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After releasing what is the most revolutionary change in iPhones since perhaps their introduction, Apple has been suffering from shortages that accumulated from pre-release production problems. Lately, however, the queues to buy yourself an iPhone X have been shortening, and some analysts have suggested that this is not due to lower demand but instead Apple has managed to iron out most of the production problems with its suppliers. All seems to be well in the Appleland, and this would only suggest a new record-breaking Holiday quarter? Well, hold on for a bit, other analysts say as reported. Cowen and Company analyst Karl Ackerman has reported that demand for Apple's latest and greatest has actually been lower than initially was expected. According to Ackerman people have gravitated towards previous iPhone models, including iPhone SE that costs barely a third of a brand new iPhone X. Ackerman says that it's not necessarily the problems with availability that has disincentivized people from buying the $999 flagship.

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It's not horrible for Apple, though, as they are still expected to ship nearly 80 million iPhones in the first fiscal year of 2018, that includes the Holiday season. That could very well still be a record amount of iPhones shipped, and with a higher price point it would likely also break revenue records. Current record is 78.3 million iPhones from last year same time. The future is in virtual reality. Or augmented reality. Or mixed reality.

Clearly people are looking for some other reality than the one we live in. It seems like in the last few years every technology company on the face of the earth has developed some kind of alternative reality device or application. Of course the largest online video service YouTube is no different, not least because its owned by Google, who likes to innovate with technology. Now YouTube VR, the virtual reality app for YouTube, has been made available on Steam. You can download the app starting today from the.

The app supports both 360 degree VR videos as well as VR180, a format meant for easier and cheaper to film 180 degree clips. There's also support for traditional video which can be viewed with a VR headset. To get the entire benefit of the app you obviously need a virtual reality device. Unfortunately at this point the support for such devices is fairly limited as you'll have to have HTC Vive.

There are still bugs and the device support is obviously something to be improved, and that's probably why it was released via Steam Early Access, but one can hope for quick updates in the future. European streaming music services aren't happy with Apple taking royalties from them, and they've signed a plea for European Commission to pressure Apple,. According to Spotify, Deezer, and others, Apple shouldn't be taking 30 percent royalties when user purchases their Premium streaming service.

The share is the same as for any other subscription purchase on Apple's App Store, but streaming services aren't happy about that. They claim that this gives Apple's own music service an unfair advantage when they lose 30 percent from already razor thin margins. To avoid this trap they've started offering a link to their own website where you can buy the subscription without Apple taking a share. Obviously for a user that doesn't really care about who gets the money as long as they get the service an extra step might be all too much. That is why the streaming companies are now pleading EU to stop Apple from collecting shares on competing music subscriptions. Nine European news agencies have signed on a plea which details that the U.S.

Online giants should be required to pay for using their content as the copyright holders. They are claiming that the social media companies are abusing content creators to further their own businesses. The plea claims, according to that Facebook, among others, has become a de facto news aggregator for many people who read content created by these news agencies. However, they say that Facebook doesn't compensate the news agencies in a fair manner for using their content. Their contention is that the stories written by the news agencies are now part of the core business for Facebook and Google even though they themselves do not participate in creating the content or hold rights for them. Furthermore the payments are too small or nonexistent.

According to them, the profitability of news has been in decline for years because these platforms haven't had to pay for their content that they distribute, meanwhile the profits of said internet companies have been booming. In Spain this debate was already started in 2014 as Google was required by law, a newly enacted one at that, to pay royalties to Spanish news agencies for linking to their content in their Google News web service. Google instead declined to pay and closed their website in Spain. The media conglomerates Disney and 21st Century Fox have agreed on a deal in which the former will acquire most of the latter for a whopping $66 billion. After the acquisition Fox will retain control of only the news and sports businesses, including Fox News.

Disney will get a host of immaterial property, including the X-Men and Fantastic Four franchises, which also means that this is the first time all Marvel franchises are controlled by the same company. One of the more important TV franchises to move to Disney is The Simpsons, a Fox show that's been running for nearly 30 years. In addition to immaterial rights, Disney will gain control of the movie studio 20th Century Fox, Fox-owned cable TV networks that include FX and National Geographic, as well as stakes in British pay TV operator Sky and Asian network Star TV. Disney will also get the 30 percent stake Fox owned of Hulu, which will make Disney the majority owner of the online streaming service with 60 percent ownership.

