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is The Verge’s senior AI reporter. An AI beat reporter for more than five years, her work has also appeared in CNBC, MIT Technology Review, Wired UK, and other outlets.
is The Verge’s senior AI reporter. An AI beat reporter for more than five years, her work has also appeared in CNBC, MIT Technology Review, Wired UK, and other outlets.
OpenAI’s deal to buy Windsurf is off, and Google will instead hire Windsurf CEO Varun Mohan, cofounder Douglas Chen, and some of Windsurf’s R&D employees and bring them onto the Google DeepMind team, Google and Windsurf announced Friday.
Mohan and the Windsurf employees will focus on agentic coding efforts at Google DeepMind and work largely on Gemini. Google will not have any control over nor a stake in Windsurf, but it will take a non-exclusive license to some of Windsurf’s technology.
Effective immediately, Jeff Wang, Windsurf’s head of business, has become interim CEO, and Graham Moreno, its VP of global sales, will be Windsurf’s new president.
“Gemini is one of the best models available and we’ve been investing in its advanced capabilities for developers,” Chris Pappas, a spokesperson for Google, told The Verge in a statement. “We’re excited to welcome some top AI coding talent from Windsurf’s team to Google DeepMind to advance our work in agentic coding.”
“We are excited to be joining Google DeepMind along with some of the Windsurf team,” Mohan and Chen said in a statement. “We are proud of what Windsurf has built over the last four years and are excited to see it move forward with their world class team and kick-start the next phase.”
Google didn’t share how much it was paying to bring on the team. OpenAI was previously reported to be buying Windsurf for $3 billion.
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Read the original on www.theverge.com »
Earlier this week in Geneva, around 50 leading global initiatives and organisations dedicated to open-source LLMs and trustworthy AI convened at the International Open-Source LLM Builders Summit. Hosted by the AI centres of EPFL and ETH Zurich, the event marked a significant step in building a vibrant and collaborative international ecosystem for open foundation models. Open LLMs are increasingly viewed as credible alternatives to commercial systems, most of which are developed behind closed doors in the United States or China.
Participants of the summit previewed the forthcoming release of a fully open, publicly developed LLM — co-created by researchers at EPFL, ETH Zurich and other Swiss universities in close collaboration with engineers at CSCS. Currently in final testing, the model will be downloadable under an open license. The model focuses on transparency, multilingual performance, and broad accessibility.
The model will be fully open: source code and weights will be publicly available, and the training data will be transparent and reproducible, supporting adoption across science, government, education, and the private sector. This approach is designed to foster both innovation and accountability.
“Fully open models enable high-trust applications and are necessary for advancing research about the risks and opportunities of AI. Transparent processes also enable regulatory compliance,” says Imanol Schlag, research scientist at the ETH AI Center, who is leading the effort alongside EPFL AI Center faculty members and professors Antoine Bosselut and Martin Jaggi.
A defining characteristic of the LLM is its fluency in over 1000 languages. “We have emphasised making the models massively multilingual from the start,” says Antoine Bosselut.
Training of the base model was done on a large text dataset in over 1500 languages — approximately 60% English and 40% non-English languages — as well as code and mathematics data. Given the representation of content from all languages and cultures, the resulting model maintains the highest global applicability.
The model will be released in two sizes — 8 billion and 70 billion parameters, meeting a broad range of users’ needs. The 70B version will rank among the most powerful fully open models worldwide. The number of parameters reflects a model’s capacity to learn and generate complex responses.
High reliability is achieved through training on over 15 trillion high-quality training tokens (units representing a word or part of the word), enabling robust language understanding and versatile use cases.
The LLM is being developed with due consideration to Swiss data protection laws, Swiss copyright laws, and the transparency obligations under the EU AI Act. In a external page recent study, the project leaders demonstrated that for most everyday tasks and general knowledge acquisition, respecting web crawling opt-outs during data acquisition produces virtually no performance degradation.
The model is trained on the “Alps” supercomputer at CSCS in Lugano, one of the world’s most advanced AI platforms, equipped with over 10,000 NVIDIA Grace Hopper Superchips. The system’s scale and architecture made it possible to train the model efficiently using 100% carbon-neutral electricity.
The successful realisation of “Alps” was significantly facilitated by a long-standing collaboration spanning over 15 years with NVDIA and HPE/Cray. This partnership has been pivotal in shaping the capabilities of “Alps”, ensuring it meets the demanding requirements of large-scale AI workloads, including the pre-training of complex LLMs.
“Training this model is only possible because of our strategic investment in ‘Alps’, a supercomputer purpose-built for AI,” says Thomas Schulthess, Director of CSCS and professor at ETH Zurich. “Our enduring collaboration with NVIDIA and HPE exemplifies how joint efforts between public research institutions and industry leaders can drive sovereign infrastructure, fostering open innovation — not just for Switzerland, but for science and society worldwide.”
In late summer, the LLM will be released under the Apache 2.0 License. Accompanying documentation will detail the model architecture, training methods, and usage guidelines to enable transparent reuse and further development.
“As scientists from public institutions, we aim to advance open models and enable organiations to build on them for their own applications”, says Antoine Bosselut.
“By embracing full openness — unlike commercial models that are developed behind closed doors — we hope that our approach will drive innovation in Switzerland, across Europe, and through multinational collaborations. Furthermore, it is a key factor in attracting and nurturing top talent,” says EPFL professor Martin Jaggi.
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Read the original on ethz.ch »
Bill Atkinson, the visionary Apple engineer behind much of the original Macintosh, passed away on June 5, 2025, at age 74, from pancreatic cancer—the same illness that claimed his friend Steve Jobs. Obituaries across the tech world honoured his pioneering role in personal computing. At Apple, he developed QuickDraw, the graphics engine behind the Mac’s interface; invented MacPaint, the first widely adopted digital drawing tool; and created HyperCard, the groundbreaking software that anticipated the interactive, hyperlinked structure of today’s web.
Yet within OneLight, a private psychedelic community, a different legacy quietly unfolded. Members of OneLight knew Bill Atkinson by his pseudonym, “Grace Within.” He was a joyful, generous presence who spent his final years refining and openly sharing the technology behind the LightWand, a vape pen for administering the psychedelic Jaguar (5-MeO-DMT).
“Of all the things I’ve accomplished, nothing surpasses the need to carefully and thoroughly share Jaguar with the world.” — Bill Atkinson
Bill’s dual life as Grace Within remained hidden among a tight-knit circle. Now, honouring his final instructions, we at The Pattern Project can now share how he helped unlock and inspire the next generation of psychedelic innovation.
Jaguar—the underground term for the powerful psychedelic 5-MeO-DMT—is best known for rapidly dissolving the ego and delivering an overwhelming sense of unity, awe, or transcendence. Before the advent of the LightWand vape pen, smoking large consciousness-expanding doses was the norm. In these brief but intense sessions, some described sudden encounters with the sacred, moments of unexpected relief from childhood wounds, or a depth of awareness comparable to advanced meditation—all unfolding within just a few powerful minutes.
But these high-dose experiences also carry real risks: too much, without proper support, or use by those with specific health conditions can lead to psychological distress or lasting trauma. Still, more than 10 active or completed clinical trials are exploring 5-MeO-DMT’s therapeutic potential for treating addiction, depression, and other conditions.
In 2018, Bill Atkinson first encountered the LightWand vape pen at a ceremony hosted by Majus OneLight (pseudonym)—a pioneer in using 5-MeO-DMT for healing, and inventor of the first LightWand. Majus vividly recalls Bill’s reaction:
“Jaguar resonated deeply with Bill’s lifelong quest to understand consciousness. From neuroscience studies to Mac interface design to nature photography, he was always mapping the deeper patterns. Jaguar didn’t flip his world upside-down—it confirmed what he’d quietly sensed for decades.”
Though Bill initially worried that the LightWand’s ease of use might cheapen the sacred intensity of the Jaguar experience, he quickly came to appreciate how its design allowed users to gently navigate Jaguar’s potency through careful, diluted doses. For Bill, this meant safer, more mindful journeys.
Eventually, Bill’s initial concerns about sharing the LightWand were eclipsed by his belief that its benefits far outweighed the risks. So, in early 2021, Jaguar (5-MeO-DMT) Vape Pens: How They Are Made by Grace Within, was published on Erowid.org. There he wrote: “My intention with this article is to assist people in having safe, beautiful, and healing experiences with this amazing medicine.” His open-source approach democratized psychedelic exploration, shifting power away from costly retreats and elite gatekeepers toward broader accessibility.
