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FCC looks to mandate anti-robocall tech after prodding from Congress

The FCC is finally going to require wireless carriers to implement an anti-robocalling technology, after asking them nicely for more than a year to do so at their convenience. Of course, the FCC itself is now required to do this after Congress got tired of waiting on them and took action itself.

The technology is called Secure Telephony Identity Revisited / Secure Handling of Asserted information using toKENs, mercifully abbreviated to STIR/SHAKEN, and amounts to a sort of certificate authority for calls that prevents phone numbers from being spoofed. (This is a good technical breakdown if you’re curious.)

STIR/SHAKEN has been talked about for quite some time as a major part of the fight against robocalls, and in 2018 FCC Chairman Ajit Pai said that carriers would have until the end of 2019 to implement it. 2019 came and went, and while the FCC (and indeed carriers) took other actions against robocallers, STIR/SHAKEN went largely undeployed.

Meanwhile, Congress, perhaps tired of receiving scam calls themselves, managed to collectively reach across the aisle and pass the TRACED Act, which essentially empowers the FCC and other departments to take action against robocallers — and prevents carriers from charging for anti-robocall services.

It also ordered the FCC to set a timeline for STIR/SHAKEN implementation, which is what Pai is doing now.

“It’s clear that FCC action is needed to spur across-the-board deployment of this important technology. There is no silver bullet when it comes to eradicating robocalls, but this is a critical shot at the target,” he said in a statement issued today.

There does not, however, appear to be any great hurry. The proposal, which will be voted on at the FCC’s meeting later this month, would require voice service providers to implement STIR/SHAKEN by June 30… of 2021. And one-year extensions will be available to smaller providers who claim difficulty getting the system up and running.

In other words, you can expect to keep receiving strange calls offering discounts on cruises and warning you of IRS penalties for some time to come. Of course, there are some things you can do to stem the flow of scammers — check out our 101 on preventing robocalls for some simple tips to save yourself some aggravation.

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ShapeMeasure’s smart tool and robotic cutter let contractors measure once and cut never

As much as we’d all like to believe that our houses are built with perfectly square angles and other highly regular measurements, that’s rarely the case — which makes remodeling complex and tedious. ShapeMeasure hopes to alleviate that pain with a device that automatically measures a space and a robotic mill that cuts the required lumber precisely to size, shortening and easing the process by huge amounts.

Founder Ben Blumer, who was exposed to the art of building and repair early by his father, a general contractor, had a brainwave that became the company during some renovations of his own.

“I was shocked to see our flooring installer, who had 10 years of experience, and was excellent at what he did, take over an hour to install a single stair,” Blumer said. “I started thinking, ‘a little bit of technology could go a long way here.’ ”

Finding himself at the time free to work on such a project, he recruited a former general contractor friend and applied to HAX, which soon shipped them off to Shenzhen to pursue their idea.

The main issue is stairs: they’re tricky, and especially in older homes can be pretty off-kilter. So although you know each stair is about 35 inches wide, it might be 35 and 3/64 inches, while the next one could be 34 and 61/64. Likewise, the angles might be ever so slightly off the 90 degrees or whatever they theoretically should be. Painstakingly measuring every single stair and manually cutting wood to those many slightly different dimensions is extremely time-consuming. The tool ShapeMeasure built makes it literally a push-button affair.

The device they settled on is essentially a super-precise lidar that measures around itself in wide arc, and the exact details of which comprise part of the company’s secret sauce. This gives the precise dimensions and attachment angles of the area around it, in the first intended use case a stair. The design, helped along by HAX’s Noel Joyce, looks a bit like a giant Dust Buster by way of the original “Alien.”

Obviously his shirt contradicts my headline, but if you think about the cutting as an automated process rather than something a person has to do, mine makes sense.

