Slashdot Mirror

MrSeb writes "If you've not been tracking the thorium hype, you might be interested to learn that the benefits liquid fluoride thorium reactors (LFTRs) have over light water uranium reactors (LWRs) are compelling. Alvin Weinberg, who invented both, favored the LFTR for civilian power since its failures (when they happened) were considerably less dramatic — a catastrophic depressurization of radioactive steam, like occurred at Chernobyl in 1986, simply wouldn't be possible. Since the technical hurdles to building LFTRs and handling their byproducts are in theory no more challenging, one might ask — where are they? It turns out that a bunch of U.S. startups are investigating the modern-day viability of thorium power, and countries like India and China have serious, governmental efforts to use LFTRs. Is thorium power finally ready for prime time?"

MrSeb writes "DARPA has begun development of a wireless communications link that is capable of 100 gigabits per second over a range of 200 kilometers (124mi). Officially dubbed '100 Gb/s RF Backbone' (or 100G for short), the program will provide the U.S. military with networks that are around 50 times faster than its current wireless links. In essence, DARPA wants to give deployed soldiers the same kind of connectivity as a high-bandwidth, low-latency fiber-optic network. In the case of Afghanistan, for example, the U.S. might have a high-speed fiber link to Turkey — but the remaining 1,000 miles to Afghanistan most likely consists of low-bandwidth, high-latency links. It's difficult (and potentially insecure) to control UAVs or send/receive intelligence over these networks, and so the U.S. military instead builds its own wireless network using Common Data Link. CDL maxes out at around 250Mbps, so 100Gbps would be quite a speed boost. DARPA clearly states that the 100G program is for US military use — but it's hard to ignore the repercussions it might have on commercial networks, too. 100Gbps wireless backhaul links between cell towers, rather than costly and cumbersome fiber links, would make it much easier and cheaper to roll out additional mobile coverage. Likewise, 100Gbps wireless links might be the ideal way to provide backhaul links to rural communities that are still stuck with dial-up internet access. Who knows, we might even one day have 100Gbps wireless links to our ISP."

MrSeb writes "The humble pixel — the 2D picture element that has formed the foundation of just about every kind of digital media for the last 50 years — may soon meet its maker. Believe it or not, if a team of British are to be believed, the pixel, within five short years, will be replaced with vectors. If you know about computer graphics, or if you've ever edited or drawn an image on your computer, you know that there are two primary ways of storing image data: As a bitmap, or as vectors. A bitmap is quite simply a giant grid of pixels, with the arrangement and color of the pixels dictating what the image looks like. Vectors are an entirely different beast: In vector graphics, the image is described as a series of mathematical equations. To draw a bitmap shape you just color in a block of pixels; with vector graphics, you would describe the shape in terms of height, width, radius, and so on. At the moment, bitmaps are used almost exclusively in the realm of digital media — but that isn't to say they don't have their flaws. As display (and camera and cinema) resolution increases, so does the number of pixels. The obvious problem with this is that larger bitmaps are computationally more expensive to process, resulting in a slower (or more expensive) workflow. Pixel bitmaps don't scale very gracefully; reduction is okay, but enlargement is a no-no. There is always the issue of a master format, too: With pixel bitmaps, conversions from one format to another, or changing frame rates, is messy, lossy business. Which finally leads us back to the innovation at hand: Philip Willis and John Patterson of the University of Bath in England have devised a video codec that replaces pixel bitmaps with vectors (PDF)."

MrSeb writes "The principal engineer for Nokia's WP7 and WP8 devices, Justin Angel, has demonstrated, in rather frank detail, how to pirate Windows 8 Metro apps, how to bypass in-app purchases, and how to remove in-game ads. These hacks aren't exactly easy, but more worryingly they're not exactly hard either. Angel shows that turning a trial version of a Metro app into the full version — i.e. pirating an app — is scarily simple. It's just a matter of downloading an open-source app and changing an XML attribute from 'Trial' to 'Full.' Likewise, a quick change to a XAML file can remove an app's ads. Bypassing in-app purchases is a little trickier, involving some reverse engineering of some DLLs and and decryption of database files, but Angel still makes it look fairly easy. Angel gives himself one million credits in Soulcraft, an RPG game — something that would cost you over a thousand dollars, if you performed a legitimate in-app purchase. Angel also demonstrates a way to bypass in-app purchases in WinJS (Metro/JavaScript) apps, by injecting scripts into IE10 (the rendering engine for WinJS apps). It's easy to blame Microsoft for this, but isn't this really an issue that is intrinsic to all installed applications? The fact is, Windows 8 Metro apps are stored on your hard drive — and this means that you have access to the code and data. Hex editors, save game editors, bypassing Adobe's 30-day trials by replacing DLL files, pirating Windows 8 apps — these are all just different incarnations of the same attack vectors."

