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Archive for the ‘engineering’ category: Page 70

Dec 14, 2022

Hate Elon Musk all you want, but he’s got one management trick that every boss should emulate

Posted by in categories: Elon Musk, engineering

Balancing management ability and technical expertise is an active debate in the software industry, where, depending on whom you ask, an engineering manager’s interest or ability to code is dependent on whether the team is able to operate without them. Scott Berkun, the author of “Making Things Happen: Mastering Project Management,” told SD Times he believed the two disciplines were somewhat oppositional: “Coding requires intense uninterrupted concentration, while management requires dealing with constant interruptions and context switching.”

“Being able to do both is not something that a lot of people can do in practice.”

Berkun isn’t wrong — the incredible focus and discipline one must have to constantly write, test, and execute code in production are very different attributes to those of a manager. And just because someone is a high-performing employee doesn’t mean they can or should become a manager. Being in charge of employees is a unique skill that requires its own form of training and knowledge. Switching between producing valuable work for the company and leading a team of employees is not for everyone. As I’ve suggested before, the ratio of managers to the people they manage should be much larger if the manager isn’t doing the actual labor — but even then, the lack of practical experience will make it harder for them to be effective. But because the managerial class has become the only avenue for real advancement at many companies, many organizations end up with a jumble of disconnected or micromanaging bosses who aren’t right for the job.

Dec 13, 2022

New 3D model shows how the paradise tree snake uses aerial undulation to fly

Posted by in categories: biotech/medical, engineering, mathematics

When the paradise tree snake flies from one tall branch to another, its body ripples with waves like green cursive on a blank pad of blue sky. That movement, aerial undulation, happens in each glide made by members of the Chrysopelea family, the only known limbless vertebrates capable of flight. Scientists have known this, but have yet to fully explain it.

For more than 20 years, Jake Socha, a professor in the Department of Biomedical Engineering and Mechanics at Virginia Tech, has sought to measure and model the biomechanics of snake flight and answer questions about them, like that of aerial undulation’s functional role. For a study published by Nature Physics, Socha assembled an interdisciplinary team to develop the first continuous, anatomically-accurate 3D mathematical model of Chrysopelea paradisi in flight.

The team, which included Shane Ross, a professor in the Kevin T. Crofton Department of Aerospace and Ocean Engineering, and Isaac Yeaton, a recent mechanical engineering doctoral graduate and the paper’s lead author, developed the 3D model after measuring more than 100 live snake glides. The model factors in frequencies of undulating waves, their direction, forces acting on the body, and mass distribution. With it, the researchers have run virtual experiments to investigate aerial undulation.

Dec 13, 2022

Japan’s New Semiconductor Foundry Rapidus Taps IBM For 2nm Process

Posted by in categories: business, computing, engineering, finance, government

Japan wants to get back into the leading-edge semiconductor business and very recently a new company was formed to reboot its semiconductor industry. The company is named Rapidus, referring to rapid production of new chips, a clear reference to how the company plans to differentiate its business from other foundries such as TSMC, Samsung, and Intel. The company has announced a partnership with IBM Research to develop IBM’s 2nm technology in fabs that Rapidus plans to build in Japan during the second part of this decade. Previously, Rapidus announced a collaboration with the Belgium-based microelectronics research hub IMEC on advanced semiconductor technologies. Imec is collaborative semiconductor research organization working the world’s major foundries, IDMs, fabless and fablite companies, material and tool suppliers, EDA companies and application developers.

The IBM process uses gate-all-around transistors — IBM refers to them as nano sheet FETs — which is the next generation of transistor design that enables device scaling beyond today’s FinFETs. The 2nm structures will require Rapidus to use ASML’s EUV manufacturing equipment. Business details with IBM were not disclosed, but there’s likely two parts to the deal: a cross-licensing agreement for the intellectual property necessary to build the product and a joint development agreement. While the announcement is nominally for IBM’s 2nm process, it likely includes a long-term commitment to build advanced semiconductor chips going beyond the 2nm process node.

Rapidus was formed by semiconductor veterans such as Rapidus President Atsuyoshi Koike, with backing by leading Japanese technology and financial firms, including Denso, Kioxia, Mitsubishi UFJ Bank, NEC, NTT, Softbank, Sony, and Toyota Motor. The Japanese government is also subsidizing Rapidus. The big change for Japan compared to prior national efforts is the collaboration with international organizations. It’s a recognition Japan cannot go it alone. This appears to be a fundamental change in Japanese attitudes. Building a fab in Japan will be helped by Japan’s strong manufacturing ecosystem of materials, equipment, and engineering talent.