“We were working with Noel Joyce, HAX’s lead industrial designer. We wanted a product that looked and felt like a tool. We figured, if you’re trying to convince contractors to try something new, it should feel familiar,” Blumer said. “We spent hundreds of hours sourcing parts and re-engineering our scanning mechanism so that it could fit into Noel’s beautiful form factor. Turns out, contractors don’t care what it looks like. They liked the design, but were way more excited for the functionality.”

Once the shapes are scanned in and checked, that information can be beamed off to ShapeMeasure’s other device, a robotic lumber sizing system that cuts wood into the exact size and shape necessary to fit together as stairs. Of course, the contractor still has to bring them to the location and attach them by whatever means they see fit, but what was once a process with perhaps hundreds of steps has been simplified by an order of magnitude.

The machine is similar to other lumber-cutting devices, but simpler and easier to operate.

“There are lots of automatic cutting systems — often big, heavy, expensive and operated by professional CNC technicians. To cut flooring on a machine like that involves setting up jigs, clamping and reclamping each board, and generating custom gcode for each stair we cut,” Blumer said. They can be several times more costly and difficult to employ. “The cutting solution we’re building is compact, requires no clamping, and can be operated with just a few hours of training.”

It’s not just about length and width, either — molding and other flourishes on the stairs can make complex cuts necessary that would be impractical or at the very least extremely time-consuming to attempt manually.

Examples of complex cuts made by the ShapeMeasure machine.

The result is that the installation process from start to finish is about four times faster, they determined. If this seems a bit optimistic, know that it isn’t just armchair theorizing — they were careful to back up these numbers from the start.

“We take our speedup data really seriously,” said Blumer. “This is our top metric! One of the first purchases I made for the company was a dozen stopwatches. We’ve done installations in the ShapeMeasure lab and on real, messy construction sites — filming, timing and logging every moment.”

Interestingly, the precut lumber made other improvements possible — the team designed a bucket to accommodate the increased rate at which the installer uses glue and other parts. It’s a bit like if you improved painting speed so much that your new bottleneck was mixing and pouring the paint into roller trays fast enough.

Currently the company is working on establishing standard practices and packaging so that a ShapeMeasure “microfactory” can be set up easily anywhere in the country on short notice. And they’re “considering” raising money before then to accelerate the process. Blumer built the prototype with his own money and they pulled in a bit from HAX and then a small pre-seed round to get things started.

With luck and a bit of elbow grease, ShapeMeasure could turn out to be a real differentiator in the contractor space — every hour counts, as does every dollar in an estimate.

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Samsung teases videocalling on its next foldable during the Oscars

It was South Korea’s — rather than Netflix’s — night at the Oscars, thanks to Bong Joon-ho’s biting class satire Parasite, which won a well-deserved best picture

But tech giant Samsung appears to have been hoping to steal a little of the national limelight. The Korean phone maker chose a prime Oscars ad slot to show off a 360-degree view of its next foldable, running it as a teaser for its Unpacked 2020 unboxing event, which takes place in San Francisco tomorrow.

#Samsung showing off the new foldable during the #Oscars ahead of #unpacked2020 pic.twitter.com/PD9KdZKjmB

— Carolina Milanesi (@caro_milanesi) February 10, 2020

The ad shows the flip phones from all angles, opening and closing while the Comic Strip sounds of Serge Gainsbourg and Brigitte Bardot pop and crackle in the background.

Notably we see the foldable propping itself up, with the screen half or three-quarters open, for a hands-free face-time style chat. (In case you were wondering what the point of a flip phone might be in 2020.)

There’s also an eye-popping iridescent purple color-way on show that seems intended to make the most of the screen-concealing clamshell design. A black version does a much better job of blending into the background, and a brief side view of the phone shows what looks like a side-mounted fingerprint scanner as shown in earlier leaks.

And if you’re wondering how you’ll screen incoming calls when the clam is closed, the ad shows a micro display that tells you the name of the person calling. TL;DR: You can still ghost your frenemies while packing a flip.

We’ve seen renders of the Samsung Galaxy Z Flip leak online before but this is an official full view of the foldable Samsung hopes will spark a retro fashion craze for clamshell flip phones. (See also the rebooted Motorola Razr.)

