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A chip of one’s own

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A chip of one’s own

“Custom chip” is the new buzzword. Everyone is getting into it. The big and the small. The public and the private. Companies that never built anything but software and companies that never built anything but gadgets. From one corner of the world to every other. The word is now everywhere, which is usually the first sign that it may have stopped meaning much.

Last year, we had an article talking about 2026’s Real Chip War. There, we argued the giants would build their own silicon, and that the point of building it was to stop renting so much of it from one vendor. We drew a comfortable line under that thought. A chip that could rival the best merchant GPU took the better part of a decade to develop, so the hyperscaler programs would grind forward without landing a quick blow. 

In Chip Design: Hardware’s Software, we split the industry into two. Design was the Office, contestable and cheap to enter at the edges. Manufacturing was the Plant, with tens of billions of dollars and tens of thousands of small, accumulated tricks; its barriers were closer to permanent.

Both pieces still stand. What neither saw coming was who would walk into the Office, aka announce their own custom chips, next. The latest announcers are not cloud operators, but they are model makers. In the space of a few weeks, OpenAI, Anthropic, Meta, DeepSeek and Zhipu have all reached for their own silicon at once.

Given how many are suddenly getting into custom chips globally, with many more likely to join soon, we need to look at the whole chip design space afresh to assess the reasons and consequences.

The word that hides more than it reveals

Open any week of announcements, and you will find “custom chip,” “ASIC,” “inference accelerator” and “custom silicon” used as if they named one object, sitting next to proper nouns like TPU and Jalapeño as though a name told you anything about what a thing does. It does not. The vocabulary collapsed just as the number of things it describes exploded.

A custom chip today is at least five broadly different categories wearing one description.

The last row is where the confusion compounds. When a famous consumer-electronics company signs a large “custom silicon” deal for the parts that let its gadgets reach Wi-Fi and cellular networks, the headline reads the same as one about a frontier inference accelerator released in the same week. It is not the same. One is a data center based on the economics of running models. The other is device connectivity, and its real driver is where the parts get made, not what they compute. 

Of course, the informed investors are well aware. But it is worth keeping the five rows in mind as we try to parse different types of AI-ASICs. Focusing on these differences has become important as we try to make sense of the barrage of announcements.

A short primer: Why AI keeps demanding custom silicon

Simplistically, a chip that runs an AI model has two halves that matter. One half does the math. The other half moves data to and from memory. In the first phase of AI computing history, say until around the middle of the last year, the processing part mattered more – and then that completely flipped.

In the earliest days of generative AI gaining in popularity, building a model mattered far more than running it. Training is enormously math-heavy. In the years when only a handful of labs trained models and few people used them, the math engine was the part that ran short. So that is what everyone chased: faster processors and more of the units that do arithmetic.

Then the models got good, and the world started using them. Every question put to a model has to be answered somewhere, billions of times a day, and answering is a very different job from building.

As usage exploded, running models swelled into the larger share of all the computing done, and building them shrank in relative terms. The bottleneck moved with it, off the math and onto memory. This is structural, not a passing phase, and it is why the pressure keeps building not only on memory and the links between chips, but on the whole case for customizing the silicon.

To produce a single word, the chip has to pull the entire model, hundreds of gigabytes of it, across a narrow path, and then do only a small amount of math with what arrives.

So the math half sits mostly idle while the moving half is swamped. The jam is not in the doing. It is in the moving. And you cannot fix a jam like that by buying a faster engine, because the engine is no longer the problem. A fix needs a rearranging of the work so nothing sits waiting and nothing piles up. And, rearranging it is only possible if you know, in detail, the exact shape of the model you are running.

That is why this lands on the model makers. Nobody else knows their models well enough to decide what to move, what to keep close and what to skip.

The first place they rearrange is the logic chip.

The units that otherwise would be idle can be put to work with smart hardware-level customization. One effort is in keeping more of the data on the chip so it need not be fetched twice. The other is to work on the order, so the pieces arrive just in time. This would allow the spare capacity to help manage the traffic instead of waiting for it. A chip shaped to one model wastes far less than a general one.

The second place, slower to arrive and only now beginning, is the memory itself.

For decades, memory only stored data and handed it back. The pressure of inference is pushing it to do more: a little computing of its own, sending only what is actually needed, and managing the flow with tools built for one customer’s models.

Put the two together, and the direction is plain. As models grow heavier, the standard part, whether logic or memory, keeps making the jam worse, and the reward for shaping the silicon to the model keeps rising. That is why custom silicon is not a passing phase. It is a road, and we are still near the start of it.

One company, many chips

The freshest illustration arrived from Meta, and its whole importance is that it is not another accelerator. Meta disclosed a chip called Vistara, and it is not the cousin of Ironwood, Maia, Trainium or Meta’s own MTIA.

It does not run models at all. It is a memory manager, a small custom part that hangs cheap, decommissioned memory off a server as a slower, colder tier beneath the fast local memory, so that latency-tolerant work can spill into capacity that would otherwise have been thrown away.

Meta reckons it lets the fleet retire a quarter of the servers it would have needed. It solves a plumbing problem, not a math problem, and it is a sign of what is coming. Each large player will run not one custom chip but a growing fleet of them, accelerators and memory managers and networking parts and more, and similar moves will spread across every hyperscaler.

So when you read that a company “builds its own chip,” the sentence is already too vague to use. Which chip, and for which job?

The way to cut through it is to stop asking what a chip is and start asking what its maker owns, because that decides what it customizes.

The hyperscalers own the whole rack and the whole fleet, so their silicon spreads outward across the system. They build accelerators, yes, but also the memory managers and the networking and the offload chips, because every one of those is a cost they carry at fleet scale.

Vistara is the tell: you only build a chip to rescue old memory if you run millions of servers. The model makers own the model and little else, so their silicon reaches inward, tuning a single accelerator to the shape of their own model, and this is as true in Hangzhou as in San Francisco, DeepSeek and Zhipu shaping parts to their models exactly as OpenAI shapes Jalapeño to its own.

The merchant builders own neither a fleet nor a frontier model, so they make one architectural bet and sell it to whoever will buy, Cerebras and d-Matrix and Tenstorrent and dozens more, alongside larger names like Qualcomm bringing a merchant accelerator to market.

And the fourth group, the one the headlines forget, builds none of its own products at all. It builds the pieces the others assemble, the design partners and the memory-fabric and interconnect specialists and the software floor beneath them all.

Two things separate the first two groups from the rest. They have a moat, because their silicon is wired to plans they control and to demands they already own, and they have visibility, because they can see whether the chip will be used before it exists. The merchant builder has neither. It designs into the dark, betting an outside world will still want its one idea by the time the idea ships.

And here the framework must confess its own limits, which is the point rather than a hedge. It explains only so much. In detail, every one of these efforts is different, many are early and planned inside their own bubble, blind to what rivals are building and why, and some will be obsolete before their first silicon returns from the factory.

That fog, created by the constantly shifting landscape, is the one most underappreciated, even by experts focused on the available details of every plan. If the builders cannot see one another, an outsider certainly cannot rank them from the results of a press release.

The new fablessness

We will need to dial back, as some of the points are already flagged in the primer above. But they need more attention to discern what has changed.

The global business of designing chips without owning a factory is booming, and it has a new class of entrants in the largest modelmakers. They do not aspire to be like classical fabless chip vendors or hyperscalers.

Their labs seem to simply specify the workload, the memory hierarchy, the compiler, and the networking, and rent the rest. They are not becoming chip companies in the old sense. They are becoming companies that shape the chip around the model and outsource everything else.

