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Wednesday, September 30, 2020

As AI chips improve, is TOPS the best way to measure their power? - VentureBeat

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Once in a while, a young company will claim it has more experience than would be logical — a just-opened law firm might tout 60 years of legal experience, but actually consist of three people who have each practiced law for 20 years. The number “60” catches your eye and summarizes something, yet might leave you wondering whether to prefer one lawyer with 60 years of experience. There’s actually no universally correct answer; your choice should be based on the type of services you’re looking for. A single lawyer might be superb at certain tasks and not great at others, while three lawyers with solid experience could canvas a wider collection of subjects.

If you understand that example, you also understand the challenge of evaluating AI chip performance using “TOPS,” a metric that means trillions of operations per second, or “tera operations per second.” Over the past few years, mobile and laptop chips have grown to include dedicated AI processors, typically measured by TOPS as an abstract measure of capability. Apple’s A14 Bionic brings 11 TOPS of “machine learning performance” to the new iPad Air tablet, while Qualcomm’s smartphone-ready Snapdragon 865 claims a faster AI processing speed of 15 TOPS.

But whether you’re an executive considering the purchase of new AI-capable computers for an enterprise or an end user hoping to understand just how much power your next phone will have, you’re probably wondering what these TOPS numbers really mean. To demystify the concept and put it in some perspective, let’s take a high-level look at the concept of TOPS, as well as some examples of how companies are marketing chips using this metric.

TOPS, explained

Though some people dislike the use of abstract performance metrics when evaluating computing capabilities, customers tend to prefer simple, seemingly understandable distillations to the alternative, and perhaps rightfully so. TOPS is a classic example of a simplifying metric: It tells you in a single number how many computing operations an AI chip can handle in one second — in other words, how many basic math problems a chip can solve in that very short period of time. While TOPS doesn’t differentiate between the types or quality of operations a chip can process, if one AI chip offers 5 TOPS and another offers 10 TOPS, you might correctly assume that the second is twice as fast as the first.

Yes, holding all else equal, a chip that does twice as much in one second as last year’s version could be a big leap forward. As AI chips blossom and mature, the year-to-year AI processing improvement may even be as much as nine times, not just two. But from chip to chip, there may be multiple processing cores tackling AI tasks, as well as differences in the types of operations and tasks certain chips specialize in. One company’s solution might be optimized for common computer vision tasks, or able to compress deep learning models, giving it an edge over less purpose-specific rivals; another may just be solid across the board, regardless of what’s thrown at it. Just like the law firm example above, distilling everything down to one number removes the nuance of how that number was arrived at, potentially distracting customers from specializations that make a big difference to developers.

Simple measures like TOPS have their appeal, but over time, they tend to lose whatever meaning and marketing appeal they might initially have had. Video game consoles were once measured by “bits” until the Atari Jaguar arrived as the first “64-bit” console, demonstrating the foolishness of focusing on a single metric when total system performance was more important. Sony’s “32-bit” PlayStation ultimately outsold the Jaguar by a 400:1 ratio, and Nintendo’s 64-bit console by a 3:1 ratio, all but ending reliance on bits as a proxy for capability. Megahertz and gigahertz, the classic measures of CPU speeds, have similarly become less relevant in determining overall computer performance in recent years.

Apple on TOPS

Apple has tried to reduce its use of abstract numeric performance metrics over the years: Try as you might, you won’t find references on Apple’s website to the gigahertz speeds of its A13 Bionic or A14 Bionic chips, nor the specific capacities of its iPhone batteries — at most, it will describe the A14’s processing performance as “mind-blowing,” and offer examples of the number of hours one can expect from various battery usage scenarios. But as interest in AI-powered applications has grown, Apple has atypically called attention to how many trillion operations its latest AI chips can process in a second, even if you have to hunt a little to find the details.

Apple’s just-introduced A14 Bionic chip will power the 2020 iPad Air, as well as multiple iPhone 12 models slated for announcement next month. At this point, Apple hasn’t said a lot about the A14 Bionic’s performance, beyond to note that it enables the iPad Air to be faster than its predecessor and has more transistors inside. But it offered several details about the A14’s “next-generation 16-core Neural Engine,” a dedicated AI chip with 11 TOPS of processing performance — a “2x increase in machine learning performance” over the A13 Bionic, which has an 8-core Neural Engine with 5 TOPS.

Previously, Apple noted that the A13’s Neural Engine was dedicated to machine learning, assisted by two machine learning accelerators on the CPU, plus a Machine Learning Controller to automatically balance efficiency and performance. Depending on the task and current system-wide allocation of resources, the Controller can dynamically assign machine learning operations to the CPU, GPU, or Neural Engine, so AI tasks get done as quickly as possible by whatever processor and cores are available.

Some confusion comes in when you notice that Apple is also claiming a 10x improvement in calculation speeds between the A14 and A12. That appears to be referring specifically to the machine learning accelerators on the CPU, which might be the primary processor of unspecified tasks or the secondary processor when the Neural Engine or GPU are otherwise occupied. Apple doesn’t break down exactly how the A14 routes specific AI/ML tasks, presumably because it doesn’t think most users care to know the details.

Qualcomm on TOPS

Apple’s “tell them only a little more than they need to know” approach contrasts mightily with Qualcomm’s, which generally requires both engineering expertise and an atypically long attention span to digest. When Qualcomm talks about a new flagship-class Snapdragon chipset, it’s open about the fact that it distributes various AI tasks to multiple specialized processors, but provides a TOPS figure as a simple summary metric. For the smartphone-focused Snapdragon 865, that AI number is 15 TOPS, while its new second-generation Snapdragon 8cx laptop chip promises 9 TOPS of AI performance.

The confusion comes in when you try to figure out how exactly Qualcomm comes up with those numbers. Like prior Snapdragon chips, the 865 includes a “Qualcomm AI Engine” that aggregates AI performance across multiple processors ranging from the Kryo CPU and Adreno GPU to a Hexagon digital signal processor (DSP). Qualcomm’s latest AI Engine is “fifth-generation,” including an Adreno 650 GPU promising 2x higher TOPS for AI than the prior generation, plus new AI mixed precision instructions, and a Hexagon 698 DSP claiming 4x higher TOPS and a compression feature that reduces the bandwidth required by deep learning models. It appears that Qualcomm is adding the separate chips’ numbers together to arrive at its 15 TOPS total; you can decide whether you prefer getting multiple diamonds with a large total karat weight or one diamond with a similar but slightly lower weight.

