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Science

Scientists Found Ancient, Never-Before-Seen Viruses in a Glacier (vice.com) 71

Posted by msmash from the how-about-that dept.
Glacial viruses are understudied, and climate change may keep it that way. From a report: 15,000 years ago, some water froze atop the Tibetan Plateau and became part of a glacier. While humans were busy domesticating dogs, the ice entrapped millions of microscopic organisms per square inch. Many of the tiny life forms died, and their genomes -- the only proof that they had been there in the first place -- slowly degraded. Then, in 2015, scientists from the U.S. and China drilled down 50 meters into the glacier to see what they could find. Five years later, these researchers have recovered evidence of ancient viruses in the glacier ice, including 28 viral groups that are new to science. Their study detailing the discovery was posted online as a pre-print on Tuesday. Records of ancient microbes, like those found in glacier ice, give scientists a glimpse into Earth's evolutionary and climate history. As our planet undergoes climate change, these frozen records can inform predictions about which microorganisms will survive, and what the resulting environment will look like.

"Glacier ice harbors diverse microbes, yet the associated viruses and their impacts on ice microbiomes have been unexplored," the authors wrote in the paper. The group declined to comment on the paper, as it has not yet been peer-reviewed -- "This is an exciting new area of research for us," co-author Lonnie Thompson said in an email. Viruses found in glacial samples known as ice cores are especially understudied because of how small they are, said Scott O. Rogers, a professor at Bowling Green State University and an author of the book Defrosting Ancient Microbes: Emerging Genomes in a Warmer World.
United States

Hanford Nuclear Waste Cleanup Makes Progress, But Questions Loom (ieee.org) 121

Posted by BeauHD from the only-time-will-tell dept.
The Hanford Vit Plant in Washington state, a $17 billion federal facility for treating and immobilizing radioactive waste, is now on track to begin "glassifying" low-activity nuclear waste as soon as 2022, reports IEEE Spectrum. This is "a year ahead of a court-mandated deadline." From the report: Still, an air of uncertainty surrounds the project. The U.S. Department of Energy (DOE) has proposed reclassifying some of the nation's radioactive waste as less dangerous, and it's unclear how that could affect the Hanford facility's long-term prospects. Hanford houses about 212 million liters of high-level waste, the leftovers of the U.S. nuclear weapons program.

However, higher-level waste has a longer timeline. Separate pretreatment and vitrification facilities aren't slated for commissioning until 2033. All parts of the Vit Plant are legally required to begin fully operating by 2036, under a consent decree between Washington, Oregon, and the federal government. The DOE hasn't said whether, or how, its proposal to reclassify nuclear waste would affect existing plans at Hanford if adopted. The agency is not making any decisions on the classification or disposal of any particular waste stream at this time, a DOE official said by email. [...] Though current law defines high-level radioactive waste as the sludge that results from processing highly radioactive nuclear fuel, the DOE is considering slapping a new, potentially less expensive label on it if it can meet the radioactive concentration limits for Class C low-level radioactive waste. Reclassifying nuclear waste would allow the federal government to sidestep decades of cleanup work, saving it billions of dollars. The relabeling might even enable the DOE to bypass costly vitrification and instead contain tank waste by covering it with concrete-like grout, as the agency does at other decommissioned nuclear sites. Officials and citizens in Washington and Oregon oppose this method for Hanford, "citing the risk of long-term soil and groundwater contamination and the challenges of moving and storing voluminous grout blocks," reports IEEE Spectrum. "Earlier federal studies found that grout 'actually performed the worst of all the supplemental treatment options considered.' (A 2017 report to Congress, however, suggested both vitrification and grout could effectively treat Hanford's low-activity waste.)"

Comment Re:I'm surprised they're using outside product (Score 1) 160

by Whatanut (#57389300) Attached to: Linux Now Dominates Azure

If I'm reading your question correctly, you're doing it wrong.

I've found most nics under windows refuse to accept vlan tagging without virtualizing them in some way. But that doesn't require installing any of the hyper-v components. You can do it with standard teaming. And this can be done with a single nic.

new-netlbfoteam -name whatever -teammembers ethernetalias -whateverotheroptions
set-netlbfoteamnic -name whatever -vlanid 123
IBM

IBM's Watson Is Going To Space (thenextweb.com) 59

Posted by BeauHD from the infinity-and-beyond dept.
Yesterday, IBM announced it would be providing the AI brain for a robot being built by Airbus to accompany astronauts aboard the International Space Station (ISS). "The robot, which looks like a flying volleyball with a low-resolution face, is being deployed with Germany astronaut Alexander Gerst in June for a six month mission," reports The Next Web. "It's called CIMON, an acronym for Crew Interactive Mobile Companion, and it's headed to space to do science stuff." From the report: It'll help crew members conduct medical experiments, study crystals, and play with a Rubix cube. Best of all, just like "Wilson," the other volleyball with a face and Tom Hanks' costar in the movie Castaway, CIMON can be the astronauts' friend. According to an IBM blog post: "CIMON's digital face, voice and use of artificial intelligence make it a 'colleague' to the crew members. This collegial 'working relationship' facilitates how astronauts work through their prescribed checklists of experiments, now entering into a genuine dialogue with their interactive assistant."
IBM

IBM Research Alliance Has Figured Out How To Make 5nm Chips (cnet.com) 56

Posted by msmash from the 'breakthrough' dept.
IBM, GlobalFoundries, and Samsung said Monday that they have found a way to make thinner transistors, which should enable them to pack 30 billion switches onto a microprocessor chip the size of a fingernail. The tech industry has been fueled for decades by the ability of chipmakers to shoehorn ever smaller, faster transistors into the chips that power laptops, servers, and mobile devices. But industry watchers have worried lately that technology was pushing the limits of Moore's Law -- a prediction made by Intel co-founder Gordon Moore in 1965 that computing power would double every two years as chips got more densely packed. From a report: Today's chips are built with transistors whose dimensions measure 10 nanometers, which means about 1,000 fit end-to-end across the diameter of a human hair. The next generation will shrink that dimension to 7nm, and the IBM-Samsung development goes one generation beyond that to 5nm. That means transistors can be packed four times as densely on a chip compared with today's technology. "A nanosheet-based 5nm chip will deliver performance and power, together with density," said Huiming Bu, IBM's director of silicon integration and device research. Take all those numbers with a nanograin of salt, though, because chipmakers no longer agree on what exactly they're measuring about transistors. And there's also a long road between this research announcement and actual commercial manufacturing. IBM believes this new process won't cost any more than chips with today's transistor designs, but its approach requires an expensive shift that chipmakers have put off for years: the use of extreme ultraviolet light to etch chip features onto silicon wafers.

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