MrSeb writes with news on the happenings with next generation fabrication processes. From the article: "... Intel's 22nm SoC unveil is important for a host of reasons. As process nodes shrink and more components move on-die, the characteristics of each new node have become particularly important. 22nm isn't a new node for Intel; it debuted the technology last year with Ivy Bridge, but SoCs are more complex than CPU designs and create their own set of challenges. Like its 22nm Ivy Bridge CPUs, the upcoming 22nm SoCs rely on Intel's Tri-Gate implementation of FinFET technology. According to Intel engineer Mark Bohr, the 3D transistor structure is the principle reason why the company's 22nm technology is as strong as it is. Earlier this year, we brought you news that Nvidia was deeply concerned about manufacturing economics and the relative strength of TSMC's sub-28nm planar roadmap. Morris Chang, TSMC's CEO, has since admitted that such concerns are valid, given that performance and power are only expected to increase by 20-25% as compared to 28nm. The challenge for both TSMC and GlobalFoundries is going to be how to match the performance of Intel's 22nm technology with their own 28nm products. 20nm looks like it won't be able to do so, which is why both companies are emphasizing their plans to move to 16nm/14nm ahead of schedule. There's some variation on which node comes next; both GlobalFoundries and Intel are talking up 14nm; TSMC is implying a quick jump to 16nm. Will it work? Unknown. TSMC and GlobalFoundries both have excellent engineers, but FinFET is a difficult technology to deploy. Ramping it up more quickly than expected while simultaneously bringing up a new process may be more difficult than either company anticipates."

MrSeb writes "An international team of engineers, physicists, and chemists have created the first fiber-optic solar cell. These fibers are thinner than human hair, flexible, and yet they produce electricity, just like a normal solar cell. The U.S. military is already interested in weaving these threads into clothing, to provide a wearable power source for soldiers. In essence, the research team started with optical fibers made from glass — and then, using high-pressure chemical vapor deposition, injected n-, i-, and p-type silicon into the fiber, turning it into a solar cell (abstract). Functionally, these silicon-doped fiber-optic threads are identical to conventional solar cells, generating electricity from the photovoltaic effect. Whereas almost every solar cell on the market is crafted out of 2D, planar amorphous silicon on a rigid/brittle glass substrate, though, these fiber-optic solar cells have a 3D cross-section and retain the glass fiber's intrinsic flexibility. The lead researcher, John Badding of Penn State University, says the team has already produced 'meters-long fiber,' and that their new technique could be used to create 'bendable silicon solar-cell fibers of over 10 meters in length.' From there, it's simply a matter of weaving the thread into a fabric."

MrSeb writes "In its continuing mission to build a 'Wiki Weapon,' Defense Distributed has 3D printed the lower receiver of an AR-15 and tested it to failure. The printed part only survives the firing of six shots, but for a first attempt that's quite impressive. And hey, it's a plastic gun. Slashdot first covered 3D-printed guns back in July. The Defense Distributed group sprung up soon after, with the purpose of creating an open-source gun — a Wiki Weapon — that can be downloaded from the internet and printed out. The Defense Distributed manifesto mainly quotes a bunch of historical figures who supported the right to bear arms. DefDist (its nickname) is seeking a gun manufacturing license from the ATF, but so far the feds haven't responded. Unperturbed, DefDist started down the road by renting an advanced 3D printing machine from Stratasys — but when the company found out what its machine was being used for, it was repossessed. DefDist has now obtained a 3D printer from Objet, which seemingly has a more libertarian mindset. The group then downloaded HaveBlue's original AR-15 lower receiver from Thingiverse, printed it out on the Objet printer using ABS-like Digital Material, screwed it into an AR-57 upper receiver, loaded up some FN 5.7x28mm ammo, and headed to the range. The DefDist team will now make various modifications to HaveBlue's design, such as making it more rugged and improving the trigger guard, and then upload the new design to Thingiverse." Sensible ammo choice; 5.7x28mm produces less recoil than the AR-15's conventional 5.56mm. I wonder how many of the upper's components, too, can one day be readily replaced with home-printable parts — for AR-15 style rifles, the upper assembly is where the gun's barrel lives, while the lower assembly (the part printed and tested here) is the legally controlled part of the firearm.

MrSeb writes "Engineers at Caltech and the University of Victoria in Canada have smashed their own internet speed records, achieving a memory-to-memory transfer rate of 339 gigabits per second (53GB/s), 187Gbps (29GB/s) over a single duplex 100-gigabit connection, and a max disk-to-disk transfer speed of 96Gbps (15GB/s). At a sustained rate of 339Gbps, such a network could transfer four million gigabytes (4PB) of data per day — or around 200,000 Blu-ray movie rips. These speed records are all very impressive, but what's the point? Put simply, the scientific world deals with vasts amount of data — and that data needs to be moved around the world quickly. The most obvious example of this is CERN's Large Hadron Collider; in the past year, the high-speed academic networks connecting CERN to the outside world have transferred more than 100 petabytes of data. It is because of these networks that we can discover new particles, such as the Higgs boson. In essence, Caltech and the University of Victoria have taken it upon themselves to ride the bleeding edge of high-speed networks so that science can continue to prosper."