If those details weren’t enough to get your head spinning, Qualcomm also notes that the Hexagon 698 includes AI-boosting features such as tensor, scalar, and vector acceleration, as well as the Sensing Hub, an always-on processor that draws minimal power while awaiting either camera or voice activation. These AI features aren’t necessarily exclusive to Snapdragons, but the company tends to spotlight them in ways Apple does not, and its software partners — including Google and Microsoft — aren’t afraid to use the hardware to push the edge of what AI-powered mobile devices can do. While Microsoft might want to use AI features to improve a laptop’s or tablet’s user authentication, Google might rely on an AI-powered camera to let a phone self-detect whether it’s in a car, office, or movie theater and adjust its behaviors accordingly.

Though the new Snapdragon 8cx has fewer TOPS than the 865 — 9 TOPS, compared with the less expensive Snapdragon 8c (6 TOPS) and 7c (5 TOPS) — note that Qualcomm is ahead of the curve just by including dedicated AI processing functionality in a laptop chipset, one benefit of building laptop platforms upwards from a mobile foundation. This gives the Snapdragon laptop chips baked-in advantages over Intel processors for AI applications, and we can reasonably expect to see Apple use the same strategy to differentiate Macs when they start moving to “Apple Silicon” later this year. It wouldn’t be surprising to see Apple’s first Mac chips stomp Snapdragons in both overall and AI performance, but we’ll probably have to wait until November to hear the details.

Huawei, Mediatek, and Samsung on TOPS

There are options beyond Apple’s and Qualcomm’s AI chips. China’s Huawei, Taiwan’s Mediatek, and South Korea’s Samsung all make their own mobile processors with AI capabilities.

Huawei’s HiSilicon division made flagship chips called the Kirin 990 and Kirin 990 5G, which differentiate their Da Vinci neural processing units with either two- or three-core designs. Both Da Vinci NPUs include one “tiny core,” but the 5G version jumps from one to two “big cores,” giving the higher-end chip extra power. The company says the tiny core can deliver up to 24 times the efficiency of a big core for AI facial recognition, while the big core handles larger AI tasks. It doesn’t disclose the number of TOPS for either Kirin 990 variant. They’ve apparently both been discontinued due to a ban by the U.S. government.

Mediatek’s current flagship, the Dimensity 1000+, includes an AI processing unit called the APU 3.0. Alternately described as a hexa-core processor or a six AI processor solution, the APU 3.0 promises “up to 4.5 TOPS performance” for use with AI camera, AI assistant, in-app, and OS-level AI needs. Since Mediatek chips are typically destined for midrange smartphones and affordable smart devices such as speakers and TVs, it’s simultaneously unsurprising that it’s not leading the pack in performance and interesting to think of how much AI capability will soon be considered table stakes for inexpensive “smart” products.

Last but not least, Samsung’s Exynos 990 has a “dual-core neural processing unit” paired with a DSP, promising “approximately 15 TOPS.” The company says its AI features enable smartphones to include “intelligent camera, virtual assistant and extended reality” features, including camera scene recognition for improved image optimization. Samsung notably uses Qualcomm’s Snapdragon 865 as an alternative to the Exynos 990 in many markets, which many observers have taken as a sign that Exynos chips just can’t match Snapdragons, even when Samsung has full control over its own manufacturing and pricing.

Top of the TOPS

Mobile processors have become popular and critically important, but they’re not the only chips with dedicated AI hardware in the marketplace, nor are they the most powerful. Designed for datacenters, Qualcomm’s Cloud AI 100 inference accelerator promises up to 400 TOPS of AI performance with 75 watts of power, though the company uses another metric — ResNet-50 deep neural network processing — to favorably compare its inference performance to rival solutions such as Intel’s 100-watt Habana Goya ASIC (~4x faster) and Nvidia’s 70-watt Tesla T4 (~10x faster). Many high-end AI chipsets are offered at multiple speed levels based on the power supplied by various server-class form factors, any of which will be considerably more than a smartphone or tablet can offer with a small rechargeable battery pack.

Another key factor to consider is the comparative role of an AI processor in an overall hardware package. Whereas an Nvidia or Qualcomm inference accelerator might well have been designed to handle machine learning tasks all day, every day, the AI processors in smartphones, tablets, and computers are typically not the star features of their respective devices. In years past, no one even considered devoting a chip full time to AI functionality, but as AI becomes an increasingly compelling selling point for all sorts of devices, efforts to engineer and market more performant solutions will continue.

Just as was the case in the console and computer performance wars of years past, relying on TOPS as a singular data point in assessing the AI processing potential of any solution probably isn’t wise, and if you’re reading this as an AI expert or developer, you probably already knew as much before looking at this article. While end users considering the purchase of AI-powered devices should look past simple numbers in favor of solutions that perform tasks that matter to them, businesses should consider TOPS alongside other metrics and features — such as the presence or absence of specific accelerators — to make investments in AI hardware that will be worth keeping around for years to come.

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October 01, 2020 at 02:07AM
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As AI chips improve, is TOPS the best way to measure their power? - VentureBeat

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Chips

Red Dot Potato Chips - WXPR

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Many people of fond memories of Red Dot potato chips. While Red Dot was headquartered in southern Wisconsin, the company did have significant ties to the Northwoods. Historian Gary Entz has the story.

Potato chips are a beloved snack food that has been around for a long time. Legend has it that the potato chip was invented at Saratoga Springs in New York, but while the snack was popularized there in the nineteenth century, the story surrounding its discovery is largely a myth. Origins aside, by the middle of the twentieth century there were about 250 regional potato chip manufacturers in the United States, but only four big ones. These included Blue Bell on the West Coast, Morton in Dallas, Lays in Atlanta, and Fred Meyer’s Red Dot in Wisconsin.