Samsung will also, of course, be hoping this foldable can bend without immediately breaking.

Stay tuned for all the details from Samsung Unpacked 2020 as we get them (we’re especially keen to find out the price-tag for this foldable), including our first look at the next flagship Galaxy S device.

TechCrunch’s intrepid hardware editor, Brian Heater, will be on the ground in San Francisco tomorrow to get hands on with all the new kit so you don’t have to.

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EU lawmakers take fresh aim at Apple’s Lightning connector with latest e-waste push

The European parliament has voted overwhelmingly for tougher action to reduce e-waste, calling for the Commission to come up with beefed up rules by July 2020.

Specifically, the parliament wants the Commission to adopt the delegated act foreseen in the 2014 Radio Equipment Directive by that deadline — or else table a legislative measure by the same date, at the latest.

The resolution, which was approved by 582 votes to 40, points out that MEPs have been calling for a single charger for mobile devices for more than a decade now. But the Commission has repeatedly postponed taking steps to force an industry-wide shift. Subtext: We’re tired of the ongoing charging cable nightmare.

The parliament says there is now “an urgent need” for EU regulatory action on the issue — to shrink e-waste, empower consumers to make sustainable choices, and allow EU citizens to “fully participate in an efficient and well-functioning internal market”.

The resolution notes that around 50 million metric tons of e-waste is generated globally per year, with an average of more than 6 kg per person.

While, in Europe in 2016, the figure for total e-waste generated was 12.3 million metric tonnes, equivalent to 16.6 kg on average per inhabitant — with the parliament asserting this represents “an unnecessary environmental footprint that can be reduced”.

To date, the Commission’s approach to the charger e-waste issue has been to lean on industry to take voluntary steps to reduce unnecessary variety. Which has resulted in a reduction of the number of charger types on the market — down from 30+ in 2009 to just three today — but still no universal charger which works across brands and device types (phones, tablets, e-readers etc).

Most notably, Apple continues to use its own Lightning port charger standard — while other device makers have switched to USB-based charging (such as the newest, USB-C standard).

When news emerged earlier this month of the parliament’s intention to vote on tougher measures to standardize mobile chargers Apple attacked the plan — arguing that regulation would ‘stifle innovation’.

But the tech giant has had plenty of years to chew over clever ways to switch from the proprietary charging port only it uses to one of two USB standards used by everyone else. So the ‘innovation’ argument seems a pretty stale one.

Meanwhile Apple has worked around previous EU attempts to push device makers to standardize charging on Micro USB by expanding its revenue-generating dongle collection — and selling Europeans a Lighting to Micro USB adaptor. Thereby necessitating even more e-waste.

Perhaps picking up on Apple’s ‘innovation’ framing sidestep, i.e. to try to duck the e-waste issue, the parliament also writes:

… that the Commission, without hampering innovation, should ensure that the legislative framework for a common charger will be scrutinised regularly in order to take into account technical progress; reiterates the importance of research and innovation in this domain to improve existing technologies and come up with new ones;

It also wants the Commission to grapple with the issue of wireless chargers — and take steps to ensure interoperability there too, so that wireless chargers aren’t locked to only one brand or device type.

Consumers should not be obliged to buy new chargers with each new device, per the resolution, with the parliament calling on the Commission to introduce strategies to decouple the purchase of chargers from a new device alongside a common charger solution — while making sure any decoupling measures do not result in higher prices for consumers.

It also wants the Commission to look at legislative options for increasing the volume of cables and chargers that are collected and recycled in EU member states.

We’ve reached out to the Commission for comment.

Per Reuters, officials in the executive are in agreement that the voluntary approach is not working and have said they plan to introduce legislation for a common charger this year.

