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Archive for the ‘computing’ category: Page 123

Dec 25, 2023

New AMD Patent Describes Potential Chiplet-Based GPU Design

Posted by in category: computing

The big difference is that all the rendering would be handled by chiplets instead of a big compute chip like on its existing GPUs.

Dec 25, 2023

New Photonic Chip Is the Full Package

Posted by in categories: computing, materials

The Sydney team exploited stimulated Brillouin scattering, a technique which involves converting electrical fields into pressure waves in certain insulators, such as optical fibers. In 2011, the researchers reported that Brillouin scattering held potential for high-resolution filtering, and developed new manufacturing techniques to combine a chalcogenide Brillouin waveguide on a silicon chip. In 2023, they managed to combine a photonic filter and modulator on the same type of chip. The combination gives the experimental chip a spectral resolution of 37 megahertz and a wider bandwidth than preceding chips, the team reported in a paper published 20 November in Nature Communications.

“The integration of the modulator with this active waveguide is the key breakthrough here,” says nanophotonics researcher David Marpaung of the University Twente in the Netherlands. Marpaung worked with the Sydney group a decade ago and now leads his own research group that is taking a different approach in the quest to achieve wide-band, high-resolution photonic radio sensitivity in a tiny package. Marpaung says that when someone reaches sub-10-MHz spectral resolution across a 100 gigahertz band, they will be able to replace bulkier electronic RF chips in the marketplace. Another advantage of such chips is that they would convert RF signals to optical signals for direct transmission through fiber optic networks. The winners of that race will be able to reach the huge market of telecoms providers and defense manufacturers who need radio receivers capable of reliably navigating complicated radio-frequency (RF) environments.

“Chalcogenide has a very strong Brillouin effect; it’s very good, but there is still a question of whether this is scalable…it’s still perceived as a lab material,” Marpaung says. The Sydney group had to figure out a new way to fit the chalcogenide waveguides in a 5-millimeter-square package into a standard manufactured silicon chip, which was no easy task. In 2017, the group figured out how to combine chalcogenide onto a silicon input/output ring, but it took until this year for anyone to manage the combination with a standard chip.

Dec 25, 2023

IBM demonstrates a nanosheet transistor that can withstand boiling nitrogen

Posted by in category: computing

What just happened? IBM’s concept nanosheet transistor demonstrated nearly double the performance improvement at the boiling point of nitrogen. This achievement is expected to result in several technological advances and could pave the way for nanosheet transistors to replace FinFETs. Even more excitingly, it could lead to the development of a more powerful class of chips.

Liquid nitrogen is widely used throughout the semiconductor manufacturing process to remove heat and create inert environments in critical process areas. However, when brought to the boiling point, which is 77 Kelvin or −196 °C, it can no longer be used in certain applications because the current generation of nanosheet transistors hasn’t been designed to withstand temperatures of this kind.

This limitation is unfortunate because it has been theorized that chips could boost their performance in such an environment. Now, this possibility may be realized, as demonstrated by a concept nanosheet transistor IBM presented at the 2023 IEEE International Electron Device Meeting held earlier this month in San Francisco.

Dec 25, 2023

Intel’s Neuromorphic Chip Gets A Major Upgrade

Posted by in categories: computing, neuroscience

Loihi 2 packs 1 million neurons in a chip half the size of its predecessor.

Dec 25, 2023

Magnetic Knots Push Future Computing Toward 3D

Posted by in categories: computing, futurism

Twisted structures called hopfions are easy to move but hard to destroy.

Dec 25, 2023

Intel Officially Launches Meteor Lake ‘Core Ultra’ CPUs

Posted by in category: computing

As the company’s first tile-based CPU based on its new Intel 4 process, this is an entirely different CPU from everything that has come before it.

Dec 24, 2023

Transparent processor found in vintage HP computer — exotic silicon-on-sapphire chip discovered on a humble floppy drive PCB

Posted by in categories: computing, futurism

Shirriff’s blog goes into a deep dive with a look inside the HP PHI chip, its construction, and die. He even examines its logic gates, first-in-first-out buffers (FIFOs), and address decoder. Please check out the blog for all these finer details and more.

In conclusion, the computer historian echoes our initial thoughts that this silicon-on-sapphire IC is “interesting as an example of a ‘technology of the future’ that didn’t quite pan out.”

Shirriff also contrasts late 70s era processors built on silicon-on-sapphire vs regular silicon in terms of energy consumption and clock speeds. Would you be surprised to hear that silicon-on-sapphire ICs were far superior using these metrics? Things might have panned out differently if these transparent ICs had been mass-produced at better yields and lower manufacturing costs. A frightening statistic highlighted by Shirriff is that HP’s silicon-on-sapphire yields were a mere 9%.

Dec 24, 2023

Wireless charger that sits under your skin could power medical devices before dissolving into your body

Posted by in categories: biotech/medical, computing

The researchers embedded this prototype in a biodegradable, chip-like implant that combined energy harvesting and energy storage. When the prototype was attached to a medical implant, power passed through the circuit directly to the device and into the capacitor to ensure a constant power supply.

In rats, the wireless implant worked for up to 10 days and dissolved completely within two months — proving its biodegradability. But it could potentially last longer if the team thickened the protective polymer and wax layers encasing the system, Lan said.

The researchers also tested the wireless charger as a drug-delivery system and delivered anti-inflammatory medicine to rats with a fever. After 12 hours, the rats that had no implants had much higher body temperatures than those with the chips, suggesting the device was successfully delivering the medicine.

Dec 24, 2023

The Race to Put Brain Implants in People Is Heating Up

Posted by in categories: computing, Elon Musk, neuroscience

Thanks in part to Elon Musk, the field of brain-computer interfaces has captured both public and investor interest, with a cadre of companies now developing implantable devices.

Dec 24, 2023

Scaling Up a Trapped-Ion Quantum Computer

Posted by in categories: computing, quantum physics

Major technical improvements to a quantum computer based on trapped ions could bring a large-scale version closer to reality.

Scientists are exploring various platforms for future large-scale quantum computation. Among the leading contenders, those in which the quantum bits (qubits) are trapped ions stand out for their low-error operation. However, scaling up such platforms to the millions of qubits needed for utility-scale quantum computing is a daunting task. Now Steven Moses at Quantinuum in Colorado and colleagues describe an impressive new trapped-ion quantum computer, the Quantinuum System Model H2, in which they have been able to increase the number of qubits (from 20 to 32) without increasing the error rate [1]. The researchers have put this system through its paces with full component-level testing, a suite of industry-standard benchmark tests, and a set of diverse applications.

In a typical trapped-ion quantum computer, a linear chain of ions is confined by an electric potential using direct-current (dc) and radio-frequency (rf) fields. Whereas the ion-trap apparatus can be at any temperature, the ions themselves need to be laser cooled to near their ground state. Their motion can then be quantized, and the resulting motional modes can be used to entangle any pair of ions in the chain—a requirement for performing quantum operations. However, controlling individual ions in a long chain comes with its own technical difficulties, and it is unlikely that a million qubits—as needed to build a universal, fault-tolerant quantum computer [2]—could be trapped in a single potential.