Their logic, drawing on the points in the primer, is more optimization. For the last two years, the modelmakers squeezed efficiency out of software by splitting model loading using methods like mixtures of experts, fewer active parameters, quantization, and sparser attention.

Each major modelmaker seems to realize that there is more possible if they spread the wings from algorithm to hardware, and the chip stops being something you buy and becomes something you shape.

There is a clear gap in the stage at which different modelmakers are, even if their announcements seem to be coming at the same time in recent days. OpenAI has silicon to show. Anthropic is circling. DeepSeek and Zhipu are early.

One caution against the easy version of this narrative. None of these labs is betting the farm on its own chip. The custom part is a hedge, not the main position. Anthropic runs on rented accelerators today and explores its own for tomorrow, all at once, and the others look similar underneath.

The move is portfolio optimization, not a leap of faith, which is exactly why so many can make it at once without any of them risking much. A side of objective seems to be an eye on the future: any knowledge gained in the chip development could prove valuable as model development evolves.

And it is the sharpest confirmation yet of what Hardware’s Software argued. Chip design has become the part of this industry that behaves like software once did, and it draws a crowd for the same reason software did, because the marginal cost of trying has fallen.

Months versus decades

For Alphabet, the development of Ironwood, released last year and in many ways comparable to NVIDIA’s best, took a decade of building experience. As against this, OpenAI seems to have developed a usable chip for its models in nine months. Even if one is more scrupulous in calculating the latter’s timeline, OpenAI, with its partner Broadcom, has gone from conception to manufacturing tape-out in 18 to 24 months.

Nine months looks like someone collapsed the decade we leaned on in the Real Chip War. It looks like the crutch broke. It did not break. The decade was rented, not skipped.

The timeline gaps reveal the gaps in what is being built. The nine-month chip is a narrow, inference-only part. In addition, it moved fast because the hard, accumulated work was supplied by a partner who had already spent the decade doing it, on top of a collaboration that had itself been running well over a year before the design cycle even began. The lab brought the architecture and used its own models to speed up the work. The partner brought the experience.

For every aspirant, whether from or outside the US, the need to find the right partner is critical. Whether it is DeepSeek or Anthropic, each will need years of accumulated knowledge to field not just a general accelerator but highly specific inference chips of cutting-edge utility. 

As hinted earlier, a custom chip is a frozen bet on a moving target. The field’s dominant architecture can shift under a chip in the two to three years it takes to design and yield one, and a chip optimized for the old shape does not become a weaker rival to the incumbent. It becomes a paperweight.

This is not an argument against custom silicon. It is the argument for where custom silicon will concentrate: on the dullest, most stable, highest-volume inference workloads, the recommendation and ranking and standard serving that do not move, while the frontier, which keeps moving, keeps renting the flexible GPU.

It also draws the boundary of the threat. The narrow chips attack the incumbent’s inference margin. Training is harder to displace because model churn and flexibility still favor the general part.

The constraint Is global, and so is the ingenuity

Denied access to the best parts, the leading Chinese labs co-designed their models around what they had, compressing the memory their models demanded and rewriting the low-level work by hand, then spending more time where they could not spend more compute. The result is frontier-adjacent models at a fraction of the arithmetic.

However, a real efficiency gap persists, and the ingenuity was itself paid for with a great deal of earlier compute. On the serving side, the answer has been to build at the level of the system rather than the chip.

If each accelerator is weaker, wire many more of them together with fast optics and pooled memory, and let the cluster reach in aggregate what a single rack of the best foreign parts would reach. It works, and it spends several times the silicon and the power to get there, which for a country short on both is a permanent tax rather than a free lunch. 

None of this changes the same custom chip ownership logic we described for the US players above: a player that works on the whole system for optimization may have a higher chance of competing at the frontier in the years ahead. The trend being started by DeepSeek and Zhipu is likely to catch on like wildfire, particularly when chip design is no longer seen as an expensive or difficult exercise. 

It will be remiss not to mention the rest in this section on players who are not the largest hyperscalers or modelmakers. A great many private companies are circulating decks full of architectures that will, they promise, undo the incumbent, some by the audacious route of removing high-bandwidth memory from the problem entirely.

A few are serious. Most are a presentation. The distance from a slide to a yielding, deployed part is measured in years and numerous execution risks. For most outside observers, understanding the uniqueness of these plans is nigh impossible, even where substantial design details are available.

For most such companies, the best evaluation will be possible either when they complete their earliest working prototypes or based on the interest they attract from knowledgeable players seeking new IP. Of course, for many investors, such evidence could be too late, but the point remains: it is difficult to assess the value of any custom chips based on investor presentations.

Cleanest beneficiaries in the helpers 

The main point above is that a description of an attempt in chip design, irrespective of where it is coming from, tells you almost nothing about the chip that emerges.

“We are designing a custom inference accelerator” is a shout likely to grow if our arguments on the model optimization in the periods ahead prove true. The announcements will run well ahead of the silicon, and the vocabulary is too blunt to sort them. Anyone trying to estimate the value of a chip design press release faces risks of the unknowable.

Then there will be other words that carry most of the false comfort, like “tape-out.” Tape-out sounds like a finish line, and it is closer to a starting line, but it is perhaps equivalent to phase one in a clinical trial of a new drug.

A tape-out is only the moment a design is declared final and handed to the factory, before the first wafer exists, and it is married to one node at one foundry and usually one packaging flow, not portable to another without months of rework. So the industry announces tape-outs as though the race were won, when all that has happened is that a design has committed itself to a particular queue in the best case, assuming the tests work.

And the queue is the whole problem. Every one of these designs, the hyperscalers’ and the model makers’ and the challengers’ and China’s, still lines up at the same narrow set of fabs and the same gated advanced packaging and the same scarce memory.

A successful prototype is not a product. Many perfectly good chips will never reach volume because the capacity to build them at scale is spoken for, and by the time it frees up, a better-supplied rival has taken the socket. 

For evidence-based investors, the durable value will be with the helpers and not the builders. That more custom design attempts are going to be made is a given. Customization is going to spread with more memory being placed next to logic and more logic being placed next to memory. The pace of growth in interconnect optimization will also remain breathtaking.

The players with the least amount of risks, but substantial volume growth, will be the ecosystem players with moats. These firms carry none of the builder’s specific risks. They do not need any one architecture to win, any one plan to come true, or any one queue to clear in time. They need only for the crowd, in aggregate, to keep trying, and they can diversify across every builder at the table. 

Which returns us to where we began. Saying “we do custom chips now” is becoming as empty as a company announcing “software development” as a new activity around the year 2000. At the rate this is going, it can only be a matter of time before a bank or a consultancy floats its own chip-design aspirations on an earnings call.

In 2000, “we build software” told you someone had a keyboard, not a product. In 2026, “we design silicon” tells you someone has an architecture slide, and perhaps a tape-out, which is to say a place in a queue. The first job is not to be impressed. It is perhaps to identify who they are partnering with for their spend.

Nilesh Jasani is the director and chief executive officer of GenInnov Singapore – the original publisher of this article, which is republished with permission – and a director of the GenInnov Master Fund.

Iran says it destroyed US unmanned depot, AI center in Bahrain

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Iran says it destroyed US unmanned depot, AI center in Bahrain

Smoke rises after Iran carried out a missile strike on the main headquarters of the U.S. Navy’s 5th Fleet in Manama in retaliation against US-Israeli attacks, in Bahrain February 28, 2026. [Stringer - Anadolu Agency]

Smoke rises after Iran carried out a missile strike on the main headquarters of the U.S. Navy’s 5th Fleet in Manama in retaliation against US-Israeli attacks, in Bahrain February 28, 2026. [Stringer – Anadolu Agency]

Iran’s Islamic Revolutionary Guard Corps (IRGC) said Friday it had destroyed a US unmanned surface (drone) vessel depot and Bahrain’s “main artificial intelligence center” in retaliation for recent US attacks on Iran, Anadolu reports.

