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Jun 25, 2024

Multi-state MRAM cells for hardware neuromorphic computing

Posted by in category: computing

Rzeszut, P., Chȩciński, J., Brzozowski, I. et al. Multi-state MRAM cells for hardware neuromorphic computing. Sci Rep 12, 7,178 (2022). https://doi.org/10.1038/s41598-022-11199-4

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Jun 25, 2024

Logic-in-memory based on an atomically thin semiconductor

Posted by in categories: computing, materials

Logic operations and reconfigurable circuits are demonstrated that can be directly implemented using memory elements based on floating-gate field-effect transistors with monolayer MoS2 as the active channel material.

Jun 25, 2024

Low power nanoscale S-FED based single ended sense amplifier applied in integrate and fire neuron circuit

Posted by in categories: nanotechnology, neuroscience

Motaman, S., Ghafouri, T. & Manavizadeh, N. Sci Rep 14, 10,691 (2024). https://doi.org/10.1038/s41598-024-61224-x.

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Jun 25, 2024

3D integration of 2D electronics

Posted by in categories: computing, materials

Since the most advanced nodes in silicon are reaching the limits of planar integration, 2D materials could help to advance the semiconductor industry. With the potential for use in multifunctional chips, 2D materials offer combined logic, memory and sensing in integrated 3D chips.

Jun 25, 2024

Control of proton transport and hydrogenation in double-gated graphene

Posted by in category: materials

Independent control of the electric field and charge-carrier density in double-gated graphene allows the decoupling of proton transport and lattice hydrogenation, enabling both accelerated proton transport and proton-based logic operations.

Jun 25, 2024

Transistors explained – what they are and what they do

Posted by in categories: computing, electronics

Transistors are semiconductor devices that regulate current, amplify signals, and act as switches, forming the foundation of modern electronics.

Jun 25, 2024

Model of ever-expanding universe confirmed by dark energy probe

Posted by in category: cosmology

The standard theory of cosmology—which says 95% of the universe is made up of unknown stuff we can’t see—has passed its strictest test yet. The first results released from an instrument designed to study the cosmic effects of mysterious dark energy confirm that, to the nearest 1%, the universe has evolved over the past 11 billion years just as theorists have predicted.

The findings, presented today in a series of talks at the American Physical Society meeting in Sacramento, California, and the Moriond meeting in Italy, as well as in a set of preprints posted to arXiv, come from the Dark Energy Spectroscopic Instrument (DESI), which has logged more than 6 million galaxies in deep space to construct the largest 3D map of the universe yet compiled.

“It’s a tremendous instrument and a major result,” says Eric Gawiser, a cosmologist at Rutgers University who was not involved with the work. “The universe DESI is finding is very sensible, with tantalizing hints of a more interesting one.”

Jun 25, 2024

Convolutional Kolmogorov-Arnold Networks (Convolutional KANs): An Innovative Alternative to the Standard Convolutional Neural Networks (CNNs)

Posted by in categories: innovation, robotics/AI

Computer vision, one of the major areas of artificial intelligence, focuses on enabling machines to interpret and understand visual data. This field encompasses image recognition, object detection, and scene understanding. Researchers continuously strive to improve the accuracy and efficiency of neural networks to tackle these complex tasks effectively. Advanced architectures, particularly Convolutional Neural Networks (CNNs), play a crucial role in these advancements, enabling the processing of high-dimensional image data.

One major challenge in computer vision is the substantial computational resources required by traditional CNNs. These networks often rely on linear transformations and fixed activation functions to process visual data. While effective, this approach demands many parameters, leading to high computational costs and limiting scalability. Consequently, there’s a need for more efficient architectures that maintain high performance while reducing computational overhead.

Current methods in computer vision typically use CNNs, which have been successful due to their ability to capture spatial hierarchies in images. These networks apply linear transformations followed by non-linear activation functions, which help learn complex patterns. However, the significant parameter count in CNNs poses challenges, especially in resource-constrained environments. Researchers aim to find innovative solutions to optimize these networks, making them more efficient without compromising accuracy.

Jun 25, 2024

A high-density 1,024-channel probe for brain-wide recordings in non-human primates

Posted by in category: neuroscience

A probe incorporating 1,024 simultaneously recorded channels with shank length up to 90 mm exhibits high chronic recording stability and enables brain-wide large-scale neural population recordings with single-cell resolution in non-human primates.

Jun 25, 2024

The genetic engineering Swiss army knife

Posted by in categories: bioengineering, biological, genetics

In molecular biology, few molecules have had as profound an impact as Cas9. Madeleine King, Kayla Perry, Mitchell McAndrew and Audrone Lapinaite discuss how this multifunctional molecular tool of genetic engineering is revolutionizing multiple fields.

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