Long-time Slashdot reader theodp writes: According to Google Trends, peak “Lean to Code” occurred in early 2019 when laid-off Buzzfeed and Huffpost journalists were taunted with the phrase on Twitter…
As Meta founder and CEO Mark Zuckerberg recently put it, “We’re in a different world.” Indeed. Encouraging kids to pursue CS careers in Code.org’s viral 2013 launch video, Zuckerberg explained, “Our policy at Facebook is literally to hire as many talented engineers as we can find.”
In Learning to Code Isn’t Enough, a new MIT Technology Review article, Joy Lisi Rankin reports on the long history of learn-to-code efforts, which date back to the 1960s. “Then as now,” Lisi Rankin writes, “just learning to code is neither a pathway to a stable financial future for people from economically precarious backgrounds nor a panacea for the inadequacies of the educational system.”
But is that really true? Vox does note that the latest round of layoffs at Meta “is impacting workers in core technical roles like data scientists and software engineers — positions once thought to be beyond reproach.” Yet while that’s also true at other companies, those laid-off tech workers also seem to be finding similar positions by working in other industries:
Software engineers were the most overrepresented position in layoffs in 2023, relative to their employment, according to data requested by Vox from workforce data company Revelio Labs. Last year, when major tech layoffs first began, recruiters and customer success specialists experienced the most outsize impact. So far this year, nearly 20 percent of the 170,000 tech company layoffs were software engineers, even though they made up roughly 14 percent of employees at these companies. “Early layoffs were dominated by recruiters, which is forgoing future hiring,” Revelio senior economist Reyhan Ayas told Vox. “Whereas in 2023 we see a shift toward more core engineering and software engineering, which signals a change in focus of current business priorities.”
In other words, tech companies aren’t just trimming the fat by firing people who fill out their extensive ecosystem, which ranges from marketers to massage therapists. They’re also, many for the first time, making cuts to the people who build the very products they’re known for, and who enjoyed a sort of revered status since they, like the founders of the companies, were coders. Software engineers are still important, but they don’t have the power they used to…
The latest monthly jobs report by tech industry association CompTIA found that even though employment at tech companies (which includes all roles at those companies) declined slightly in March, employment in technical occupations across industry sectors increased by nearly 200,000 positions. So even if tech companies are laying off tech workers, other industries are snatching them up. Unfortunately for software engineers and the like, that means they might also have to follow those industries’ pay schemes. The average software engineer base pay in the US is $90,000, according to PayScale, but can be substantially higher at tech firms like Facebook, where such workers also get bonuses and stock options.
At the start of 2023, Bloomberg’s Gurman reported Apple’s forthcoming mixed-reality headset would feature an external power supply. At the time, he said the company made the decision to offload the battery for a few reasons. Apple was concerned about the device overheating. It also wanted to make the headset lighter and thereby more comfortable to wear.
Ahead of WWDC 2023, the venue where Apple is expected to announce the headset, Gurman has shared more information about what to expect from the wearable’s external battery. Writing in his latest Power On newsletter, he says the device, rumored to be named “Reality Pro” or “Reality One,” will feature two ports: a USB-C interface for data transfers and a “new proprietary charging connector.” Judging from Gurman’s description, the latter is reminiscent of Apple’s recently reintroduced MagSafe power port. The included power cable reportedly features a round tip that magnetically attaches to Apple’s headset. After inserting the cable, Gurman says you rotate it to lock it into place.
Apple
As for the power supply, it’s about the size of an iPhone and looks similar to Apple’s own MagSafe Battery Pack (pictured above). The component can reportedly power the wearable for up two hours on a single charge. Recharging the pack involves a USB-C cable connected to a MacBook Pro power adapter. Gurman speculates Apple will allow customers to buy additional packs separately since a single one provides so little uptime.
More than anything, Gurman’s latest report underscores how much of a first-generation product Apple’s headset will be when it arrives later this year. With the device employing such a cumbersome power delivery method and coming in at a rumored $3,000, it’s hard to imagine the average consumer running out to buy Apple’s latest gadget.
This article originally appeared on Engadget at https://www.engadget.com/apples-mixed-reality-headset-may-come-with-a-magnetic-cable-for-its-external-power-supply-171341879.html?src=rss
Fans of Sam Raimi different parts of his filmography the like, but the Evil Dead series is often one of the most talked about. While the Ash vs. Evil DeadTVshow from 2015 and last year’s video game have helped keep the franchise alive in pop culture, alongside the series’ longtime fans, Fede Alvarez’s 2013 reboot…
Curtains can go a long way toward making a room feel homier, while helping to regulate the amount of natural light coming in. But given that they’re long pieces of fabric hanging in the same place for months, or in some cases, years at a time, they tend to collect dust.