MrSeb writes "Way back in August, three months before the release of Windows 8, we learned about the existence of a project at Microsoft codenamed Blue. At the time it wasn't clear whether this was Windows 9, or some kind of interim update/service pack for Windows 8. Now, if unnamed sources are to be believed, Windows Blue is both of those things: a major update to Windows 8, and also the beginning of a major shift that will result in a major release of Windows every 12 months — just like Apple's OS X. According to these insiders, Blue will roll out mid-2013, and will be very cheap — or possibly even free, to ensure that 'Windows Blue [is] the next OS that everyone installs.' Exact details are still rather vague, but at the very least Blue will make 'UI changes' to Windows 8. The sources also indicate that the Windows 8 and Windows Phone 8 SDKs will be merged or standardized, to further simplify the development of cross-platform apps. Perhaps more important, though, is the shift to a 12-month release cadence. Historically, Microsoft has released a major version of Windows every few years, with the intervening periods populated with stability- and security-oriented service packs. Now it seems that Microsoft wants to move to an OS X-like system, where new and exciting features will be added on an annual basis. In turn, Microsoft will drop the price of these releases — probably to around $25, just like OS X."

MrSeb writes "In an amusing twist that undoubtedly spells the end of some hapless manager's career, Microsoft has accidentally gifted pirates with a free, fully-functioning Windows 8 license key. As you have probably surmised, this isn't intentional — Microsoft hasn't suddenly decided to give pirates an early Christmas present (though the $40 upgrade deal from Windows 8 Release Preview is something of a pirate amnesty). ... The bug involves the Key Management Service, which is part of Microsoft's Volume Licensing system. Pirates have already hacked the KMS to activate Windows 8 for 180 days — but this is just a partial activation. Now it turns out that the free Media Center Pack license keys that Microsoft is giving out until January 31 2013 can be used on a KMS-activated copy of Windows 8 to turn it into a fully licensed copy of Windows 8 Pro. "

MrSeb writes "In a year or two, augmented reality (AR) headsets such as Google Glass may double up as a virtual dieting pill. New research from the University of Tokyo shows that a very simple AR trick can reduce the amount that you eat by 10% — and yes, the same trick, used in the inverse, can be used to increase food consumption by 15%, too. The AR trick is very simple: By donning the glasses, the University of Tokyo's special software 'seamlessly' scales up the size of your food. You pick up an Oreo cookie, and then the software automatically scales it up to 1.5 times its natural size. Using a deformation algorithm, the person's hand is manipulated so that the giant Oreo appears (somewhat) natural. In testing, this simple trick was enough to reduce the amount of food eaten by 10%. The inverse is also true: shrinking the Oreo down to two-thirds its natural size increased food consumption by 15%. This new research dovetails neatly with an area of nutritional science that has received a lot of attention in the United States of Obesity recently: That the size of the serving/plate/cup/receptacle directly affects your intake. The fact is, there's a lot more to dieting than simply reducing your calorific intake and exercising regularly. Your state of mind as you sit down to eat, and your perception of what you're eating, are just as important — which is exciting news, because both of those factors can be hacked."

MrSeb writes "The dream of faster-than-light travel has been on the mind of humanity for generations. Until recently, though, it was restricted to the realm of pure science fiction. Theoretical mechanisms for warp drives have been posited by science, some of which actually jive quite nicely with what we know of physics. Of course, that doesn't mean they're actually going to work, though. NASA researchers recently revisited the Alcubierre warp drive and concluded that its power requirements were not as impossible as once thought. However, a new analysis from the University of Sydney claims that using a warp drive of this design comes with a drawback. Specifically, it could cause cataclysmic explosions at your destination."

MrSeb writes "Engineers at NC State University (NCSU) have discovered a way of boosting the throughput of busy WiFi networks by up to 700%. Perhaps most importantly, the breakthrough is purely software-based, meaning it could be rolled out to existing WiFi networks relatively easily — instantly improving the throughput and latency of the network. As wireless networking becomes ever more prevalent, you may have noticed that your home network is much faster than the WiFi network at the airport or a busy conference center. The primary reason for this is that a WiFi access point, along with every device connected to it, operates on the same wireless channel. This single-channel problem is also compounded by the fact that it isn't just one-way; the access point also needs to send data back to every connected device. To solve this problem, NC State University has devised a scheme called WiFox. In essence, WiFox is some software that runs on a WiFi access point (i.e. it's part of the firmware) and keeps track of the congestion level. If WiFox detects a backlog of data due to congestion, it kicks in and enables high-priority mode. In this mode, the access point gains complete control of the wireless network channel, allowing it to clear its backlog of data. Then, with the backlog clear, the network returns to normal. We don't have the exact details of the WiFox scheme/protocol (it's being presented at the ACM CoNEXT conference in December), but apparently it increased the throughput of a 45-device WiFi network by 700%, and reduced latency by 30-40%."

MrSeb writes "Alternative memory standards have been kicking around for decades as researchers have struggled to find the hypothetical holy grail — a non-volatile, low-latency, low-cost product that could scale from hard drives to conventional RAM. NAND flash has become the high-speed, non-volatile darling of the storage industry, but if you follow the evolution of the standard, you'll know that NAND is far from perfect. The total number of read/write cycles and data duration if the drive isn't kept powered are both significant problems as process shrinks continue scaling downward. Thus far, this holy grail remains elusive, but a practical MRAM (Magnetoresistive Random Access Memory) solution took a step towards fruition this week. Everspin has announced that it's shipping the first 64Mb ST-MRAM in a DDR3-compatible module. These modules transfer data at DDR3-1600 clock rates, but access latencies are much lower than flash RAM, promising an overall 500x performance increase over conventional NAND."