In a statement, the IRGC said the strikes came after the US military “committed war crimes” by attacking several bridges in Iran the previous night, “killing and injuring a number of civilians.”

It said its forces “destroyed a depot of US drone vessels in Bahrain,” adding that “many of them were burned.”

The IRGC also claimed it had “completely destroyed” Bahrain’s “main artificial intelligence center,” adding it was used by the US “to assist the enemy in target selection for committing war crimes.”

It said the site was struck with “several ballistic missiles and dozens of drones.”

The IRGC warned that if the US continues targeting bridges and transportation infrastructure in Iran, it would strike “the most important industrial, information technology and artificial intelligence assets of companies with American shareholders” across countries hosting US military bases in the region.

It also claimed that “all countries hosting US military bases in the region are partners in these war crimes.”

Google-backed satellites for wildfire detection launch as smoke chokes US, Canada

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Google-backed satellites for wildfire detection launch as smoke chokes US, Canada

As smoke from hundreds of burning wildfires spread across Canada and the United States, the first three operational satellites in the Google-backed FireSat program successfully launched into orbit. The satellites will begin providing wildfire detection capable of spotting even small fires in the United States, Australia, and Europe before the end of the year.

The launch of the microsatellites aboard a SpaceX Falcon 9 rocket from Vandenberg Space Force Base in California on July 7, 2026 marks a transition to “initial operational capability” for the FireSat constellation managed by the nonprofit Earth Fire Alliance. After a three-month testing period, the three satellites will begin actively providing data to fire agencies while covering every fire-prone region on Earth at least twice per day.

FireSat represents the first satellite constellation purpose-built for detecting wildfires, including spotting smaller fires that other satellites may miss. The satellites were designed by California-based satellite manufacturer Muon Space and have received over $15 million from Google to support initial deployment. Other notable financial supporters include the Bezos Earth Fund that committed $26 million.

Each satellite is equipped with multispectral imaging that can peer through smoke and clouds and detect fires as small as five by five meters—about 16 by 16 feet. That capability was proven by a FireSat Protoflight satellite that launched in March 2025 and collected more than one million images, while showing it could detect low-intensity blazes invisible to existing satellites.

The Future of Wildfire Detection

The “early adopter” organizations that will start using FireSat data this year include fire agencies in California, Colorado, Australia, and Portugal. As more satellites launch, the FireSat program aims to provide the latest imagery anywhere in the world on an hourly basis by 2029. Such imagery would eventually become available every 20 minutes once the full constellation of more than 50 satellites is launched by the early 2030s.

Detection of small wildfires before they burn out of control could prove extremely helpful. The Earth Fire Alliance has projected that even an hourly revisit rate by the FireSat constellation could help save more than $1 billion in fire damage costs and prevent nearly 22 million tons of carbon emissions, along with protecting 3,500 homes and 1.3 million acres of land.

To assist with that capability, Google Research plans to use the company’s AI models to compare operational FireSat data with historical images in order to accurately identify very small fires and to inform predictive modeling of wildfires. Google celebrated the launch of the first operational FireSat satellites by describing the event as “another tangible step forward in putting practical AI to work for climate resilience.”

The trouble with fires and climate change

But Silicon Valley’s rush to deploy newer AI models has also come with considerable climate costs that are linked to a worsening wildfire problem. Larger AI data centers require massive amounts of electricity that are often being met by new natural gas projects in the United States, which could collectively emit more than 129 million tons of greenhouse gases per year. Google has itself acknowledged the challenges of deploying enough clean energy projects to offset potential emissions from energy-hungry data centers, especially as its company-wide electricity usage grew by 37 percent in 2025.

Google’s financial and technical support of AI-powered wildfire detection could prove incredibly helpful. But wildfire detection is just one of multiple elements necessary to prevent blazes from spiraling out of control—fire agencies also need enough resources to manage ecosystems through prescribed burns and to put out unwanted fires. And their job has become increasingly challenging because of global warming.

Traditional fire suppression has proven inadequate in the case of the wildfires that began spreading in Canada’s boreal forests this summer and has forced thousands of people in First Nations communities to escape the fast-moving blazes. The wildfires have also generated smothering smoke clouds across Canadian and US cities while inflicting hazardous air pollution upon more than 100 million people.

The Nipigon 6 fire in Ontario, Canada, on June 15, 2025, visualized over a Google Earth basemap using FireSat's infrared imagery.

FireSat’s infrared imagery shows the Nipigon 6 fire in Ontario, Canada, on June 15, 2025, identifying active fire regions at the top, both active flames and burn scars in the middle, and old burn scars at the bottom.

FireSat’s infrared imagery shows the Nipigon 6 fire in Ontario, Canada, on June 15, 2025, identifying active fire regions at the top, both active flames and burn scars in the middle, and old burn scars at the bottom. Credit: Muon Space and Earth Fire Alliance

The wildfires in Canada’s boreal forests are burning with greater size and intensity because of climate change, as greenhouse gas emissions from human use of fossil fuels continue to drive global warming. Two of Canada’s most destructive wildfire seasons occurred in 2023 and 2025, and the last three fire seasons were among the 10 worst on record.

“What is unfolding is what climate and forest scientists have been predicting for 30 years,” Werner Kurz, a retired senior research scientist at Natural Resources Canada, told The Atlantic. “That as the world gets hotter and drier, we are exposing forests to more and more risk, and the old strategies of fire suppression are simply being overwhelmed.”

Fighting wildfires in mostly uninhabited forest regions requires fixed-wing air tankers and heavy-lift helicopters capable of dropping fire retardants on wildfires or transporting firefighting crews to the remote sites. But individual Canadian provinces usually bear the burden of buying or contracting for such firefighting aircraft, and every available aircraft has often been required to fight wildfires in recent years. This year the Canadian government leased 10 new aerial firefighting aircraft to make them available as surge assets for provinces.

The Canadian Wildland Fire Information System showed nearly 900 active wildfires in Canada as of July 17, with the country having experienced more than 3,600 wildfires to date that burned more than 6.6 million acres. There are currently dozens of “out of control” wildland fires that are simply being monitored rather than actively suppressed—a decision that fire agencies are forced to make when managing limited resources and weighing risks to firefighters’ lives.

David Hasselhoff’s Steamy Life with Younger Wife Revealed

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David Hasselhoff’s Steamy Life with Younger Wife Revealed


David Hasselhoff may be 74, but insiders claim the Hoff has no plans to slow down when it comes to romance.

The Baywatch and Knight Rider legend has been married to wife Hayley Roberts since 2018, and according to a source, their private life is still sizzling years after they said “I do.”

Roberts, 46, is nearly three decades younger than Hasselhoff. But according to the insider, the age gap has not cooled things down. If anything, sources claim their marriage still has plenty of spark.

As Hasselhoff celebrates his 74th birthday, RadarOnline.com looked back at the couple’s unlikely love story, from a chance meeting in the U.K. to a marriage insiders say is still packed with passion.

The couple first met in 2011 at a hotel in the U.K. while Hasselhoff was working as a judge on Britain’s Got Talent.

Roberts approached the TV star for an autograph. Hasselhoff reportedly agreed, but only if she handed over her phone number.

That bold move apparently paid off.

According to resurfaced comments from a source, the pair had an instant connection. The insider described it as “practically love at first sight.”