Bill didn’t stop there—he personally gifted over 1,000 LightWand sets and patiently mentored other creators on OneLight. With an engineer’s precision, he documented how variations in vape pen hardware and liquid carriers affected 5-MeO-DMT vaporization and dosage. Using himself as the test subject, he tracked blood pressure, EEG data, and other physiological signals.
“Without Bill’s open-source tek, LightWand vape pens might still be limited to expensive retreats and exclusive circles of psychedelic elites,” says Majus.
Bill didn’t just open-source a new psychedelic technology—he helped empower a new generation of innovators and therapists. They saw the LightWand’s potential for low doses: to encourage insight, healing, and balance, without the high costs and exhaustion of marathon psychedelic sessions. We at The Pattern Project see this low-dose approach as one of the most research-worthy paths for making psychedelic therapy both safer and more practical at scale.
Bill’s genius lay in transforming complex innovations—from computers to psychedelics—into intuitive, accessible tools. The LightWand continues this radical legacy, empowering more people—not just seasoned psychonauts or spiritual elites—to connect with emotion, memory, and meaning.
Your support—whether by sharing this article or becoming a Pattern Project paid subscriber—continues Bill’s mission. It powers our volunteer team’s work to research and share stories that promote safe, responsible exploration of Low-5 (low-dose 5-MeO-DMT).
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Read the original on patternproject.substack.com »
A few months ago, I upgraded my M4 Mac mini from 1 to 2 TB of internal storage, using a then-$269 DIY upgrade kit from ExpandMacMini.
At the time, there was no option for upgrading the M4 Pro Mac mini, despite it also using a user-replaceable, socketed storage drive.
But the folks at M4-SSD reached out and asked if I’d be willing to test out one of their new M4 Pro upgrades, in this case, upgrading the mini I use at the studio for editing from a stock 512 GB SSD to 4 TB.
I said yes, and here we are!
I documented the entire upgrade—along with taking my old M4 mini 1TB SSD and putting it in my Dad’s M4 mini—in today’s video:
But please continue reading, if you prefer text over video, like I do :)
The upgrade process itself is straightforward (if you’ve ever worked on laptop hardware before, at least), though removing the rear plastic cover (which also has the power button attached) is a bit annoying.
There are four metal pegs that are retained in clips in the bottom metal cover, and you have to slide a thin piece of metal / pry tool into the very minimal gap between the plastic bottom cover and the aluminum case, then pry it up. And if you’re not careful on that step, you’ll not only scratch the aluminum (and maybe crack the plastic bottom), but there’s a good chance you rip the fragile (and tiny) power button connector too!
Besides that, it’s a matter of removing a number of small torx screws; all the bits I needed were present in the cheapest iFixit assortment I have at my desk.
The only substantial difference between the M4 and M4 Pro mini SSD is the size and relative location—the M4 Pro has a much longer slot, a little more than a standard 2242-size NVMe SSD, while the M4 has a shorter slot, closer to a 2230.
Speaking of standards… you have to do a full DFU (Device Firmware Update) restore, because unlike conventional M.2 NVMe storage, the M4 uses a proprietary connector, a proprietary-sized slot, and splits up the typical layout—the card that’s user-replaceable is actually just flash chips and supporting power circuits, while the storage controller (the NVMe ‘brains’) is part of the M4 SoC (System on a Chip). Apple could use standard NVMe slots, but they seem to think the controller being part of the SoC brings better security… it certainly doesn’t bring any cost savings, resiliency in terms of quick recovery from failure in the field, or performance advantage!
Since DFU restore is necessary, in my earlier video, I suggested you need an Apple Silicon mac (M1 or later) as the other computer.
But I was corrected by my viewers, who mentioned you can use many Intel Macs as well—I believe as long as a T2 chip is present, you’re good to go. Just connect to the middle Thunderbolt port on the rear of the Mac mini, then press and hold the power button while plugging it into AC power. The other Mac should pop up an ‘Allow this device to connect?’ dialog and then you can proceed to the DFU process from there.
As far as I’m aware, no Hackintosh or other computer can be made to do a DFU restore.
I’ve done three upgrades (two on M4 minis, one on an M4 Pro mini), and all three were easy. The second one, I thought I had an issue, but it was just a confirmation dialog that wound up behind the active window.
I decided to also use an external Thunderbolt 5 NVMe enclosure from M4-SSD along with my (rather expensive) 8TB Sabrent Rocket Q SSD, and do a performance comparison.
See the video at the beginning of this post for some more detail (like all the numbers from AmorphousDiskMark and Blackmagic Disk Speed Test), but here are the raw numbers for large file copy performance:
The upgraded 4TB module performed noticeably better in writes, likely because it has more flash chips on it to spread out the write activity. Reads were pretty close to the same, with minor variance in performance across different file sizes and access patterns.
The external TB5 drive was the laggard, but is still ridiculously fast (by my standards, editing 4K video). And it would likely be faster if I used a good PCIe Gen 4x4 drive (the Rocket Q is Gen 3x4).
But the internal storage on these Mac minis is very fast, and even better, very consistently fast. The external Thunderbolt drive would slow down briefly every minute or so, after 100+ GB were copied—and I verified both with smartctl and my thermal camera that the drive was not overheating.
This is likely due to the internal DRAM cache on the NVMe SSD not being able to keep up with the high transfer speeds over long periods of time.
I was provided the $699 M4 Pro 4TB SSD upgrade by M4-SSD. It’s quite expensive (especially compared to normal 4TB NVMe SSDs, which range from $200-400)…
But it’s not nearly as expensive as Apple’s own offering, which at the time of this writing is $1,200!
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Read the original on www.jeffgeerling.com »
“It’s the crime of the century,” says Bruce Lanphear.
He’s not talking about a murder spree, a kidnapping or a bank heist.
Lanphear — an environmental epidemiologist at Simon Fraser University — is referring to the fact that an estimated 800 million children around the world are poisoned by lead — lead in their family’s pots and pan, lead in their food, lead in the air. That’s just about half of all children in low- and middle-income countries, according to UNICEF and the nonprofit Pure Earth.
For decades, very little has been done about this. But this is the story of how two women — a New York City detective and a California student — followed the data and helped crack a puzzling case that spanned the globe in the ongoing “crime” of lead poisoning.
Next to a row of courthouses in downtown Manhattan, there’s an imposing gray building. On the 6th floor is an office that houses about 50 detectives. They work for New York City’s health department. They tackle thousands of cases a year involving kids exposed to toxic elements. And many of those cases are children who have too much lead in their blood.
The detectives’ job is to find the culprit. Could it be old chipping paint that’s creating lead dust that kids are breathing in? Could the lead be coming home on a parent’s clothes from, say, a factory or construction worksite and, then, the child breathes it in? Perhaps it was a toy from overseas, decorated with lead paint, that the kid repeatedly puts in their mouth?
The city detectives often search the child’s home armed with a device that resembles a radar gun — point it at, say, a wall, hold the trigger and you get a lead measurement of its paint.
Every time you go on such a mission, “it is absolutely a lead detective mystery,” says Paromita Hore, who oversees the detectives as director of environmental exposure assessment and education in the New York City Department of Health and Mental Hygiene.
When the mystery is solved — when they find the source of the lead — Hore’s team helps the family avoid additional exposure.
In the early 2000s, New York City’s health department noticed a perplexing blip: A surprisingly large number of Bangladeshi children in New York City were showing up in their lead database.
“This is a problem,” Hore recalls thinking throughout the multi-year, multi-country effort to unearth the root cause.
As Hore’s team of lead detectives busily collected and analyzed samples from items found in the homes of New York’s Bangladeshi families, a student in California stumbled on a similar mystery.
Jenna Forsyth was a Ph. D. student in 2014 when her adviser gave her data on over 400 pregnant women in rural Bangladesh. He’d noticed that about half of the women had high levels of lead in their blood.
“I was kind of like, ’Lead? I don’t know. Is that really still that big of a problem?” she remembers thinking to herself. “‘We don’t hear about it much anymore.’”
Then, she started reading the literature. And she quickly understood the severity of the Bangladesh lead levels. Lead can damage nearly every organ — from the kidneys to the heart — often irreversibly. In this case, both the woman and the fetus would be affected.
Perhaps lead’s biggest impact is on the brain. Exposure can lower a child’s IQ and spur cognitive decline in adults. It can cause long-term problems with impulsivity, attention and hyperactivity. When you look at the gap between what kids in upper-income and lower-income countries achieve academically, about 20% can be attributed to lead. Treatment can involve vitamin supplements or prescribing an agent that binds to the lead and helps remove it.