MrSeb writes "Scientists at Duke University have created the first invisibility cloak that perfectly hides centimeter-scale objects. While invisibility cloaks have been created before, they have all reflected some of the incident light, ruining the illusion. In this case, the incident light is perfectly channeled around the object, creating perfect invisibility. There are some caveats, of course. For now, the Duke invisibility cloak only works with microwave radiation — and perhaps more importantly, the cloak is unidirectional (it only provides invisibility from one very specific direction). The big news here, though, is that it is even possible to create an invisibility cloak of any description. It is now just a matter of time before visible-light, omnidirectional invisibility cloaks are created."

MrSeb writes "Engineers at the University of Michigan have created a pacemaker that is powered by the beating of your heart — no batteries required. The technology behind this new infinite-duration pacemaker is piezoelectricity. Piezoelectricity is is literally 'pressure electricity,' and it relates to certain materials that generate tiny amounts of electricity when deformed by an external force — which, in the case of the perpetual pacemaker, the vibrations in your chest as your heart pumps blood around your body. Piezoelectric devices generate very small amounts of power — on the order of tens of milliwatts — but it turns out that pacemakers require very little power. In testing, the researchers' energy harvester generated 10 times the required the power to keep a pacemaker firing. Currently, pacemakers are battery powered — and the battery generally need to be replaced every few years, which requires surgery. According M. Amin Karami, the lead researcher, 'Many of the patients are children who live with pacemakers for many years,' he said. 'You can imagine how many operations they are spared if this new technology is implemented.' This piezoelectric energy harvester is about half the size of a conventional battery, too, which is presumably a good thing."

MrSeb writes "There have been plenty of rumors about how the Nexus program was going to grow and change with this year's announcement. Now that we have all the details, it looks like almost none of them were right. There is no Nexus certification program, and the dream of multiple Nexus phones seems well and truly dead. What we do have is a range of device sizes with the Nexus 4, Nexus 7, and Nexus 10. However, the Nexus program has been altered in one important way: we know what Nexus means now. There can no longer be any doubt: a Nexus device is about openness first and foremost. Last year the technology sphere was busily discussing whether or not the Verizon Galaxy Nexus was a 'true' Nexus device. This year we have an answer: a Nexus controlled by a carrier is no Nexus. Rather than get in bed with Verizon, Sprint, or AT&T to produce an LTE version of the Nexus 4, we have HSPA+ only. Even the new Nexus 7 with mobile data is limited to this enhanced 3G standard. And then there's the pricing: The super high-resolution (2560×1600) Nexus 10 tablet starts at just $399; The Nexus 7 is dropping in price to $199 for a 16GB tablet; The Nexus 4 with 16GB of storage is going to sell for $349, exactly the same as the old Galaxy Nexus was until yesterday. To put this into perspective, the LG Optimus G, which the Nexus 4 is based on, sells for $550 without subsidy. Google is pushing the idea of openness with the Nexus devices, but it's not an entirely altruistic endeavor. By giving us cheap and open devices, Google is making sure it's in control — not the carriers. That's better for the consumers, but it's also better for Google."

MrSeb writes "A team of researchers from MIT, Caltech, Harvard, and other universities in Europe, have devised a way of boosting the performance of wireless networks by up to 10 times — without increasing transmission power, adding more base stations, or using more wireless spectrum. The researchers' creation, coded TCP, is a novel way of transmitting data so that lost packets don't result in higher latency or re-sent data. With coded TCP, blocks of packets are clumped together and then transformed into algebraic equations (PDF) that describe the packets. If part of the message is lost, the receiver can solve the equation to derive the missing data. The process of solving the equations is simple and linear, meaning it doesn't require much processing on behalf of the router/smartphone/laptop. In testing, the coded TCP resulted in some dramatic improvements. MIT found that campus WiFi (2% packet loss) jumped from 1Mbps to 16Mbps. On a fast-moving train (5% packet loss), the connection speed jumped from 0.5Mbps to 13.5Mbps. Moving forward, coded TCP is expected to have huge repercussions on the performance of LTE and WiFi networks — and the technology has already been commercially licensed to several hardware makers."

MrSeb writes "Felix Baumgartner has successfully completed his stratospheric skydive from 128,000 feet (39km), breaking a record that was set 52 years ago by Air Force Captain Joe Kittinger — that much we know. From the balloon, to the capsule, to the gear that Baumgartner wore during his 730 mph (1174 kph) free fall, the technology behind the scenes is impressive, and in some cases bleeding edge. ExtremeTech takes a deep dive into the tech that kept Baumgartner alive during the three-hour ascent and (much shorter) descent — and the tech that allowed us to watch every moment of the Red Bull Stratos mission live, as captured by no less than 15 digital cameras and numerous other scientific instruments."

