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Facebook buys studio behind Roblox-like Crayta gaming platform

Facebook has been making plenty of one-off virtual reality studio acquisitions lately, but today the company announced that they’re buying something with wider ambitions — a Roblox-like game creation platform.

Facebook shared that they’re buying Unit 2 Games, which builds a platform called Crayta. Like some other platforms out there, it builds on top of the Unreal Engine and gives users a more simple creation interface teamed with discovery and community features. Crayta has cornered its own niche pushing monetization paths like Battle Pass seasons, giving the platform a more Fortnite-like vibe as well.

Unit 2 has been around for just over three years, and Crayta launched just last July. Its audience has likely been limited by the studio’s deal to exclusively launch on Google’s cloud-streaming platform Stadia, though it’s also available on the Epic Games Store as of March.

The title feels designed for the lightweight nature of cloud-gaming platforms, with users able to share access to games just by linking other users, and Facebook seems keen to use Crayta to push forward their own efforts in the gaming sphere.

“Crayta has maximized current cloud-streaming technology to make game creation more accessible and easy to use. We plan to integrate Crayta’s creation toolset into Facebook Gaming’s cloud platform to instantly deliver new experiences on Facebook,” Facebook Gaming VP Vivek Sharma wrote in an announcement post.

The entire team will be coming on as part of the acquisition, though financial terms of the deal weren’t shared.

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Cellwize raises $32M to help carriers and their partners adopt and run 5G services

As 5G slowly moves from being a theoretical to an active part of the coverage map for the mobile industry — if not for consumers themselves — companies that are helping carriers make the migration less painful and less costly are seeing a boost of attention.

In the latest development, Cellwize, a startup that’s built a platform to automate and optimize data for carriers to run 5G networks within multi-vendor environments, has raised $32 million — funding that it will use to continue expanding its business into more geographies and investing in R&D to bring more capabilities to its flagship CHIME platform.

The funding is notable because of the list of strategic companies doing the investing, as well as because of the amount of traction that Cellwize has had to date.

The Series B round is being co-led Intel Capital and Qualcomm Ventures LLC, and Verizon Ventures (which is part of Verizon, which also owns TechCrunch by way of Verizon Media) and Samsung Next, with existing shareholders also participating. That list includes Deutsche Telekom and Sonae, a Portuguese conglomerate that owns multiple brands in retail, financial services, telecoms and more.

That backing underscores Cellwize’s growth. The company — which is based in Israel with operations also in Dallas and Singapore — says it currently provides services to some 40 carriers (including Verizon, Telefonica and more), covering 16 countries, 3 million cell sites, and 800 million subscribers.

Cellwize is not disclosing its valuation but it has raised $56.5 million from investors to date.

5G holds a lot of promise for carriers, their vendors, handset makers and others in the mobile ecosystem: the belief is that faster and more efficient speeds for wireless data will unlock a new wave of services and usage and revenues from services for consumers and business, covering not just people but IoT networks, too.

Notwithstanding the concerns some have had with health risks, despite much of that theory being debunked over the years, one of the technical issues with 5G has been implementing it.

Migrating can be costly and laborious, not least because carriers need to deploy more equipment at closer distances, and because they will likely be running hybrid systems in the Radio Access Network (RAN, which controls how devices interface with carriers’ networks); and they will be managing legacy networks (eg, 2G, 3G, 4G, LTE) alongside 5G, and working with multiple vendors within 5G itself.

Cellwize positions its CHIME platform — which works as an all-in-one tool that leverages AI and other tech in the cloud, and covers configuring new 5G networks, optimizing and monitoring data on them, and also providing APIs for third-party developers to integrate with it — as the bridge to letting carriers operate in the more open-shop approach that marks the move to 5G.

“While large companies have traditionally been more dominant in the RAN market, 5G is changing the landscape for how the entire mobile industry operates,” said Ofir Zemer, Cellwize’s CEO. “These traditional vendors usually offer solutions which plug into their own equipment, while not allowing third parties to connect, and this creates a closed and limited ecosystem. [But] the large operators also are not interested in being tied to one vendor: not technology-wise and not on the business side – as they identify this as an inhibitor to their own innovation.”

Cellwize provides an open platform that allows a carrier to plan, deploy and manage the RAN in that kind of multi-vendor ecosystem. “We have seen an extremely high demand for our solution and as 5G rollouts continue to increase globally, we expect the demand for our product will only continue to grow,” he added.

Previously, Zemer said that carriers would build their own products internally to manage data in the RAN, but these “struggle to support 5G.”

The competition element is not just lip service: the fact that both Intel and Qualcomm — competitors in key respects — are investing in this round underscores how Cellwize sees itself as a kind of Switzerland in mobile architecture. It also underscores that both view easy and deep integrations with its tech as something worth backing, given the priorities of each of their carrier customers.

“Over the last decade, Intel technologies have been instrumental in enabling the communications industry to transform networks with an agile and scalable infrastructure,” said David Flanagan, VP and senior MD at Intel Capital, in a statement. “With the challenges in managing the high complexity of radio access networks, we are encouraged by the opportunity in front of Cellwize to explore ways to utilize their AI-based automation capabilities as Intel brings the benefits of cloud architectures to service provider and private networks.”

“Qualcomm is at the forefront of 5G expansion, creating a robust ecosystem of technologies that will usher in the new era of connectivity,” added Merav Weinryb, Senior Director of Qualcomm Israel Ltd. and MD of Qualcomm Ventures Israel and Europe. “As a leader in RAN automation and orchestration, Cellwize plays an important role in 5G deployment. We are excited to support Cellwize through the Qualcomm Ventures’ 5G global ecosystem fund as they scale and expedite 5G adoption worldwide.”

And that is the key point. Right now there are precious few 5G deployments, and sometimes, when you read some the less shiny reports of 5G rollouts, you might be forgiven for feeling like it’s more marketing than reality at this point. But Zemer — who is not a co-founder (both of them have left the company) but has been with it since 2013, almost from the start — is sitting in on the meetings with carriers, and he believes that it won’t be long before all that tips.