QEMU releases 8.0.0, introducing many improvements and new features across multiple architectures. Read on to discover the highlights and how to download the latest release.
KDE-focused and Arch Linux-inspired independent distribution KaOS Linux celebrates today 10 years of existence with a new stable ISO release that brings some of the latest GNU/Linux technologies and a preview of the upcoming KDE Plasma 6 desktop environment.
Yes, you’re reading it right, KaOS is one of the very first GNU/Linux distributions to offer you a live ISO image with a pre-release version of the KDE Plasma 6 desktop, which, of course, is compiled against the latest Qt 6 open-source application framework…
Since this is a special ISO release, the devs also added an option to play music during the installation process.
“KaOS uses the Systemd-provided Systemd-boot for UEFI installs,” according to the release notes.
Thieves are targeting iPhone owners by exploiting a security setting on the device. Once the smartphone is accessed by the criminal, owners can essentially be locked out of their own devices and Apple account.
The hijacking of one’s iPhone most often begins with the crook gaining access to the person’s passcode. This is often done by lurking
Disney hopes that those who attend Disneyland leave the theme parks with fun experiences and memories that stick with attendees for. And that’s… technically what happened last night at Disneyland Park, because the Maleficent dragon animatronic quite literally went up in flames. And the culprit was none other than…
Bill Gates believes AI chatbots “are on track to help children learn to read and hone their writing skills in 18 months time,” reports CNBC:
Historically, teaching writing skills has proven to be an incredibly difficult task for a computer, Gates noted. When teachers give feedback on essays, they look for traits like narrative structure and clarity of prose — a “high-cognitive exercise” that’s “tough” for developers to replicate in code, he said. But AI chatbots’ ability to recognize and recreate human-like language changes that dynamic, proponents say…
AI technology must improve at reading and recreating human language to better motivate students before it can become a viable tutor, Gates said… It may take some time, but Gates is confident the technology will improve, likely within two years, he said. Then, it could help make private tutoring available to a wide swath of students who might otherwise be unable to afford it…
“This should be a leveler,” he said. “Because having access to a tutor is too expensive for most students — especially having that tutor adapt and remember everything that you’ve done and look across your entire body of work.”
Gates isn’t the only billionaire thinking about how AI will affect education. Mark Cuban recently retweeted a prediction that GPT-4 “will revolutionize homeschooling.”
If you missed the chance to buy Apple’s 2022 iPad when it was $50 off earlier this month, now you have another opportunity to purchase the tablet at a discount. For the time being, Amazon is offering the device at a starting price of $399. That’s a return to the iPad’s best-ever price.
The sale includes all color, storage and networking variants of the 10.9-inch tablet. Colorway options include pink, blue, silver and yellow, and you can order the device with either 64GB or 256GB of storage. Apple also offers an LTE variant that features cellular connectivity. With the $50 discount, you’ll pay $549 for either the 256GB WiFi model or the 64GB LTE model. The top-spec variant is currently $699.
Engadget awarded the 10th-generation iPad a score of 85 when it reviewed the device last fall. The tablet features a refreshed design reminiscent of the iPad Pro and iPad Air. Apple removed the Home button found on the previous model, replacing it with an edge-facing Touch ID button that doubles as a sleep button. The company also outfitted the tablet with its A14 Bionic chipset and repositioned the front-facing camera so that it has a landscape orientation, making the tablet better suited for video calls. Note that the 2022 iPad is not a great choice if you’re an artist as it doesn’t support the second-generation Apple Pencil. With the redesign also came a more expensive price tag, something Amazon’s discount helps address.
Mother’s Day can be a particularly tough holiday for some people, for a variety of different reasons. But if your family does celebrate, and wants to spend at least part of the day at a large home improvement chain store, you could get some free flowers out of it. Here’s what to know.
Lacking quantum computers, some startups “are developing a new breed of software inspired by algorithms used in quantum physics…” reports Reuters.
“Once too big for conventional computers, these algorithms are finally being put to work thanks to today’s powerful artificial intelligence chips, industry executives told Reuters.”
QC Ware, a software startup that has raised more than $33 million and initially focused only on software that could run on quantum computers, said it needed to change tack and find a solution for clients today until the future quantum machines arrive. So QC Ware CEO Matt Johnson said it turned to Nvidia Corp’s graphic processing units (GPU) to “figure out how can we get them something that is a big step change in performance … and build a bridge to quantum processing in the future….”