Lead exposure is also linked to cardiovascular disease, kidney damage and fertility problems, to name a few. It’s estimated that lead kills 1.5 million people each year in addition to those marked by disability and disease. Plus, a series of studies have linked increased lead exposure to societal ills, like higher crime rates and more violence — likely because lead has been linked to reduced brain volume and impaired brain function.
The World Bank took a stab at estimating how much this all costs — including the lost IQ points, the premature death and the welfare costs. They found the world’s price tag for lead exposure is a whopping 6 trillion dollars annually — nearly 7% of the global gross domestic product.
“I was like, ’Wow! Lead is just incredibly toxic,’” Forsyth recalls. “It’s one of the most toxic elements in the periodic table.”
And so, she dug into that data from Bangladesh.
“The prevalence of elevated blood lead levels in those women was about six times higher than those in Flint, Michigan, at the peak of the water crisis,” she says, remembering how Flint’s situation was considered horrific. “There was just this puzzle: Why would there be really high levels of lead poisoning in rural Bangladesh with no obvious source?”
Forsyth became so curious that she got on a plane and went to Bangladesh, where she teamed up with a renowned health research institute based there called icddr,b — formerly the International Center for Diarrheal Disease Research, Bangladesh. Together, they interviewed the pregnant women with high lead levels and came up with a number of possible causes:
Perhaps the lead came from agricultural pesticides? “We sampled hundreds of agrochemicals. Did not find lead in them,” Forsyth says.
Could it be lead in paint? “These women were living in primarily unpainted tin homes,” she says.
Perhaps it was lead-soldering on cans used to store food that can flake off into the food? It happens but it wasn’t common enough to explain the data.
None of the investigative work led to a clue that would solve the puzzle. “So, we went back to square one,” Forsyth remembers.
She reviewed all the studies done on this population in case there was a hint that had been missed. Poring over scientific papers, she found one small study of 28 kids that looked at heavy metal exposure and found lead in turmeric, the bright yellow powder that’s used as a spice and is one of the most common ingredients in Bangladeshi cuisine.
Forsyth’s team started doing a bunch of testing and found there was indeed lead in both turmeric powder and turmeric roots they’d obtained in local markets. What’s more, the chemical fingerprint of the lead they found in the turmeric matched the lead in the women’s blood. Since there are four different types of lead, that was a eureka moment.
“It was like, ’Okay! Yes! Now, we can focus [our attention],” Forsyth recalls. But there were lots more questions. One of their biggest: How could lead have gotten into the spice?
Forsyth and her colleagues set out to talk to turmeric farmers — including a man in his 70s. His ancestors were turmeric farmers and he’d been harvesting the root all his life. He knew the processing steps intimately — from the boiling and drying of the root to polishing off the outer layer and then eventually grinding, all to make a brilliantly yellow powdered spice.
“I remember we were sitting in the car — there was monsoon rain, splashing outside — and that’s when the person said, ‘Yeah, back in the 1980s, there was a huge flood,’ ” Forsyth remembers.
With so much rain, the farmer told her, turmeric roots wouldn’t dry properly in the sun. Instead of turning their usual bright yellow, the roots became black-ish. The farmers were desperate to restore the color so they could sell their crop. They went in search of a solution.
“They found the cheapest yellow pigment available at that time,” Forsyth says.
The vibrant yellow pigment was lead chromate. It’s often used in industrial paints — think of the yellow of construction vehicles.
The farmers made a fateful decision: They started sprinkling lead chromate on the turmeric roots when it was being polished to make them look better. The lead chromate turned the roots a bright yellow. It worked so well it became common practice. The farmers kept using the lead chromate even after the flood waters receded since the lead-laced-roots were more appealing in the marketplace.
“They don’t know that this is harmful for human health,” says Musa Baker, Forsyth’s colleague and a research investigator at icddr,b. “Rather, they want to expand their business” since their turmeric could now fetch a higher price.
This discovery that lead was routinely added to turmeric came as a shock, especially since the spice is part of daily fare for Bangladeshis, says Baker.
“It was really alarming,” says Dr. Mahbubur Rahman, the project coordinator at icddr,b.
Their team gathered all the data they could, published it and brought it to the authorities in 2019.
“The chairman of the Bangladesh Food Safety Authority, she took it very seriously,” says Baker.
What the chairman knew from their travels is that this issue wasn’t limited to Bangladesh. It had reached halfway across the world to New York as well.
That same year, in 2019, those New York City detectives had also figured out that spices — and particularly turmeric — played a major role in lead poisoning in New York’s Bangladeshi community and in other South Asian communities. In their investigations, they’d tested lots of consumer products used in Bangladeshi households and found that lead in spices emerged as the top culprit. Generally, these spices didn’t come from the U. S. Instead, most had been purchased overseas and brought to New York in unmarked containers tucked inside personal suitcases. Hore’s team alerted Bangladeshi authorities.
It turned out that Bangladesh was not the only source of lead-contaminated spices.
In 2017, the New York City Health Department helped uncover a major lead poisoning crisis in the country of Georgia that linked back to spices. Testing from New York’s Georgian population had set them on that “crime” trail. And their team, and other lead experts, have found worrisome spices in other South Asian countries. While Consumer Reports testing shows that spices in the U. S. can contain lead, Hore’s team found the highest concentrations of lead came from spices purchased abroad.
What sets Bangladesh apart is how quickly officials acted. In 2019, they met with Forsyth and her icddr,b colleagues. And they also flew to New York City to enter that imposing gray building and meet with the city’s health department.
Before the year was over, they’d put out public notices in the top newspapers warning the public and vendors not to buy the brightly colored root — instead buy the duller looking turmeric. (It’s hard to tell the difference in color with the powdered form.) They distributed 50,000 fliers with a similar message posting them in market places and elsewhere.
They also reached out to major turmeric farmers and held workshops with mill owners, explaining the dangers of adding lead both biologically and legally.
And then in October of 2019 came a scene that seems designed for a future Netflix series on “The Turmeric Mystery.” The Bangladeshi Food Safety Authority invited TV crews to bring their cameras to the main spice market in the capital city of Dhaka. A crowd of people watched as officials brandished one of those radar-gun-looking lead-measurement-devices. They pointed it at heaping sacks full of turmeric roots.
There was even a judge present to issue a ruling on the wholesale shop owners right there on the spot. The findings of this so-called “mobile court”: $9,288 were imposed in fines and nearly 2,000 pounds of turmeric were confiscated for their lead content.
Since then, Forsyth and icddr,b have regularly collected and tested dozens of samples of turmeric purchased from the main wholesale market in Dhaka. And, in the wake of this public campaign to expunge lead from turmeric, they’ve found that turmeric samples testing positive for lead dropped from 47% to 0%.
They also tested the blood of local turmeric farmers as well as pregnant women in the same Bangladeshi communities that had given those initial blood samples that set the whole investigation in motion. Here too, Forsyth says, they found a dramatic drop in blood lead levels.
“Honestly, we were so excited to see this,” she says.
Today, Jenna Forsyth runs a global lead initiative at Stanford School of Medicine. She still teams up with icddr,b and, she says, they’re really busy.
“In Bangladesh, the case is closed on turmeric,” says Forsyth. “But when my friend was like, ‘You should take a break.’ I said, ‘No way. There’s more to be done.’ ”
Forsyth has found lead in spices in other countries, including parts of India and Pakistan. And in Dhaka, despite the lead-free turmeric, 98% of the kids she’s tested have lead poisoning by the U. S. CDC standard. “It’s wild,” she says.
“It’s enough to destroy a nation,” says icddr,b’s Rahman.
She and icddr,b are in the process of teasing apart all the possible culprits that still lurk in Dhaka and in so much of the world: lead acid batteries that are improperly recycled; pots and pans made with scrap metal that contains lead; cookware glazes where it’s not fired to a high enough temperature and lead can leach into food; cosmetics — like the eye make-up surma and sindoor, the traditional powder used in Hindu practices — have been found to contain lead.
Paromita Hore’s team of lead detectives are hot on the case too. They’re gathering data about cosmetics, among other things. She meets with Forsyth — and other lead experts — monthly to compare notes and piece together the next mystery.
And recently they are celebrating some big news on the lead fighting front: This week, UNICEF and the United States Agency for International Development (USAID) announced a new $150 million initiative to combat lead poisoning.
“There’s been so little done for so long, that this is really huge,” says Lanphear of Simon Fraser University.