MrSeb writes "A few hundred million miles away on the surface of the Red Planet, Mars rover Curiosity has photographed an unidentified, shiny, metallic object. Now, before you get too excited, the most likely explanation is that bright object is part of the rover that has fallen off — or perhaps some debris from MSL Curiosity's landing on Mars, nine weeks ago. There is the distinct possibility, however, that this object is actually native to Mars, which would be far more exciting. It could be the tip of a larger object, or perhaps some kind of exotic, metallic Martian pebble (a piece of metal ore, perhaps). Close-up imagery will now be captured and analyzed, and within the next few days we should know if it's simply a piece of Curiosity — or something a whole lot more exciting."

MrSeb writes "Tighten the strap on your tinfoil hat: Recently declassified documents show that the US Air Force was working on, and perhaps had already built, a supersonic flying saucer in 1956. The aircraft, which had the code name Project 1794, was developed by the USAF and Avro Canada in the 1950s. One declassified memo, which seems to be the conclusion of initial research and prototyping, says that Project 1794 is a flying saucer capable of 'between Mach 3 and Mach 4,' (2,300-3,000 mph) a service ceiling of over 100,000 feet (30,500m), and a range of around 1,000 nautical miles (1,150mi, 1850km). According to declassified cutaway diagrams, the supersonic flying saucer would propel itself by rotating an outer disk at very high speed, taking advantage of the Coand effect. Maneuvering would be accomplished by using small shutters on the edge of the disc (similar to ailerons on a winged aircraft). Power would be provided by jet turbines. According to the cutaway diagrams, the entire thing would even be capable of vertical takeoff and landing (VTOL). The fact that there are no disc-shaped aircraft in the skies today, though, suggests that the USAF's flying saucer efforts probably never got past the prototype stage."

MrSeb writes "Reverse engineering company Chipworks has completed its initial microscopic analysis of Apple's new A6 SoC (found in the iPhone 5), and there are some rather interesting findings. First, there's a tri-core GPU — and then there's a custom, hand-made dual-core ARM CPU. Hand-made chips are very rare nowadays, with Chipworks reporting that it hasn't seen a non-Intel hand-made chip for 'years.' The advantage of hand-drawn chips is that they can be more efficient and capable of higher clock speeds — but they take a lot longer (and cost a lot more) to design. Perhaps this is finally the answer to what PA Semi's engineers have been doing at Apple since the company was acquired back in 2008..." Pretty picture of the chip after using an Ion Beam to remove the casing. The question I have is how it's less expensive (in the long run) to lay a chip out by hand once instead of improving your VLSI layout software forever. NP classification notwithstanding.

MrSeb writes with news about our coming cybernetic overlords. From the article: "After more than four years of research, DARPA has created a system that successfully combines soldiers, EEG brainwave scanners, 120-megapixel cameras, and multiple computers running cognitive visual processing algorithms into a cybernetic hivemind. Called the Cognitive Technology Threat Warning System (CT2WS), it will be used in a combat setting to significantly improve the U.S. Army's threat detection capabilities. There are two discrete parts to the system: The 120-megapixel camera, which is tripod-mounted and looks over the battlefield; and the computer system, where a soldier sits in front of a computer monitor with an EEG strapped to his head, looking at images captured by the camera, wedding out false threats. In testing, the 120-megapixel camera, combined with the computer vision algorithms, generated 810 false alarms per hour; with a human operator strapped into the EEG, that drops down to just five false alarms per hour. The human brain is surprisingly fast, too: According to DARPA, CT2WS displays 10 images per second to the human operator — and yet that doesn't seem to affect accuracy."

MrSeb writes "If, like me, you thought Microsoft would price Windows RT competitively, you were wrong: A leaked slide from Asus says that its Vivo Tab RT, due to be released alongside Windows RT at the end of October, will start at $600. Unbelievably, this is $100 more than the iPad 3, and a full $200 more than the iPad 2 or Galaxy Tab 2 10.1. For $600, you would expect some sensational hardware specs — but alas, that's sadly not the case. The Vivo Tab RT has a low-res 10.1-inch 1366×768 IPS display, quad-core Tegra 3 SoC, 2GB of RAM, NFC, 8-megapixel camera and that's about it. Like its Androidesque cousin, the Transformer, the Vivo Tab RT can be plugged into a keyboard/battery dock — but it'll cost you another $200 for the pleasure. (Curiously, the Transformer's docking station only costs $150 — go figure.)"

MrSeb writes "A recent study (PDF) conducted by UCLA professor Chunyi Peng shows that carriers generally count data usage correctly, but those customers who commonly use their device in areas with weak signal strength or to stream audio or video are often overcharged. Peng and three other researchers used data gleaned from an app installed on Android smartphones on two different carriers. The issue appears to be in how the system is set up to count data usage. Under the current scenario, data is charged as it is sent from the carrier's network to the end user. What does not exist is a system to confirm whether the packets are received, and thus preventing charges for unreceived data. Peng demonstrated this in two extreme circumstances. In one case, 450 megabytes of data was charged to an account where not a single bit of it had been received. On the flipside, Peng's group was able to construct an app which disguised data transfers as DNS requests, which are not counted by the carriers as data usage. Here they were able to transfer 200 megabytes of data without being charged. Overall, the average overcharge is about 5-7% for most users. While that does not seem like much, with unlimited plans gone and data caps in style that could pose potential problems for some heavy data users. Could you be going over your data allotment based on data you never received? It's quite possible."