The rest are split with Comcast (30%) and Time Warner (10%). Rupert Murdoch will gain a five percent stake in Disney and the rest of the payment will be in cash.

The cash portion is said to be around $52 billion. Murdoch has been trying to shed some of the extra baggage of less profitable entertainment branches and wants to focus more on news and sports. You remember the rumors about in-screen fingerprint readers early this year, right?

The iPhone X was supposed to have either face detection or a in-display fingerprint sensor that is able to read your fingerprint through the screen. Back then many would've put their money on fingerprint sensor rather than a 3D face detector. Now we know that Face ID was indeed Apple's choice, for probably good reasons, but the in-display fingerprint sensor is not dead. In fact, Synaptics, the company behind many a I/O device, has announced a new product that is just that. Even though we saw some early prototypes of in-display sensors from some Chinese manufacturers already before the new iPhone, there never was a good enough product to be inserted in high-end smartphones. But even earlier Synaptics had developed a sensor by the name of FS9100 that was supposed to work through a 1mm glass.

However, it never panned out as the company had hoped, and never really saw the light of the day in smartphones. This meant that some manufacturers had to move the fingerprint sensor to less optimal spots –.ahem. Samsung.ahem. Now that the new product has been announced, Synaptics is ready to give it another go. The FS9500, marketed under the name Clear ID, can read your fingerprint through the thick glass of the smartphone display. As a reminder that Apple's Face ID seems to be frustratingly slow, Synaptics said that its new reader is twice as fast as 3D face detection.

YouTube TV is Google's answer, not unlike Sling TV or PlayStation Vue, to people's declining satisfaction with cable TV. Unfortunately it is only available in very limited markets. Now, however, Google has expanded it to new markets in the U.S.

YouTube TV has tweeted that it is now available in 34 new metro areas. That almost doubles the available markets to a total of 83. The new markets include Green Bay, Tucson, Tulsa, San Diego, San Antonio, New Orleans, Knoxville and Spokane. The complete list can be found from the FAQ at, just scroll all the way down. Or watch the little video embedded within the tweet below. YouTube TV is an internet only TV service that offers various cable TV channels for $35 a month. A total of some 50 channels, depending on the market, include Bravo, Disney Channel, ESPN, FX, National Geographic, and others.

You can both watch the channels live or record the shows for later viewing. Yesterday there were rumors that Apple was going to close a deal on Shazam. A deal, worth hundreds of millions, was later confirmed as Apple released a statement saying they've acquired the music detection service. Apple and Shazam have been working together for a while now. After the release of iOS 8, iPhone's search has been integrated with Shazam detection.

You can identify a song playing in the background just by pressing a button. Shazam has a long history in music detection but it became widely recognized after the introduction of their iPhone app nearly 10 years ago. Apple has not disclosed any financial details of the acquisition but according to early rumors from the deal was valued at $300 million. Even though that's a big number, the company was valued at $1 billion during an investment in early 2015, which is a big drop. For Apple the app itself might not be super valuable, and perhaps the app is indeed nowadays valued quite a bit less than it was in 2015, but Apple has a huge appetite for AI expertise. In the mobile space the company is mainly fighting against Google, whose AI and machine learning prowess is arguably far above Apple's. You remember the new Atari gaming device we?

The one with a? If not, well, you should probably go back and read about it. Now, however, we're getting very close to its release. According to the Ataribox – that's what Atari calls it – is going to be available for pre-order later this week. Ataribox is slated for Q2 2018 release, so from April to June next year, but later this week, Thursday to be precise, you could make sure you'll get yours as soon as it hits the stores. I also could be that the availability will still be very limited, if Nintendo's retro console is any indication.

However, Ataribox is much more expensive at $250 to $300, and might not attract as many casual buyers. Atari's new gaming device is a retro-spirited gaming console that was clearly inspired by Nintendo's mini NES, unveiled last year. It looks a lot like the original, and very legendary, Atari 2600. The device is primarily meant for retro games, and it comes with dozens of original titles from decades ago, but you can create new games for the AMD and Linux powered device. Apple has released a new feature in its App Store. The application store now allows users to pre-order apps built for iOS, macOS, and tvOS. In a nutshell this means that the developers will get an indication of how popular the app seems to be as well as gives them another type of marketing possibility.