The money — most of it from Open Philanthropy — will go to more than a dozen countries from Indonesia and Uganda to Ghana and Peru. And there will be a new public-private partnership aimed at boosting government buy-in, international coordination and jump starting an effort to get lead out of consumer products.
“It is long overdue that the world is coming together,” says Samatha Power, who runs USAID.
“There is a broad perception that it requires billions of dollars to transform a national or municipal infrastructure … to address lead poisoning. But in fact, there is an awful lot of low hanging fruit,” she says. “There is lead right now in paint, in spices, in cosmetics in developing countries. We think within just a few short years we can make sure that that lead has been eliminated and that kids are safe to play with their toys, to go to their schools.”
But Forsyth isn’t ready to retire. She keeps looking for lead in the usual (and unusual) places. She’s motivated, she says, because “it’s just really hard to tell a parent their kid has lead poisoning.” One day, she dreams that she’ll never again have to deliver such devastating news.
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Read the original on www.npr.org »
I started last year with one clear goal: 2024 was going to be the year that I finally did social media. Regular posting, a content calendar, a strategy, a plan for growth — all of that. And yet I ended the year pretty certain that I never wanted to open those apps again, let alone post my photos and words to them. How?
My main motivation for wanting to conquer my long-held ambivalence about posting was because I had a book coming out in April 2024. I was very anxious about this, in part because A Body Made of Glass was not an obviously easy sell. There are a few reasons for that: it blends several genres in a hard-to-categorise way, it tackles a subject in which I am not a well-known or previously published expert, and it is highly personal. It had also, in quite a modest way, done well according to the nebulous pre-publication benchmarks that authors obsess over. It had attracted a “Big Five” publisher in the US, something I had not had before, received a BBC radio serialisation deal in the UK, and had received some decent early reviews from industry publications in both places. I felt I should be leaving no stone unturned to support the book’s success, since I had been gifted opportunities that many other writers would love to have. Chances, too, that I may never have again.
There are very few things that an author can practically do to make a book a success, especially after said book is written, edited and printed. Being a celebrity or personality with a pre-existing audience that adores you definitely helps, but isn’t something you can suddenly decide to become four months before your publication date. Catching a particular trend or moment that causes publishers to invest heavily in promotion and booksellers to place large early orders is great too, but once the book is done that’s up to them, not you. Giving off that nebulous aura of “I’m about to become a huge literary success” that seems to cling to some people and not others would be good as well, but is also pretty hard to engineer deliberately if that’s not your personality or presentation (and it isn’t mine).
In that tense, quiet period after the book has been finalised but before anyone can buy or read it, augmenting your personal brand via the regular use of social media feels like the only concrete action you can take. Or at least it did to me, so I threw myself into it. I attended some training sessions on “social media for authors”. I asked professional acquaintances with expertise for tips. I learned that Instagram and TikTok were the best platforms to target for bookish followers and that the algorithms of these platforms were, these days, only interested in vertical videos. I compiled lists of videos I could make and started filming mostly-daily updates about my experience as an author with a book coming out soon. I scoured the accounts of other authors who were more successful than me on social media for insights. I posted about every tiny bit of publicity my book got or small win I achieved. I asked people to pre-order in as many ways as I could think of. I delved into the analytics, searching for ways to optimise and improve. I spent a lot of time scrolling, and scrolling, and scrolling, hunting for the “one weird trick” that would help me make a success of this.
I quickly began to feel quite uncomfortable. I’m not a natural on camera and I don’t have that talent for talking effortlessly and engagingly to a lens when alone in a room that successful social media personalities need. I was forcing it all the time, making myself record multiple takes and doing things again and again until they looked “natural” (a highly unnatural behaviour). My video editing skills are basic, so turning out regular videos took me a long time. Worst of all, though, was the way in which this enterprise began to alter my mindset about the normal stuff of life. I never used to think very hard about what I wore for a casual day of writing at home, or worry about how clean the bathroom mirror was, or obsess over what narrative or story might emerge from my general jumble of accumulated tasks. It shocked me how quickly I started viewing my own life as something to film and share, rather than something to just… live. I’ve seen this effect described as “the devil had taken my eyes” and I feel that is accurate. Something had taken over my gaze and it wasn’t something good. A new and sinister lens had appeared between me and the world. One evening, as I made my husband walk our dog past the same scenic view multiple times so that I could get the best shot of it for a video, I experienced a sudden wave of revulsion for myself and what I was doing. From then on, I began to despise the way this supposedly necessary aspect of modern authorship was intruding on parts of me that I had never meant to be available for public consumption.
Worst of all, perhaps, it didn’t even seem to be doing anything. The TikTok and Instagram algorithms were utterly disinterested in what I was posting. Some of my existing followers saw my videos and interacted with them, but the promise that this kind of regular video posting would expose my work to lots of new potential readers was never fulfilled. Instagram’s analytics showed that although I had a couple of thousand followers, only a few hundred of them were even seeing what I was posting. On Twitter, where I had nearly ten thousand followers that had mostly been accumulated during my previous work as a political journalist, the figures were even worse. Most of my TikToks barely made it to views in three figures. Clearly, I was doing it wrong. But how?
I couldn’t find any answers, although there’s a seemingly inexhaustible supply of information out there on this topic. Everyone in this space seemed to publicly agree that “social media was really important for book promotion” and pointed to the viral success of various books on BookTok, but nobody was able to go into more detail about how this was achieved, or if it was even applicable to a non-fiction book by a non-celebrity author. When I tried to explore this world, it seemed to me like the old-fashioned word-of-mouth effect was just being channeled through a new medium. Books mostly weren’t gaining momentum on TikTok because their authors were making top notch viral videos, but because readers and bookish influencers were recommending them to each other and posting about their experiences. It was the quality of the book, the canny distribution of advance reading copies and marketing materials by publishers, and the work’s ability to speak to a moment that made the difference. I didn’t really see how my own social media activities could fit into this ecosystem. People would either find and like the book, or they wouldn’t. Did I even need to be there?
Every time I posted, I felt worse. From the outside, my attempts to “do” social media seriously probably looked inconsequential, but they consumed a major portion of my thoughts. What I was doing felt inauthentic and, as the book came out and started getting reviews, like boasting for no reason other than to boast. The choppy nature of the algorithms meant that there was no consistent community on these apps with whom I was sharing my progress through the publishing process and no guarantee even that those were interested would see what I was sharing. When I did in-person events about the book and spoke to readers over the signing table, they would tell me that they had come because they had liked my first book, or enjoyed my current podcast, Shedunnit, or had been a fan of my old one, SRSLY. One person drove several hours to see me at a literary festival because I had put a link to the event in a postscript in my sporadic email newsletter. Nobody I met had been motivated by what I had been doing on social media, even though making those posts had been consuming the vast majority of the time and effort I had to devote to book promotion. This is anecdotal data, for sure, but so much of how the success or otherwise of a book is defined is vibes-based that I felt fine about allowing it to inform me. It only backed up what the social media platforms’ analytics had been telling me, anyway.
By the mid point of last year my book had been out for a couple of months and the expectation to market it as much as possible was dying away. My anxiety simmered down to the point where I could assess matters more objectively. This was situation as I saw it: I had put a lot of work time and mental energy into social media because I had been told by lots of trustworthy sources — like people who worked in publishing, fellow authors and my writers’ union — that it was the best way to help my book reach as many interested readers as possible. In fact, my posts had reached very few people and contributed very little to the success of the book. Plus, they were very time consuming to make so had eaten up leisure time and my capacity to do other work. There had also been negative side effects in the form of vastly increased screen time and that disagreeable mental habit of seeing my entire existence as potential posts. There was only one possible conclusion: social media was not for me.
More than that, I felt that there was something of an “emperor’s new clothes” situation at work. Being a social media star is a skillset completely distinct from being someone who writes books — they may overlap occasionally, but it’s not the norm. Yet I suspect that every non-celebrity and midlist author will have felt the pressure at some point to “be more active on social media” because otherwise they aren’t “pulling their weight” for their book. I wasn’t alone in finding that the effort:reward ratio was entirely out of whack, either. Plenty of peers that I spoke to with online creative businesses were happy to share their experiences of withdrawing partially or fully from social media (for all sorts of reasons including harassment, burnout and parenting) only to find that their sales were largely or even entirely unaffected the next time they had a project to promote. One had closed an account with a following in the six figures and switched to communicating with customers only via an email newsletter, and business was even better than before (likely because all of those subscribed were actually receiving the emails they had signed up for). I began to wonder. Was this all, in fact, nonsense?