The two began dating soon after. Seven years later, they tied the knot in a romantic ceremony in Italy.

Now, years into their marriage, sources claim the chemistry between them is still red-hot.

“Women in their early 40s are in their prime, while men in their mid to late 60s often have trouble when it comes time to perform in bed,” one source said. “But Hayley and David joke that in their case, too little s– is not the issue!”

In fact, the insider claimed Roberts sometimes would not mind a little breather.

Despite his age, Hasselhoff has allegedly kept the romance alive without needing any extra help in the bedroom.

“So when it comes to romance, she’s got more than she can handle!” the source teased.

But the Hoff’s secret is not just physical chemistry.

According to the insider, Hasselhoff works hard to make Roberts feel adored. He reportedly showers her with flowers, thoughtful gifts, and romantic vacations.

“According to wife Hayley, he’s always spoiling her with flowers, thoughtful little gifts and romantic vacations,” the source said.

The racy claims come as Hasselhoff has also been dealing with a more serious chapter in his life.

Fans grew concerned in May when the actor was seen looking frail as Roberts helped him after a medical appointment. He was photographed being pushed in a wheelchair and assisted into a car by his wife.

The outing came after Hasselhoff underwent hip and knee replacement surgeries in 2025. He has been in physical therapy while working his way back to strength.

“For a man who has always been fit and very active and in shape, his recent surgeries have kicked his a– a bit more than he expected,” an insider told Radar.

The photos sparked a wave of reaction from fans.

“At his age it doesn’t take much trauma to cause a great deal of damage. A simple slip can be devastating,” one person wrote.

Another added, “Time is unforgiving.”

But plenty of supporters rushed to defend the TV icon.

“Seeing the Hoff out and about proves he still has that legendary fighter spirit,” one fan wrote.

Another had a shorter message for critics: “Don’t hassle the Hoff.”

Even after surgery, health concerns, and decades in the spotlight, insiders claim Hasselhoff still has the same larger-than-life energy that made him famous.

And according to those close to the couple, Roberts remains right by his side as his wife, caregiver, biggest supporter, and the woman still keeping the Hoff’s fire burning.

India’s AI moment more about deployment than discovery

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India’s AI moment more about deployment than discovery

For three decades, India was the world’s back office. During the next three decades, it may become the world’s AI workshop.

That possibility lies behind one of the most consequential questions facing India’s economy. Artificial intelligence threatens the very industry that helped transform India into a global technology powerhouse. Yet the same technology may also create India’s greatest opportunity since the outsourcing revolution began.

Much of the discussion about AI in India has focused on job losses. Large language models can write software, generate reports, answer customer queries and perform many of the routine tasks that fueled India’s US$280 billion IT services industry. If machines can increasingly perform the work of millions of Indian engineers, what becomes of the world’s outsourcing capital?

It is a legitimate concern. But it may also be the wrong question. Rather than asking whether AI will eliminate India’s outsourcing industry, we should ask how it will redefine it. The AI revolution is not simply replacing jobs; it is redistributing roles across nations. The United States, China and India are beginning to occupy distinct positions in a new global AI economy.

Understanding that emerging division of labor may be the key to understanding India’s next chapter.

The end of labor arbitrage?

India’s rise as an IT powerhouse rested on a simple economic proposition: highly skilled engineers working at costs significantly below those of Europe and the United States.

Beginning in the 1990s, companies such as TCS, Infosys, Wipro, and HCLTech became indispensable partners for corporations seeking to develop software, manage enterprise systems, and maintain global IT infrastructure.

Generative AI changes that equation. Software that once required weeks of programming can increasingly be produced in hours. AI assistants accelerate coding, automate testing, draft documentation, and troubleshoot technical problems. Tasks that justified large offshore teams are becoming increasingly automated.

For companies built on labor-intensive services, this is undeniably disruptive. If productivity doubles while demand remains constant, fewer engineers may be needed for routine work.

India’s IT sector has recognized this reality. Major firms are investing heavily in AI training, building AI practices, and reshaping their business models around automation rather than labor alone.

Yet every major advance in software development—from high-level programming languages to cloud computing—has shifted engineers toward higher-value work rather than eliminating them altogether. Artificial intelligence is likely to continue that pattern.

From code to integration

The real opportunity lies beyond just writing code.

As AI becomes increasingly capable of producing software, the bottleneck shifts from programming to implementation. Businesses still need people who understand workflows, regulations, languages, customers and industries.

Someone must adapt AI systems to hospitals in Germany, banks in Singapore, manufacturers in Japan, retailers in Europe, and government agencies in Africa.

Integration has long been India’s comparative advantage. Indian engineers have usually succeeded by improving existing computing paradigms. Their expertise lies in deploying technology at scale, adapting global software to local requirements, and integrating complex systems across organizations.

Artificial intelligence may therefore increase — not reduce — the demand for precisely these capabilities. Instead of supplying inexpensive programming labor, India’s IT industry could increasingly provide something more valuable: AI implementation expertise.

Quiet turn toward China

A second transformation is unfolding, one that receives far less attention.

Over the past decade, India’s manufacturing sector has become deeply intertwined with Chinese technology. Smartphones, industrial machinery, batteries, renewable-energy equipment, and countless electronic components increasingly originate in Chinese supply chains despite continuing geopolitical tensions.

AI may follow a similar trajectory.

While American companies continue to dominate proprietary frontier models, Chinese firms have adopted a different strategy: releasing increasingly capable open-weight models that anyone can download, modify, and deploy on their own infrastructure.

Former Google Brain co-founder and Baidu chief scientist Andrew Ng has argued that this strategy is rapidly expanding China’s influence because it allows developers worldwide to build on Chinese AI without relying on commercial APIs or recurring licensing fees.

This distinction may prove more important than many observers realize.

A proprietary model remains under the control of its creator. Access can be restricted, prices can change, and export controls may determine who can use it. An open-weight model, once downloaded, becomes part of a country’s own technological infrastructure. It can be customized, fine-tuned, and deployed independently.

For India, the decision is less a geopolitical choice than an economic one.

Why open weights matter

Open-weight models complement India’s comparative advantage remarkably well.

India does not need to build the world’s most powerful foundation model to create enormous economic value. The software industry excels at adapting technology to specific industries and customers.

Banks require different AI systems from hospitals. Manufacturers have different requirements from insurance companies. Governments have different needs than retailers. India’s decades of experience in customizing enterprise software naturally translate to customizing artificial intelligence.

The economics are equally compelling. Rather than paying recurring fees for proprietary AI services, Indian companies can deploy open models on local infrastructure, train them on industry-specific data, and tailor them to local languages and regulations. Value shifts away from inventing the underlying model toward implementing it effectively.

This transition echoes India’s earlier success in software services. During the outsourcing revolution, India did not invent the personal computer, enterprise software, or the internet. It became indispensable by helping organizations around the world use them more effectively. AI may reward the same capabilities.

New global division of labor

The first wave of globalization separated design from manufacturing. The AI era may separate model creation from model deployment. A new international division of labor is beginning to emerge.

The emerging AI economy may be less about who wins than about who contributes what.

The framework is, of course, simplified. Every major economy participates across the AI value chain. Yet broad specialization is becoming increasingly visible.

The United States remains the center of frontier AI research. China is embedding AI into logistics, manufacturing, finance, transportation, healthcare and urban infrastructure while simultaneously promoting open-weight ecosystems.

India occupies a unique position between them. Its vast software engineering workforce, decades of enterprise experience, and global customer relationships make it an ideal bridge between foundation models and real-world deployment.

Put simply, America invents. China scales. India integrates.