Pre-orders were first introduces in beta form a year ago. Apple's trial was done with the help of Nintendo whose Super Mario Run was being released. It was the first app on the App Store that you could pre-order before it became officially available, but now any developer can take advantage of the same hype generating marketing plot.

You can also find a new subcategory within App Store's Games category that promotes some of the games currently in pre-order. When buying a product that hasn't been released yet, there's clearly always a possibility that you might not end up liking it.

It is possible, though, that you'll get a better deal of the app when you pre-order it, so it's definitely a double edged sword. You can find more about App Store pre-ordering from. One of the most popular PC media players of all time, VLC, has been on mobile for quite some time, but unfortunately the update schedule has been fairly irregular. In fact, it's been more than a year since the last major update to the Android version. Now there are some good news for you Android users, though. VLC has finally released an updated version of their Android software.

Previous larger update was the 2.0 that was released last year. Now VLC for Android has been updated to version 2.5. As you might imagine, v2.5 is a rather major update that bring new features and updated functionality. First of all, VLC now supports Android Auto which adapts the UI while on the road.

It also now supports 360 degree videos, a feature first added to desktop VLC, and with the newest Android Oreo version on board you can also enjoy videos in PiP (picture-in-picture) mode. The user interface has been also revamped a little. This includes a new day and night modes, video gallery that now shows content information better, and you can even select to play multiple files as a playlist. Apple, like most companies, do not like taxes. In fact, it tries to avoid them in myriad of ways, but mostly within legal boundaries. However, not always can even the world's highest valued company get away with their tax schemes.

One of these happened for years between Apple and Ireland. The EU member state offered Apple special protections against taxes with agreements that angered the European Commission.

According to EU, Ireland's tax agreement with Apple is considered state aid which is illegal for a EU member state. Both Apple and Ireland have been against EU's decision, and Ireland has refused, or been very slow in the least, to charge Apple the taxes. Lately EU has been pressuring Ireland to collect the $15 billion in taxes that Apple owes them, even to the extent that it has. Meanwhile, Apple has been moving their assets to other tax havens, at least to the island of Jersey, earlier this year – totally unrelated, right? For Netflix one of the most important moves towards becoming an original content powerhouse, like it is today, was to release House of Cards, one might argue.

It was the first truly spectacular tv show part of the Netflix Originals branding. The series went on to wow the crowd but also managed to achieve the first ever Emmy for Netflix. However, now it has become a burden for Netflix. The continuation, and ultimately the end, of the show has been in question as the star actor and executive producer of House of Cards, Kevin Spacey, has been in the forefront for all the wrong reasons. Space was accused by a fellow actor, Anthony Rapp, of sexual harassment that happened in the 80s when Rapp was only 14 years old. After the allegations others followed suit claiming that such inappropriate action were take by Spacey even during the House of Cards set. Netflix, even though spacing (no pun intended) themselves from the House of Cards lead, has now confirmed that House of Cards will indeed return with another season.

It will, however, be the last season. Obviously the sixth season will have to be largely rewritten, which will take time.

At this point there is no schedule for the release, at least not one that Netflix wants public, but Netflix says that filming will start in 2018 and the last season will consist of eight episodes. Google's Chrome browser is by far the most popular mobile browser on the planet, thanks to world dominated by Android phones.

The mobile platform's default browser, however, isn't just popular because it's default, it offers some excellent functionality, which is why people probably don't want to switch to Opera, Firefox, or recently released Android version of Microsoft Edge. Now the search giant is updating its mobile browser with a new feature,. The information comes from changes in the code recorded by the Chromium team's Gerrit, a collaboration tool for the developers. According to the changes, the Android version of Chrome is going to soon get HDR metadata support for VP9 codec. What this means is that the default browser on Android phones will likely soon support HDR videos.

HDR, or high dynamic range, offers better and more vivid colors, better contrast, and an all around better picture. It has been touted one of the most important innovations in TVs specifically, even offering more improvement to image quality than resolution upgrade from Full HD to 4K. Black Friday, and even Cyber Monday, are far in the past already, but fear not, there are still some offers in store that might want you to invest in some sweet tech gifts. One of the more succulent offerings comes from Google that has decided to help you start with a smart home setup by bundling a smart speaker with a Nest purchase.