The publishing industry is going through a period of great volatility at the moment, for many reasons including but not limited to rising production costs, encroaching celebrity culture, corporate greed and the advent of AI. Traditional publicity opportunities like television/radio interviews and print reviews are becoming less and less effective at getting the word out about books as fewer people tune in. The digital alternatives have, so far, not offered a like for like replacement for the old marketing ecosystem. From my perspective as a traditionally-published, non-celebrity author, it feels like nobody really knows what makes a book sell anymore. I think the persistent advice to authors to “do social media” is, at best, part of a strategy that can be generously described as throwing everything at the proverbial wall in the hope that something, anything, will stick. Being more cynical, I think it might sometimes be a way of keeping authors quiet, of transferring the responsibility for their book’s success on to their shoulders and occupying them doing something that feels productive so they don’t ask too many awkward questions. It’s busy work.
That’s all without considering the role of the platforms themselves in this. I spent several months last year feeling grim about the amount of free content I had uploaded to platforms owned by the likes of Meta and Elon Musk. Facebook, Instagram, Twitter, TikTok — these are all outlets that purport to capture and manipulate their users’ attention, meaning that, as a “creator”, if you catch the wave of the algorithm just right you can surf it all the way to a huge following, then fame and fortune. I don’t doubt that the select few who make this equation work for them do get well paid for their work once they become successful. Everyone else, though, is just uploading for free so that there is enough stuff on the app to keep users scrolling forever. Infinite scroll means infinite ad inventory. The platforms also invest in promoting the idea that being a “full time creator” is an attainable goal and incentivise their top creators to sell the idea that anyone can achieve their success, if they just start now and work really hard for nothing as long as is necessary. The more I thought about it, the harder it became not to view the so-called creator economy as a blatant pyramid scheme underwritten by some of the worst corporations in the world. The way to succeed is to get in early, then become an aspirational figure to those who come along later.
I’m being deliberately blunt to make my point. If you enjoy watching happy videos of dogs and uploading pictures of your holidays for your friends, I’m delighted for you. If making videos and sharing them online is your hobby, all power to you. As part of a viable creative career, though, where a living wage and sustainable workload is the goal, social media now feels to me like a long con that just hasn’t been exposed yet.
I’ve never been a whole-hearted lover of social media, nor a great adept at it. I only signed up for Facebook at university because it was necessary for being involved in the student newspaper, and then I deleted my account a few years later when I had a scary experience with a stalker. I rejoined when I moved out of London, naively believing it would help me make new local friends, which it did not. I got Twitter when someone on my journalism training course laughed at me because I didn’t already have an account and then almost never posted on it, even when the platform was at its dizzying heights of relevance for those in the media. I once went mildly viral for a snarky tweet during a televised election debate and found the experience so horrifying that I never wanted to repeat it. Instagram was better, for a while — my corner of it was mostly friends and dogs and knitting — but then the feed became algorithmic instead of chronological and I almost never saw the things I liked in a sensible order.
Social media was never a wholly cosy or useful place for me, although I was utterly addicted to it for a number of years because “being a journalist” in the 2010s felt synonymous with “being on social media all the time”. This idea was so deeply rooted in me that when I worked somewhere with such terrible computers that they couldn’t even handle refreshing a Twitter feed, I bought an iPad with my own money so that I could have a device next to me all day that was continually showing the latest posts. At the time, I barely made more than the London Living Wage, rent took three quarters of my monthly pay after tax, and I walked an hour to work every day because I couldn’t afford to take the Tube. In those circumstances, buying an expensive tablet just so I never had to be separated from the latest tweets is absurd, even irresponsible. And yet I did it, because I had utterly internalised the idea that social media was the route to writing success. Years later, even knowing what I now knew, it took months to work myself up to quitting and even longer to say out loud what I had done and why.
Once I had made up my mind to mentally uncouple myself from social media, it was shockingly easy to do. I deleted the apps from my phone and changed the passwords to my accounts, recording them somewhere inconvenient so that I could log in via the desktop versions if necessary but it took more than a couple of taps or clicks. A few weeks in, I took stock of what I felt like I was missing and the list was surprisingly short: Taylor Swift content, chats with friends, the occasional funny picture of a dog. I replaced all of these pretty easily: I signed up to a couple of music podcasts and Patreons, made an effort to be more regular about phoning and texting people, and just enjoyed the dogs that I saw out and about in the world. The benefits were just as quick to come. That feeling of seeing the world only as potential future content receded, I started reading more books, and my screen time fell drastically. I felt released from a burden I hadn’t noticed I was carrying. I had become so accustomed to the sense of shame at not being better at offering up my life for successful consumption that I only realised how acute that feeling had been now that it was gone. I kept waiting for the other shoe to drop, for someone very influential in my industry to swoop down and reprimand me for my actions, to declare that I had irrevocably failed at “being a writer”. But nothing bad happened. At all. Those apps had become so barren of joy or purpose for me that I didn’t miss the experience of being on them, either as a creator or a user, at all.
By the end of the year, packaging chunks of myself to share on questionable corporate platforms for strangers to watch and judge felt like a really weird thing to do. I talked about it in therapy and imagined trying to explain this practice to my eleven-year-old self who had really wanted to spend her life writing stories. The more time that passes, the odder it feels that I spent a decade and a half of my life believing that social media was a vital part of being a writer. Others may have different experiences, but because I was never a consummate poster I never received work opportunities or made friends or found a partner through these apps. Maybe if I had, I would feel like there had been more of a fair exchange. I just allowed them to occupy a large chunk of my brain for nothing.
Where does this leave me? I ended 2024 absolutely sure that social media was not for me, a complete reversal of my position at the start of the year. I’m not moving to the woods and throwing my phone in the bin, though. Beyond the reassuringly steady drip of Taylor Swift videos, there was one overarching benefit to being active on social media as a writer that I want to retain, and that is having a way to be in touch with those who are interested in my work. I’ve spent most of 2025 so far working out what that might look like. I still like the internet and what it can do for us — quite honestly, I don’t think I would have a job at all without it — but I want to use it on my terms and in a way that feels good for me rather than harmful. If that means that my potential audience is much smaller, so be it. After much reflection during, I have come to realise that I’d rather talk to a small number of people and be happy doing it than try to reach a huge audience but be miserable.
I started small, making the change for my podcast. I did a “farewell” post on the show’s accounts and replaced them with an enhanced email newsletter. I expected some pushback and braced myself for a dip in listenership, which I decided that I was willing to accept as the price I paid for independence and greater peace of mind. Neither materialised. I received lots of supportive messages from people with their own growing reservations about social media. The podcast’s newsletter now has more active subscribers than we ever had followers. There has been no discernible fall in audience, vindicating my suspicions that our posts hadn’t really been doing anything to direct people away from the apps and towards the podcast anyway. Best of all, I’m enjoying writing to the podcast’s listeners every week. I am no longer guiltily pushing the “do podcast social media” tasks to the bottom of my to do list all the time.
Taking this step for the podcast first has allowed me to come to some decisions about my personal internet presence, too. I have realised that I only want to post on a platform where I have control, with no algorithms or anything else coming between me and the people who want to see what I’m doing. I’m a writer and I think in paragraphs and chapters, not in videos or captions. I think it’s about time I played to my strengths, rather than trying to fit myself into a format that I’ve never found to be comfortable. So, I decided to add a blog to my website and that will now be my home on the internet. I gave it a tagline that hopefully reflects this new stage of my online life: “A blog by a writer attempting to live the literary good life on the internet”. Because that’s what I’m trying to do now. The quality of the life now is more important than any potential reward in the future.
Although the blog will be the main home for all my stuff (you can follow it via RSS and I think you should, because RSS is possibly the best and purest tech we still have) I’ll still be sending some posts out as newsletters too. Personal essays where I think out loud (like this one), my Thursday links round up, reading reflections, and a new series I’m about to start titled “Caroline Writes a Novel” (!). Because lots of people have been in touch to say they miss the photos of my dog I used to post on Instagram, there will be a sporadic “photo diary” mail out too where Morris will feature heavily. If you’d like to receive those you can sign up here, or if you already subscribe you can use this menu to adjust which types of posts you receive. I have no plans at the moment to put up a paywall or make extra premium content, but I do have the subscription feature turned on so if anyone really wants to make a financial contribution, they can. I must stress that you won’t receive any extra material or benefits if you do so. For now, this is a Medici-style “patron of the arts” situation. Everything is free for everyone, supported by those who have the means and desire to do so. I also want to stress that I absolutely do not need your contributions for basic necessities or survival — this is just a way for those who can to support work that they like if they so choose. There’s also an option for a one-off tip if you feel inclined to give one. You should feel no pressure or obligation to do so, though. If you’re more into a “extra content for a fee” model, then you might want to consider joining the paid membership element of my podcast.