Frederick J. Meyer was born in West Salem in 1910. While in college at the University of Wisconsin Madison he met and married Kathryn Rossman of Marshfield. Fred was earning a degree in chemistry and Kaye in commerce. It was a perfect match. While still students, the two started a snack food wholesale business to support their studies. By the time the duo graduated in 1932 they had a thriving business in selling packaged goods to Madison area grocers.

Fred and Kaye soon realized that potato chips were among their best sellers, so Fred put his chemistry degree to work. In 1938 the couple purchased a continuous potato chip making machine and entered the manufacturing side of the business as Red Dot Foods. Red Dot made and sold pretzels, popcorn, cookies, pork rinds, and nuts, but the company was always most closely identified with potato chips and Fred Meyer’s distinctive chip recipe.

So, what was the Northwoods connection with Red Dot? There were two links. When Fred and Kaye Meyer first started packaging and selling chips in 1938, they used glassine bags instead of metal cans, which were more common at the time. The number one manufacturer of glassine bags, of course, was the Rhinelander Paper Mill. By the 1940s Red Dot sold its chips in metal containers like other chip manufacturers, but there was one more Northwoods connection.

In 1942 Meyer purchased over 4000 acres for a farm near Sugar Camp in Oneida County. The land he obtained was the location of the old Robbins logging village. He grew a variety of crops and livestock, but the primary purpose of the Red Dot farm was to selectively breed potatoes to find the perfect spud for chipping. The company also built a chip factory on Rhinelander’s north side. Among the major potato chip manufactures of the era, Red Dot was the only one to grow its own potatoes and invest in long-term agricultural research to improve productivity and crop quality.

By the end of the 1950s Red Dot was at the peak of its popularity. It was a multi-million-dollar snack manufacturer in the United States and dominated the upper Midwest market. However, for reasons not entirely clear, in 1961 Meyer agreed to a merger with Lays of Atlanta. Four days after the merger, Meyer committed suicide.

Without Meyer at the helm, the Red Dot brand faded fast. It was marginalized under Lays then the label sold off to other companies. It was discontinued in 1973.

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September 30, 2020 at 06:45PM
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Red Dot Potato Chips - WXPR

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Chips

Gigabyte Launches Ultra-Compact Brix Pro PCs With 11th-Gen Intel Chips - PCMag

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(Photo: Gigabyte)

If you're in the market for a tiny new PC, Gigabyte has updated its range of NUC alternatives by introducing three new models of the BRIX Pro that use Intel's 11th-generation processors.

The new models were first spotted by FanlessTech and use the model numbers BSi3-1115G3, BSi5-1135G7, and the BSi7-1165G7, giving you a choice of the latest 28W Tiger Lake Core i3, Core i5, and Core i7 chips.

The Brix BSi3-1115G3 uses a Core i3-1115G4 (1.7GHz/4.1GHz) dual-core, four-thread processor complete with Intel Iris Xe graphics running at 1,250MHz and offering 48 Execution Units (EU). The Brix BSi5-1135G7 uses a Core i5-1135G7 (0.9GHz/4.2GHz) quad-core, eight-thread processor and Intel Iris Xe graphics running at 1,300MHz with 80 EUs. Finally, the Brix BSi7-1165G7 uses a Core i7-1165G7 (1.2GHz/4.8GHz) quad-core, eight-thread processor and Intel Iris Xe graphics also running at 1,300MHz, but offering 96EUs.

The video below goes in-depth about the design of the BRIX Pro and includes an unboxing (16 minute mark), offering a true idea of the size of these PCs:

As these are barebones systems, it's up to the user to add their own memory, storage, and operating system. Each of the three new models includes two SO-DIMM DDR4 memory slots, compatible with 3,200MHz RAM modules for a maximum of 64GB of memory. Gigabyte also included M.2 PCIe Gen4 x4, M.2 PCIe x4 SATA, and SATA III connections giving ample choice for internal storage. The Brix Pros are listed as being compatible with Windows 10 and Linux.

For the most part, all three models are the same, offering four HDMI ports (allowing for a quad 4K display setup) , Intel AX201 Wi-Fi 6, two Intel Gigabit Ethernet ports (one is 2.5 Gigabit), six USB 3.2 ports, a Thunderbolt 4 port (supporting eGPUs), an onboard TPM security chip, headphone and microphone jacks, and support for VESA mounts (bracket included). However, the Core i5 and Core i7 models support Intel X Graphic, although it's unclear how this differs from the Iris Xe GPU that ships in the Core i3 model.

Unlike previous BRIX models, which were square in shape, the 11th-Gen Pro models are thinner and longer, but still very small, measuring just 196.2-by-44.4-by-140mm. Gigabyte also says they will work in temperatures from -20 all the way up to 60 degree Celsius, meaning they'll cope just about anywhere you want to use on in the home. All we need to know now is how much Gigabyte expects us to pay for each model and when they will be available. For now, they are only confirmed as a November release.

Further Reading

Desktop PC Reviews

Desktop PC Best Picks

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September 30, 2020 at 06:48PM
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Gigabyte Launches Ultra-Compact Brix Pro PCs With 11th-Gen Intel Chips - PCMag

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Chips

Hold on to your wallet, guys: The world’s most expensive potato chips will run you $15 a chip - Potato News Today

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The Swedish brewery St. Eriks has a unique set of potato chips that are — as far as we know — the most expensive potato chip in the world. The chips were created to draw attention for charity donations, Moss and Fog reports.

A bag of potato chips is one of the cheapest snacks you can buy. Unless you opted for the extremely limited edition set of chips from Swedish Brewery St. Eriks, boxed in an absurdly fancy package, made from absurdly special ingredients.

Created as a publicity stunt that also donated money to charity, the five exquisite chips were meant to be enjoyed with the brewery’s finest beers, of course…

Below are the ingredients that went into these elevated, next-level chips, according to Moss and Fogg:

Matsutake: With a taste similar to that of mature cheese, matsutake is one of the world’s most sought-after species of mushrooms. The matsutake in the chips comes from pine forests in the northern region of Sweden and was picked by hand using cotton gloves in order to preserve their quality.