MrSeb writes "Lawmakers in Washington have turned their sights on mobile device tracking, proposing legislation aimed at making it much harder for companies to track you without consent. The Mobile Device Privacy Act (PDF) makes it illegal for companies to monitor device users without their expressed consent. The bill was introduced Thursday by Massachusetts Democrat Representative Edward Markey, co-Chair of the Bi-Partisan Congressional Privacy Caucus. Much of the impetus for the bill came from last year's Carrier IQ debacle, where it emerged that the company's software was found to exist on both iOS and Android devices on AT&T and Sprint's networks. While the company denied any wrongdoing, the software captured keystrokes and sent the details of your device usage back to the carriers. If passed, the legislation would require the disclosure of including tracking software at the time of the purchase of the phone, or during ownership if a software update or app would add such software to the device, and the consumer gains the right to refuse to be tracked. This disclosure must include what types of information is collected, who it is transmitted to, and how it will be used."

MrSeb writes "Intel often uses the Intel Developer Forum (IDF) as a platform to discuss its long-term vision for computing as well as more practical business initiatives. This year, the company has discussed the shrinking energy cost of computation as well as a point when it believes the energy required for 'meaningful computing' will approach zero and become ubiquitous by the year 2020. The idea that we could push the energy cost of computing down to nearly immeasurable levels is exciting. It's the type of innovation that's needed to drive products like Google Glass or VR headsets like the Oculus Rift. Unfortunately, Intel's slide neatly sidesteps the greatest problems facing such innovations — the cost of computing already accounts for less than half the total energy expenditure of a smartphone or other handheld device. Yes, meaningful compute might approach zero energy — but touchscreens, displays, radios, speakers, cameras, audio processors, and other parts of the equation are all a long way away from being as advanced as Intel's semiconductor processes."

MrSeb writes "CERN's announcement on July 4 — that experiments performed by the Large Hadron Collider had discovered a particle that was consistent with the Higgs boson — has passed a key step towards becoming ratified science: Its findings have been published in the peer-reviewed journal Physics Letters B, effectively becoming science in the process. Before we actually know what the new particle is, CERN, the LHC, and the CMS and ATLAS teams must perform additional tests. The LHC had been scheduled to shut down for upgrades, but following the July announcement it has instead been smashing protons together nonstop, to produce more data for CMS and ATLAS to analyze. By December, it is hoped that both teams will have a much better idea of the properties of the new particle, and whether it is actually the Higgs boson."

MrSeb writes "The U.S. Federal Bureau of Investigation has begun rolling out its new $1 billion biometric Next Generation Identification (NGI) system. In essence, NGI is a nationwide database of mugshots, iris scans, DNA records, voice samples, and other biometrics that will help the FBI identify and catch criminals — but it is how this biometric data is captured, through a nationwide network of cameras and photo databases, that is raising the eyebrows of privacy advocates. Until now, the FBI relied on IAFIS, a national fingerprint database that has long been due an overhaul. Over the last few months, the FBI has been pilot testing a face recognition system, which will soon be scaled up (PDF) until it's nationwide. In theory, this should result in much faster positive identifications of criminals and fewer unsolved cases. The problem is, the FBI hasn't guaranteed that the NGI will only use photos of known criminals. There may come a time when the NGI is filled with as many photos as possible, from as many sources as possible, of as many people as possible — criminal or otherwise. Imagine if the NGI had full access to every driving license and passport photo in the country — and DNA records kept by doctors, and iris scans kept by businesses. The FBI's NGI, if the right checks and balances aren't in place, could very easily become a tool that decimates civilian privacy and freedom."

First the spec, and now the hardware: MrSeb writes "After five years of trying to convince us that 3D TVs are the future, it seems TV makers are finally ready to move on — to 4K UHDTV. At the IFA consumer electronics show in Berlin, Sony, Toshiba, and LG are all showing off 84-inch 4K (3840×2160) TVs. These aren't just vaporware, either: LG's TV is on sale now in Korea (and later this month in the US), Sony's is due later this year, and Toshiba will follow in the new year. Be warned, though: all three will cost more than $20,000 when they go on sale in the US — oh, and there's still no 4K Blu-ray spec, and no such thing as 4K broadcast TV. In other display-related news, Panasonic is showing off a humongous 145-inch 8K (7680x4320) plasma TV, and some cute 20-inch 4K displays — but unfortunately neither are likely to find their way to your living room or office in the near future."

MrSeb writes with news on work toward flexible batteries good enough for Real World use (you have to power those flexible electrionics somehow). From the article: "LG Chem ... has devised a cable-type lithium-ion battery that's just a few millimeters in diameter, and is flexible enough to be tied in knots, worn as a bracelet, or woven into textiles. The underlying chemistry of the cable-type battery is the same as the lithium-ion battery in your smartphone or laptop — there's an anode, a lithium cobalt oxide (LCO) cathode, an electrolyte — but instead of being laminated together in layers, they're twisted into a hollow, flexible, spring-like helix. flexible batteries have been created before — but they've all just standard, flat, laminated batteries made from sub-optimum materials, such as polymers. As such, as they have very low energy density, and they're only bendy in the same way that a thin sheet of plastic is bendy. LG Chem's cable-type batteries have the same voltage and energy density as your smartphone battery — but they're thin and highly flexible to boot. LG Chem has already powered an iPod Shuffle for 10 hours using a knotted 25cm length of cable-type battery." Original paper (Extreme Tech claims it is paywalled, but it looks like it's not). The hollow core seems to be the key: "Moreover, a nonhollow anode proved to have serious problems with penetration of the electrolyte into the essential cell components such as the separator and active materials ... However, we were able to overcome these drawbacks by devising a unique architecture comprising a skeleton frame surrounding an empty space, that is, a hollow-spiral anode with a multi-helix structure This design enables easy wetting of the battery components with the electrolyte and the hollow space allows the device to compensate for any external mechanical distortion while maintaining its structural integrity. In addition, this helical architecture possibly enables the battery to be more flexible, owing to its similarity to a spring-like structure."