“Within the next five years, approximately 75% of mobile connections will be powered by 5G, and 2.6 billion 5G mobile subscriptions will be serving 65% of the world’s population,” he said. “While 5G technology holds a tremendous amount of promise, the reality is that it is also hyper-complex, comprised of multiple technologies, architectures, bands, layers, and RAN/vRAN players. We are working with network operators around the world to help them overcome the challenges of rolling out and managing these next generation networks, by automating their entire RAN processes, allowing them to successfully deliver 5G to their customers.”

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Facebook steps into cloud gaming — and another feud with Apple

Facebook will soon be the latest tech giant to enter the world of cloud gaming. Their approach is different than what Microsoft or Google has built, but Facebook highlights a shared central challenge: dealing with Apple.

Facebook is not building a console gaming competitor to compete with Stadia or xCloud; instead, the focus is wholly on mobile games. Why cloud stream mobile games that your device is already capable of running locally? Facebook is aiming to get users into games more quickly and put less friction between a user seeing an advertisement for a game and actually playing it themselves. Users can quickly tap into the title without downloading anything, and if they eventually opt to download the title from a mobile app store, they’ll be able to pick up where they left off.

Facebook’s service will launch on the desktop web and Android, but not iOS due to what Facebook frames as usability restrictions outlined in Apple’s App Store terms and conditions.

With the new platform, users will  be able to start playing mobile games directly from Facebook ads. Image via Facebook.

While Apple has suffered an onslaught of criticism in 2020 from developers of major apps like Spotify, Tinder and Fortnite for how much money they take as a cut from revenues of apps downloaded from the App Store, the plights of companies aiming to build cloud gaming platforms have been more nuanced and are tied to how those platforms are fundamentally allowed to operate on Apple devices.

Apple was initially slow to provide a path forward for cloud gaming apps from Google and Microsoft, which had previously been outlawed on the App Store. The iPhone maker recently updated its policies to allow these apps to exist, but in a more convoluted capacity than the platform makers had hoped, forcing them to first send users to the App Store before being able to cloud stream a gaming title on their platform.

For a user downloading a lengthy single-player console epic, the short pitstop is an inconvenience, but long-time Facebook gaming exec Jason Rubin says that the stipulations are a non-starter for what Facebook’s platform envisions, a way to start playing mobile games immediately without downloading anything.

“It’s a sequence of hurdles that altogether make a bad consumer experience,” Rubin tells TechCrunch.

Apple tells TechCrunch that they have continued to engage with Facebook on bringing its gaming efforts under its guidelines and that platforms can reach iOS by either submitting each individual game to the App Store for review or operating their service on Safari.

In terms of building the new platform onto the mobile web, Rubin says that without being able to point users of their iOS app to browser-based experiences, as current rules forbid, Facebook doesn’t see pushing its billions of users to accessing the service primarily from a browser as a reasonable alternative. In a Zoom call, Rubin demonstrates how this  could operate on iOS, with users tapping an advertisement inside the app and being redirected to a game experience in mobile Safari.

“But if I click on that, I can’t go to the web. Apple says, ‘No, no, no, no, no, you can’t do that,’ ” Rubin tells us. “Apple may say that it’s a free and open web, but what you can actually build on that web is dictated by what they decide to put in their core functionality.”

Facebook VP of Play Jason Rubin. Image via Facebook.

Rubin, who co-founded the game development studio Naughty Dog in 1994 before it was acquired by Sony in 2001, has been at Facebook since he joined Oculus months after its 2014 acquisition was announced. Rubin had previously been tasked with managing the games ecosystem for its virtual reality headsets; this year he was put in charge of the company’s gaming initiatives across their core family of apps as the company’s VP of Play.

Rubin, well familiar with game developer/platform skirmishes, was quick to distinguish the bone Facebook had to pick with Apple and complaints from those like Epic Games, which sued Apple this summer.

“I do want to put a pin in the fact that we’re giving Google 30% [on Android]. The Apple issue is not about money,” Rubin tells TechCrunch. “We can talk about whether or not it’s fair that Google takes that 30%. But we would be willing to give Apple the 30% right now, if they would just let consumers have the opportunity to do what we’re offering here.”

Facebook is notably also taking a 30% cut of transaction within these games, even as Facebook’s executive team has taken its own shots at Apple’s steep revenue fee in the past, most recently criticizing how Apple’s App Store model was hurting small businesses during the pandemic. This saga eventually led to Apple announcing that it would withhold its cut through the end of the year for ticket sales of small businesses hosting online events.

Apple’s reticence to allow major gaming platforms a path toward independently serving up games to consumers underscores the significant portion of App Store revenues that could be eliminated by a consumer shift toward these cloud platforms. Apple earned around $50 billion from the App Store last year, CNBC estimates, and gaming has long been their most profitable vertical.

Though Facebook is framing this as an uphill battle against a major platform for the good of the gamer, this is hardly a battle between two underdogs. Facebook pulled in nearly $70 billion in ad revenues last year, and improving their offerings for mobile game studios could be a meaningful step toward increasing that number, something Apple’s App Store rules threaten.

For the time being, Facebook is keeping this launch pretty conservative. There are just 5-10 titles that are going to be available at launch, Rubin says. Facebook is rolling out access to the new service, which is free, this week across a handful of states in America, including California, Texas, Massachusetts, New York, New Jersey, Connecticut, Rhode Island, Delaware, Pennsylvania, Maryland, Washington, D.C., Virginia and West Virginia. The hodge-podge nature of the geographic rollout is owed to the technical limitations of cloud-gaming — people have to be close to data centers where the service has rolled out in order to have a usable experience. Facebook is aiming to scale to the rest of the U.S. in the coming months, they say.