Translating AI tools practically

None of these factors suggests an easy transition.

Routine programming, software maintenance, documentation, and testing are already becoming increasingly automated. India’s universities, corporate training programs and labor market will need to adapt quickly to changing demands.

But technological revolutions rarely eliminate industries. Rather, they reorganize them.

For India, the challenge is not to compete directly with Silicon Valley in frontier model development or with China in AI-enabled infrastructure. Its opportunity lies elsewhere: becoming the country that translates increasingly powerful AI into practical tools for governments, businesses, hospitals, factories and financial institutions around the world.

Realizing the future will require a new generation of engineers whose expertise extends beyond programming to the integration of AI into the complex realities of business, government and society.

For three decades, India was the world’s back office. In the AI age, it may become even more valuable: the world’s AI workshop — not by building every breakthrough model, but by helping the rest of the world put AI to work.

A more diverse AI ecosystem could benefit not only India but the world. An international division of labor — where different countries specialize in frontier research, infrastructure, and implementation — is likely to prove more innovative and more resilient than one dominated by any single nation.

The Pentagon’s Space Development Agency hasn’t moved as fast as anyone would like

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The Pentagon’s Space Development Agency hasn’t moved as fast as anyone would like

The Space Development Agency was established in 2019 to help speed up the deployment of US military space systems by sidestepping the Pentagon’s traditional sluggish bureaucracy.

Seven years later, SDA is finally launching its first batches of operational satellites, just as the Pentagon plans to shutter the semi-autonomous agency and fold it back into the Space Force’s procurement pipeline, newly reorganized under several program acquisition executives in a bid to streamline weapons buying.

SDA’s fate is not a surprise, and lawmakers in both houses of Congress have backed the agency’s closure in drafts of this year’s National Defense Authorization Act.

The Space Development Agency’s primary mission has been to develop a constellation of several hundred missile warning and data relay satellites in low-Earth orbit designed to detect, track, and target ballistic and hypersonic missiles. The military calls the constellation the Proliferated Warfighter Space Architecture (PWSA). The Pentagon currently has a small fleet of legacy missile warning satellites in much higher geosynchronous orbits. These satellites are expensive and vulnerable to attack, and their distance from Earth makes them less sensitive to smaller, dimmer missiles.

The idea was to rapidly procure, develop, and field new generations, or tranches, of tracking and data “transport” satellites every two years. SDA’s strategy was to cast a wide net across the US space industry, using satellites and sensors developed by many companies. Launches of SDA’s new satellites were supposed to occur at a cadence of about once per month.

Rough waters

Much of SDA’s mission will continue under a different banner within the US Space Force. The missile-warning and data-relay satellites will eventually be part of the Pentagon’s planned Golden Dome missile shield, one of the Trump administration’s top priorities for the Space Force.

The capabilities foreseen for SDA’s satellite constellation predate President Trump’s announcement of Golden Dome last year, and are far less controversial than the White House’s push to include space-based weapons as part of the missile shield.

SDA’s history has been marred by schedule delays, production and supply chain bottlenecks, and technical issues with the organization’s first batches of operational data relay satellites after their launch last year. The purpose of the data relay, or “transport,” satellites is to receive tracking data from SDA’s missile-warning satellites via inter-satellite laser communication links and relay the information to the ground for action.

SDA started launching prototype tracking and data transport satellites in 2023 and launched its first two batches of transport satellites last year. The third group of data transport satellites launched Thursday on a SpaceX Falcon 9 rocket from Vandenberg Space Force Base, California, bringing the total number of transport satellites launched in Tranche 1 to 63.

“This launch continues to expand warfighting capability to deliver persistent tactical satellite communication for the warning and tracking of advanced missile threats,” said Gurpartap “GP” Sandhoo, director of the Space Development Agency, in a statement. Sandhoo also serves as the Space Force’s portfolio acquisition executive for missile warning and tracking, which would keep him in charge of much of the SDA’s mission after the agency’s dissolution.

“The deployment of Tranche 1’s proliferated capability will soon deliver continuous overwatch—neutralizing any first-mover advantage by delivering data to warfighters around the world, nearly instantaneously,” Sandhoo said.

Thursday’s launch marked the resumption of SDA satellite deployments after standing down for nine months due to issues with the spacecraft on the first two Tranche 1 launches last September and October. Those launches were successful, but ground teams ran into problems activating and commissioning satellites made by York Space Systems and Lockheed Martin.

Sandhoo identified several issues with the first Tranche 1 satellites during a roundtable with reporters before this week’s launch. Ground controllers lacked sufficient ground station coverage to communicate with the satellites after last year’s launches. Some of the satellites encountered thermal control and propulsion system problems as they climbed from their insertion orbit to an operational altitude of more than 600 miles (1,000 kilometers), significantly higher than SpaceX’s Starlink Internet network, Sandhoo said.

“We are in a pretty harsh radiation environment at 1,000 kilometers, so not all of our orbit raising has gone according to plan,” he said. “It has been sporadic. We’re working through it.” Sandhoo is optimistic that ground teams will eventually declare most of the satellites ready for operations, but it’s taking longer than expected.

The Space Development Agency’s “Tranche 1” architecture includes 154 operational satellites, 126 for data relay and 28 for missile tracking. With this illustration, the SDA does its best to show how it’s supposed to work.

The Space Development Agency’s “Tranche 1” architecture includes 154 operational satellites, 126 for data relay and 28 for missile tracking. With this illustration, the SDA does its best to show how it’s supposed to work. Credit: Space Development Agency

Getting it right

SDA and its contractors “took a pause” after last year’s launches to “make sure we fixed at least the known issues,” Sandhoo said. “We expect this launch to be a lot smoother than the last one.”

Thursday’s launch was the second SDA launch of York’s data transport satellites, and the third for Tranche 1 overall. Seven more launches will complete Tranche with 63 additional data transport satellites and 28 missile tracking satellites manufactured by Lockheed Martin, Northrop Grumman, and L3Harris. None of the Tranche 1 tracking satellites have launched yet.

Sandhoo said the schedule for the next series of SDA satellites is “still constrained” by the availability of optical communication terminals, the laser transmitters and receivers needed to connect the transport and tracking satellites into one integrated mesh network.

While SDA officials declined to say when the next few launches might occur, the agency said the Tranche 1 satellites will “provide initial warfighting capability beginning in 2027. Sandhoo said the agency is no longer focused on achieving a monthly launch cadence. It’s more important, he said, to make sure SDA’s satellites launch when they are ready. “The goal is to get operational as quickly as possible once you get in orbit,” he said.

If all the Tranche 1 satellites had launched as originally scheduled, the constellation’s enhanced missile warning capability might have been available to military commanders today. That might have proven useful for US and allied forces to counter Iranian ballistic missiles launched during the current war in the Middle East.

“That’s what I think the nation needs right now, to face the threat that we are in,” Sandhoo said. “If you see what’s going on, I wish we were on orbit and supporting this mission right now because, literally, missiles are being launched at the joint force every single day in [Operation] Epic Fury.

“We are where we are,” Sandhoo said. “But we are doing everything we can to solve these technical challenges to get these systems on orbit, so we can deliver these capabilities.”

In all, SDA’s Tranche 1 constellation will number 154 operational satellites when complete. Tranche 2, set to begin launching next year, will include more than 250 transport and tracking satellites supplied by six manufacturers. SDA has ordered 108 satellites in the Tranche 3 tracking layer due to start launching in 2028.