This week, QC Ware is unveiling a quantum-inspired software platform called Promethium that will simulate chemical molecules — to see how they interact with things like protein — on a traditional computer using GPUs. The software can cut simulation time from hours to minutes for molecules of 100 atoms, and months to hours for molecules of up to 2000 atoms, compared with existing software solutions, said QC Ware’s head of quantum chemistry Robert Parrish…
In the past 18 months, quantum software startups including SandBoxAQ — an Alphabet spinoff — raised about $1 billion, according to data firm PitchBook. To be sure, development of this technology is nascent and these startups must work hard to convince some prospective clients. SandBoxAQ CEO Jack Hidary said it was only 24 months ago that AI chips became powerful enough to simulate hundreds of thousands of chemical interactions simultaneously. It developed a quantum-inspired algorithm for biopharma simulation on Google’s AI chip called a Tensor Processing Unit (TPU)…
The gargantuan artificial construct enveloping your local star is going to be rather difficult to miss, even from a few light years away. And given the literally astronomical costs of resources needed to construct such a device — the still-theoretical-for-humans Dyson Sphere — having one in your solar system will also serve as a stark warning of your technological capacity to ETs that comes sniffing around.
Or at least that’s how 20th century astronomers like Nikolai Kardashev and Carl Sagan envisioned our potential Sol-spanning distant future going. Turns out, a whole lot of how we predict intelligences from outside our planet will behave is heavily influenced by humanity’s own cultural and historical biases. In The Possibility of Life, science journalist Jaime Green examines humanity’s intriguing history of looking to the stars and finding ourselves reflected in them.
The way we imagine human progress — technology, advancement — seems inextricable from human culture. Superiority is marked by fast ships, colonial spread, or the acquisition of knowledge that fuels mastery of the physical world. Even in Star Trek, the post-poverty, post-conflict Earth is rarely the setting. Instead we spend our time on a ship speeding faster than light, sometimes solving philosophical quandaries, but often enough defeating foes. The future is bigger, faster, stronger — and in space.
Astronomer Nikolai Kardashev led the USSR’s first SETI initiatives in the early 1960s, and he believed that the galaxy might be home to civilizations billions of years more advanced than ours. Imagining these civilizations was part of the project of searching for them. So in 1964, Kardashev came up with a system for classifying a civilization’s level of technological advancement.
The Kardashev scale, as it’s called, is pretty simple: a Type I civilization makes use of all the energy available on or from its planet. A Type II civilization uses all the energy from its star. A Type III civilization harnesses the energy of its entire galaxy.
What’s less simple is how a civilization gets to any of those milestones. These leaps, in case it’s not clear, are massive. On Earth we’re currently grappling with how dangerous it is to try to use all the energy sources on our planet, especially those that burn. (So we’re not even a Type I civilization, more like a Type Three-quarters.) A careful journey toward Type I would involve taking advantage of all the sunlight falling on a planet from its star, but that’s just one billionth or so of a star’s total energy output. A Type II civilization would be harnessing all of it.
It’s not just that a Type II civilization would have to be massive enough to make use of all that energy, they’d also have to figure out how to capture it. The most common imagining for this is called a Dyson sphere, a massive shell or swarm of satellites surrounding the star to capture and convert all its energy. If you wanted enough material to build such a thing, you’d essentially have to disassemble a planet, and not just a small one — more like Jupiter. And then a Type III civilization would be doing that, too, but for all the stars in its galaxy (and maybe doing some fancy stuff to suck energy off the black hole at the galaxy’s core).
On the one hand, these imaginings are about as close to culturally agnostic as we can get: they require no alien personalities, no sociology, just the consumption of progressively more power, to be put to use however the aliens might like. But the Kardashev scale still rests on assumptions that are baked into so many of our visions of advanced aliens (and Earth’s own future as well). This view conflates advancement not only with technology but with growth, with always needing more power and more space, just the churning and churning of engines. Astrophysicist Adam Frank identifies the Kardashev scale as a product of the midcentury “techno-utopian vision of the future.” At the point when Kardashev was writing, humanity hadn’t yet been forced to face the sensitive feedback systems our energy consumption triggers. “Planets, stars, and galaxies,” Frank writes, “would all simply be brought to heel.”