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Unearth the future of agriculture at TC Sessions: Robotics+AI with the CEOs of Traptic, FarmWise and Pyka

Farming is one of the oldest professions, but today those amber waves of grain (and soy) are a test bed for sophisticated robotic solutions to problems farmers have had for millennia. Learn about the cutting edge (sometimes literally) of agricultural robots at TC Sessions: Robotics+AI on March 3 with the founders of Traptic, Pyka and FarmWise.

Traptic, and its co-founder and CEO Lewis Anderson, you may remember from Disrupt SF 2019, where it was a finalist in the Startup Battlefield. The company has developed a robotic berry picker that identifies ripe strawberries and plucks them off the plants with a gentle grip. It could be the beginning of a new automated era for the fruit industry, which is decades behind grains and other crops when it comes to machine-based harvesting.

FarmWise has a job that’s equally delicate yet involves rough treatment of the plants — weeding. Its towering machine trundles along rows of crops, using computer vision to locate and remove invasive plants, working 24/7, 365 days a year. CEO Sebastian Boyer will speak to the difficulty of this task and how he plans to evolve the machines to become “doctors” for crops, monitoring health and spontaneously removing pests like aphids.

Pyka’s robot is considerably less earthbound than those: an autonomous, all-electric crop-spraying aircraft — with wings! This is a much different challenge from the more stable farming and spraying drones like those of DroneSeed and SkyX, but the choice gives the craft more power and range, hugely important for today’s vast fields. Co-founder Michael Norcia can speak to that scale and his company’s methods of meeting it.

These three companies and founders are at the very frontier of what’s possible at the intersection of agriculture and technology, so expect a fruitful conversation.

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Samsung invests $500M to set up a smartphone display plant in India

Samsung, which once led India’s smartphone market, is investing $500 million in its India operations to set up a manufacturing plant at the outskirts of New Delhi to produce displays.

The company disclosed the investment and its plan in a filing to the local regulator earlier this month. The South Korean giant said the plant would produce displays for smartphones as well as a wide-range of other electronics devices.

In the filing, the company disclosed that it has allocated some land area from its existing factory in Noida for the new plant.

In 2018, Samsung opened a factory in Noida that it claimed was the world’s largest mobile manufacturing plant. For that factory, the company had committed to spend about $700 million.

The new plant should help Samsung further increase its capacity to produce smartphone components locally and access a range of tax benefits that New Delhi offers.

Those benefits would come in handy to the company as it faces off Xiaomi, the Chinese smartphone vendor that put an end to Samsung’s lead in India.

Samsung is now the second largest smartphone player in India, which is the world’s second largest market with nearly 500 million smartphone users. The company in recent months has also lost market share to Chinese brand Realme, which is poised to take over the South Korean giant in the quarter that ended in December last year, according to some analysts.

TechCrunch has reached out to Samsung for comment.

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Baraja’s unique and ingenious take on lidar shines in a crowded industry

It seems like every company making lidar has a new and clever approach, but Baraja takes the cake. Its method is not only elegant and powerful, but fundamentally avoids many issues that nag other lidar technologies. But it’ll need more than smart tech to make headway in this complex and evolving industry.

To understand how lidar works in general, consult my handy introduction to the topic. Essentially a laser emitted by a device skims across or otherwise very quickly illuminates the scene, and the time it takes for that laser’s photons to return allows it to quite precisely determine the distance of every spot it points at.

But to picture how Baraja’s lidar works, you need to picture the cover of Pink Floyd’s “Dark Side of the Moon.”

GIFs kind of choke on rainbows, but you get the idea.

Imagine a flashlight shooting through a prism like that, illuminating the scene in front of it — now imagine you could focus that flashlight by selecting which color came out of the prism, sending more light to the top part of the scene (red and orange) or middle (yellow and green). That’s what Baraja’s lidar does, except naturally it’s a bit more complicated than that.

The company has been developing its tech for years with the backing of Sequoia and Australian VC outfit Blackbird, which led a $32 million round late in 2018 — Baraja only revealed its tech the next year and was exhibiting it at CES, where I met with co-founder and CEO Federico Collarte.