The transport layer will end after Tranche 3. It will be superseded by the Space Force’s Space Network. The Space Force announced in May that it selected SpaceX to build the SDN “backbone” using technology originally developed for SpaceX’s Starlink broadband constellation. SDA’s transport satellites will fold into the Space Data Network to work alongside SpaceX’s satellites, Sandhoo said.

Wildfire smoke threatens the World Cup final. FIFA still doesn’t have a plan.

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Wildfire smoke threatens the World Cup final. FIFA still doesn’t have a plan.

The biggest game in soccer is set for Sunday, when Argentina and Spain will meet in the World Cup final, held just outside of New York City. There’s just one problem — wildfire smoke now threatens the match and FIFA, the sport’s governing body, doesn’t appear to have any plan in place to protect player or fan health. 

Wildfire smoke blowing from Canada has blanketed large swaths of the Midwest and East Coast in recent days, impacting more than a dozen states, with some of the worst-hit cities facing air quality in ranges considered hazardous. New Yorkers are among those who have been watching their air turn orange and hazy this week. On Thursday, the state issued an alert as the air quality index climbed to “unhealthy” andvery unhealthy” levels. “Avoid spending time outdoors, if possible,” officials advised.

As of Friday morning, air quality near the stadium remained in the unhealthy range, and while it’s forecast to improve to “’moderate”’ by Sunday’s kick off, smoke patterns could still change. If concerns continue during the finals, there’s no way to close off the open-air stadium where stars Lionel Messi and Lamine Yamal are slated to square off. That means fans and players would almost certainly be exposed to smoke, which could lead to symptoms such as a burning throat, coughing, or headache, among others. This can be particularly dangerous for sensitive groups, including children, older individuals, and people with respiratory conditions such as asthma. 

Players have also practiced outdoors during air quality events in the lead up to the game — the Spanish team held a practice Thursday in New Jersey. “These are high-level athletes who are moving a lot of air through their lungs,” Dr. Courtney Howard, an emergency room physician and Global Climate and Health Alliance official told the Associated Press. “They shouldn’t be practicing outside if the air quality levels are at hazardous sort of ranges for wildfire-related air pollution.”

World Cup organizer FIFA does not appear to have any contingency plans in place for wildfire smoke. Neither FIFA nor New York City Department of Health officials immediately responded to Grist’s request for comment. In a previous statement to Grist, FIFA detailed extensive protocols related to extreme heat, including mandatory water breaks for players, but didn’t mention air quality. 

“Climate-related risks,” the organization wrote last month, “are assessed as part of overall tournament planning and managed in close coordination with host cities, stadium authorities, and national agencies.” 

Unlike FIFA, a number of other leagues implement standardized adjustments triggered by air quality warnings. Per National Women’s Soccer League policy, for instance, a women’s soccer game at Citi Field in New York on Thursday had additional hydration breaks for safety. NWSL policy adds hydration breaks at an air quality index of 101 (“unhealthy for sensitive groups”) and cancels or postpones games when the AQI tops 200 (“very unhealthy”). Major League Baseball rescheduled one game this week in Philadelphia, and Major League Soccer canceled a game in Chicago due to smoke.

The World Cup is in its fifth and final week, and despite the games taking place across multiple wildfire-prone regions, so far FIFA’s bet that the air would stay clear has paid off. They may get lucky again this weekend, says Nicholas Watanabe, a professor of sport and entertainment management at the University of South Carolina, but that doesn’t excuse not being ready.

“FIFA seems unprepared for these wildfires,” said Watanabe. “At the same time, it looks like the worst of the pollution will dissipate before the World Cup Final, so FIFA will dodge a bullet and likely push forward with the match.”

Some, however, question whether enough is being done, both by FIFA and other outdoor sports leagues facing these and other climate threats. FIFA has already been criticized this year for its policies regarding extreme heat.”If we have to have a hydration break every 15 minutes, then we shouldn’t be playing the game,” said Trinity Rodman, who played in the smoke-affected NWSL soccer game in New York. 

One professional cyclist recently questioned whether the Tour de France should be held in the summer, as this year’s iteration of the iconic event has been plagued by wildfires, smoke, and extreme heat. “I would change the whole calendar,” said yellow jersey holder Tadej Pogačar earlier this month. “It’s not something I can do.”

The power to make changes generally rests with a sport’s governing body, rather than athletes, and Watanabe thinks climate issues should be taken more seriously. Even if the World Cup final is spared any impacts, he said this close call should serve as a warning.

“Hopefully,” he said, “this is a wake up call to FIFA and all other sport leagues and competitions of the need for regulations and a comprehensive plan to deal with climate risks.”


Iran strikes eastern Syria, in first such attack during current war

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Iran strikes eastern Syria, in first such attack during current war


Iran struck eastern Syria on Friday, Iranian state media ​and a Syrian military source said, in the first ‌known attack by Tehran on Syrian territory since a regional war erupted earlier this year.

Iran’s Revolutionary Guards said they had attacked a U.S. special operations ​command centre at al-Tanf in Syria in retaliation for the ​killing of Iranian soldiers in Iranshahr, state media reported.

Reuters ⁠could not independently verify the claim. A Syrian military source told Reuters ​that Iran had carried out an attack near Tanf but that ​it had not hit the base itself. The source said there were no casualties or material damage.

The U.S. military said in February it had completed a withdrawal from ​the al-Tanf base positioned at the tri-border confluence of Syria, Jordan ​and Iraq.

Syria has sought to avoid being drawn into the regional conflict that has ‌engulfed ⁠neighbouring countries, including Lebanon, where Hezbollah has fought Israeli forces, and Iraq, where Iran-backed armed groups have launched drone and rocket attacks.

Syrian President Ahmed al-Sharaa said in March that his country would stay out ​of any conflict ​unless it ⁠came under attack.

“Unless Syria is targeted by any party, Syria will remain outside any conflict,” Sharaa said ​at an event hosted by the Chatham House ​think tank ⁠in London.

The Guards also said Iran retained full control of the Strait of Hormuz and that no oil or gas would be exported ⁠through ​the waterway for as long as ​U.S. attacks continued, according to the state media report.

Source:  Reuters

Damascus Calls Hezbollah ‘Terrorist Militia,’ Partners With Iraq To Stop Arms Smuggling

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Damascus Calls Hezbollah ‘Terrorist Militia,’ Partners With Iraq To Stop Arms Smuggling


Hezbollah played a central role in supporting Assad’s government after openly entering the Syrian conflict in 2013, deploying thousands of fighters across multiple battlefronts 

[DAMASCUS] Syria’s Interior Ministry said Tuesday it had foiled an alleged attempt to smuggle a shipment of advanced weapons through Syrian territory to Hezbollah, while publicly describing the Lebanese group as a “terrorist militia” in what analysts say marks a significant shift in the new government’s official rhetoric.

The ministry said specialized security units intercepted a suspicious vehicle near the Syrian-Iraqi border and discovered a cache of long-range missiles, guided anti-tank missiles and drones.

Drones displayed by Syria’s Interior Ministry after authorities said they were seized during an operation that foiled an alleged cross-border weapons smuggling attempt near the al-Tanf border crossing with Iraq, July 16, 2026. (Syrian Interior Ministry)

According to the ministry, preliminary investigations indicate that the shipment was intended to transit Syria en route to Lebanon for Hezbollah. Officials said the investigation remains ongoing to identify those responsible and dismantle the broader network allegedly involved in the operation.

A Syrian Interior Ministry source told The Media Line that the seizure was “an exceptional and highly significant operation,” adding that Damascus would share all available evidence with Iraqi authorities as part of a joint effort to pursue everyone connected to the alleged smuggling network.