Even in the Western scientific tradition, alternatives to Kardashev’s scale have been offered. Aerospace engineer Robert Zubrin proposed one scale that measures planetary mastery and another that measured colonizing spread. Carl Sagan offered one that accounts for the information available to a civilization. Cosmologist John D. Barrow proposed microscopic manipulation, going from Type I–minus, where people can manipulate objects of their own scale, down through the parts of living things, molecules, atoms, atomic nuclei, subatomic particles, to the very fabric of space and time. Frank proposed looking not at energy consumption but transformation, noting that a sophisticated civilization does more than bring a planet to heel, it must learn to find balance between resource use and long-term survival.
Of these — again, all white American or European men — only Sagan offers a measure of advancement that isn’t necessarily acquisitive. Even the manipulation of atoms, which may seem so small and delicate, requires massive amounts of energy in the form of particle accelerators, not to mention that this kind of tinkering has also unleashed humanity’s greatest destructive force. But Sagan’s super-advanced civilization could be nothing more than a massive, massive library, filled with scholars and philosophers, expanding and exploring mentally but with no dominion over their planet or star. (Yet, one has to ask: What is powering those libraries? The internet is ephemeral, but it is not free.)
Implicit in any vision of vast progress is not just longevity but continuity. The assumption of the ever upward-sloping line is bold to say the least. In the novella A Man of the People, Ursula K. Le Guin writes of one world, Hain, where civilization has existed for three million years. But just as the last few thousand years on Earth have seen empires rise and fall, and cultures collapse and displace one another, so it is on Hain at larger scale. Le Guin writes, “There had been…billions of lives lived in millions of countries…infinite wars and times of peace, incessant discoveries and forgettings…an endless repetition of unceasing novelty.” To hope for more than that is perhaps more optimistic than to imagine we might domesticate a star. Perhaps it’s also shortsighted, extrapolating out eons of future from just the last few centuries of life on two continents, rather than a wider view of many millennia on our whole world.
All of these scales of progress are built on human assumptions, specifically the colonizing, dominating, fossil-fuel-burning history of Europe and the United States. But scientists don’t see much use in thinking about the super-advanced alien philosophers and artists and dolphins, brilliant as they might be, because it would be basically impossible for us to find them.
The scientific quest for advanced aliens is about trying to imagine not just who might be out there but how we might find them. Which is how we end up at Dyson spheres.
Dyson spheres are named for Freeman Dyson, the physicist, mathematician, and general polymath. While most SETI scientists in the early 1960s were looking for extraterrestrial beacons, Dyson thought “one ought to be looking at the uncooperative society.” Not obstinate, just not actively trying to help us. “The idea of searching for radio signals was a fine idea,” he said in a 1981 interview, “but it only works if you have some cooperation at the other end. So I was always thinking about what to do if you were looking just for evidence of intelligent activities without anything in the nature of a message.” And you might as well start with the easiest technology to detect — the biggest or brightest. So the massive spheres Dyson popularized in his 1960 paper were the result of him asking What is the largest feasible technology?
In the Star Trek: The Next Generation episode “Relics,” the Enterprise finds itself caught in a massive gravitational field, even though there are no stars nearby. The source, on the view screen, is a matte, dark gray sphere. Riker says its diameter is almost as wide as the Earth’s orbit.
Picard asks, with hushed wonder, “Mr. Data, could this be a Dyson sphere?”
Data replies, “The object does fit the parameters of Dyson’s theory.”
Commander Riker isn’t familiar with the concept, but Picard doesn’t give him any trouble for that. “It’s a very old theory, Number One. I’m not surprised that you haven’t heard of it.” He tells him that a twentieth century physicist, Freeman Dyson, had proposed that a massive, hollow sphere built around a star could capture all the star’s radiating energy for use. “A population living on the interior surface would have virtually inexhaustible sources of power.”
Riker asks, with some skepticism, if Picard thinks there are people living in the sphere.
“Possibly a great number of people, Commander,” Data says. “The interior surface area of a sphere this size is the equivalent of more than two hundred and fifty million Class M [Earthlike] planets.”
In Dyson’s thinking, the goal wasn’t living space but energy — how would a civilization reach Type II? And Dyson’s writing was clearly speculative. In the paper, he wrote, “I do not argue that this is what will happen in our system; I only say that this is what may have happened in other systems.” Decades later, astrophysicist Jason Wright took up the search.
One of the great benefits to this approach, Wright told me, is that “nature doesn’t make Dyson spheres.” Wright is a professor of astronomy and astrophysics at Penn State, where he is director of the Penn State Extraterrestrial Intelligence Center. But while the best known version of SETI is listening for radio signals (more on that in the next chapter), Wright focuses on looking for technosignatures — evidence of technology out among the stars. Technosignatures allow you to find those uncooperative aliens Dyson thought would make the best targets. We don’t even need to find the aliens, in this case, just proof they once existed. That could be a stargate, or a distant planet covered in elemental silicon (geologically unlikely, but technologically great for solar panels), or it could be a Dyson sphere.