Dec 11, 2022

How To Terraform Mars — WITH LASERS

Posted by in categories: engineering, environmental, space

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https://sites.google.com/view/sources-mars-terraforming.

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Dec 10, 2022

Engineers Push Probabilistic Computing Closer to Reality

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

A large universal quantum computer is still an engineering dream, but machines designed to leverage quantum effects to solve specific classes of problems—such as D-wave’s computers—are alive and well. But an unlikely rival could challenge these specialized machines: computers built from purposely noisy parts.

This week at the IEEE International Electron Device Meeting (IEDM 2022), engineers unveiled several advances that bring a large-scale probabilistic computer closer to reality than ever before.

Quantum computers are unrivaled for any algorithm that relies on quantum’s complex amplitudes. “But for problems where the numbers are positive, sometimes called stochastic problems, probabilistic computing could be quite competitive,” says Supriyo Datta, professor of electrical and computer engineering at Purdue University and one of the pioneers of probabilistic computing.

Dec 9, 2022

Quantum light source could pave the way to a quantum internet

Posted by in categories: engineering, internet, quantum physics

The ability to integrate fiber-based quantum information technology into existing optical networks would be a significant step toward applications in quantum communication. To achieve this, quantum light sources must be able to emit single photons with controllable positioning and polarization and at 1.35 and 1.55 micrometer ranges where light travels at minimum loss in existing optical fiber networks, such as telecommunications networks. This combination of features has been elusive until now, despite two decades of research efforts.

Recently, two-dimensional (2D) semiconductors have emerged as a novel platform for next-generation photonics and electronics applications. Although scientists have demonstrated 2D quantum emitters operating at the visible regime, single-photon emission in the most desirable telecom bands has never been achieved in 2D systems.

To solve this problem, researchers at Los Alamos National Laboratory developed a strain engineering protocol to deterministically create two-dimensional quantum light emitters with operating wavelength tunable across O and C telecommunication bands. The polarization of the emissions can be tuned with a magnetic field by harnessing the valley degree of freedom.

Dec 9, 2022

The Megastructure Compendium

Posted by in categories: cosmology, engineering, nanotechnology, nuclear energy, sustainability

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In the future humanity may build enormous structures, feats of mega-engineering that may rival planets or even be of greater scope. This episode catalogs roughly 100 major types of Megastructure, from those that are cities in space to those that rival galaxies.

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Dec 9, 2022

Researchers harvest electricity from wood soaking in water

Posted by in categories: energy, engineering

Water and wood may one day be all that’s needed to provide electrical power for a household. At a time when energy is a critical issue for many millions of people worldwide, scientists in Sweden have managed to generate electricity with the help of these two renewable resources.

The method reported by researchers at KTH Royal Institute of Technology focuses on what naturally happens after is placed in water, and the water evaporates. Transpiration, a process in which water moves through a plant, is constantly occurring in nature. And it produces small amounts of , known as bioelectricity.

Yuanyuan Li, assistant professor at the Division of Biocomposites at KTH, says that with some nanoengineering of wood—and pH tuning—small but promising amounts of electricity can now be harvested.

Dec 8, 2022

A ‘heart attack on a chip’ device could lead to treatments for cardiovascular disease

Posted by in categories: biotech/medical, engineering, life extension

Researchers use the device to study heart attacks and hope to test new heart medications.

Researchers have developed a device that can mimic aspects of a heart attack with hopes of using the device to test and develop novel heart medications. The research team, from the University of Southern California Alfred E. Mann Department of Biomedical Engineering in the U.S., created the tool, which they call a “heart attack on a chip.”

The study was published in the journal Science Advances.

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Dec 8, 2022

A reconfigurable device based on 2D van der Waals heterostructures that works both as a transistor and memory

Posted by in categories: computing, engineering

One key objective of electronics engineering research is to develop computing devices that are both highly performing and energy-efficient, meaning that they can compute information quickly while consuming little power. One possible way to do this could be to combine units that perform logic operations and memory components into a single device.

So far, most computing devices have been made up of a processing unit and a physically separate component. The creation of a device that can efficiently perform both these functions, referred to as a logic-in-memory architecture, could help to significantly simplify devices and cut down their power consumption.

While a few of the logic-in-memory architectures proposed so far achieved promising results, most existing solutions come with practical limitations. For instance, some devices have been found to be unstable, unreliable or only applicable to specific use cases.

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