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All eyes are on the next liquidity event when it comes to space startups

At the FAA’s 23rd Annual Commercial Commercial Space Transportation Conference in Washington, DC on Wednesday, a panel dedicated to the topic of trends in VC around space startups touched on public vs. private funding, the right kinds of space companies that should even be considering venture funding, and, perhaps most notably, the big L: Liquidity.

Moderator Tess Hatch, Vice President at Bessemer Venture Partners, addressed the topic in response to an audience question that noted while we’ve heard a lot about how much money will flow into space-related startups from the VC community, we haven’t actually et seen much in the way of liquidity events that prove out the validity of these investments.

“In 2008, a company called Skybox was created and a handful of years later Google acquired the company for $500 million,” Hatch said. “Every venture capitalist’s ears perked up and they thought ‘Hey, that’s pretty good ROI in a short amount of time – maybe the space thing is an investable area’ and then a ton of venture capital investments flooded into space startups, and all of these venture capitalists made one, or maybe two investments in the area. Since then, there have not been many — if any – liquidity events: Perhaps Virgin Galactic going public via the SPAC (special uprose vehicle) on the New York Stock Exchange late last year would be the second. So we’re still waiting; we’re still waiting for those exits, we are still waiting for companies to pave the path for the 400+ startups in the ecosystem to return our investment.”

Hatch added that she’s looking at a number of companies who have the potential to break this somewhat prolonged exit drought in 2020, including five who are either quite mature in terms of their development, naming SpaceX, Rocket Lab, Planet and Spire as all likely candidates to have some kind of liquidity event in 2020, with the mostly likely being an IPO.

Space as an industry was described to me recently as a ‘maturing’ startup market by Space Angels CEO Chad Anderson, by virtue of the distribution of activity in terms of the overall investment rounds in the sector. There is indeed a lot of activity with early stage companies and seed rounds, but the fact remains that there hasn’t been much in the way of exits, and it’s also worth pointing out that corporate VCs haven’t been as acquisitive in space as some of their consumer and enterprise technology counterparts.

The panel touched on a lot more apart from liquidity, which actually only came up towards the end of the discussion, which included panelists Astranis CEO and co-founder John Gedmark; Capella Space CEO and founder Payam Banazadeh and Rocket Lab VP of Global Commercial Launch Services Shane Fleming. Both Gedmark and Banazadeh addressed aspects of the risks and benefits of seeking VC as a space technology company.

“Not every space business is a venture-backable business,” said Banazadeh earlier in the conversation. “But there are a lot of space businesses that are specifically going after raising venture money, and that’s dangerous for everyone – because at the end of the day venture is looking at high risk, high return. The ‘high return’ comes from being able to get substantial amount of revenue in a market that’s big
enough for those revenues to be coming from. But if your idea is to go build, maybe, some very specific part in a satellite, then you have to make the case of why you’ll be able to make those returns for the investors, and in a lot of cases, that’s just not possible.”

Banazadeh also concedes that doing any kind of space technology development is expensive, and the money has to come from somewhere. Gedmark talked about one popular source, government funding and grants, and why that often isn’t as obviously a positive thing for startups as it might seem.

“Small government grants can be great, and obviously a fantastic source of non dilutive capital,” Gedmark said. “But there is a little bit of a trick there, or something to be aware of: I think people are often surprised how much time is spent in the early days of a startup refining the exact idea and the product, and if you’re not certain that you have the that product market fit […] then, the government grant can be extremely dangerous, because they will fund you to do something that is sort of similar to what to what you’re doing, but it really prevents you changing your approach later; you’re going to end up spending time executing on the specific project of the program manager on the government side and you’re executing on what they want.”

VC funds, on the other hand, come with the built-in expectation that you’re going to refine and potentially even change direction altogether, Gedmark says. Depending on the terms of the public funding you’re seeking, that flexibility may not be part of the arrangement, which ultimately could be more important than a bit of equity dilution.

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AWS expands its IoT services, brings Alexa to devices with only 1MB of RAM

AWS today announced a number of IoT-related updates that, for the most part, aim to make getting started with its IoT services easier, especially for companies that are trying to deploy a large fleet of devices. The marquee announcement, however, is about the Alexa Voice Service, which makes Amazon’s Alex voice assistant available to hardware manufacturers who want to build it into their devices. These manufacturers can now create “Alexa built-in” devices with very low-powered chips and 1MB of RAM.

Until now, you needed at least 100MB of RAM and an ARM Cortex A-class processor. Now, the requirement for Alexa Voice Service integration for AWS IoT Core has come down 1MB and a cheaper Cortex-M processor. With that, chances are you’ll see even more lightbulbs, light switches and other simple, single-purpose devices with Alexa functionality. You obviously can’t run a complex voice-recognition model and decision engine on a device like this, so all of the media retrieval, audio decoding, etc. is done in the cloud. All it needs to be able to do is detect the wake word to start the Alexa functionality, which is a comparably simple model.

“We now offload the vast majority of all of this to the cloud,” AWS IoT VP Dirk Didascalou told me. “So the device can be ultra dumb. The only thing that the device still needs to do is wake word detection. That still needs to be covered on the device.” Didascalou noted that with new, lower-powered processors from NXP and Qualcomm, OEMs can reduce their engineering bill of materials by up to 50 percent, which will only make this capability more attractive to many companies.

Didascalou believes we’ll see manufacturers in all kinds of areas use this new functionality, but most of it will likely be in the consumer space. “It just opens up the what we call the real ambient intelligence and ambient computing space,” he said. “Because now you don’t need to identify where’s my hub — you just speak to your environment and your environment can interact with you. I think that’s a massive step towards this ambient intelligence via Alexa.”

No cloud computing announcement these days would be complete without talking about containers. Today’s container announcement for AWS’ IoT services is that IoT Greengrass, the company’s main platform for extending AWS to edge devices, now offers support for Docker containers. The reason for this is pretty straightforward. The early idea of Greengrass was to have developers write Lambda functions for it. But as Didascalou told me, a lot of companies also wanted to bring legacy and third-party applications to Greengrass devices, as well as those written in languages that are not currently supported by Greengrass. Didascalou noted that this also means you can bring any container from the Docker Hub or any other Docker container registry to Greengrass now, too.

