exclusive Webinar where we will highlight a new system-level power methodology that integrates micro-architecture power storage, consumption, management and thermal assessments. Case studies will be presented on Chiplet power, mapping strategy of DNN on AI Engines and Tensor cores, hardware-software partitioning, and testing power management for mobile and low-power devices. Read More: https://lnkd.in/gPaw8Tpx
Crack the Power Code - Mirabilis Design
https://www.mirabilisdesign.com
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enabling digital services for Student Loan related activities while maintaining the highest security standard, the most compliant personal data protection and customer-centric data-driven innovation.
🌟 Excited to share an insightful blog post on static IR drop estimation in chip design. The post discusses the challenges of lengthy analysis processes, and the need for accurate predictions to reduce design time. Check out the proposed global and local attention-based Inception U-Net, incorporating components from Transformer, CBAM, and Inception architectures for improved feature capture and accuracy. The experimental results highlight its superiority over winning teams of ICCAD 2023 contest and state-of-the-art algorithms. Read the full details here: https://bit.ly/3RpW9Nk #SemiconductorDesign #IRDropAnalysis
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enabling digital services for Student Loan related activities while maintaining the highest security standard, the most compliant personal data protection and customer-centric data-driven innovation.
Exciting new blog post alert! Learn about a groundbreaking method for designing analog circuits in deep sub-micron CMOS fabrication processes. The method uses regression algorithms with the transistor circuit model to size a transistor, eliminating the need for simulation software. Experience a design time reduction of over 97% compared to conventional methods. Check out the full post for details: https://bit.ly/3HDoIS2
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Vice President Business Development, Electromagnetics - Americas, IEEE Fellow, Fellow ACES, AMTA Ed Gillespie Fellow, Fellow IETE
#TeamAltair at IEEE APS/URSI 2024 Florence (IT) !! If you are IEEE APS/URSI 2024 Florence (IT), stop by the Altair booth #33 to learn about #AltairFeko and EM Simulation software !! Meet Ulrich Jakobus, C.J. Reddy, Christoph Mäurer and Carlo Damiani at the booth !! #Altair #Onlyforward #electromagnetics #simulation #software
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enabling digital services for Student Loan related activities while maintaining the highest security standard, the most compliant personal data protection and customer-centric data-driven innovation.
📢 Exciting new blog post alert! Check out our latest work on "Analog Circuit Sizing Using Machine Learning Based Transistor Circuit Model" where we propose a novel method for designing analog circuits in deep sub-micron CMOS fabrication processes. This innovative technique leverages regression algorithms and transistor circuit models to size a transistor without the need for simulation software. The post demonstrates the performance of our method by designing a Current Feedback Instrumentational Amplifier (CFIA) and showcases impressive results. Read the full article here: https://bit.ly/4bj18Yf [cs.OH] #AnalogCircuitDesign #MachineLearning #TransistorCircuitModel
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We provides Nano-material and devices, Optoelectronics, OLED ,Semiconductor , TCAD and Quantum Technology (QTCAD) Spin Qubit quantum dot Semiconductor device Simulation software for education, commercial and R&D sector
Key features of RESCU Software:- Solve small and large scale systems alike (up to 20k atoms) DFPT – Response functions, dielectric permittivity DFT + EXX (hybrid) (Hartree-Foch method) DFT + U (Hubbard model) RESCU - Novel materials for spectroscopy prediction and analysis. DFPT- BICG, CFSI Solver DFPT- ion clamped dielectric constant DFPT- Phonon bandstructure and dos DFPT- Born effective charges and LO-TO Splitting DFPT-Low frequency long wavelength optical properties Structure relaxation Pseudo potentials LDA, GGA, Meta-GGA Spintronics (collinear / non-collinear / SOC) Density of States (DOS, PDOS, LDOS, PLDOS) Electronic & band structures calculation and analysis tools Phonon tools (finite-difference-based) Device Studio Graphical User Interface for modeling Structure. Wannier functions calculator & Band-unfolding Berry curvature calculator (for topological properties) Fast & parallel solver to run on Nvidia GPUs. Band structure, Complex band structure, Effective BS. Magnetic Lattice Dynamical. Electron-Phonon Coupling. Mulliken population. Raman Properties analysis Optical Properties analysis Documentation visit here: https://lnkd.in/dJzfscCk Video of Rescu Software: - https://lnkd.in/dNfxyU-g #Publication https://lnkd.in/dvKHPKMH https://lnkd.in/dCAT7KVB https://lnkd.in/dZw2wfWW
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Hello Connections!! I'm excited to share my first work in LTSpice Simulation software. I've simulated a CMOS Inverter using the same. CMOS inverter is abbreviated for Complementary Metal oxide semiconductor inverter. With the help of inverter, designing intricate structures such as NAND gates, adders, multipliers, and microprocessors is greatly simplified. I am looking forward to explore and experiment the simulation software. #simulation #cmos #learningandgrowing
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