What's even better, the Google Home Mini is for free. This deal is available until the end of the year, so you can grab one even with Christmas gift happens to be a suitable gift card. The only requirements are that the Nest product, or single products bundle is valued at $99 or more, and you buy the products from. After you've chosen the qualified product you'll be prompted to choose a color for your free Google Home Mini. Colors available are Charcoal and Chalk, so essentially a darker and a lighter shade of gray. Don't forget to add the Google Home Mini to your cart though, according to you'll hate to manually add it if you are using Google Store.

We demonstrate the ability to record a tomographic tilt series containing 3487 images in only 3.5 s by using a direct electron detector in a transmission electron microscope. The electron dose is lower by at least one order of magnitude when compared with that used to record a conventional tilt series of fewer than 100 images in 15–60 minutes and the overall signal-to-noise ratio is greater than 4. Our results, which are illustrated for an inorganic nanotube, are important for ultra-low-dose electron tomography of electron-beam-sensitive specimens and real-time dynamic electron tomography of nanoscale objects with sub-ms temporal resolution. The tilt series comprises 3487 images taken over a tilt range of −70° to +30°. The label in each of the four frames in the left panel indicates the time elapsed and the viewing angle. The scale bar is 200 nm.

The right panel shows the filling of Fourier space with projection data according to the Fourier slice theorem, both for a subset of 50 images extracted in 2° increments and for the full tilt series of 3487 images with an increment of 0.029°. The subset is representative of a conventional tilt series experiment that leaves gaps in Fourier space between successive tilt angles.

No gaps are visible for the more densely sampled dataset up to the Nyquist frequency for an image frame size of below 2/ΔΘ ≈ 4 k pixels. Tomographic reconstruction was performed on the reduced dataset, since its signal-to-noise ratio is twice as high (4.4 instead of 2.2), using both the standard simultaneous iterative reconstruction technique (SIRT) and the discrete algebraic reconstruction technique (DART). A traditional algorithm such as SIRT requires a large number of projections and suffers from missing wedge artifacts when the tilt range is limited. In contrast, DART reduces the amount of information required for reconstruction based on prior knowledge that the material composition can be segmented into a few classes and provides an improved reconstruction with significantly reduced missing wedge artifacts.

The reconstructed three-dimensional morphology of the nanotube is shown in and and in. The SIRT and DART reconstructions show the nanotube clearly, i.e., a torus in cross-section (the yz plane in ) and the surfaces of the inner and outer walls in axial sections (the xy and yz planes). The SIRT reconstruction is elongated in cross-section (in the yz plane) and contains artefacts in the z direction due to the “missing wedge”. The DART reconstruction suffers from noise in the original dataset, giving rise to artificial roughness of the inner walls of the nanotube (in the xy and xz planes), which is smoothed in the case of SIRT. Both techniques provide reconstructions that can be used for further analysis of the three-dimensional morphology of the nanotube. The tomographic reconstruction results shown above demonstrate that rapid acquisition of a tilt series is facilitated by the use of a fast direct electron detector, providing improved dose efficiency and time resolution in ET. Considering the significant oversampling in angular tilt space in our experiment, a further reduction in recording time is possible for a full tomographic tilt series.

The present limitation is the speed and control of eucentricity of the stage tilt in a mechanical electron microscope goniometer. It currently takes 5.6 s to tilt the specimen over ±80°. Both limitations can be overcome by introducing fast, precise, highly eucentric specimen stages. Based on the present experiments, we estimate that rotating the specimen stage 10 times faster will not introduce motion blurring in individual micrographs (see the for further details). Image acqusition at 1000 frames per second could then allow a ±80° tilt series to be acquired in 0.6 s with a total of 600 images (instead of the 3500 used here). Such settings will also provide significantly improved lateral resolution due to the decreased tilt increment ( 0.3°) when compared to conventional ET, which uses tilt increments of 1-2°. Ultimately, a full tilt range of ±90° in such experiments should be achievable.

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The rapid acquisition of tomographic tilt series opens new horizons for performing ET of ultra-beam-sensitive specimens in the life sciences or in studies of soft matter, where the total electron dose is of primary importance. We were able to reduce the electron dose by at least an order of magnitude when compared to that used in conventional cryo-electron tomography.

Fast tomography can also be combined with existing TEM tomography techniques that makes use of energy filtering for contrast enhancement and chemical sensitivity, as well as phase contrast techniques and cryo-tomography of non-stained samples. Electronic focus and displacement compensation for the imperfect motion of a mechanical goniometer can be calibrated from a prior tracking run performed just outside the field of view. The technique can also be combined with real-time three-dimensional reconstruction. The present dataset could be reconstructed using a reduced subset in a few seconds (see the for further details). Including data acquisition, an initial reconstructed volume could be obtained in less than 15 s using standard computing power.