Truffle Seaweed: As the name suggests, truffle seaweed has a flavor reminiscent of truffles. The seaweed grows in the form of small tufts on the brown algae known as Ascophyllum nodosum, which is only found in cold tidal waters. The seaweed used in the world’s most expensive chips comes from the waters around the Faroe Islands.

Crown Dill: To achieve the distinctive dill flavor, the creators of the chips investigated varieties of Swedish crown dill. The crown dill used was hand-picked on the BjĂ€re Peninsula in southern Sweden and selected for its fresh, yet powerful flavor.

Leksand Onion: For a balanced onion flavor, we used the much sought-after Leksand onion, a specific variety of the onion family that grows just outside the small Swedish town Leksand. One reason for its excellent flavor may be the fact that the onions are always planted on the eighteenth of May and harvested on the tenth of August, whatever the weather.

India Pale Ale Wort: During the process of brewing beer, the barley malt is converted into a sweet aromatic liquid known as wort. To add a hint of sweetness to the chips, freeze-dried wort was added, of the kind normally used to brew S:t Eriks India Pale Ale.

AmmarnĂ€s Potatoes: The potato in the chips comes from the potato hillside in AmmarnĂ€s, a steep, stony slope in a south-facing location where almond potatoes are cultivated in very limited numbers. The slope is difficult for modern agricultural machines to access, which means that all potatoes are planted and harvested by hand.

If you wanted to get your hands on them, sadly the entire set sold out immediately, but we love the idea of something so simple be taken to an extreme level.

Source: Moss and Fogg

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September 30, 2020 at 01:02PM
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Hold on to your wallet, guys: The world’s most expensive potato chips will run you $15 a chip - Potato News Today

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Tuesday, September 29, 2020

VMware, Nvidia partner to make AI chips easier for businesses to use - Reuters

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FILE PHOTO: The Nvidia booth is shown at the E3 2017 Electronic Entertainment Expo in Los Angeles, California, U.S., June 13, 2017. REUTERS/ Mike Blake/File Photo

(Reuters) - VMware Inc and Nvidia Corp on Tuesday announced an effort to make VMware’s software for managing data centers work better with Nvidia’s artificial intelligence (AI) chips.

VMware makes software that helps businesses get more work out of data center servers by slicing physical machines into “virtual” ones so that more applications can be packed onto each physical machine. Its tools are commonly used by large businesses that operate their own data centers as well as businesses that use cloud computing data centers.

For many years, much of VMware’s work focused on making software work better with processors from Intel Corp, which had a dominant market share of data centers.

In recent years, as businesses have turned to AI for everything from speech recognition to recognizing patterns in financial data, Nvidia’s market share in data centers has been expanding because its chips are used to speed up such work.

VMware’s software tools will work smoothly with Nvidia’s chips to run AI applications without “any kind of specialized setup,” Krish Prasad, head of VMware’s cloud platform business unit, said during a press briefing.

Manuvir Das, head of enterprise computing at Nvidia, said: “There is some very important computer science that has been done between the VMware and Nvidia teams to enable this.”

“As much as people may think of Nvidia as a hardware company, we are more so a software company today.”

The companies said they would give some customers early access to the technology but did not say when it would go on sale.

Reporting by Stephen Nellis in San Francisco; Editing by Himani Sarkar

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September 29, 2020 at 07:09PM
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VMware, Nvidia partner to make AI chips easier for businesses to use - Reuters

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Chips

Chips snap skid with 7-0 win over Cardinals - Manistee News Advocate

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Published

The Manistee soccer team snapped a two-game skid Tuesday with a thorough 7-0 Lakes 8 Conference win over Orchard View.

In doing so, the Chippewas (4-5) also broke out of their goalless drought from the past two outings.

Manistee’s Jack Holtgren led the way with two goals and three assists while Mason Adamski added two goals and both Luke Smith and Grant Schlaff had a goal and an assist to their names.

In control of possession most of the game, Manistee peppered the Cardinals all evening long, outshooting the opposition 18-4 in the first half alone en route to a 4-0 advantage at the break. The Chippewas went on to fire 30 on goal in total.

“We jumped right out in the first five minutes tonight,” said Manistee coach Brandon Prince. “And then we just stayed with it; stayed patient, didn’t force anything, and just possessed the ball until those opportunities came to us.

“Possession is where it starts and where it ends for us.”

Holtgren fed Adamski for a goal just three and a half minutes into the contest, and the Chippewas never looked back.

The two connected again less than two minutes later to give Manistee a 2-0 lead at 34:55.

Holtgren spread the wealth at 8:35, this time assisting on a Schlaff goal at 8:35 for a 3-0 lead.

Just over a minute later, Evan Dalke made good on a breakaway goal, assisted by Smith, to make it 4-0 before the break.

“That’s our style,” Prince said of getting contributions from a number of players. “It doesn’t matter who scores it: it’s a cooperative effort to get the finish.”

The Chippewas kept it rolling in the second half, as Holtgren added a goal to his stat line at 34:42 for a commanding 5-0 lead.

Holtgren found the back of the net again via a penalty kick to make it 6-0 at 25:21.

The Chippewas kept the pressure coming as Smith scored a breakaway goal, assisted by Dominic Valencia, at 15:44 for the 7-0 mark that would hold up as the final score.

“It’s good to see the finishes tonight,” Prince said. “We had opportunities in both of our last two games, but we just didn’t put them in.

“To see some of those same opportunities arise in this game, and to finish them like we should, hopefully that can carry into the rest of the season, heading toward the district tournament.

“We just have to finish those goals more consistently.”

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September 30, 2020 at 08:07AM
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Chips snap skid with 7-0 win over Cardinals - Manistee News Advocate

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Chips

Class Action Lawsuit on Frito-Lay Potato Chips - The National Law Review

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Keller and Heckman offers global food and drug services to its clients. Our comprehensive and extensive food and drug practice is one of the largest in the world. We promote, protect, and defend products made by the spectrum of industries regulated by the U.S. Food and Drug Administration (FDA), the European Commission and Member States authorities in the European Union (EU) and similar authorities throughout the world. The products we help get to market include foods, pharmaceuticals, medical devices, veterinary products, dietary supplements, and cosmetics. In addition...

