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Optical Computing Breakthrough: Seeing Through the “Unseeable”
Decoding the optical response of nonlinear scattering media: A leap toward highly scalable physical operators. Is it possible to see through a scattering medium such...
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New Study: We Are Wasting Up to 20 Percent of Our Time on Computer Problems
Although our computers have significantly improved over the past 15 years, they still malfunction 11 to 20 percent of the time, according to a recent...
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Why Is Computer Security Advice So Confusing?
If you’ve ever felt baffled by the computer security instructions provided at your workplace, you’re not alone. A recent study underscores a fundamental issue in...
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Unique New Material Could Generate More Computing Power and Memory Storage...
Researchers from the University of Minnesota successfully create thin film of unique semimetal for the first time. For the first time, a team from the...
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Not Science Fiction: How Optical Neural Networks Are Revolutionizing AI
A novel architecture for optical neural networks utilizes wavefront shaping to precisely manipulate the travel of ultrashort pulses through multimode fibers, enabling nonlinear optical computation....
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New Research Reveals That Classical Computers Can Surpass Their Quantum...
Researchers adopt innovative method to boost the speed and accuracy of traditional computing. Quantum computing has been hailed as a technology that can outperform classical...
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Shattering the Thermodynamic Limits: New Framework Reshapes Computing
New research offers a refined approach to calculating the energy costs of computational processes, potentially paving the way for more energy-efficient computing and advanced chip designs. Every...
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New Air-Powered Computer Revolutionizes Healthcare Monitoring
A new air-powered computer detects failures in medical devices using air pressure, eliminating electronic sensors for a safer, cheaper alternative. Future plans include expanding its use to hazardous...
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Magnetic Magic: Swirling Magnons Set to Revolutionize Computing
Researchers have developed a groundbreaking method to create more compact and energy-efficient computing devices using magnonic circuits. By utilizing alternating currents to generate and steer spin...
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From Light Waves to Logic: The Cutting-Edge of Optical Computing
Researchers have developed a new architecture for optical computing called diffraction casting, offering power-efficient processing by using light waves. This method promises better integration and...
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Light-Speed Breakthrough: The Dawn of Photonic In-Memory Computing
Researchers have unveiled a new photonic in-memory computing method that promises to advance optical computing significantly. This technology, using magneto-optical materials, achieves high-speed,...
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Next-Level Speed: How 3D Integrated Photonics Is Accelerating Computing
A new photonic processor efficiently solves complex NP-complete problems using light, offering faster computation and scalability for future applications in optical neural networks and quantum...
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Parallel and Multiplexed: The New Wave of All-Optical Logic Operations
Advancements in AI and IoT are driving demand for more powerful computing, leading to innovative solutions like optical computing. Tokyo University’s new “diffraction casting” method uses light to...
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Revolutionizing AI: The Tiny Tech Powering Brain-Like Computers
Researchers are developing atomically precise memristors for advanced neuromorphic computing systems. The University of Kansas and University of Houston, backed by $1.8 million from the National...
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Unlocking the Speed of Light: The Future of Data Storage Is Here
Researchers have unveiled a programmable photonic latch that speeds up data storage and processing in optical systems, offering a significant advancement over traditional electronic memory by reducing...
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Forget Silicon – DNA Might Be the Future of Quantum Computing
Researchers have uncovered a way to manipulate DNA at the atomic level using electric field gradients to control nitrogen nuclear spins. Their findings suggest that DNA could be used as both a storage...
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The $179 Million Race to Reinvent Microelectronics for AI and Energy Efficiency
The Department of Energy is investing in next-gen microelectronics to curb skyrocketing energy demands. SLAC and other top institutions are developing innovative materials, AI-powered sensing, and...
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