“The idea of Greengrass was, you build an application once. And whether you deploy it to the cloud or at the edge or hybrid, it doesn’t matter, because it’s the same programming model,” he explained. “But very many older applications use containers. And then, of course, you saying, okay, as a company, I don’t necessarily want to rewrite something that works.”

Another notable new feature is Stream Manager for Greengrass. Until now, developers had to cobble together their own solutions for managing data streams from edge devices, using Lambda functions. Now, with this new feature, they don’t have to reinvent the wheel every time they want to build a new solution for connection management and data retention policies, etc., but can instead rely on this new functionality to do that for them. It’s pre-integrated with AWS Kinesis and IoT Analytics, too.

Also new for AWS IoT Greengrass are fleet provisioning, which makes it easier for businesses to quickly set up lots of new devices automatically, as well as secure tunneling for AWS IoT Device Management, which makes it easier for developers to remote access into a device and troubleshoot them. In addition, AWS IoT Core now features configurable endpoints.

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Here’s how Google Stadia performs depending on your internet connection

Google is introducing more about the launch of its Stadia streaming gaming service today, and VP Phil Harrison gave us performance specifics today so you can see exactly how the company thinks the service will perform based on what kind of internet connection you have. It tops out at an impressive 4K resolution, with HDR color, 60fps frame rate and 5.1 surround sound, but you’ll have to have at least a 35 Mbps connection to get that level of quality.

Meanwhile, at 20 Mbps you’ll get full HD 1080p output, while retaining HDR video, 60fps and 5.1 surround. And Google has optimized for smoothness of stream by retaining 60 fps all the way down to its recommended minimum bandwidth connection quality of 10 Mbps (and even potentially below that based on this chart). You’ll only get 720p streams at that level, however, and stereo instead of surround sound.

“With Stadia, our goal is to make gaming more accessible for everyone,” is how Harrison framed it, and that applies to its range of connection support as well as its device availability. At launch you’ll be able to play Stadia games on your TV (via Chromecast Ultra), desktop, laptop and tablet (via browsers) and on smartphones, though only Pixel phones to begin with starting with Pixel 3 and Pixel 3a (via dedicated Stadia app).

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Apple is rebuilding Maps from the ground up

I’m not sure if you’re aware, but the launch of Apple Maps went poorly. After a rough first impression, an apology from the CEO, several years of patching holes with data partnerships and some glimmers of light with long-awaited transit directions and improvements in business, parking and place data, Apple Maps is still not where it needs to be to be considered a world-class service.

Maps needs fixing.

Apple, it turns out, is aware of this, so it’s re-building the maps part of Maps.

It’s doing this by using first-party data gathered by iPhones with a privacy-first methodology and its own fleet of cars packed with sensors and cameras. The new product will launch in San Francisco and the Bay Area with the next iOS 12 beta and will cover Northern California by fall.

Every version of iOS will get the updated maps eventually, and they will be more responsive to changes in roadways and construction, more visually rich depending on the specific context they’re viewed in and feature more detailed ground cover, foliage, pools, pedestrian pathways and more.

This is nothing less than a full re-set of Maps and it’s been four years in the making, which is when Apple began to develop its new data-gathering systems. Eventually, Apple will no longer rely on third-party data to provide the basis for its maps, which has been one of its major pitfalls from the beginning.

“Since we introduced this six years ago — we won’t rehash all the issues we’ve had when we introduced it — we’ve done a huge investment in getting the map up to par,” says Apple SVP Eddy Cue, who now owns Maps, in an interview last week. “When we launched, a lot of it was all about directions and getting to a certain place. Finding the place and getting directions to that place. We’ve done a huge investment of making millions of changes, adding millions of locations, updating the map and changing the map more frequently. All of those things over the past six years.”

But, Cue says, Apple has room to improve on the quality of Maps, something that most users would agree on, even with recent advancements.

“We wanted to take this to the next level,” says Cue. “We have been working on trying to create what we hope is going to be the best map app in the world, taking it to the next step. That is building all of our own map data from the ground up.”

In addition to Cue, I spoke to Apple VP Patrice Gautier and more than a dozen Apple Maps team members at its mapping headquarters in California this week about its efforts to re-build Maps, and to do it in a way that aligned with Apple’s very public stance on user privacy.

If, like me, you’re wondering whether Apple thought of building its own maps from scratch before it launched Maps, the answer is yes. At the time, there was a choice to be made about whether or not it wanted to be in the business of maps at all. Given that the future of mobile devices was becoming very clear, it knew that mapping would be at the core of nearly every aspect of its devices, from photos to directions to location services provided to apps. Decision made, Apple plowed ahead, building a product that relied on a patchwork of data from partners like TomTom, OpenStreetMap and other geo data brokers. The result was underwhelming.

Almost immediately after Apple launched Maps, it realized that it was going to need help and it signed on a bunch of additional data providers to fill the gaps in location, base map, point-of-interest and business data.

It wasn’t enough.

“We decided to do this just over four years ago. We said, ‘Where do we want to take Maps? What are the things that we want to do in Maps?’ We realized that, given what we wanted to do and where we wanted to take it, we needed to do this ourselves,” says Cue.

Because Maps are so core to so many functions, success wasn’t tied to just one function. Maps needed to be great at transit, driving and walking — but also as a utility used by apps for location services and other functions.

Cue says that Apple needed to own all of the data that goes into making a map, and to control it from a quality as well as a privacy perspective.

There’s also the matter of corrections, updates and changes entering a long loop of submission to validation to update when you’re dealing with external partners. The Maps team would have to be able to correct roads, pathways and other updating features in days or less, not months. Not to mention the potential competitive advantages it could gain from building and updating traffic data from hundreds of millions of iPhones, rather than relying on partner data.

Cue points to the proliferation of devices running iOS, now over a billion, as a deciding factor to shift its process.