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September 29, 2020 at 10:38PM
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Class Action Lawsuit on Frito-Lay Potato Chips - The National Law Review

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Chips

Arm launches new chip designs for autonomous systems - TechCrunch

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Chip designer Arm today announced the launch of a new set of solutions for autonomous systems for both automotive and industrial use cases. These include the Arm Cortex-A78AE high-performance CPU,
the Mali-G78AE GPU and Arm Mali-C71AE image signal processor.

What makes all three of these chips stand out is that they have built-in safety features. “Safety,” in this context, means that the chips feature additional capabilities that ensure that every calculation is essentially double-checked.

Traditionally, Arm has offered two modes for its CPU. In “split mode,” all cores work independently and only go offline every now and then for quick sanity checks. This works well for applications with low or no safety requirements as the cores can run at close to their maximum performance.

Image Credits: Arm

In “locked mode,” cores run in pairs and their operations are cross-checked against each other. This helps these chips satisfy various automotive safety requirements, but comes with an obvious performance penalty, as you can only use half the cores.

Today, the company introduced its new hybrid mode for its CPUs, which combines the best of both worlds for high-performance use cases where only medium failure detection is needed. It allows the cores to still run in split mode, but the shared cluster logic, which integrates the cores, now runs in lock mode. That provides the safety mechanisms of lock mode — just at a different layer — with the performance of split mode.

For the new AE-version of the Mali GPU, Arm is introducing what it calls “flexible partitioning,” which makes it easier to split the various GPU cores between workloads as needed. That means features like maps can run in one partition, separate from safety features like driver monitoring or running the instrument cluster.

Traditionally, Arm targeted these A0E-branded designs at the automotive industry. “AE” actually used to stand for “automotive enhanced.” Now, however, it is targeting the broader market for autonomous systems.

“We introduced this AE [intellectual property]. It was referring to ‘automotive enhanced,’ originally, and so it has specific features, performance, safety, for the automotive market,” Arm’s VP of its automotive business, Chet Babla, told me. “But fast-forward to today and what we’ve realized that in talking to industrial OEMs and the compute requirements, the safety requirements they have, they’ve said, ‘actually, what you’re doing in the automotive space is very applicable to the compute and safety challenges that we face.’ ”

While Arm is remaining relatively quiet about its $40 billion acquisition by Nvidia, which is still going the regulatory process, it’s worth noting that both companies have set their eyes on this market for autonomous systems, with Nvidia offering its own platform for autonomous robots, using its Jetson AGX, for example, which use ARM CPUs in addition to Nvidia’s own GPUs. It looks like that won’t change anytime soon.

“Powerful new processing capabilities are needed to enable future autonomous vehicles and machines. As a lead partner for the new Arm Cortex-A78AE, NVIDIA delivers the advanced performance and safety
these edge AI systems require with our next-generation NVIDIA Orin SoC,” said Gary Hicok, senior vice president of hardware development at NVIDIA.

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September 29, 2020 at 08:07PM
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Arm launches new chip designs for autonomous systems - TechCrunch

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Chips

VMware, Nvidia partner to make AI chips easier for businesses to use - Reuters

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FILE PHOTO: The Nvidia booth is shown at the E3 2017 Electronic Entertainment Expo in Los Angeles, California, U.S., June 13, 2017. REUTERS/ Mike Blake/File Photo

(Reuters) - VMware Inc and Nvidia Corp on Tuesday announced an effort to make VMware’s software for managing data centers work better with Nvidia’s artificial intelligence (AI) chips.

VMware makes software that helps businesses get more work out of data center servers by slicing physical machines into “virtual” ones so that more applications can be packed onto each physical machine. Its tools are commonly used by large businesses that operate their own data centers as well as businesses that use cloud computing data centers.

For many years, much of VMware’s work focused on making software work better with processors from Intel Corp, which had a dominant market share of data centers.

In recent years, as businesses have turned to AI for everything from speech recognition to recognizing patterns in financial data, Nvidia’s market share in data centers has been expanding because its chips are used to speed up such work.

VMware’s software tools will work smoothly with Nvidia’s chips to run AI applications without “any kind of specialized setup,” Krish Prasad, head of VMware’s cloud platform business unit, said during a press briefing.

Manuvir Das, head of enterprise computing at Nvidia, said: “There is some very important computer science that has been done between the VMware and Nvidia teams to enable this.”

“As much as people may think of Nvidia as a hardware company, we are more so a software company today.”

The companies said they would give some customers early access to the technology but did not say when it would go on sale.

Reporting by Stephen Nellis in San Francisco; Editing by Himani Sarkar

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September 29, 2020 at 07:09PM
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VMware, Nvidia partner to make AI chips easier for businesses to use - Reuters

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Chips

What is the world’s most expensive potato chip? - Deseret News

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The Swedish brewery St. Eriks has a unique set of potato chips that are — as far as we know — the most expensive potato chip in the world.

The chips were created to draw attention for charity donations, Moss and Fog reports.

There are five different flavors of these chips:

  • Matsutake (a rare form of mushroom)
  • Truffle seaweed (a seaweed that taste like truffles)
  • Crown Dill — The dill comes from the BjĂ€re Peninsula in southern Sweden.
  • Leksand Onion — Leksand onion, a rare onion in Sweden.
  • India Pale Ale Wort — This comes from a malt using beer.

These chips reportedly cost $56, per Elite Traveler.

The potatoes used for the chips come “from the potato hillside in AmmarnĂ€s, a steep, stony slope in a south-facing location where almond potatoes are cultivated in very limited numbers. The slope is difficult for modern agricultural machines to access, which means that all potatoes are planted and harvested by hand,” according to Elite Traveler.

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VMware, Nvidia partner to make AI chips easier for businesses to use - Yahoo News

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FILE PHOTO: Nvidia at the E3 2017 Electronic Entertainment Expo in Los Angeles

By Stephen Nellis

(Reuters) - VMware Inc and Nvidia Corp on Tuesday announced an effort to make VMware's software for managing data centers work better with Nvidia's artificial intelligence (AI) chips.