If all of this — a non-famous writer with a podcast deciding she’s replacing Instagram with blogging — feels too inconsequential to write 4,500 words about, then you’re not alone. I think so too, but I also couldn’t not write this. In fact, I’ve been tapping away at a draft of this post for months, trying to get my feelings about it straight. I might be well on the way to breaking the habit of reflexively viewing the world around me as possible nuggets of content, but even after the somewhat bruising experience of putting out two autobiographical books, I still think best with my fingers on a keyboard and a publication date in mind. In this instance, I do feel like I’m answering a question nobody has asked, though. I think quite regularly about the, at the time very funny, ebook that Grace Dent published in 2011 titled How to Leave Twitter: My Time as Queen of the Universe and Why This Must Stop, in which she lampooned her own social media addiction and the absurd phenomenon of too-online people with tiny followings grandiloquently announcing that they wouldn’t be online for the next three hours. What is this, if not that? It feels fitting, though, to mark the end of this chapter in a needlessly performative way. Even though I was terrible at posting, I did spend fifteen years watching human behaviour evolve on these platforms. It was bound to rub off on me a bit.
I still don’t know if I will delete my old social media accounts. I want to, because it feels more final that way, more like a definitive statement about who I am now and what I am doing. Maybe that’s why I shouldn’t, though. That was a version of me too, the one who agonised over every angle and caption, who couldn’t see the light hitting the water just so without imagining Instagram’s square frame around it, who believed that all her dreams would come true if she could just crack Meta’s code. She was trying her best, just like I am now. She can live on as a ghost in that machine for now, a bodiless reminder of an existence I never really had.
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Read the original on www.carolinecrampton.com »
When Badasab Syed, 59, went to offer prayers at his local mosque in Ahmedabad this morning, fellow worshippers told him about the newly released report on the crash.
Syed, who lost his brother, sister-in-law and their two children in the crash, returned home to see if the report offered any clues about what really happened to the ill-fated flight. But after watching the news, he was left with more questions than answers.
“The report mentions the pilots discussing who turned off fuel and a possible issue with the fuel control switch. We don’t know what that means? Was it avoidable,” he asks.
His brother, IT professional Inayat Syed, 49, had come to India to attend a family wedding. He was traveling back with his wife and their two adult children.
Badasab says the information in the report is for the experts to determine if it was a technical or human error.
But he is disappointed that there are no recommendations yet for Air India or Boeing to prevent such incidents.
“We may have to wait for the final report.”
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Read the original on www.bbc.co.uk »
Welcome to Internet and Technology Addicts Anonymous! We’re glad you’ve found us, and we hope our community can be as helpful to you as it has been for us. ITAA is a Twelve-Step fellowship of individuals who support each other in recovering from internet and technology addiction. This includes social media addiction, phone addiction, video addiction, television addiction, gaming addiction, news addiction, pornography addiction, dating apps, online research, online shopping, or any other digital activity that becomes compulsive and problematic.
Regardless of how large or small you feel your problem may be, we encourage you to try attending one of our daily meetings to see whether ITAA can be helpful for you. Our meetings are free and open to anyone who struggles with compulsive internet use. Meetings are safe, secure, and anonymous. ITAA is highly diverse, and our meetings include members of all ages, genders, and ethnicities from around the world. In addition, we also have meetings in French, Spanish, Russian, German, Dutch, Hebrew, Arabic, and Polish. You may also find a local, in-person meeting in your city.
Despite how new AI is as a technology, it’s just as possible to become addicted as to any other digital behavior. Specifically, AI addiction is the compulsive and harmful use of AI-powered applications. It can involve AI-powered chatbots like ChatGPT, video or image generation apps, algorithm-driven social media platforms, AI-powered gaming, AI companions, AI roleplaying, AI-generated pornography, or any other generative AI or LLM (large language model) application that becomes compulsive and harmful. As a subset of internet and technology addiction, AI addiction can lead to changes in the brain that over time compromise our ability to focus, prioritize, regulate our mood, and relate to others.
Those of us who have come to identify as AI addicts experienced several common symptoms. We used AI applications for longer than we intended, despite attempts to control or cut back our use. Even when we were aware of the consequences and wanted to stop, we were unable to do so. We increasingly found our sense of validation and emotional regulation was tied to our use of AI models. When we weren’t connected to our AI applications, we experienced distraction, anxiety, and irritability. We were unable to enjoy and be present with our offline lives. We used AI to alter our moods and escape our problems. Our addictive behaviors jeopardized our relationships, educational pursuits, and career opportunities. We felt shame and demoralization about our use of AI.
When we first noticed these troubling experiences, we began to acknowledge that something wasn’t right. But many of us still questioned whether we really had an addiction, especially given that this is such a new technology. For those of us still wondering, the following questions may help us better identify whether there are signs of an addiction to AI applications in our lives.
Do I ever use AI applications to quickly check something and then discover that hours have passed?
Do I ever swear off or set limits around my use of AI, and then break my commitments?
Do I have binges on AI applications that last all day or late into the night?
Do I turn to AI whenever I have a free moment?
Does my use of AI lead me to neglect my personal hygiene, nutritional needs, or physical health?
Do I feel isolated, emotionally absent, distracted, or anxious when I’m not using my AI applications?
Does my use of AI contribute to conflict or avoidance in personal relationships?
Have my digital behaviors jeopardized my studies, finances, or career?
Do I hide or lie about the amount of time I spend using AI or the kinds of AI-generated content I consume?
Do I feel guilt or shame around my use of AI?
Nobody should have to suffer due to their technology use. If you’ve answered yes to several of the above questions, we encourage you to consider getting support.
AI addiction is a subset of internet addiction disorder (IAD), which was first investigated by the psychologist Dr. Kimberly S. Young, who published the original diagnostic criteria for this mental health disorder in 1998. Today there is still an open discussion in the scientific community regarding how to define, qualify, and study the various forms of internet addiction disorder, and the American Psychiatric Association’s Diagnostic and Statistical Manual of Mental Disorders (DSM-5-TR) has begun to acknowledge the severity of this class of addictions through its inclusion of internet gaming disorder. There is widespread consensus from both researchers and clinicians that the problematic and compulsive overuse of the internet, digital media, and smart devices has been rising over the past two decades, and that the prevalence of this behavioral addiction is associated with a variety of mental, emotional, physical, interpersonal, and professional problems.
Perhaps most significantly, the dopamine releases triggered by internet and technology addiction have been shown to cause structural changes in the brain very similar to the changes experienced in people with alcohol or drug addictions. These changes lead to impairments in our decision-making, reasoning, reward expectation, executive function, cognitive function, emotional processing, and our working memory. A variety of studies have shown that access to television and video games decreases the amount of pain medication needed by hospital patients.
Of course, the effects of internet and technology addiction are not only reflected in the structure of our brains, but in our daily lives as well. Internet and technology addiction is strongly associated with impulse control disorder, Attention Deficit Hyperactivity Disorder (ADHD), anxiety, increased substance use, and depression. In addition to these co-occurring disorders, it’s associated with a higher risk of cardiometabolic disease, lower sleep quality, increased fatigue, and symptoms of insomnia, all of which are correlated to a higher mortality rate. Perhaps most tragically of all, individuals with internet and technology addiction have much higher rates of suicidal ideation, planning, and attempts—roughly three times the average. These findings are cause for serious concern. While some might minimize the impact of internet and technology addiction in comparison to chemical substances, the truth is that internet and technology addiction changes our brains in a manner similar to the effects produced by an addiction to alcohol, heroin, or other drugs.
AI addiction is a condition that can affect people of all ages, from children and teenagers to those later in life. Our meetings include young adults, college students, working professionals, parents, and retirees, with members of all ages, genders, and ethnicities from around the world. While the risk factors are varied, internet addiction does not discriminate based on age, educational level, socio-economic status, geography, race, or ethnicity. Its negative effects impact not only the addict themselves, but also their family members and friends. By damaging our potential, self-esteem, and quality of life, excessive use of artificial intelligence can impair our lives. Additionally, by contributing to depression and suicidal tendencies, our addiction can be life-threatening. Regardless of our background, if our use of AI is causing us to experience distress or difficulties, there are actions we can take to improve our situation and find relief.