MrSeb writes "Bioengineers at Harvard University have created the first examples of cyborg tissue: Neurons, heart cells, muscle, and blood vessels that are interwoven by nanowires and transistors. These cyborg tissues are half living cells, half electronics. As far as the cells are concerned, they're just normal cells that behave normally — but the electronic side actually acts as a sensor network, allowing a computer to interface directly with the cells. In the case of cyborg heart tissue, the researchers have already used the embedded nanowires to measure the contractions (heart rate) of the cells. So far, the researchers have only used the nanoelectric scaffolds to read data from the cells — but according to lead researcher Charles Lieber, the next step is to find a way of talking to the individual cells, to 'wire up tissue and communicate with it in the same way a biological system does.' Suffice it to say, if you can use a digital computer to read and write data to your body's cells, there are some awesome applications."

MrSeb writes "Logitech has released its first washable keyboard. We're not just talking about 'splash proof' either — you can take the K310, immerse it in up to 30cm of water (12in), and give it a good scrub. The only limitation is you can only use standard washing up liquid — oh, and Logitech says you should try to keep the USB connector out of the water, too. Once you've washed the keyboard, simply leave it to dry. The user guide says it takes eight hours to air dry, and that you shouldn't use a hair dryer. There are actually drainage holes on the backside of the K310, to help speed things along. This isn't the first washable keyboard — HP and Kensington have both had models on the market for a while — but the K310 does seem to be the first reasonably attractive, consumer-oriented washable keyboard. It goes on sale at the end of the month for $40."

MrSeb writes "Utilizing neuroscience, gene therapy, and optogenetics, a pair of researchers from Cornell University have created a bionic prosthetic eye that can restore almost-normal vision to animals blinded by destroyed retinas. Prosthetic eyes have been created before, but for the most part these have been dumb prosthetics — chips that wire themselves into the ganglion cells behind the retina, which are the interface between the retina and optic nerve. These chips receive optical stimuli (via a CMOS sensor, for example), which they transmit as electrical signals to the ganglion cells. These prosthetic eyes can produce a low-resolution grayscale field that the brain can then interpret — which is probably better than being completely blind — but they don't actually restore sight. The Cornell prosthetic eye however, developed by Sheila Nirenberg and Chethan Pandarinath, is a much closer analog to a real eye, almost completely restoring sight in mice — and within 1 or 2 years, humans (PDF)."

MrSeb writes "NASA's Curiosity rover has now been on the surface of Mars for just over a week. It hasn't moved an inch after landing, instead focusing on orienting itself (and NASA's scientists) by taking instrument readings and snapping images of its surroundings. The first beautiful full-color images of Gale Crater are starting to trickle in, and NASA has already picked out some interesting rock formations that it will investigate further in the next few days. Over the weekend and continuing throughout today, however, Curiosity is attempting something very risky indeed: A firmware upgrade. This got me thinking: If NASA can transmit new software to a Mars rover that's hundreds of millions of miles away... why can't a hacker do the same thing? In short, there's no reason a hacker couldn't take control of Curiosity, or lock NASA out. All you would need is your own massive 230-foot dish antenna and a 400-kilowatt transmitter — or, perhaps more realistically, you could hack into NASA's computer systems, which is exactly what Chinese hackers did 13 times in 2011."

MrSeb writes "When solid-state drives first broke into the consumer market, there were those who predicted the new storage format would supplant hard drives in a matter of years thanks to radically improved performance. In reality, the shift from hard drives (HDDs) to SSDs has thus far been confined to the upper end of the PC market. For cost-conscious buyers and OEMs, the higher performance they offer is still too expensive and the total capacity is insufficient. SSD cache drives have emerged as a means of addressing this situation. They are small, typically containing between 20-60GB of NAND flash and are paired with a standard hard drive. Once installed, drivers monitor which applications and files are accessed most often, then cache those files on the SSD. It can take the software 1-2 runs to start caching data, but once this process is complete, future access and boot times are significantly enhanced. This article compares the effect of SSD cache solutions — Intel Smart Response Technology, and Nvelo Dataplex — on the performance of a VelociRaptor, and a slow WD Caviar drive. The results are surprisingly positive."