“We felt like because the shift to devices had happened — building a map today in the way that we were traditionally doing it, the way that it was being done — we could improve things significantly, and improve them in different ways,” he says. “One is more accuracy. Two is being able to update the map faster based on the data and the things that we’re seeing, as opposed to driving again or getting the information where the customer’s proactively telling us. What if we could actually see it before all of those things?”

I query him on the rapidity of Maps updates, and whether this new map philosophy means faster changes for users.

“The truth is that Maps needs to be [updated more], and even are today,” says Cue. “We’ll be doing this even more with our new maps, [with] the ability to change the map in real time and often. We do that every day today. This is expanding us to allow us to do it across everything in the map. Today, there’s certain things that take longer to change.

“For example, a road network is something that takes a much longer time to change currently. In the new map infrastructure, we can change that relatively quickly. If a new road opens up, immediately we can see that and make that change very, very quickly around it. It’s much, much more rapid to do changes in the new map environment.”

So a new effort was created to begin generating its own base maps, the very lowest building block of any really good mapping system. After that, Apple would begin layering on living location data, high-resolution satellite imagery and brand new intensely high-resolution image data gathered from its ground cars until it had what it felt was a “best in class” mapping product.

There is only really one big company on earth that owns an entire map stack from the ground up: Google .

Apple knew it needed to be the other one. Enter the vans.

Apple vans spotted

Though the overall project started earlier, the first glimpse most folks had of Apple’s renewed efforts to build the best Maps product was the vans that started appearing on the roads in 2015 with “Apple Maps” signs on the side. Capped with sensors and cameras, these vans popped up in various cities and sparked rampant discussion and speculation.

The new Apple Maps will be the first time the data collected by these vans is actually used to construct and inform its maps. This is their coming out party.

Some people have commented that Apple’s rigs look more robust than the simple GPS + Camera arrangements on other mapping vehicles — going so far as to say they look more along the lines of something that could be used in autonomous vehicle training.

Apple isn’t commenting on autonomous vehicles, but there’s a reason the arrays look more advanced: they are.

Earlier this week I took a ride in one of the vans as it ran a sample route to gather the kind of data that would go into building the new maps. Here’s what’s inside.

In addition to a beefed-up GPS rig on the roof, four LiDAR arrays mounted at the corners and eight cameras shooting overlapping high-resolution images, there’s also the standard physical measuring tool attached to a rear wheel that allows for precise tracking of distance and image capture. In the rear there is a surprising lack of bulky equipment. Instead, it’s a straightforward Mac Pro bolted to the floor, attached to an array of solid state drives for storage. A single USB cable routes up to the dashboard where the actual mapping-capture software runs on an iPad.

While mapping, a driver…drives, while an operator takes care of the route, ensuring that a coverage area that has been assigned is fully driven, as well as monitoring image capture. Each drive captures thousands of images as well as a full point cloud (a 3D map of space defined by dots that represent surfaces) and GPS data. I later got to view the raw data presented in 3D and it absolutely looks like the quality of data you would need to begin training autonomous vehicles.

More on why Apple needs this level of data detail later.

When the images and data are captured, they are then encrypted on the fly and recorded on to the SSDs. Once full, the SSDs are pulled out, replaced and packed into a case, which is delivered to Apple’s data center, where a suite of software eliminates from the images private information like faces, license plates and other info. From the moment of capture to the moment they’re sanitized, they are encrypted with one key in the van and the other key in the data center. Technicians and software that are part of its mapping efforts down the pipeline from there never see unsanitized data.

This is just one element of Apple’s focus on the privacy of the data it is utilizing in New Maps.

Probe data and privacy

Throughout every conversation I have with any member of the team throughout the day, privacy is brought up, emphasized. This is obviously by design, as Apple wants to impress upon me as a journalist that it’s taking this very seriously indeed, but it doesn’t change the fact that it’s evidently built in from the ground up and I could not find a false note in any of the technical claims or the conversations I had.

Indeed, from the data security folks to the people whose job it is to actually make the maps work well, the constant refrain is that Apple does not feel that it is being held back in any way by not hoovering every piece of customer-rich data it can, storing and parsing it.

The consistent message is that the team feels it can deliver a high-quality navigation, location and mapping product without the directly personal data used by other platforms.

“We specifically don’t collect data, even from point A to point B,” notes Cue. “We collect data — when we do it — in an anonymous fashion, in subsections of the whole, so we couldn’t even say that there is a person that went from point A to point B. We’re collecting the segments of it. As you can imagine, that’s always been a key part of doing this. Honestly, we don’t think it buys us anything [to collect more]. We’re not losing any features or capabilities by doing this.”

The segments that he is referring to are sliced out of any given person’s navigation session. Neither the beginning or the end of any trip is ever transmitted to Apple. Rotating identifiers, not personal information, are assigned to any data or requests sent to Apple and it augments the “ground truth” data provided by its own mapping vehicles with this “probe data” sent back from iPhones.

Because only random segments of any person’s drive is ever sent and that data is completely anonymized, there is never a way to tell if any trip was ever a single individual. The local system signs the IDs and only it knows to whom that ID refers. Apple is working very hard here to not know anything about its users. This kind of privacy can’t be added on at the end, it has to be woven in at the ground level.

Because Apple’s business model does not rely on it serving to you, say, an ad for a Chevron on your route, it doesn’t need to even tie advertising identifiers to users.

Any personalization or Siri requests are all handled on-board by the iOS device’s processor. So if you get a drive notification that tells you it’s time to leave for your commute, that’s learned, remembered and delivered locally, not from Apple’s servers.

That’s not new, but it’s important to note given the new thing to take away here: Apple is flipping on the power of having millions of iPhones passively and actively improving their mapping data in real time.

In short: Traffic, real-time road conditions, road systems, new construction and changes in pedestrian walkways are about to get a lot better in Apple Maps.