VMware makes software that helps businesses get more work out of data center servers by slicing physical machines into "virtual" ones so that more applications can be packed onto each physical machine. Its tools are commonly used by large businesses that operate their own data centers as well as businesses that use cloud computing data centers.

For many years, much of VMware's work focused on making software work better with processors from Intel Corp, which had a dominant market share of data centers.

In recent years, as businesses have turned to AI for everything from speech recognition to recognizing patterns in financial data, Nvidia's market share in data centers has been expanding because its chips are used to speed up such work.

VMware's software tools will work smoothly with Nvidia's chips to run AI applications without "any kind of specialized setup," Krish Prasad, head of VMware's cloud platform business unit, said during a press briefing.

Manuvir Das, head of enterprise computing at Nvidia, said: "There is some very important computer science that has been done between the VMware and Nvidia teams to enable this."

"As much as people may think of Nvidia as a hardware company, we are more so a software company today."

The companies said they would give some customers early access to the technology but did not say when it would go on sale.

(Reporting by Stephen Nellis in San Francisco; Editing by Himani Sarkar)

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Monday, September 28, 2020

LA Fish & Chips Shop Batterfish Opens as a Happy Valley Food Cart - Eater Portland

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Way back in 2015, Jason Killalee, a Dublin expat and former actor, was serving, in the eyes of some, Los Angeles’s best fish-and-chips. Homesick for the fish and chips he ate back in Ireland, he started making his own, playing around with distinct batters pepped up with sambal oelek or garlic and ginger. Killalee posted up in an Encino shop frying fish until it developed a light, crunchy, shimmering crust — not doughy or soaked in grease. Soon, people started to take notice — including critics and food writers. “Killalee is a craftsman, a Degas of the deep fryer,” writes Lucas Peterson in a 2015 piece for Eater LA. “His care is reflected in the sheer deliciousness of his product.”

Five years later, Killalee has moved his operation 952 miles north, frying fish out of a food cart at Happy Valley Station. He and his wife moved up to Oregon in 2018, but he decided to take a year off, landing at the Painted Lady in Newberg. He had planned to open sooner, but this year has thrown some obvious curveballs. “We were going to open in the spring, but COVID pushed us back... We had just opened in August, but then the place caught fire,” he says, referring to the recent Clackamas County fire. “That was a little bit alarming.”

Now, however, Killalee has found his rhythm. He’s back frying wild-caught cod and salmon, dipping them in distinct batters with specific marinades. For example, cod can come dipped in his traditional Irish batter or one flavored with curry; the salmon gets hit with a lemon-basil puree. Nonetheless, the actual fry is what Killalee says makes his fish and chips stand out — at least over here. “If it’s done well, it’s a brilliant dish... Unfortunately, lots of people do it really wrong. If you put a frozen thing in a fryer, you’re poaching. It becomes greasy. You put your fish in clean, hot oil, and it keeps the fish nice and moist,” Killalee says. “People make fried food badly; you don’t have to.”

Killalee is similarly dogmatic about his fries, which he hand-cuts and double-fries; however, he would clarify that they are true chips, not fries. “Chips are different from french fries; they’re not frozen crispy sticks,” he says. “If you’re making spaghetti bolognese with instant noodles, it’s fine, it’s just not the same. Making fish and chips with frozen french fries is not the same.”

Beyond straight fish and chips, Killalee serves everything from Baja-style fish tacos to beer-battered spicy sausage, with specials like bay scallop ceviche or lobster rolls. In the future, he’d like to start serving vegan fish and chips — we’re in Portland, after all. But for now, he’s just focusing on the fish. “Fish and chips done right is near and dear to my heart,” he says. “The flavored batters add just a little something extra.”

Batterfish [Official]
Happy Valley Station [Official]
LA’s Best Fish & Chips Are Frying Up in Encino [ELA]
Experience Fish and Chips Bliss at Encino’s Batterfish [LAW]
The Scrappiness of Portland’s Food Carts Made Them Leaders During the Pandemic [EPDX]

13551 SE 145th St, Happy Valley, OR 97086

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A new generation of microelectrode- array chips for recording nerve cell impulses - News-Medical.net

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ETH researchers have developed a new generation of microelectrode-​array chips for measuring nerve impulses, enabling studies of how thousands of nerve cells interact with each other.

For over 15 years, ETH Professor Andreas Hierlemann and his group have been developing microelectrode-array chips that can be used to precisely excite nerve cells in cell cultures and to measure electrical cell activity. These developments make it possible to grow nerve cells in cell-culture dishes and use chips located at the bottom of the dish to examine each individual cell in a connected nerve tissue in detail.

Alternative methods for conducting such measurements have some clear limitations. They are either very time-consuming - because contact to each cell has to be individually established - or they require the use of fluorescent dyes, which influence the behaviour of the cells and hence the outcome of the experiments.

Now, researchers from Hierlemann's group at the Department of Biosystems Science and Engineering of ETH Zurich in Basel, together with Urs Frey and his colleagues from the ETH spin-off MaxWell Biosystems, developed a new generation of microelectrode-array chips. These chips enable detailed recordings of considerably more electrodes than previous systems, which opens up new applications.

Stronger signal required

As with previous chip generations, the new chips have around 20,000 microelectrodes in an area measuring 2 by 4 millimetres. To ensure that these electrodes pick up the relatively weak nerve impulses, the signals need to be amplified. Examples of weak signals that the scientists want to detect include those of nerve cells, derived from human pluripotent stem cells (iPS cells). These are currently used in many cell-culture disease models. Another reason to significantly amplify the signals is if the researchers want to track nerve impulses in axons (fine, very thin fibrous extensions of a nerve cell).

However, high-performance amplification electronics take up space, which is why the previous chip was able to simultaneously amplify and read out signals from only 1,000 of the 20,000 electrodes. Although the 1,000 electrodes could be arbitrarily selected, they had to be determined prior to every measurement. This meant that it was possible to make detailed recordings over only a fraction of the chip area during a measurement.

Background noise reduced

In the new chip, the amplifiers are smaller, permitting the signals of all 20,000 electrodes to be amplified and measured at the same time. However, the smaller amplifiers have higher noise levels. So, to make sure they capture even the weakest nerve impulses, the researchers included some of the larger and more powerful amplifiers into the new chips and employ a nifty trick: they use these powerful amplifiers to identify the time points, at which nerve impulses occur in the cell culture dish.