“We’ve stayed in stealth for a long, long time,” he told me. “The people who needed to know already knew about us.”

The idea for the tech came out of the telecommunications industry, where Collarte and co-founder Cibby Pulikkaseril thought of a novel use for a fiber optic laser that could reconfigure itself extremely quickly.

We thought if we could set the light free, send it through prism-like optics, then we could steer a laser beam without moving parts. The idea seemed too simple — we thought, ‘if it worked, then everybody would be doing it this way,’ ” he told me, but they quit their jobs and worked on it for a few months with a friends and family round, anyway. “It turns out it does work, and the invention is very novel and hence we’ve been successful in patenting it.”

Rather than send a coherent laser at a single wavelength (1550 nanometers, well into the infrared, is the lidar standard), Baraja uses a set of fixed lenses to refract that beam into a spectrum spread vertically over its field of view. Yet it isn’t one single beam being split but a series of coded pulses, each at a slightly different wavelength that travels ever so slightly differently through the lenses. It returns the same way, the lenses bending it the opposite direction to return to its origin for detection.

It’s a bit difficult to grasp this concept, but once one does it’s hard to see it as anything but astonishingly clever. Not just because of the fascinating optics (something I’m partial to, if it isn’t obvious), but because it obviates a number of serious problems other lidars are facing or about to face.

First, there are next to no moving parts whatsoever in the entire Baraja system. Spinning lidars like the popular early devices from Velodyne are being replaced at large by ones using metamaterials, MEMS, and other methods that don’t have bearings or hinges that can wear out.

Baraja’s “head” unit, connected by fiber optic to the brain.

In Baraja’s system, there are two units, a “dumb” head and an “engine.” The head has no moving parts and no electronics; it’s all glass, just a set of lenses. The engine, which can be located nearby or a foot or two away, produces the laser and sends it to the head via a fiber-optic cable (and some kind of proprietary mechanism that rotates slowly enough that it could theoretically work for years continuously). This means it’s not only very robust physically, but its volume can be spread out wherever is convenient in the car’s body. The head itself also can be resized more or less arbitrarily without significantly altering the optical design, Collarte said.

Second, the method of diffracting the beam gives the system considerable leeway in how it covers the scene. Different wavelengths are sent out at different vertical angles; a shorter wavelength goes out toward the top of the scene and a slightly longer one goes a little lower. But the band of 1550 +/- 20 nanometers allows for millions of fractional wavelengths that the system can choose between, giving it the ability to set its own vertical resolution.

It could for instance (these numbers are imaginary) send out a beam every quarter of a nanometer in wavelength, corresponding to a beam going out every quarter of a degree vertically, and by going from the bottom to the top of its frequency range cover the top to the bottom of the scene with equally spaced beams at reasonable intervals.

But why waste a bunch of beams on the sky, say, when you know most of the action is taking place in the middle part of the scene, where the street and roads are? In that case you can send out a few high frequency beams to check up there, then skip down to the middle frequencies, where you can then send out beams with intervals of a thousandth of a nanometer, emerging correspondingly close together to create a denser picture of that central region.

If this is making your brain hurt a little, don’t worry. Just think of Dark Side of the Moon and imagine if you could skip red, orange and purple, and send out more beams in green and blue — and because you’re only using those colors, you can send out more shades of green-blue and deep blue than before.

Third, the method of creating the spectrum beam provides against interference from other lidar systems. It is an emerging concern that lidar systems of a type could inadvertently send or reflect beams into one another, producing noise and hindering normal operation. Most companies are attempting to mitigate this by some means or another, but Baraja’s method avoids the possibility altogether.

“The interference problem — they’re living with it. We solved it,” said Collarte.

The spectrum system means that for a beam to interfere with the sensor it would have to be both a perfect frequency match and come in at the precise angle at which that frequency emerges from and returns to the lens. That’s already vanishingly unlikely, but to make it astronomically so, each beam from the Baraja device is not a single pulse but a coded set of pulses that can be individually identified. The company’s core technology and secret sauce is the ability to modulate and pulse the laser millions of times per second, and it puts this to good use here.