The secret sauce here is what Apple calls probe data. Essentially little slices of vector data that represent direction and speed transmitted back to Apple completely anonymized with no way to tie it to a specific user or even any given trip. It’s reaching in and sipping a tiny amount of data from millions of users instead, giving it a holistic, real-time picture without compromising user privacy.

If you’re driving, walking or cycling, your iPhone can already tell this. Now if it knows you’re driving, it also can send relevant traffic and routing data in these anonymous slivers to improve the entire service. This only happens if your Maps app has been active, say you check the map, look for directions, etc. If you’re actively using your GPS for walking or driving, then the updates are more precise and can help with walking improvements like charting new pedestrian paths through parks — building out the map’s overall quality.

All of this, of course, is governed by whether you opted into location services, and can be toggled off using the maps location toggle in the Privacy section of settings.

Apple says that this will have a near zero effect on battery life or data usage, because you’re already using the ‘maps’ features when any probe data is shared and it’s a fraction of what power is being drawn by those activities.

From the point cloud on up

But maps cannot live on ground truth and mobile data alone. Apple is also gathering new high-resolution satellite data to combine with its ground truth data for a solid base map. It’s then layering satellite imagery on top of that to better determine foliage, pathways, sports facilities, building shapes and pathways.

After the downstream data has been cleaned up of license plates and faces, it gets run through a bunch of computer vision programming to pull out addresses, street signs and other points of interest. These are cross referenced to publicly available data like addresses held by the city and new construction of neighborhoods or roadways that comes from city planning departments.

But one of the special sauce bits that Apple is adding to the mix of mapping tools is a full-on point cloud that maps in 3D the world around the mapping van. This allows them all kinds of opportunities to better understand what items are street signs (retro-reflective rectangular object about 15 feet off the ground? Probably a street sign) or stop signs or speed limit signs.

It seems like it also could enable positioning of navigation arrows in 3D space for AR navigation, but Apple declined to comment on “any future plans” for such things.

Apple also uses semantic segmentation and Deep Lambertian Networks to analyze the point cloud coupled with the image data captured by the car and from high-resolution satellites in sync. This allows 3D identification of objects, signs, lanes of traffic and buildings and separation into categories that can be highlighted for easy discovery.

The coupling of high-resolution image data from car and satellite, plus a 3D point cloud, results in Apple now being able to produce full orthogonal reconstructions of city streets with textures in place. This is massively higher-resolution and easier to see, visually. And it’s synchronized with the “panoramic” images from the car, the satellite view and the raw data. These techniques are used in self-driving applications because they provide a really holistic view of what’s going on around the car. But the ortho view can do even more for human viewers of the data by allowing them to “see” through brush or tree cover that would normally obscure roads, buildings and addresses.

This is hugely important when it comes to the next step in Apple’s battle for supremely accurate and useful Maps: human editors.

Apple has had a team of tool builders working specifically on a toolkit that can be used by human editors to vet and parse data, street by street. The editor’s suite includes tools that allow human editors to assign specific geometries to flyover buildings (think Salesforce tower’s unique ridged dome) that allow them to be instantly recognizable. It lets editors look at real images of street signs shot by the car right next to 3D reconstructions of the scene and computer vision detection of the same signs, instantly recognizing them as accurate or not.

Another tool corrects addresses, letting an editor quickly move an address to the center of a building, determine whether they’re misplaced and shift them around. It also allows for access points to be set, making Apple Maps smarter about the “last 50 feet” of your journey. You’ve made it to the building, but what street is the entrance actually on? And how do you get into the driveway? With a couple of clicks, an editor can make that permanently visible.

“When we take you to a business and that business exists, we think the precision of where we’re taking you to, from being in the right building,” says Cue. “When you look at places like San Francisco or big cities from that standpoint, you have addresses where the address name is a certain street, but really, the entrance in the building is on another street. They’ve done that because they want the better street name. Those are the kinds of things that our new Maps really is going to shine on. We’re going to make sure that we’re taking you to exactly the right place, not a place that might be really close by.”

Water, swimming pools (new to Maps entirely), sporting areas and vegetation are now more prominent and fleshed out thanks to new computer vision and satellite imagery applications. So Apple had to build editing tools for those, as well.

Many hundreds of editors will be using these tools, in addition to the thousands of employees Apple already has working on maps, but the tools had to be built first, now that Apple is no longer relying on third parties to vet and correct issues.

And the team also had to build computer vision and machine learning tools that allow it to determine whether there are issues to be found at all.

Anonymous probe data from iPhones, visualized, looks like thousands of dots, ebbing and flowing across a web of streets and walkways, like a luminescent web of color. At first, chaos. Then, patterns emerge. A street opens for business, and nearby vessels pump orange blood into the new artery. A flag is triggered and an editor looks to see if a new road needs a name assigned.

A new intersection is added to the web and an editor is flagged to make sure that the left turn lanes connect correctly across the overlapping layers of directional traffic. This has the added benefit of massively improved lane guidance in the new Apple Maps.

Apple is counting on this combination of human and AI flagging to allow editors to first craft base maps and then also maintain them as the ever-changing biomass wreaks havoc on roadways, addresses and the occasional park.

Here there be Helvetica

Apple’s new Maps, like many other digital maps, display vastly differently depending on scale. If you’re zoomed out, you get less detail. If you zoom in, you get more. But Apple has a team of cartographers on staff that work on more cultural, regional and artistic levels to ensure that its Maps are readable, recognizable and useful.

These teams have goals that are at once concrete and a bit out there — in the best traditions of Apple pursuits that intersect the technical with the artistic.

The maps need to be usable, but they also need to fulfill cognitive goals on cultural levels that go beyond what any given user might know they need. For instance, in the U.S., it is very common to have maps that have a relatively low level of detail even at a medium zoom. In Japan, however, the maps are absolutely packed with details at the same zoom, because that increased information density is what is expected by users.