Continuous rotation of the specimen stage offers a potential breakthrough for studies of dynamic processes in situ in the TEM. A temporal resolution of a few seconds or better can be combined with sub-nm spatial resolution in all three dimensions, providing a capability similar to that reported recently for X-ray microtomography of living cell evolution (where each tomographic series was acquired in 18 s), but with a spatial resolution that is 2–3 orders of magnitude better.

Such dynamic tomography can also be combined with energy-filtered TEM for studies of changes in chemical composition, with off-axis electron holography for dynamic studies of electric and magnetic fields in three dimensions and with the application of stimuli to the sample ( e.g., mechanical forces, electrical biasing, applied magnetic fields or a gas environment). The combination of continuous rotation tomography with particle-tracking techniques can also potentially improve temporal resolution to the ms range. In conclusion, we have demonstrated that, by using currently available TEM hardware and a direct electron detection camera, an electron tomographic tilt series can be acquired in 3.5 s, reducing the total acquisition time for a tilt series by several orders of magnitude and the total electron dose by more than a factor of 10. This capability facilitates ultra-low-dose three-dimensional imaging of beam-sensitive specimens, espeically in the life sciences and in studies of soft matter. It also offers prospects for four-dimensional imaging of dynamic processes in situ in the TEM.

Further instrumentation development (especially in specimen stages) is required to improve the applicability and robustness of the method. Inorganic lanthanide misfit nanotubes were prepared according to a procedure described previously. For TEM studies, the nanotubes were dispersed onto lacey C grids. Tomographic tilt series were acquired in an FEI Titan 60–300 TEM operated at 60 kV using a Fischione Model 2010 single-tilt tomography holder.

A direct electron detection camera with a pnCCD sensor from PNDetector GmbH was mounted below the projection chamber of the TEM. The camera is based on a similar setup used for fast spectroscopic X-ray imaging. The sensor had an imaging area of 12.7 × 12.7 mm, with 264 × 264 pixels that each had a physical size of 48 × 48 μm. The detector is fully depleted and therefore sensitive over its full 450 μm thickness.

The sensor is backside illuminated through an unstructured thin entrance window that enables imaging of electrons with energies between 5 and 300 keV. In the present experiment, the detector was adjusted for maximum pixel full well capacity, while still preserving the absolute intensity information. The full well capacity per pixel and per readout cycle is 24 electrons with an energy of 60 keV each. The full image area was read out at a rate of 1150 frames per second.

All images were transferred to the camera control computer and stored on a hard drive for later analysis. No hardware or software link was used to trigger or synchronize acquisition between the TEM and the camera for this measurement. Instead, data acquisition was started and continuous tilt of the sample stage was performed.

The precision of the standard goniometer on our microscope allowed the sample to be tilted over 100° with a lateral displacement of the region of interest of no more than 500 nm, which was adequate for the present study. The change in specimen height over this tilt range was not measured quantitatively but is estimated to be no more than a few tens of nm. In order to reduce dark current noise, the detector was cooled to −15 °C using thermoelectric coolers. A Ti mask was used to transfer heat from the CCD and its carrier board to the coolers.

This mask also shielded the edges of the image area and is therefore visible as a dark border in each image. Prior to image acquisition, the specimen was placed at a eucentric height and rotated to −70 °. After acquisition was started, the specimen was tilted to +30°. The asymmetric tilt range is therefore only a consequence of the region of interest no longer being within the field of view above a specimen tilt angle of +30°. The total acquisition time was set to 8 s, whereas the tilt series took only 3.5 s. The dataset was therefore reduced to those frames during which the sample was rotating (3500 frames).

The authors are grateful to L. Penchakarla and R. Tenne of the Weizmann Institute of Science for growing and providing the nanotube samples. Acknowledges the European Commission for an Advanced Grant, the Deutsche Forschungsgemeinschaft for a Deutsch-Israelische Projektkooperation (DIP) Grant and the European Union Seventh Framework Programme for funding under Grant Agreement 312483-ESTEEM2 (Integrated Infrastructure Initiative-I3). Acknowledges the Netherlands Organisation for Scientific Research (NWO), project number 639.072.005 and COST Action MP1207.