Collarte acknowledged that competition is fierce in the lidar space, but not necessarily competition for customers. “They have not solved the autonomy problem,” he points out, “so the volumes are too small. Many are running out of money. So if you don’t differentiate, you die.” And some have.

Instead companies are competing for partners and investors, and must show that their solution is not merely a good idea technically, but that it is a sound investment and reasonable to deploy at volume. Collarte praised his investors, Sequoia and Blackbird, but also said that the company will be announcing significant partnerships soon, both in automotive and beyond.

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Apple buys edge-based AI startup Xnor.ai for a reported $200M

Xnor.ai, spun off in 2017 from the nonprofit Allen Institute for AI (AI2), has been acquired by Apple for about $200 million. A source close to the company corroborated a report this morning from GeekWire to that effect.

Apple confirmed the reports with its standard statement for this sort of quiet acquisition: “Apple buys smaller technology companies from time to time and we generally do not discuss our purpose or plans.” (I’ve asked for clarification just in case.)

Xnor.ai began as a process for making machine learning algorithms highly efficient — so efficient that they could run on even the lowest tier of hardware out there, things like embedded electronics in security cameras that use only a modicum of power. Yet using Xnor’s algorithms they could accomplish tasks like object recognition, which in other circumstances might require a powerful processor or connection to the cloud.

CEO Ali Farhadi and his founding team put the company together at AI2 and spun it out just before the organization formally launched its incubator program. It raised $2.7M in early 2017 and $12M in 2018, both rounds led by Seattle’s Madrona Venture Group, and has steadily grown its local operations and areas of business.

The $200M acquisition price is only approximate, the source indicated, but even if the final number were less by half that would be a big return for Madrona and other investors.

The company will likely move to Apple’s Seattle offices; GeekWire, visiting the Xnor.ai offices (in inclement weather, no less), reported that a move was clearly underway. AI2 confirmed that Farhadi is no longer working there, but he will retain his faculty position at the University of Washington.

An acquisition by Apple makes perfect sense when one thinks of how that company has been directing its efforts towards edge computing. With a chip dedicated to executing machine learning workflows in a variety of situations, Apple clearly intends for its devices to operate independent of the cloud for such tasks as facial recognition, natural language processing, and augmented reality. It’s as much for performance as privacy purposes.

Its camera software especially makes extensive use of machine learning algorithms for both capturing and processing images, a compute-heavy task that could potentially be made much lighter with the inclusion of Xnor’s economizing techniques. The future of photography is code, after all — so the more of it you can execute, and the less time and power it takes to do so, the better.

 

It could also indicate new forays in the smart home, toward which with HomePod Apple has made some tentative steps. But Xnor’s technology is highly adaptable and as such rather difficult to predict as far as what it enables for such a vast company as Apple.

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OrCam announces new AI-enabled device for hearing impairment

OrCam is expanding its product lineup with new devices that tackle new use cases. OrCam’s best-known device is the OrCam MyEye 2 — a tiny device for people with visual impairment that you clip on your glasses to help you navigate the world around you.

At CES, OrCam announced that the MyEye 2 is getting new features. In addition to being able to point at text and signs to read text aloud, recognize faces and identify objects and money notes, you’ll be able to let the device guide you.

For instance, you can say “what’s in front of me?” and the device could tell you that there’s a door. You can then ask to be guided to that door. The MyEye 2 is also getting better at natural language processing for interactive reading sessions.

When it comes to new devices, OrCam is expanding to hearing impairment with the OrCam Hear. It can be particularly useful in loud rooms. The device helps you identify and isolate a speaker’s voice so you can follow a conversation even in a public space. You pair it with your existing Bluetooth hearing aids.

Finally, OrCam is introducing the OrCam Read, a handheld AI reader. This time, you don’t clip a camera to your glasses, you take the device in your hand and point it at text. The company says it could be particularly useful for people who have reading difficulties due to dyslexia.