This is the department of details. They’ve reconstructed replicas of hundreds of actual road signs to make sure that the shield on your navigation screen matches the one you’re seeing on the highway road sign. When it comes to public transport, Apple licensed all of the type faces that you see on your favorite subway systems, like Helvetica for NYC. And the line numbers are in the exact same order that you’re going to see them on the platform signs.

It’s all about reducing the cognitive load that it takes to translate the physical world you have to navigate into the digital world represented by Maps.

Bottom line

The new version of Apple Maps will be in preview next week with just the Bay Area of California going live. It will be stitched seamlessly into the “current” version of Maps, but the difference in quality level should be immediately visible based on what I’ve seen so far.

Better road networks, more pedestrian information, sports areas like baseball diamonds and basketball courts, more land cover, including grass and trees, represented on the map, as well as buildings, building shapes and sizes that are more accurate. A map that feels more like the real world you’re actually traveling through.

Search is also being revamped to make sure that you get more relevant results (on the correct continents) than ever before. Navigation, especially pedestrian guidance, also gets a big boost. Parking areas and building details to get you the last few feet to your destination are included, as well.

What you won’t see, for now, is a full visual redesign.

“You’re not going to see huge design changes on the maps,” says Cue. “We don’t want to combine those two things at the same time because it would cause a lot of confusion.”

Apple Maps is getting the long-awaited attention it really deserves. By taking ownership of the project fully, Apple is committing itself to actually creating the map that users expected of it from the beginning. It’s been a lingering shadow on iPhones, especially, where alternatives like Google Maps have offered more robust feature sets that are so easy to compare against the native app but impossible to access at the deep system level.

The argument has been made ad nauseam, but it’s worth saying again that if Apple thinks that mapping is important enough to own, it should own it. And that’s what it’s trying to do now.

“We don’t think there’s anybody doing this level of work that we’re doing,” adds Cue. “We haven’t announced this. We haven’t told anybody about this. It’s one of those things that we’ve been able to keep pretty much a secret. Nobody really knows about it. We’re excited to get it out there. Over the next year, we’ll be rolling it out, section by section in the U.S.”

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Mobile gaming is having a moment, and Apple has the reins

It’s moved beyond tradition and into the realm of meme that Apple manages to dominate the news cycle around major industry events, all while not actually participating in said events. CES rolls around and every story is about HomeKit or its competitors; another tech giant has a conference and the news is that Apple updated some random subsystem of its ever-larger ecosystem of devices and software .

This is, undoubtedly, planned by Apple in many instances. And why not? Why shouldn’t it own the cycle when it can — it’s only strategically sound.

This week, the 2018 Game Developers Conference is going on and there’s a bunch of news coverage about various aspects of the show. There are all of the pre-written embargo bits about big titles and high-profile indies, there are the trend pieces and, of course, there’s the traditional ennui-laden “who is this event even for” post that accompanies any industry event that achieves critical mass.

But the absolute biggest story of the event wasn’t even at the event. It was the launch of Fortnite and, shortly thereafter, PlayerUnknown’s Battlegrounds on mobile devices. Specifically, both were launched on iOS, and PUBG hit Android simultaneously.

The launch of Fortnite, especially, resonates across the larger gaming spectrum in several unique ways. It’s the full and complete game as present on consoles, it’s iOS-first and it supports cross-platform play with console and PC players.

This has, essentially, never happened before. There have been stabs at one or more of those conditions on experimental levels, but it really marks a watershed in the games industry that could serve to change the psychology around the platform discussion in major ways. 

For one, though the shape of GDC has changed over the years as it relates to mobile gaming, it’s only recently that the conference has become dominated by indie titles that are mobile centric. The big players and triple-A console titles still take up a lot of air, but the long tail is very long and mobile is not synonymous with “casual gamers” as it once was.

I remember the GDC before we launched Monument Valley,” says Dan Gray of Monument Valley 2 studio ustwo. “We were fortunate enough that Unity offered us a place on their stand. Nobody had heard of us or our game and we were begging journalists to come say hello, it’s crazy how things have changed in four years. We’ve now got three speakers at the conference this year, people stop you in the street (within a two-block radius) and we’re asked to be part of interviews like this about the future of mobile.”

Zach Gage, the creator of SpellTower, and my wife’s favorite game of all time, Flipflop Solitaire, says that things feel like they have calmed down a bit. “It seems like that might be boring, but actually I think it’s quite exciting, because a consequence of it is that playing games has become just a normal thing that everyone does… which frankly, is wild. Games have never had the cultural reach that they do now, and it’s largely because of the App Store and these magical devices that are in everyone’s pockets.”

Alto’s Odyssey is the followup to Snowman’s 2015 endless boarder Alto’s Adventure. If you look at these two titles, three years apart, you can see the encapsulation of the growth and maturity of gaming on iOS. The original game was fun, but the newer title is beyond fun and into a realm where you can see the form being elevated into art. And it’s happening blazingly fast.

“There’s a real and continually growing sense that mobile is a platform to launch compelling, artful experiences,” says Snowman’s Ryan Cash. “This has always been the sentiment among the really amazing community of developers we’ve been lucky enough to meet. What’s most exciting to me, now, though, is hearing this acknowledged by representatives of major console platforms. Having conversations with people about their favorite games from the past year, and seeing that many of them are titles tailor-made for mobile platforms, is really gratifying. I definitely don’t want to paint the picture that mobile gaming has ever been some sort of pariah, but there’s a definite sense that more people are realizing how unique an experience it is to play games on these deeply personal devices.”

Mobile gaming as a whole has fought since the beginning against the depiction that it was for wasting time only, not making “true art,” which was reserved for consoles or dedicated gaming platforms. Aside from the “casual” versus “hardcore” debate, which is more about mechanics, there was a general stigma that mobile gaming was a sidecar bet to the main functions of these devices, and that their depth would always reflect that. But the narratives and themes being tackled on the platform beyond just clever mechanics are really incredible.

Playing Monument Valley 2 together with my daughter really just blew my doors off, and I think it changed a lot of people’s minds in this regard. The interplay between the characters and environment and a surprisingly emotional undercurrent for a puzzle game made it a breakout that was also a breakthrough of sorts.