While internet and technology addiction has only begun to receive attention in recent years, the disease of addiction is not new. Millions of people have found sustainable, long-term freedom from their addictive behaviors through mutual aid support groups modeled after Alcoholics Anonymous. A recent systematic review conducted by Stanford public health researchers determined that participation in Alcoholics Anonymous was nearly always found to be more effective than other therapies in achieving continuous abstinence from alcoholism. The AA model has been successfully adapted to help people suffering from a variety of addictions, including narcotics, marijuana, nicotine, sex, pornography, and food, among others. In continuation of this tradition, Internet and Technology Addicts Anonymous applies the proven model of AA to help those who are suffering from an addiction to technology find long-term freedom from their self-destructive behaviors. We share our experience, strength, and hope with each other through group meetings and one-on-one relationships, and we work a recovery program based on the Twelve Steps of Alcoholics Anonymous. Our meetings are free and anonymous, and we welcome anyone who thinks they may benefit from support to visit one of our meetings.
While there is no permanent or quick cure for AI addiction, there are concrete actions we can take to recover from our compulsive behaviors and restore our emotional and mental wellbeing. We have found the following actions to be of significant help in finding long-term, sustainable freedom from our compulsive and problematic use of AI.
Attend daily meetings. In addition to a growing number of face-to-face meetings around the world, ITAA has daily online meetings where our global fellowship meets to share experience, strength and hope with each other. We are encouraged to try attending six meetings in a short time frame to help decide whether ITAA may be helpful to us.
Make daily outreach calls. Our impulsive buying dependence drew us into isolation and self-reliance. As we begin to recover, we learn that we can trust others and be vulnerable. Calling other members outside of meetings helps us stay connected, supported, and sober, and it gives us an opportunity to share in greater detail than we might during a meeting.
Abstain. With the help of other members in recovery, we identify and abstain from the specific addictive behaviors which are causing the greatest difficulties in our lives. We recognize that this is a process that unfolds over time, and we make use of the support available to us in ITAA to remain sober one day at a time.
Learn more about the recovery process. Our website has many resources about the nature of our addiction and how we might best chart our recovery journey, navigate withdrawal symptoms, and respond to cravings. In addition, there’s a rich body of literature from other 12 Step programs that we can lean on to better inform our healing process and to learn more about the time-tested methods which have helped millions of other addicts recover.
Find a sponsor and work the steps. We have benefitted from asking somebody we resonate with to informally mentor us as a sponsor and working the Twelve Steps together with them, which is the vital and transformative basis of our long-term recovery from our addiction. A great way to connect with potential sponsors is to make outreach calls with other members who are sober and working the Steps.
Make use of outside help. Many members supplement their recovery with a variety of resources beyond ITAA, such as cognitive behavioral therapy (CBT), psychotherapy, group therapy, psychiatry, inpatient or outpatient addiction treatment centers, other 12 Step fellowships, spiritual counsel, or other mental health wellness resources. While we do not endorse any one treatment option or intervention in particular, we encourage all members to avail themselves of any outside help that can support them in their recovery journey. A healthcare or mental health professional may be able to give advice tailored to your situation.
Sobriety in ITAA is a process of discovery that looks different for each of us. As part of this process, we identify and abstain from the specific behaviors which trigger our addiction. We have also found it beneficial to establish a positive vision for our internet and technology use. For example, we may practice using technology purposefully, minimally, or only as necessary. Some of us have found it to completely abstain from AI chatbots and AI tools, while others of us learn how to engage with AI systems only as needed for our work. We treat AI technology with caution and placed greater emphasis on our human interactions, attending ITAA meetings to help use heal from our addiction.
We respect each member’s dignity to discover their own path to recovery, and we work with other experienced members to help define what sobriety means for each of us as individuals. As part of this process, we lean on meetings and phone calls to help maintain our sobriety commitments. Rather than using AI for distraction or to numb our emotions, we seek to use technology as a tool for meeting our goals, living in alignment with our values, and developing flourishing lives.
While we all suffer from a common disease, it expresses itself in different ways for each of us. The following are some common compulsive internet and technology behaviors. It’s important to keep in mind that this list is neither comprehensive nor prescriptive—it is essential to identify our own personal compulsive or unnecessary internet and technology behaviors with the help of other members.
Internet and Technology Addicts Anonymous is a Twelve-Step fellowship based on the principles pioneered by Alcoholics Anonymous. Our organization is entirely volunteer-based and self-supporting. The only requirement to participate in ITAA is a desire to stop using internet and technology compulsively.
We have no opinions on outside issues, and we neither condemn nor condone any particular technology. We are not affiliated with any political agenda, religious movement, or outside interests. Our single purpose is to abstain from compulsive internet and technology use and to help others find freedom from this addiction. We are a US 501(c)(3) federal tax-exempt nonprofit incorporated in the state of Colorado.
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Read the original on internetaddictsanonymous.org »
If you’ve wondered how much a solo dev can build for seamless C++ interop on a quarter, you’re about to find out. In April, jank was unable to reach into C++ at all. Toward the end of this post, I’ll show some real world examples of what works today. Before that, though, I want to say thank you for the sponsorship this quarter, not only by all of my individual Github sponsors, but also by Clojurists Together. I also want to say thank you to Vassil Vassilev and Lang Hames for building the necessary tech in Clang and LLVM for jank to actually do all of this magic. Let’s get into it!
In the past month, I have implemented manual memory management via cpp/new and cpp/delete. This uses jank’s GC allocator (currently bdwgc), rather than malloc, so using cpp/delete isn’t generally needed. However, if cpp/delete is used then memory collection can be eager and more deterministic.
The implementation has full bdwgc support for destructors as well, so both manual deletion and automatic collection will trigger non-trivial destructors.(let [i (cpp/int. 500) p (cpp/new cpp/int i)] (assert (= i (cpp/* p))))
To avoid any implicit jank object casting, we can now use cpp/true and cpp/false, which are straight up C++ bools. These come in handy when trying to keep the generated IR as lean as possible, compared to using true or false and having jank do automatic conversions from Clojure land into C++ land. Going forward, jank will add support for #cpp reader macros, as an easy way to get C++ literals, similar to #js in ClojureScript and #dart in ClojureDart.
It’s possible to represent a lot of possible types using normal Clojure syntax. This month, I also extended that to include pointer types within symbols. For example, cpp/int** will give you a C++ int ** type. However, when spaces or commas are required, such as with templates, Clojure’s symbols become too limiting. In those cases, we can now use (cpp/type “std::map. This will evaluate to a type which can be used in type position for cpp/cast, cpp/new, and so on.
With the new complex type syntax, we run into a problem. Clojure uses a . suffix to convey a constructor call, but we don’t want to include a . suffix in cpp/type strings since that’s not valid C++ syntax. To remedy this, jank now treats the . suffix on types to be optional. If you call a type, it’s considered a constructor call. Shout out ClojureDart for doing this first.(let [l1 (cpp/long 5) l2 ((cpp/type “long”) 5)] (assert (cpp/== l1 l2)))
In the JVM, every class implicitly inherits from Object. This allows Clojure’s data structures to just store Object and not need to worry about all of the possible types which could be used. In the native land, however, every type is standalone by default. Even if you have a base object type in your own code, none of your dependencies will use it. The only way to refer to any type would be a void*. When we do this, though, the type information about that data is lost. It’s up to the developer to correctly add that type information back at a later time, by casting that void* back to some other pointer.
This month, I built a structure for this, called opaque boxes. The idea is that you can take any raw native pointer and box it into a jank object using cpp/box. From there, that object can be used with jank’s data structures, passed around, compared (by pointer value), etc. When you want to pull it back out, there is a special cpp/unbox form to do so while specifying the type of the data. It’s entirely up to you to do this correctly, as it is in C or C++. Here’s what it looks like, combined with cpp/new, for some pretend C++ k/v store. Note that we don’t need to specify the type to cpp/box, since the compiler already knows the type.(ns example.kv)
(def db (delay (cpp/box (cpp/new cpp/my.db))))
(defn get! [k] (let [db (cpp/unbox cpp/my.db* @db)] (cpp/.get db (str k))))
Seamless C++ interop with the jank runtime requires Clang to JIT process jank’s C++ headers. This is costly and can affect startup time, so I’ve set up precompilation of those headers. This needs to be done per-machine, so jank will do it after install, when you first run jank. As jank is updated, it will automatically recompile the PCH as needed.
A great deal of work has gone into finding ways to break jank’s seamless interop. C++ is such a large language, I have hundreds of interop tests. In the past month, I’ve found various crashes releated to arrays, global pointers, static references, function pointers, variadic C function calls, and both Clang and LLVM-related issues regarding PCHs, IR optimizations, etc. This is an ongoing pursuit, at the bleeding edge of interop tech and jank’s test suite is how I build confidence that the system works well.