CES 2020 coverage - TechCrunch

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Razer shows off Sila, the first 5G router built for gaming

Gaming — with its huge demands on bandwidth, graphics and overall processing power — is likely to be one of the big use cases for 5G networking in the future, and today one of the big players in consumer gaming hardware showed off a 5G router that underscores that trend. Razer, the consumer electronics upstart that has long billed itself as “for gamers, by gamers,” today at CES showed off a new product called the Razer Sila 5G Home Router — a high-speed networking device that both automatically prioritizes bandwidth for gaming and streaming, and also lets users choose which devices on the network get more or less juice.

Alongside that, it also unveiled a new universal mobile gaming controller — Razer Kishi; a new gaming desktop Razer Tomahawk Gaming Desktop, and a new Razer e-racing simulator created in collaboration with game publishers and vendors (we’ve put this as the main picture because — let’s face it — routers are not nearly as cool-looking even if they are more likely to have legs).

The Sila and e-racing simulator are both concept pieces at this point, while the Android- and iOS-compatible controller will be on the market in early 2020. (No date given for the Tomahawk.)

Razer — which went public in 2017 (market cap currently around $1.5 billion) — has faced recent controversy from a number of former employees coming out to criticize its figurehead and CEO, Min-Liang Tan, and how he runs the company, alleging a culture of fear with violent threats and more.

Tan at the time of the reports brushed off the remarks claiming they were in jest, but it’s notable that he doesn’t seem to be making himself particularly visible or available this year at the show — a contrast from years before.

Instead, we are presented with the fruits of the company’s labor over the past year, a time where it has continued to produce hardware — computers, peripherals like controllers, mainly — but has made a number of moves to figure out the best way ahead with software and services, where it says it is increasing its share of revenue, but has also shut down its digital game store, as well as its Ouya and Forge TV services.

Although it’s only still a concept, the Sila 5G Home Router is perhaps the most exciting of the pack of announcements this year, as it is tapping into a bigger wave of interest in 5G by giving it a more relevant feel to the consumer market; and represents a notable new area for Razer itself (in routers).

The Sila is described as a “high-speed networking device tailored for gamers” and notable features include ultra-low latency during both stationary and mobile gameplay, built on Razer’s FasTrack engine — which allows a user to play a game with no pings or interruptions from other services or network glitches. The router has a built-in rechargeable battery so you can travel with it and use it outside the home.

It is built using a Qualcomm SDX55 + Hawkeye IPQ8072A chipset, and is also usable with 4G LTE over a 802.11ax 4×4 WiFi connection, with one 2.5Gbps WAN, 4 x 1Gbps LAN and 1 x USB 3.0 ports, along with a SIM slot to link up to the cellular network. All of it can be controlled through Android or iOS apps.

Razer’s presence at CES where it shows off its latest ideas has become a regular fixture at the annual event for good reason.

As gaming has expanded beyond traditional consoles and into the cloud and across the web to PCs and phones, it has become one of the most demanding uses of computer processing power, putting machines through their paces not just in graphics, but audio and overall responsiveness when it comes to gameplay.

At CES, if you go to any of the big product launches for the computing giants (Nvidia, AMD, Intel, Qualcomm), or visit any number of stands showing off the latest in computing tech, gaming is the most common demo you will see as a “proof point” — not just because it’s eye-catching, but because it genuinely is a test of how well something works.

So it’s no surprise that Razer, a company building hardware specifically for the gaming market, has a regular, big presence at CES, where it shows off both products that it plans to launch as well as those that are still in concept, in order to test market interest and have some fun with what could be in the future.

(It’s also a very obvious reason why Intel became an investor in the company many years ago when it was still in startup mode. It was a strategic move that helped ensure both that Intel could collaborate with Razer to have a closer idea of what is needed and should be built, but also to make sure that its chipsets are at the core of those new gaming-focused machines).
CES 2020 coverage - TechCrunch

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