“There’s so many things about games that are so awesome that the average person on the street doesn’t even know about,” says Gray. “As small developers right now we have the chance to make somebody feel a range of emotions about a video game for the first time, it’s not often you’re in the right place at the right time for this and to do it with the most personal device that sits in your pocket is the perfect opportunity.”

The fact that so many of the highest-profile titles are launching on iOS first is a constant source of consternation for Android users, but it’s largely a function of addressable audience.

I spoke to Apple VP Greg Joswiak about Apple’s place in the industry. “Gaming has always been one of the most popular categories on the App Store,” he says. A recent relaunch of the App Store put gaming into its own section and introduced a Today tab that tells stories about the games and about their developers.

That redesign, he says, has been effective. “Traffic to the App Store is up significantly, and with higher traffic, of course, comes higher sales.”

“One thing I think smaller developers appreciate from this is the ability to show the people behind the games,” says ustwo’s Gray about the new gaming and Today sections in the App Store. “Previously customers would just see an icon and assume a corporation of 200 made the game, but now it’s great we can show this really is a labor of love for a small group of people who’re trying to make something special. Hopefully this leads to players seeing the value in paying up front for games in the future once they can see the craft that goes into something.”

Snowman’s Cash agrees. “It’s often hard to communicate the why behind the games you’re making — not just what your game is and does, but how much went into making it, and what it could mean to your players. The stories that now sit on the Today tab are a really exciting way to do this; as an example, when Alto’s Odyssey released for pre-order, we saw a really positive player response to the discussion of the game’s development. I think the variety that the new App Store encourages as well, through rotational stories and regularly refreshed sections, infuses a sense of variety that’s great for both players and developers. There’s a real sense I’m hearing that this setup is equipped to help apps and games surface, and stayed surfaced, in a longer term and more sustainable way.”

In addition, there are some technical advantages that keep Apple ahead of Android in this arena. Plenty of Android devices are very performant and capable in individual ways, but Apple has a deep holistic grasp of its hardware that allows it to push platform advantages in introducing new frameworks like ARKit. Google’s efforts in the area with ARCore are just getting started with the first batch of 1.0 apps coming online now, but Google will always be hamstrung by the platform fragmentation that forces developers to target a huge array of possible software and hardware limitations that their apps and games will run up against.

This makes shipping technically ambitious projects like Fortnite on Android as well as iOS a daunting task. “There’s a very wide range of Android devices that we want to support,” Epic Games’ Nick Chester told Forbes. “We want to make sure Android players have a great experience, so we’re taking more time to get it right.“

That wide range of devices includes an insane differential in GPU capability, processing power, Android version and update status.

“We bring a very homogenous customer base to developers where 90 percent of [devices] are on the current versions of iOS,” says Joswiak. Apple’s customers embrace those changes and updates quickly, he says, and this allows developers to target new features and the full capabilities of the devices more quickly.

Ryan Cash sees these launches on iOS of “full games” as they exist elsewhere as a touchstone of sorts that could legitimize the idea of mobile as a parity platform.

“We have a few die-hard Fortnite players on the team, and the mobile version has them extremely excited,” says Cash. “I think more than the completeness of these games (which is in and of itself a technical feat worth celebrating!), things like Epic’s dedication to cross-platform play are massive. Creating these linked ecosystems where players who prefer gaming on their iPhones can enjoy huge cultural touchstone titles like Fortnite alongside console players is massive. That brings us one step closer to an industry attitude which focuses more on accessibility, and less on siloing off experiences and separating them into tiers of perceived quality.”

“I think what is happening is people are starting to recognize that iOS devices are everywhere, and they are the primary computers of many people,” says Zach Gage. “When people watch a game on Twitch, they take their iPhone out of their pocket and download it. Not because they want to know if there’s a mobile version, but because they just want the game. It’s natural to assume that these games available for a computer or a PlayStation, and it’s now natural to assume that it would be available for your phone.”

Ustwo’s Gray says that it’s great that the big games are transitioning, but also cautions that there needs to be a sustainable environment for mid-priced games on iOS that specifically use the new capabilities of these devices.

“It’s great that such huge games are transitioning this way, but for me I’d really like to see more $30+ titles designed and developed specifically for iPhone and iPad as new IP, really taking advantage of how these devices are used,” he says. “It’s definitely going to benefit the App Store as a whole, but It does need to be acknowledged, however, that the way players interact with console/PC platforms and mobile are inherently different and should be designed accordingly. Session lengths and the interaction vocabulary of players are two of the main things to consider, but if a game manages to somehow satisfy the benefits of all those platforms then great, but I think it’s hard.”

Apple may not be an official sponsor of GDC, but it is hosting two sessions at the show, including an introduction to Metal 2, its rendering pipeline, and ARKit, its hope for the future of gaming on mobile. This presence is exciting for a number of reasons, as it shows a greater willingness by Apple to engage the community that has grown around its platforms, but also that the industry is becoming truly integrated, with mobile taking its rightful place alongside console and portable gaming as a viable target for the industry’s most capable and interesting talent.

“They’re bringing the current generation of console games to iOS,” Joswiak says, of launches like Fortnite and PUBG, and notes that he believes we’re at a tipping point when it comes to mobile gaming, because mobile platforms like the iPhone and iOS offer completely unique combinations of hardware and software features that are iterated on quickly.

“Every year we are able to amp up the tech that we bring to developers,” he says, comparing it to the 4-5 year cycle in console gaming hardware. “Before the industry knew it, we were blowing people away [with the tech]. The full gameplay of these titles has woken a lot of people up.”

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Pornhub Launches An Unlimited Streaming Service, Pornhub Premium

streams It’s been generally accepted since the days of the 9600 baud modem that all Internet porn should be free. However, with the rise in high-quality video and new streaming systems, we can change that universal truth to “all bad porn on the Internet is supposed to be free.” The good stuff costs money. Read More

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