Wright’s first big search for Dyson spheres was called Glimpsing Heat from Alien Technologies, or G-HAT. Or, even better, Gˆ (because that’s a G with a little hat on it). The premise was simple: Dyson spheres don’t just absorb energy, they transform it, inevitably radiating some waste as heat which we can see as infrared radiation. So, from 2012 to 2015, Wright and his team looked at about a million galaxies, searching for a Type II civilization on its way to Type III, having ensconced enough of a galaxy’s stars in Dyson spheres that the galaxy might glow unusually bright in infrared. (They surveyed galaxies rather than individual stars because, as Wright writes, “A technological species that could build a Dyson sphere could also presumably spread to nearby star systems,” so it’s fair to think a galaxy with one Dyson sphere may have several, and several would be easier to find than just one. Might as well start there.) None were found, but you know that because you would’ve surely heard about it if Wright’s search had succeeded.
Wright prides himself on the agnosticism of this approach. He doesn’t need aliens to be looking for us or to have any certain sociological impulses. They just need technology. “Technology uses energy,” he told me. “That’s kind of what makes it technology. Just like life uses energy.” That view makes demolishing a Jupiter-sized planet to build a star-encompassing megastructure seem almost comically simple, but Wright doesn’t even see the existence of a Dyson sphere as requiring massive coordination or forethought on the aliens’ part. It is truly, in his view, a low-intensity ask. He compared it to Manhattan, a fair example of a human “megastructure,” a massive, interconnected, artificial system. “It was planned to some degree, but no one was ever like, ‘Hey, let’s build a huge city here.’ It’s just every generation made it a little bigger.” He thinks a Dyson sphere or swarm could accumulate in a similar manner. “If the energy is out there to take and it’s just gonna fly away to space anyway, then why wouldn’t someone take it?”
Wright knows the objections: that this imagines a capitalist orientation, a drive to “dominate nature” that is by no means universal, not even among human societies. But for his research to work, this drive doesn’t need to be universal among the stars. It just has to have happened sometimes, enough for us to see the results. As he put it, “There’s nothing that drives all life on Earth to be large. In fact, most life is small. But some life is large.” And if an alien were to come to Earth, they wouldn’t need to see all the small life to know the planet was inhabited. A single elephant would do the trick.
Some hypothetical alien technosignatures might be less definitive. In 2017, astronomers detected a roughly quarter-mile-long rocky object slingshotting through the solar system. They realized that this object, called ‘Oumuamua, came from outside the system — because of its speed and the path it took. It was the first interstellar object ever detected in our system. While hopes or fears that it was an alien probe were not realized, it was a reminder that alien technology could be found closer to home, lurking around our own sun.
“We don’t know that there’s not technology here because we’ve never really checked,” Wright said. “I mean, I guess if they had cities on Mars, we would notice—if they were on the surface, anyway.” But, he pointed out, much of the Earth’s surface doesn’t have active, visible technology. The same could go for the solar system beyond Earth, too. There could be alien probes or debris, like ‘Oumuamua but constructed, moving so fast or so dark that we don’t see them. Maybe there’s an alien base on the dwarf planet Ceres, or buried under the surface of Mars. The lunar monolith in 2001: A Space Odyssey, Wright reminded me, was buried just under the surface of the moon. All those ancient interstellar gates sci-fi is fond of have to be found before they can be used. Don’t forget, until 2015, our best image of Pluto was a blurry blob. So much of what we know about even our own solar system is inference and assumption.
Skeptics love to ask Okay, so where is everyone? But we don’t know for sure that they aren’t — or haven’t been — here.
This article originally appeared on Engadget at https://www.engadget.com/hitting-the-books-the-possibility-of-life-jaime-greene-hanover-square-press-113047089.html?src=rss
Even if you’re one of the lucky few who truly love their job, you probably don’t want your identity to be defined solely by what you currently do for a living. Jobs and careers change, but there are some core skills and characteristics that you utilize—or at least have in your possession—regardless of what you do to…
Each day, messages from Nigerian princes, peddlers of wonder drugs and promoters of can’t-miss investments choke email inboxes. Improvements to spam filters only seem to inspire new techniques to break through the protections.
Libreboot as the downstream of Coreboot focused on ensuring 100% open-source system firmware support without any lurking binary blobs is out this Sunday with a new feature release…
