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Archive for the ‘computing’ category: Page 195

Aug 16, 2023

Transparent Holographic video glass wall by Glimm

Posted by in categories: augmented reality, computing, holograms

Transparent Holographic video glass wall with 4k resolution.
Glimm has made for one of her clients a transparent video wall called as well holographic video wall indoor with holographic content and video s for indoor location.
The video wall exist of 8 panels of 55 inch TOLED displays which we have combined all together and hide the transformers and graphic cards in a small aluminium frame.
The resolution is 4K and the display is of glass in the glass.
Technology explaining :
TOLED stands for Transparent Organic Light-Emitting Diode. It is a display technology that combines the benefits of both OLED (Organic Light-Emitting Diode) and transparent displays.
In TOLED, each pixel of the display consists of a thin layer of organic materials that emit light when an electric current passes through them. These organic materials are sandwiched between transparent electrodes, typically made of indium tin oxide (ITO), which allow light to pass through.
One of the key advantages of TOLED is its transparency. When the display is not actively emitting light, it appears transparent, allowing users to see through it. This property makes TOLED suitable for applications where transparency is desired, such as in heads-up displays, smart windows, or augmented reality devices or in retail designs, advertisement or create a large TOLED video wall or Hologram 2D 3D.
TOLED also offers the benefits of OLED technology, including high contrast ratios, wide viewing angles, and fast response times. The organic materials used in TOLED displays can emit light directly, eliminating the need for a separate back lighting system, which contributes to their thin and lightweight design.
Besides the Transparent OLED technology we produce as well Transparent LED displays or Transparent LCD displays.
How to combine TOLED displays together?
1. Ensure compatibility: Make sure the Transparent OLED displays you are using are compatible with each other in terms of resolution, interface, and electrical requirements.
2. Physical alignment: Align the displays physically to create a larger display area. This typically involves arranging the displays side by side or in a grid formation. Use appropriate mounting brackets or frames to secure them in place.
3. Connection: Connect the displays together using the necessary cables or connectors. The specific connection method depends on the interface supported by the TOLED displays. Common interfaces include HDMI, Display Port, or other proprietary interfaces.
4. Synchronization: If required, synchronize the displays to ensure coordinated content across all the panels. This may involve configuring the displays through software or hardware synchronization methods. Consult the manufacturer’s instructions or documentation for guidance on synchronization options.
5. Display control: Depending on the setup and software capabilities, you may need to adjust display settings, such as resolution, refresh rate, or color calibration, to optimize the combined TOLED display.
6. Content management: Use appropriate software or programming techniques to distribute and display content across the combined TOLED displays. This could involve treating them as a single large display or as individual screens, depending on your requirements.

By following these steps, you can effectively combine multiple TOLED displays to create a larger and visually cohesive display area.

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Aug 16, 2023

The computer scientist who hunts for costly bugs in crypto code

Posted by in categories: blockchains, computing

Programming errors on the blockchain can mean $100 million lost in the blink of an eye. Ronghui Gu and his company CertiK are trying to help.

Aug 15, 2023

Apple’s entire M3 chip lineup just leaked, and it blows M2 out of the water

Posted by in categories: computing, mobile phones

Part of the reason that these chips are becoming so much more efficient and getting so many more cores on a similar die size to the chips that have come before is the 3nm process. Apple is heavily invested in the new chip creation tech, having ordered almost the entirety of the first printing of the process, making sure that it has an advantage over the competition. The first device that we might see with a 3nm process chip is the iPhone 15 Pro, and then it’s likely that the M3 chips will follow.

Whatever happens with these new chips, it’s looking like it’s going to be an exciting time for Apple silicon and the latest Apple hardware to use it.

Aug 15, 2023

A New Era of Superconductivity: How Uranium Ditelluride Could Shape Quantum Computing

Posted by in categories: computing, quantum physics

Scientists at University College Cork have uncovered a unique superconducting state in Uranium Ditelluride, which could pave the way for more stable and efficient quantum computers. This groundbreaking discovery offers a potential solution to one of quantum computing.

Performing computation using quantum-mechanical phenomena such as superposition and entanglement.

Aug 15, 2023

Revolutionary hardware unveils new quantum computing model

Posted by in categories: computing, information science, particle physics, quantum physics

A potentially game-changing theoretical approach to quantum computing hardware avoids much of the problematic complexity found in current quantum computers. The strategy implements an algorithm in natural quantum interactions to process a variety of real-world problems faster than classical computers or conventional gate-based quantum computers can.

“Our finding eliminates many challenging requirements for quantum hardware,” said Nikolai Sinitsyn, a at Los Alamos National Laboratory. He is co-author of a paper on the approach in the journal Physical Review A. “Natural systems, such as the electronic spins of defects in diamond, have precisely the type of interactions needed for our process.”

Sinitsyn said the team hopes to collaborate with experimental physicists also at Los Alamos to demonstrate their approach using ultracold atoms. Modern technologies in are sufficiently advanced to demonstrate such computations with about 40 to 60 qubits, he said, which is enough to solve many problems not currently accessible by classical, or binary, computation. A is the basic unit of quantum information, analogous to a bit in familiar classical computing.

Aug 15, 2023

Scientists discover novel way of reading data in antiferromagnets, unlocking their use as computer memory

Posted by in categories: computing, materials

Scientists led by Nanyang Technological University, Singapore (NTU Singapore) investigators have made a significant advance in developing alternative materials for the high-speed memory chips that let computers access information quickly and that bypass the limitations of existing materials.

They have discovered a way that allows them to make sense of previously hard-to-read data stored in these alternative materials, known as antiferromagnets.

Researchers consider antiferromagnets to be attractive materials for making computer memory chips because they are potentially more energy efficient than traditional ones made of silicon. Memory chips made of antiferromagnets are not subject to the size and speed constraints nor corruption issues that are inherent to chips made with certain magnetic materials.

Aug 15, 2023

Iontronics Breakthrough: Faster Thin Film Devices for Improved Batteries and Advanced Computing

Posted by in categories: computing, physics

An international team finds new single-crystalline oxide thin films with fast and dramatic changes in electrical properties via Li-ion intercalation through engineered ionic transport channels.

Researchers have pioneered the creation of T-Nb2O5 thin films that enable faster Li-ion movement. This achievement, promising more efficient batteries and advances in computing and lighting, marks a significant leap forward in iontronics.

An international research team, comprising members from the Max Planck Institute of Microstructure Physics, Halle (Saale), Germany, the University of Cambridge, UK, and the University of Pennsylvania, USA, have reported an important breakthrough in materials science. They achieved the first realization of single-crystalline T-Nb2O5 thin films, exhibiting two-dimensional (2D) vertical ionic transport channels. This results in a swift and significant insulator-metal transition through Li-ion intercalation in the 2D channels.

Aug 15, 2023

Rigetti launches 84qubit single chip quantum processor

Posted by in categories: computing, quantum physics

Rigetti has launched its fourth-generation architecture with a single chip 84qubit quantum processor that can scale to larger systems.

Aug 15, 2023

Episode 25: David Chalmers on Consciousness, the Hard Problem, and Living in a Simulation

Posted by in categories: computing, neuroscience

Blog post with show notes, audio player, and transcript: https://www.preposterousuniverse.com/podcast/2018/12/03/epis…imulation/

Patreon: https://www.patreon.com/seanmcarroll.

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Aug 14, 2023

Mystery of Entropy FINALLY Solved After 50 Years! (STEPHEN WOLFRAM)

Posted by in categories: computing, particle physics, space

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