The investigation treats this as a cross-border network rather than an isolated incident

“The investigation treats this as a cross-border network rather than an isolated incident,” the source said, adding that coordination with Baghdad would focus on tracing the shipment’s route and identifying all parties involved.

New details obtained by The Media Line from Mazen Alloush, director of public relations at Syria’s General Authority for Land and Sea Border Crossings, indicate that the weapons were concealed inside an oil tanker officially registered as transporting black fuel oil.

According to Alloush, Iraqi customs authorities sealed the tanker after processing it as a routine fuel shipment and attached instructions prohibiting inspectors from opening it until it reached its designated destination, citing delivery procedures.

A member of Syria’s Interior Ministry holds a drone that authorities said was part of an alleged weapons shipment intercepted near the Syrian-Iraqi border, July 16, 2026. (Syrian Interior Ministry)

The tanker departed Iraq approximately nine days earlier, after completing all customs formalities, and joined convoys transporting Iraqi fuel to Syria’s Baniyas refinery via the al-Tanf border crossing as part of an existing oil transport arrangement between the two countries.

Alloush said the shipment included large quantities of missiles and drones carefully hidden inside the tanker. He explained that the concealment method allowed the vehicle to pass multiple inspection points because specialized equipment capable of scanning liquid tankers remains limited, while the weapons had been wrapped in insulating materials and submerged beneath black fuel oil, making them difficult for police dogs to detect.

The shipment was discovered only after reaching the Syrian side of the border, where inspectors uncovered what Alloush described as a sophisticated concealment operation designed to evade customs inspections.

The al-Tanf crossing has long been considered one of the most sensitive border crossings between Syria and Iraq, serving for years as a corridor exploited by smuggling networks during Syria’s civil war. Syrian authorities say border security has been significantly tightened since the country’s new administration assumed power.

Members of Syria’s Interior Ministry display one of the missiles seized during an operation targeting an alleged cross-border weapons smuggling network near al-Tanf, July 16, 2026. (Syrian Interior Ministry)

The Interior Ministry said protecting Syria’s borders and national sovereignty remains a top priority and pledged that Syrian territory would not be used as a transit route for weapons trafficking or activities threatening Syria or neighboring countries.

In a subsequent statement, Hezbollah rejected the Syrian allegations, dismissing them as “fabricated claims with no basis in fact” that were intended to damage the group’s reputation.

Iraq responded by announcing the formation of a high-level investigative committee composed of security and technical officials to examine the incident.

In a statement, Iraq’s Security Media Cell said the committee would coordinate with Syrian authorities to establish the full circumstances surrounding the case and hold any negligent parties accountable “to safeguard the security and stability of the shared border and prevent any attempts to undermine national security.”

The announcement comes as Baghdad and Damascus seek to deepen security cooperation along their roughly 600-kilometer (370-mile) shared border, an area long exploited by cross-border smuggling networks amid years of conflict and weak state control.

For many observers, however, the most consequential aspect of the case extends beyond the weapons seizure itself.

Daoud al-Sayed, a Syrian researcher specializing in political science and international relations, said the Interior Ministry’s decision to publicly describe Hezbollah as a “terrorist militia” represents a significant departure from the rhetoric maintained under former President Bashar Assad, when the Lebanese group was regarded as one of Damascus’ closest military allies.

Last month, President Trump said he spoke with al-Sharaa at the G-7 conference, and that the two leaders discussed the possibility of Syria taking an active role in combatting Hezbollah.

The new Syrian administration has consistently emphasized that relations with Lebanon should be conducted through state institutions rather than armed groups

“The new Syrian administration has consistently emphasized that relations with Lebanon should be conducted through state institutions rather than armed groups,” al-Sayed told The Media Line. “The ministry’s statement reflects that policy.”

He argued that the alleged smuggling operation prompted Damascus to publicly define its position toward Hezbollah more explicitly than at any point since the new government took office.

“If this rhetoric is followed by additional security and political measures,” he said, “it could signal a broader restructuring of Syria’s policy toward non-state armed groups and a new framework governing relations with Lebanon and border security.”

Members of Syria’s Interior Ministry carry missiles and other weapons that authorities said were confiscated during an operation near the al-Tanf border crossing, July 16, 2026. (Syrian Interior Ministry)

Hezbollah played a central role in supporting Assad’s government after openly entering the Syrian conflict in 2013, deploying thousands of fighters across multiple battlefronts. Since the collapse of the former government and the establishment of Syria’s new administration, officials have repeatedly stated that all weapons inside the country should fall exclusively under state authority.

Against that backdrop, analysts say the Interior Ministry’s decision to officially label Hezbollah a “terrorist militia” marks a notable shift in Syria’s public discourse, suggesting that Damascus may be redefining its security and political relationship with the group.

The weapons seizure also forms part of a broader campaign launched by Syria’s new authorities to tighten border security and dismantle networks involved in arms and narcotics trafficking after years of conflict that left large stretches of the country’s frontiers vulnerable to organized smuggling.

Whether the investigation ultimately exposes a wider regional network remains unclear. But the joint Syrian-Iraqi inquiry is expected to determine not only who organized the alleged shipment, but also whether additional actors were involved in moving weapons across one of the region’s most sensitive borders.

For Syria’s new leadership, the outcome may prove to be more than a criminal investigation. It could become an early test of its stated commitment to reassert state authority, redefine relations with armed non-state actors, and demonstrate that Syrian territory will no longer serve as a corridor for regional weapons trafficking.

Troubling new details emerge on diabetes ouster controversy

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Troubling new details emerge on diabetes ouster controversy

Last month, we reported on a troubling incident at the annual meeting of the American Diabetes Association (ADA) in New Orleans. On June 5, five leading scientists were ousted for handing out copies of an editorial, published in the journal Diabetes Care (an ADA journal) in April, sharply criticizing the Trump administration’s ongoing attacks on scientific research. There was a public outcry and (eventually) a personal apology from the ADA’s CEO for the heavy-handed response, but it seems the organization has not yet learned its lesson.

The deputy editors of Diabetes Care have posted an editorial and seven accompanying opinion articles to a preprint server—handily contained in a single PDF file—that they say the ADA has refused to publish. Several troubling new details are included in the articles, including an accusation that ADA leadership knew in advance that members would be handing out copies of the editorial and deliberately set up an ambush by venue security and local police. That decision, in turn, might be due to a simmering tensions connected to a session organized the year before.

ADA leadership was provided with the articles in advance of publication with an invitation to simultaneously publish their response.

“The ADA’s response was to refuse to publish these articles,” the deputy editors wrote. “We are speaking out because it is unusual and unacceptable for a medical society to work at cross purposes with its members and its editors. The ADA has already tried to restrict editorial freedom once before related to our raising awareness of what is happening in Washington, DC, and, in particular, with the dismantling of the National Institutes of Health. … A wrong occurred in New Orleans that the ADA has not addressed. There remain open questions surrounding the events of June 5th. It is because we wish to heal and come together following this difficult situation that we believe it is important that these articles be read and these voices heard.”

It’s a complicated story, so it’s worth recapping what’s occurred so far, followed by the most relevant details from the newly published articles.

The New Orleans Five controversy

The five ousted scientists included Steven Kahn, professor of medicine at the University of Washington, who is the editor-in-chief of Diabetes Care and a co-author of the editorial. It also included former ADA President Desmond Schatz of the University of Florida, Aaron Kelly, pediatrics professor at the University of Minnesota; Justin Ryder of Northwestern University; Irl Hirsch, also of the University of Washington; and Maureen Gannon of Vanderbilt University Medical Center.

