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  • Engineers put tens of thousands of artificial brain synapses on a single chip - Jennifer Chu (7267 bytes) (2020-07-09)
  • Unique material design for brain-like computations - U.S. Army Research Laboratory (3731 bytes) (2020-07-03)
  • Shift in how we build computers: Photonics - University of California - Santa Barbara (5919 bytes) (2020-06-24)
  • Worldp~ps first spherical artificial eye has 3D retina - Hong Kong University of Science and Tech (4002 bytes) (2020-06-10)
  • Scientists break the link between a quantum materialp~ps spin and orbital states - DOE/SLAC National Accelerator Laboratory (4256 bytes) (2020-06-01)
  • Scientists break the link between a quantum materialp~ps spin and orbital states - DOE/SLAC National Accelerator Laboratory (4256 bytes) (2020-05-19)
  • Atomically thin magnets for next generation spin and quantum electronics - Stevens Institute of Technology (4345 bytes) (2020-05-19)
  • Early Bird uses 10 times less energy to train deep neural networks - Rice University (4872 bytes) (2020-05-19)
  • Stabilizing brain-computer interfaces - Byron Yu (4557 bytes) (2020-05-19)
  • Researchers restore injured manp~ps sense of touch using brain-computer interfac - Patrick (4692 bytes) (2020-05-19)
  • Shedding new light on nanolasers - Arizona State University (5313 bytes) (2020-05-07)
  • Scientists take steps to create a p~pracetrack memoryp~p - New York University (3814 bytes) (2020-05-07)
  • Light, sound, action: Extending the life of acoustic waves on microchips - Arizona State University (5313 bytes) (2020-05-07)
  • Path to quantum computing at room temperature - U.S. Army Research Laboratory (5997 bytes) (2020-05-04)
  • Hot qubits break one of the biggest constraints to practical quantum computers - University of New South Wales (4070 bytes) (2020-04-22)
  • Organic memory devices show promise for flexible, wearable, personalized computi - American Institute of Physics (2607 bytes) (2020-04-22)
  • To predict an epidemic, evolution canp~pt be ignored - Carnegie Mellon University (3267 bytes) (2020-04-22)
  • Reducing delays in wireless networks - Rob Matheson (7470 bytes) (2020-04-13)
  • Tiny optical cavity could make quantum networks possible - California Institute of Technology (3885 bytes) (2020-04-13)
  • Google trains chips to design themselves - Peter Grad (3601 bytes) (2020-04-08)
  • New electrically activated material could improve braille readers - American Chemical Society (3770 bytes) (2020-04-08)
  • To tune up your quantum computer, better call an AI mechanic - National Institute of Standards and Tech (4846 bytes) (2020-04-08)
  • Revolutionary light-emitting silicon - Eindhoven University of Technology (5220 bytes) (2020-04-08)
  • Putting hardware accelerators to work with automatic code translation - University of Michigan (4429 bytes) (2020-03-31)
  • Neural networks facilitate optimization in the search for new materials - David L. Chandler (7185 bytes) (2020-03-31)
  • Novel error-correction scheme developed for quantum computers - University of Sydney (4918 bytes) (2020-03-25)
  • Chip-based devices improve practicality of quantum-secured communication - The Optical Society (3770 bytes) (2020-03-20)
  • Novel method for easier scaling of quantum devices - Rob Matheson (7642 bytes) (2020-03-18)
  • Magnet-controlled bioelectronic implant could relieve pain - Rice University (3153 bytes) (2020-03-16)
  • Design of inorganic materials for brain-like computing - Texas A&M University (10079 bytes) (2020-03-16)
  • A filter for cleaner qubits - Rice University (6079 bytes) (2020-03-09)
  • New artificial intelligence algorithm better predicts corn yield - University of Illinois College of Agricu (3248 bytes) (2020-02-21)
  • DNA-like material could bring even smaller transistors - Purdue University (4511 bytes) (2020-02-14)
  • Artificial atoms create stable qubits for quantum computing - University of New South Wales (6970 bytes) (2020-02-14)
  • Living robots built using frog cells - University of Vermont (9126 bytes) (2020-02-14)
  • Microchip capability expanded ewith new 3D inductor technology - University of Illinois at Urbana-Champai (3565 bytes) (2020-02-11)
  • What a pair! Coupled quantum dots may offer a new way to store quantum informati - National Institute of Standards and Tech (4155 bytes) (2020-02-11)
  • Engineers mix and match materials to make new stretchy electronics - Massachusetts Institute of Technology (7405 bytes) (2020-02-08)
  • Decrappifying brain images with deep learning - Aaron Dubrow, University of Texas at Aus (14336 bytes) (2020-01-15)
  • Performance benchmark for quantum computers - DOE/Oak Ridge National Laboratory (5768 bytes) (2020-01-15)
  • In leap for quantum computing, silicon quantum bits establish a long-distance re - Princeton University (6585 bytes) (2020-01-15)

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