DDC & PDC are at the IEEE Space Mission Challenges for Information Technology - IEEE Space Computing conference, July 15-19 (Mountain View, California). Stop by our booth to learn more about our latest radiation hardened computing, memory, connectivity, power, and motion control solutions. Visit: https://bit.ly/3JKL3vD #space #radhard #DDC #PDC
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🚀 Join us at #GSTC2024 for an Edge Computing in Space Panel! 📅 Save the date: Feb 16 at 11:25am (local time) for an exciting panel discussion titled “Edge Computing in Space Missions”. Our CEO, Avi Shabtai, will be sharing insights and expertise on how satellites can be outfitted as edge devices, the challenges, and the immense potential of edge computing in accelerating access to space data and applications. https://lnkd.in/gbukZae
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Recruiting IoT/IIoT, Security, Embedded, Network/Device, Cybersecurity, Automotive, ICS/SCADA, Mobile, Cloud, HPC/Supercomputing Talent
#Embedded #MilAero Munich, Germany – 14 November, 2023 – Edge computing and inference in satellites enables near real-time data analysis and decision making. This is becoming increasingly important as the number of connected devices and the amount of data they generate continue to grow. To address these high performance computing requirements in space applications, Infineon Technologies LLC … Read More → "Infineon extends line of radiation-hardened asynchronous static RAMs with embedded ECC for space and other extreme environment applications" https://lnkd.in/gW9EPijJ
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In the vast expanse of space, where every gram and every watt counts, the quest for efficient, reliable, and versatile computing technology has long been paramount. Enter the NOEL-V processor, a cutting-edge RISC-V core that is tailored for space missions, propelling humanity's reach into the cosmos. Over the past several years, space-grade processors have primarily relied on different closed-sourced implementations of the RISC instruction set. However, a notable contender has emerged: RISC-V which offers distinct advantages that position it as the preferred choice to replace other competitors in space applications. NOEL-V represents a breakthrough in space-grade processor technology. It is an advanced RISC-V core that has been engineered to deliver high performance and reliability in the demanding space environment. Designed by Frontgrade Gaisler, a company specializing in fault-tolerant and radiation-hardened electronics for space applications, the NOEL-V processor stands out for its high configurability, offering a wide range of options to suit different application requirements. Its most advanced configuration includes the RISC-V Hypervisor extension, which facilitates the creation of virtual machines that are capable of running complex operating systems without modification. As humanity sets its sights on ambitious missions to explore distant planets, moons, and beyond, NOEL-V, and to an extent, RISC-V, will undoubtedly play a central role in shaping the future of space technology. Its open-source philosophy, combined with its efficiency and versatility, makes it not just a tool for engineers and scientists but a catalyst for innovation that knows no bounds. With RISC-V leading the way, the final frontier has never felt closer. #RISC_V #Technology #Hardware #Space Source: riscv.org
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One of the critical challenges in designing LEO CubeSats is supporting high computing capabilities in a small space. This is where the PC104 format, a rugged stackable embedded computing platform, comes into play. In this post, we will explore how PC104-format products are an ideal solution for LEO CubeSat applications. https://bit.ly/48Ci1Mq
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Join Fabrizio Ferrari Ruffino from CNR-IOM as he explores the status of Quantum ESPRESSO porting strategies, including allowing the coexistence of different offloading models, that enable state-of-the-art performance on large heterogeneous HPC systems. https://bit.ly/openacc_QEs
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Photonics is superior to quantum computing in almost every category Easier and cheaper to build, less energy to maintain and has more computational power, while also being able to be integrated into digital infrastructure. Even the ‘quantum entanglement network’ that was created recently is based on photonics! 😃
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Taking SiC-powered MOSFETs to space - how hard could that be? Well, it was found that heavy-ion irradiation in space damages these devices. Using cathodoluminescence spectroscopy, researchers have recently investigated the different types of defects that occur in detail. Read more in our new blog post: https://bit.ly/3SbxZHp #PowerElectronics #SpaceElectronics #Cathodoluminescence Corinna Martinella Marianne Bathen Arto Javanainen Ulrike Grossner
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🔎 #HighlyAccessedArticle in 2023 📔 Tuning Logical Phi-Bit State Vectors in an Externally Driven Nonlinear Array of Acoustic Waveguides via Drivers’Phase 🔗 https://lnkd.in/gp7RWmZx acoustic #metamaterial #superpositions of states #nonlinear #phasejump #Hilbert space acoustic classical analogs of #qubits
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“BOSONIC QUANTUM COMPUTING” redefines the basic information processing unit and is called QUMODE. Unlike qubits (which have a finite-dimensional state space), Qumodes are based on bosonic modes and have an infinite-dimensional state space. These bosonic modes can represent various physical systems, such as vibrations in a mechanical oscillator or photons trapped in a high-quality cavity.
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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 insights into the potential of RISC-V computing architectures for High Performance Computing! Check out the latest blog post on distributed astrophysics simulations using Octo-Tiger with RISC-V CPUs employing HPX and Kokkos. The post details a comprehensive analysis of porting modern C++ code to RISC-V, including performance and power consumption comparisons to an A64FX system. Dive into the details here: https://bit.ly/45NnKOh.
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