The scientists were distributing the editorial outside the conference’s opening speech, which was originally scheduled to be given by Jay Bhattacharya, head of the National Institutes of Health under Trump. Bhattacharya canceled at the last minute, and senior NIH official Rick Woychik took his place.

Within minutes of handing out the editorial, police reportedly escorted the scientists out of the conference in New Orleans. The police reportedly shoved at least one scientist, took all of their conference badges, and threatened to arrest them if they tried to return. Louisiana State Police later told media that they acted at the request of the ADA. The ADA subsequently barred the five scientists from the rest of the conference.

Kahn had been slated to chair a symposium. John Buse of the University of North Carolina School of Medicine in Chapel Hill took his place, explaining the situation to attendees in remarks critical of the ADA’s actions. “The applause was deafening, not for the speech, but for Steven and standing up for science,” Buse wrote in his preprint article, which included a draft of those remarks.

Backlash to the ADA’s actions spread rapidly on Twitter/X and BlueSky and sharply increased the number of page views for the April editorial. Several ADA leaders have resigned, and a fiery letter signed by more than 40 ADA officials blasted the decision as “outrageous” and the justifications as “unpersuasive” and “fatuous nonsense,” stating that the community was “overwhelmingly repulsed by the way this unfortunate event has occurred and been excused and justified by the Association leadership.” The officials demanded “an immediate and unconditional public apology,” as well as a review of the incident. An open letter to the ADA, titled “Shame on You,” similarly called for an apology. It has gathered over 7,500 signatures at the time of this publication.

At first, the ADA tried to justify its decision. A media team initially told MedPage Today that the five scientists had violated the conference code of conduct. In an email to ADA members that Saturday, the association said the scientists were removed because they didn’t have prior approval to distribute material at the conference and that it was “not because of the viewpoints expressed in those materials,” according to reporting from Science.

In a statement Sunday, the organization, which is a nonprofit, said it removed the scientists because it was complying with federal regulations for 501(c)(3) nonprofits, which require “maintaining a strictly nonpartisan environment at all organizational events and functions while engaging across party affiliations to advance our mission.” However, the federal regulations do not restrict leaders of organizations from sharing political views in a personal capacity or from speaking on important public policy issues.

After several days of controversy and much negative media coverage, ADA CEO Charles Henderson posted a video statement apologizing for the organization’s decision. “What transpired is not reflective of who I am, the values I hold, or the way I was raised,” Henderson said. “I will work hard to bring our community back together to build on the progress we have collectively made for those affected by diabetes.” Henderson also said that the ADA would commission a “thorough independent review of the events that occurred as well as the policies, procedures, and decision-making process that guided our actions.”

Troubling new details

That should have settled the matter, but in their article, the original New Orleans Five claim that little has happened in the month since the incident: no meeting with the ADA leadership, no official apology (beyond Henderson’s video), and no exoneration. There have been no corrective actions, no resignations of the ADA staff who were involved—and no identification of the person(s) responsible for the decision to forcibly remove the scientists in the first place.

The five are requesting the promised thorough investigation, the establishment of a formal process to identify professional membership concerns, and greater visibility in its patient advocacy and advocacy for research funding. That includes standing behind its journal editors and their publication decisions. “Any disclaimers need to be removed from the published editorials,” they wrote.

Per deputy editors Elizabeth Selvin and Cheryl A.M. Anderson, the roots of the current conflict date back to a 90-minute 2025 session they organized on the topic, “How Do We Fix a Broken Health Care System?” Among the panelists was Washington state congresswoman Kim Schrier, a pediatrician who also has Type 1 diabetes. Months prior, ADA leadership had objected that the session was “unbalanced” and asked that “a congressperson from across the aisle” be invited as well as other speakers who could provide “opposing views.” Since this was impractical, the ADA approved the original session but did not advertise it.

In their article, Selvin and Anderson insisted that the session was not partisan in nature. They said that Schrier’s comments focused on a video of congressional testimonies, her own experiences with Type 1 diabetes, her bipartisan work to reduce drug costs and with the Congressional Diabetes Caucus, and a warning of the likely harm NIH funding cuts would have on diabetes research. Selvin and Anderson also said that, in the wake of the June 5 ousters, ADA leadership canceled the scheduled annual in-person meetings with the Diabetes Care editorial board and associate editors—“the only opportunity we have all year to connect face-to-face with the full editorial team.”

“Now, with a public relations crisis firm in tow, the ADA has emailed advocacy messages opposing federal policies and is taking strong stances on proposed changes that would be harmful to diabetes patients and research,” Selvin and Anderson wrote in their article. “These are the very things we have been writing about in the journal. The irony is not lost on us.”

Mark Atkinson, chair of the Scientific Sessions Meeting Planning Committee, penned another opinion piece detailing his reasons for resigning from that position in the wake of the June 5 events. (The ADA president-elect also resigned but has not said anything about her reasons.) Atkinson was among the signatories of the June 6 ADA letter—except he says he never agreed to sign onto the text that was ultimately sent out. He was involved in face-to-face discussions in which he argued that an apology, and not just a defense of the ADA’s decisions, was necessary.

Atkinson had to leave the meeting early, assuming that he would have a chance to review any final version before it was sent out. Instead, “a substantially different letter was released, bearing my name and that of the ADA’s chief executive officer,” he wrote. “Had I been given the opportunity, I would not have agreed to have my name associated with it. I realized that remaining as chair… would imply confidence in a process that I no longer had confidence in.” He called his resignation “among the most difficult professional decisions I have ever made,” adding, “I do not regret resigning. I regret the circumstances that made my resignation necessary.”

A deliberate ambush?

The most serious allegation in the preprint comes from Buse, who claims that he now believes that “the ADA actions were a premeditated attack on Steven Kahn and other attendees” that present “an existential threat to the ADA.”

The New Orleans Five wrote in their piece that the ADA leadership was aware that people would be handing out the editorial at the conference. Desmond Schatz even texted Chief Scientific and Medical Officer Rita Kalyani before the meeting, advising that she call Kahn and let him know where he could and could not hand out copies, adding that the activity “should not in any way be disruptive.” Kalyani responded that she was on a plane and would find out those details once she landed.

Kalyani never followed up, so the five stuck with their original plan to hand out copies to those entering the hall for the keynote, leading to their ouster. But as Kahn, Kelly, Ryder, and Schatz were being removed, a police officer asked the head of conference security whether “that was sufficient.” The security officer said he needed “one more badge,” and directed them to remove Gannon, who had been part of a group of women handing out flyers (which by then had been confiscated). Gannon asked if they could speak to ADA leadership to clear up any misunderstanding. The head of security said this was what “the client” (i.e., ADA) had told them to do.

“It was an ambush,” Buse wrote. “ADA leadership knew exactly what was going to happen and when. They could have contacted Steven and tried to come to some accommodation. Instead they set in place armed law enforcement officers to disrupt the activity, apparently with a quota for the number of people to be hustled out of the meeting. The ADA actions are not dissimilar in nature to the efforts of our federal government to quell protests—force against people exercising constitutional rights as an act of both retribution and a display of power. We are lucky this event did not have even greater consequences.”

Despite his clear indignation, Buse ended his editorial on a note of hope that ADA leadership would apologize for their actions and “people will be held to account,” he wrote. “Processes to ensure our rights as members of the ADA will be restored. The ADA will stand up for science. But the opportunity will come from an awakening of the spirit of the science and medicine community who founded this organization 85 years ago and the struggle that will emerge. With new focus, the ADA can emerge stronger. That will require a reworking of governance and engagement to align strategy with mission.”

Zenodo, 2026. DOI: 10.5281/zenodo.21300053 (About DOIs).

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