As a side note, for anyone who hadn’t considered this yet, every bit of jank’s seamless interop is statically typed. It is C++. There is no runtime reflection, no guess work, and no hints. If the compiler can’t find a member, or a function, or a particular overload, you will get a compiler error. I think that this is an interesting way to start thinking about jank, Clojure, and static types. It also paves the way to start expanding that type info into other parts of the jank program.
Before I show off some practical examples of jank doing C++ things, please consider subscribing to jank’s mailing list. This is going to be the best way to make sure you stay up to date with jank’s releases, jank-related talks, workshops, and so on.
Now that seamless interop actually works, we can try to do some things we might normally do in C++. The hardest part of this is coming up with good examples which fit well in a blog post!
Basically every C++ developer starts by including iostream and using std::cout. Here, we don’t need to worry about operator << returning a std::ostream& and that not being convertible to a jank object, since it’s in statement position. If we didn’t have the nil at the end of the function, we’d get a compiler error, since jank would try to automatically box the std::ostream& and would find that there is no way to do it.(cpp/raw “#include
We don’t yet have the ability to do #cpp “Hello, world\n”, to get a raw C string, but that’s coming soon. That alone will clean up a lot of common string use cases.
Ok, cranking up the complexity a bit, let’s bring in a third party library. JSON for Modern C++ is likely the most popular C++ JSON library there is. It’s header-only, so if we just download the standalone header, we can JIT include it. To turn this into a full program, we can also reach into std::ifstream for file reading. This program will take a JSON file as an argument, parse it, and then output the pretty printed JSON to stdout.(cpp/raw “#include
The thing I love most about this example is how we’re weaving between Clojure and C++ on basically every line. Yet it all just works.
I’m going to crank things up one more notch, since things are getting fun. Here’s a working program which uses ftxui to lay out terminal output using flexbox. However, in the Clojure way, we provide a pure data hiccup interface and the implementation handles the rest. Here, we take advantage of opaque boxing, to move ftxui objects between jank functions, we build up std::vector objects, and we rely on a ton of Clojure goodies to clean it up. So cool!(cpp/raw “#include “)
(cpp/raw “#include “)
(cpp/raw “#include “)
(declare vbox)
(declare hbox)
(defn hiccup->element [h]
(case (first h)
:text (cpp/box (->> (str (second h))
cpp/ftxui.text
(cpp/new cpp/ftxui. Element)))
:filler (cpp/box (cpp/new cpp/ftxui.Element (cpp/ftxui.filler)))
:vbox (apply vbox (rest h))
:hbox (apply hbox (rest h))))
(defmacro defbox [name f]
`(defn ~name [& hiccup#]
(let [elements# (cpp/ftxui.Elements.)]
(doseq [h# hiccup#]
(let [e# (cpp/* (cpp/unbox cpp/ftxui.Element* (hiccup->element h#)))]
(cpp/.push_back elements# e#)))
(cpp/box (cpp/new cpp/ftxui.Element (~f elements#))))))
(defbox hbox cpp/ftxui.hbox)
(defbox vbox cpp/ftxui.vbox)
(defn render-hiccup [hiccup]
(let [document (->> (hiccup->element hiccup)
(cpp/unbox cpp/ftxui.Element*)
cpp/*)
screen (cpp/ftxui.Screen.Create (cpp/ftxui.Dimension.Fixed 60)
(cpp/ftxui.Dimension.Fixed 20))]
(cpp/ftxui.Render screen document)
(cpp/.Print screen)
(println)))
(defn -main [& args]
(render-hiccup [:vbox
[:hbox
[:text “north-west”]
[:filler]
[:text “north-east”]]
[:filler]
[:hbox
[:filler]
[:text “center”]
[:filler]]
[:filler]
[:hbox
[:text “south-west”]
[:filler]
[:text “south-east”]]]))
The OG in the C++ Lisp space is Clasp, created by Dr. Christian Schafmeister. Clasp also integrates with LLVM and it uses MPS for a GC. Though jank and Clasp differ greatly, both in that Clasp is Common Lisp and jank is Clojure as well in how they approach C++ interop, they are two bold attempts to bridge two otherwise distant languages. I reached out to Dr. Schafmeister several years ago, when I started on jank, and we discussed C++ and Lisps. His work has been a big inspiration for jank.
Phew. I’ve accomplished a ton this quarter and I’m extremely pleased with what jank can do now. Still, the work on seamless interop isn’t finished and more work will be needed on it before jank can be released. A big issue is that I didn’t have time to tackle automatic destructor calls for stack allocated C++ objects. I have one of my mentees, Jianling, helping out on the work here, to ensure that we can get it done soon.
On top of that, the largest issues comes from Clang and LLVM directly. One of the indicators of jank’s seamless interop being unprecedented is the bugs and missing features I’m finding in Clang and LLVM. These are generally quite slow to address, since I’m relying on the volunteer time of the experts in those areas to help me out. jank would not exist without them. There are still cases where some interop code can trigger a crash in Clang and we’ll have to tackle them as they come up. However, one of the best ways to speed this along is more funding, so that I can pay these Clang and LLVM experts for their time. Please consider becoming a Github Sponsor to make this more feasible.
Looking forward to the new quarter, the main focus will be packaging and distribution. I want to make jank easy to build everywhere and even easier to install. On top of that, I need to address all of the small pain points, various bugs, lack of tooling, etc. After packaging and distribution is stabilized, the rest of the year will be spent on bug fixes, tooling, and documentation. After that, we’ll have the alpha launch!
Join the design discussions or pick up a ticket on GitHubBetter yet, reach out to discuss corporate sponsorship!
...
Read the original on jank-lang.org »
The state House has passed a pair of bills aimed at tamping down on dubious subscription services — just as a federal court moved to throw out similar rules proposed by federal regulators.
Earlier this month, the House approved a bill cracking down on so-called “negative option” agreements in which consumers are automatically enrolled in a service unless they opt out. This week, the chamber also cleared a second bill requiring that subscriptions or memberships made online must also be able to be canceled online.
The proposed state laws are virtually identical to the “click-to-cancel” rules approved last year by the Federal Trade Commission under President Joe Biden. The federal rules originally set to go into effect in May, but were postponed 60 days amid speculation that President Donald Trump’s FTC would alter them.
On Tuesday, however, a federal appeals court threw out the rules entirely, finding that the FTC had not followed procedural requirements on economic analysis prior to finalizing the ruling.
The suit against the FTC’s process was brought by business groups that stood to lose subscription-service revenue had the rule survived.
The fact that the federal government has stumbled on the issue makes is all the more important that state legislators act, Rep. Joe Ciresi, D-Montgomery County, the sponsor of one of the bills, said this week.
“We can take control of the situation quickly here in Pennsylvania, because it is an issue,” Ciresi told PennLive. “Everyone can relate to it somehow.”
The classic example of a “negative option” deal is a subscription that begins with a free trial but automatically converts to a paid service after a period of time. A bill from Rep. Lisa Borowski, D-Delaware County, would put in place rules for notification prior to renewal, and require that consumers be able to opt out of renewal using the same means they originally used to sign up.
The bill would ensure that businesses “provide value to customers instead of simply betting they will forge to cancel a subscription they don’t really need,” Borowski said.
Ciresi’s bill would require that all subscriptions be cancellable online if the customer originally signed up online. The bill even mandates that information on renewals and how to cancel them be posted on web pages in a font size that is suitably large.
The idea came out of experiences from his constituents, staffers, and even his own family, Ciresi said, who had signed up for memberships they found maddeningly difficult to stop getting charged for even after the initial contract had ended.
“We got pushback from some companies, but we worked through it,” Ciresi said. “We’re not advocating for anyone to cancel your service or to get out of your contract. I’m not here to hurt any business, I’m here to help the consumer.”
The House bills would not cover certain services that are separately regulated, such as utilities covered by the state Public Utility Commission, or the Federal Communications Commission.
The bills would also not cover gyms — notorious for arduous membership cancellation policies — which are controlled by the state Health Club Act. This could be amended into the legislation, which Ciresi said he was open to.
Both bills passed the House with broad bipartisan support. If the legislation is agreed to by the state Senate and signed by Gov Josh Shapiro, Pennsylvania would join several other states that have moved to create such laws over the past year since the FTC began working on its now-defunct rule.
New York, California, Minnesota, Tennessee, and Virginia have all enacted state-level policies that include provisions similar to Ciresi and Borowski’s bills.
...
Read the original on www.pennlive.com »
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