At these time points, they then can search for signals on the other electrodes, and by taking the average of several successive signals, they can reduce the background noise. This procedure yields a clear image of the signal activity over the entire area being measured.

In first experiments, which the researchers published in the journal Nature Communications, they demonstrated their method on human iPS-derived neuronal cells as well as on brain sections, retina pieces, cardiac cells and neuronal spheroids.

Application in drug development

With the new chip, the scientists can produce electrical images of not only the cells but also the extension of their axons, and they can determine how fast a nerve impulse is transmitted to the farthest reaches of the axons.

The previous generations of microelectrode array chips let us measure up to 50 nerve cells. With the new chip, we can perform detailed measurements of more than 1,000 cells in a culture all at once."

Andreas Hierlemann, ETH Professor

Such comprehensive measurements are suitable for testing the effects of drugs, meaning that scientists can now conduct research and experiments with human cell cultures instead of relying on lab animals. The technology thus also helps to reduce the number of animal experiments.

The ETH spin-off MaxWell Biosystems is already marketing the existing microelectrode technology, which is now in use around the world by over a hundred research groups at universities and in industry. At present, the company is looking into a potential commercialisation of the new chip.

Journal reference:

Yuan, X., et al. (2020) Versatile live-cell activity analysis platform for characterization of neuronal dynamics at single-cell and network level. Nature Communications. doi.org/10.1038/s41467-020-18620-4.

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Dell's XPS 13 Models With Intel's 11th-Gen Chips Arrive This Week - PCMag

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(Credit: Dell)

One of our best reviewed laptops, the Dell XPS 13, is poised to get even better. Along with its 2-in-1 sibling, the XPS 13 is getting refreshed with Intel’s new 11th generation “Tiger Lake” Core processors. 

Dell will start selling the 13.4-inch laptop models on Sept. 30 in North America and certain European countries over the company's website. The Dell XPS 13 (9310) will start at $999 while the 2-in-1 model, which can flip into a tablet, will cost $1,249 and up. 

The Dell XPS 13 standard laptop model The Dell XPS 13 standard laptop models (Credit: Dell)

The new Tiger Lake silicon will help make the laptops even faster, especially when it comes to graphics-related processing. PCMag tested out the new Intel chips, and found they can outperform AMD’s rival processors in certain tasks, such as video editing and PC gaming.

The Dell XPS 13 models will also get Thunderbolt 4 ports, which connect via USB-C. The Thunderbolt 4 inclusion means the laptops have enough bandwidth to support two 4K displays, or a single 8K monitor. 

The Dell XPS 13 2-in-1 model The Dell XPS 13 2-in-1 model (Credit: Dell)

In addition, Dell is speeding up the LPDDR4x RAM inside from 3733MHz to 4267MHz. The company is also adding an infrared sensor to the web camera on the 2-in-1 model to enable Windows Hello for facial-recognition logins. 

Outside of that, the company is keeping everything else the same. The XPS 13 won high marks from us for its near borderless display, sleek aluminum casing, and long battery life at 17 hours in our video rundown test. 

Dell says the refreshed XPS 13 laptop model can now get up to 19 hours in battery life. But the company refrained from adding a USB-A port on the products, which was one of our complaints in the last-generation model. The web camera has also been kept at 720p. 

Interested buyers will be able to configure the products with Intel’s 11th generation Core i3 chip up to an i7. The XPS 13 laptop model can also be bought loaded with Ubuntu 20.04 LTS instead of the Windows 10 operating system.

Further Reading

Laptop Reviews

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Self-erasing chips could thwart counterfeit tech - Futurity: Research News

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Self-erasing chips could help stop counterfeit electronics or provide alerts if sensitive shipments are tampered with, researchers report.

The chips rely on a new material that temporarily stores energy, changing the color of the light it emits. It self-erases in a matter of days, or users can erase it on demand with a flash of blue light.

“It’s very hard to detect whether a device has been tampered with. It may operate normally, but it may be doing more than it should, sending information to a third party,” says Parag Deotare, assistant professor of electrical engineering and computer science at the University of Michigan.

The letters U and M appear in yellow, green, and blue against a dark blue background
This message will self-destruct in seven days, or it can be erased with a flash of blue light. Written with UV light, the letters are marked out by molecules that shrink by storing energy, stretching the atoms of the semiconductor above. This shifts the light emitted by the semiconductor to longer wavelengths, represented in the visible spectrum by yellow on a blue background. (Credit: Che-Hsuan Cheng, Excitonics and Photonics Lab/U. Michigan.

With a self-erasing bar code printed on the chip inside the device, the owner could get a hint if someone had opened it to secretly install a listening device. Alternatively, a bar code could be written and placed on integrated circuit chips or circuit boards, for instance, to prove that they hadn’t been opened or replaced on their journey.

Likewise, if the lifespan of the bar codes was extended, they could be written into devices as hardware analogues of software authorization keys.

Secret messages

The self-erasing chips are built from a three-atom-thick layer of semiconductor laid atop a thin film of molecules based on azobenzenes—a kind of molecule that shrinks in reaction to UV light. Those molecules tug on the semiconductor in turn, causing it to emit slightly longer wavelengths of light.

To read the message, you have to look at it with the right kind of light. Che-Hsuan Cheng, a doctoral student in material science and engineering in Deotare’s group and the first author of the study in Advanced Optical Materials, is most interested in its application as self-erasing invisible ink for sending secret messages.

The stretched azobenzene naturally gives up its stored energy over the course of about seven days in the dark—a time that can be shortened with exposure to heat and light, or lengthened if stored in a cold, dark place.

Whatever was written on the chip, be it an authentication bar code or a secret message, would disappear when the azobenzene stopped stretching the semiconductor. Alternatively, it can be erased all at once with a flash of blue light. Once erased, the chip can record a new message or bar code.

‘Scotch tape method’

The semiconductor itself is a “beyond graphene” material, says Deotare, as it has many similarities with the Nobel Prize-winning nanomaterial. But it can also do something graphene can’t: It emits light in particular frequencies.

Da Seul Yang, a doctoral student in macromolecular science and engineering, designed and made the molecules. Cheng then floated a single layer of the molecules on water and dipped a silicon wafer into the water to coat it with the molecules.

Then, the chip went to Deotare’s lab where scientists layered it with the semiconductor. Using the “Scotch tape” method, Cheng essentially put sticky tape on a chunk of the semiconductor, tungsten diselenide, and used it to draw off single layers of the material: a sandwich of a single layer of tungsten atoms between two layers of selenium atoms. He used a kind of stamp to transfer the semiconductor onto the azobenzene-coated chip.

The researchers will next extend the amount of time that the material can keep the message intact for use as an anti-counterfeit measure.

The Air Force Office of Scientific Research funded the work. The University of Michigan has applied for patent protection and is seeking commercial partners to help bring the technology to market.

Source: University of Michigan

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US squeezes China's biggest chip-maker SMIC - BBC News

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By Leo Kelion
Technology desk editor

image copyrightSMIC/Getty Images
The US Department of Commerce has written to American suppliers of China's biggest chip manufacturer, warning them of "unprecedented risks" that their products could be used by the Chinese military.

The letter reminds the firms they must apply for licences to ship controlled items to Shanghai-based SMIC.

But it does not appear that Washington has decided whether or not to add the firm to a trade blacklist.

SMIC has denied any military links.

And it said it had not received any formal notice of new restrictions from the US.

But the latest action caused Semiconductor Manufacturing International Corporation's shares to drop about 7% in Hong Kong trade.

The fall followed a steeper decline earlier this month when the Pentagon first revealed it had proposed tougher restrictions against the business, including adding it to the government's Entity List.

That would prevent any company selling goods or services to SMIC that involved US intellectual property without first getting special permission.

Such a step has already been taken against SMIC's biggest client - Huawei - which has caused major disruption to the telecoms kit-maker's business.

Chinese state media had previously reported that SMIC was among many companies that hadrequested a US licence to continue supplying Huawei.

But one industry analyst suggested the latest move indicated the US was increasingly focused on SMIC itself.

"Denial of US semiconductor manufacturing equipment would put SMIC at a severe disadvantage, because most of that technology comes from American sources," explained Jim Tully.

"China could aim to become self-sufficient in these technologies over the longer term, but it seems to me that it would take 10-plus years to do so.

"And in the short term, the equipment and related software SMIC already uses still needs ongoing support and maintenance from its producers."

This has led to speculation that SMIC's survival may now be at stake.

Blocked sale

SMIC was founded in 2000, and has since become the most prominent chip-making foundry in mainland China.

Until recently, it was viewed as being a beneficiary of rising US-China tension because it was expected to benefit from Beijing's drive to make the country's tech sector self-sufficient.

The firm has raised close to $10bn (£7.7bn) this year via a share sale and other means to expand its operations.

In addition to Huawei, SMIC's clients include lesser-known Chinese chip designers including Gigadevice and Unisoc, as well as international companies including Qualcomm and Broadcom.

However, its most advanced products are said to lag two generations behind what rival manufacturers - including Taiwan Semiconductor Manufacturing Company (TSMC) and South Korea's Samsung - are capable of, because SMIC cannot currently make transistors as small as they can. This means its products are not suitable to be the state-of-the-art processors in the latest smartphones or other advanced gadgets.

The reason for this is in part due to existing restrictions Washington has imposed on the firm.

At present, the only way to make the most advanced logic chips is to use equipment made by a Dutch company, ASML.

image copyrightGetty Images
image captionASML is the largest supplier of lithography semiconductor manufacturing machines
SMIC ordered a $150m lithography machine - which uses lasers focused by giant mirrors to print miniscule patterns on silicon - from ASML in 2018. But Reuters reported the White House convinced the Dutch government to block the export on security grounds.

A spokesman for ASML declined to comment when asked by the BBC whether the deal was still in limbo.

Adding SMIC to the US Entity List would prevent the Chinese firm sourcing hardware, software and chemical materials from other suppliers.

For now, the company is hoping to avoid that outcome by clearly denying it supplies products to the People's Liberation Army.

"Any assumption of the company's ties with the Chinese military are untrue statements and false accusations," it has said.

But this has been called into question by others.

One Chinese state-owned newspaper has claimed the case illustrates the need for a "new long march" in order to "control all research and production chains of the semiconductor industry".
Bloomberg has reported that Beijing plans to unveil new policies to support the sector in October.

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Ranking the Dallas Mavericks best trade chips heading into the offseason - Our Community Now at Colorado

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Dallas Mavericks: Ranking the team’s best trade chips heading into the offseason


The Dallas Mavericks have accomplished a feat few teams can by immediately transitioning from one superstar to another. They had an incredible run with Dirk Nowitzki at the helm, but as he declined the future looked bleak. Then, the Mavs traded up to draft Luka Doncic in 2018 and everything changed. He won Rookie of the Year in Nowitzki’s final season before earning first-team All-NBA honors in 2020.

The Mavericks were back in the playoffs for the first time since 2016, but have no plans on stopping there. There is no more being happy with a first-round exit. Luka already let fans know what the team’s goal is next season .

To reach that level, the Mavs will need a few more pieces. They have the superstar, Kristaps Porzingis as the second star, and a strong cast of role players. Dallas needs to improve on the defensive end and add a secondary creator this offseason.

Dallas Mavericks could trade their way into title contention


The organization has multiple avenues to explore to improve their roster. They will be light on cap space but have their mid-level exception to sign talent in free agency. The Mavs have two picks in the top 31 in the 2020 NBA Draft, plus their depth allows them to explore the trade market. They could dangle the two picks and role players to try to get an upgrade.

With that in mind, what are the team’s best trade chips this offseason? Here is a countdown of the most valuable things the Dallas Mavericks could offer in any deal.

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Intel Delays “Sapphire Rapids” Server Chips, Confirms HBM Memory Option - The Next Platform

chips.indah.link It is a relatively quiet International Supercomputing conference on the hardware front, with no new processors or switch ...

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