MrSeb writes "In a twist that reinforces Valve's distaste for Windows 8, it turns out that the Source engine — the 3D engine that powers Half Life 2, Left 4 Dead, and Dota 2 — runs faster on Ubuntu 12.04 and OpenGL (315 fps) than Windows 7 and DirectX/Direct3D (270.6 fps); almost a 20% speed-up. These figures are remarkable, considering Valve has been refining the Source engine's performance under Windows for almost 10 years, while the Valve Linux team has only been working on the Linux port of Source for a few months. Valve attributes the speed-up to the 'underlying efficiency of the [Linux] kernel and OpenGL.' But here's the best bit: Using these new OpenGL optimizations to the Source engine, the OpenGL version of L4D2 on Windows is now faster than the DirectX version (303.4 fps vs. 270.6 fps). If OpenGL is faster, and it has a comparable feature set, and hardware support is excellent... why is Direct3D still the de facto API? With Windows losing its gaming crown and smartphones (OpenGL ES!) gaining in popularity, is it time for an OpenGL revolution?"

MrSeb writes "There's a lot of FUD when it comes to self-repairing a broken hard drive. Does sticking it in the freezer help? The oven? Hitting it with a hammer? Does replacing the PCB actually work? Can you take the platters out and put them in another drive? And failing all that, if you have to send the dead drive off to a professional data recovery company, how much does it cost — and what's their chance of success, anyway? They're notoriously bad at obfuscating their prices, until you contact them directly. This article tries to answer these questions and strip away the FUD." What has been your experience with trying to fix broken drives?

MrSeb writes "An American gunsmith has become the first person to construct and shoot a pistol partly made out of plastic, 3D-printed parts. The creator, who goes by the name HaveBlue and is an AR-15/M16 enthusiast, has reportedly fired 200 rounds with his part-plastic pistol without any sign of wear and tear. HaveBlue's custom creation is a .22-caliber pistol, formed from a 3D-printed AR-15 (M16) lower receiver, and a normal, commercial upper. In other words, the main body of the gun is plastic, while the chamber — where the bullets are actually struck — is solid metal. ... While this pistol obviously wasn't created from scratch using a 3D printer, the interesting thing is that the lower receiver — in a legal sense at least — is what actually constitutes a firearm. This means that people without gun licenses — or people who have had their licenses revoked — could print their own lower receiver and build a complete, off-the-books gun." Here come the illegal shapes. Note that the legal fiction of receiver-as-firearm is true in the U.S., but may not be in other jurisdictions, and that no gun license is required in most of the U.S. to purchase or possess a semi-automatic weapon.

MrSeb writes with an excerpt from Extreme Tech about a presentation at Black Hat: "Bad news: With an Arduino microcontroller and a little bit of programming, it's possible for a hacker to gain instant, untraceable access to millions of key card-protected hotel rooms. This hack was demonstrated by Cody Brocious, a Mozilla software developer, at the Black Hat security conference in Las Vegas. At risk are four million hotel rooms secured by Onity programmable key card locks. According to Brocious, who didn't disclose the hack to Onity before going public, there is no easy fix: There isn't a firmware upgrade — if hotels want to secure their guests, every single lock will have to be changed. I wish I could say that Brocious spent months on this hack, painstakingly reverse-engineering the Onity lock protocol, but the truth — as always, it seems — is far more depressing. 'With how stupidly simple this is, it wouldn't surprise me if a thousand other people have found this same vulnerability and sold it to other governments,' says Brocious. 'An intern at the NSA could find this in five minutes.'"

MrSeb writes "Microsoft has detailed the extensive changes made to the Windows 8 graphics subsystem and DirectX 11.1. In short, everything in Windows 8 is hardware accelerated, and as a result its text, 2D, and 3D performance will blow Windows 7 away. DirectX 11.1 has also received a significant overhaul that should result in faster and more efficient games and applications. The bulk of the graphics changes in Windows 8 pertain to hardware acceleration for simple, typographically-rich Metro-style apps. In Windows 8, the rendering speed of text and simple shapes has been massively increased across the board: Title and heading text renders 336% faster than Windows 7; Lines render 184% faster; Rectangles render 438% faster; and so on. The rendering of JPEG, PNG, and GIF image files has also been improved in Windows 8, mostly by expanding SIMD usage. In one demo, Windows 8 decodes and renders 64 JPEGs in 4.38 seconds, while Windows 7 performs the same task in 7.28 seconds. Amongst a few changes to DirectX, the most significant feature in DX 11.1 is the new, simplified, unified Direct3D 11.1 API, which finally brings together the many API offshoots that MS has implemented in recent years."

MrSeb writes "A cross-disciplinary team of US neuroscientists and cryptographers have developed a password/passkey system that removes the weakest link in any security system: the human user. It's ingenious: The system still requires that you enter a password, but at no point do you actually remember the password, meaning it can't be written down and it can't be obtained via coercion or torture — i.e. rubber-hose cryptanalysis. The system, devised by Hristo Bojinov of Stanford University and friends from Northwestern and SRI, relies on implicit learning, a process by which you absorb new information — but you're completely unaware that you've actually learned anything; a bit like learning to ride a bike. The process of learning the password (or cryptographic key) involves the use of a specially crafted computer game that, funnily enough, resembles Guitar Hero. Their experimental results suggest that, after a 45 minute learning session, the 30-letter password is firmly implanted in your subconscious brain. Authentication requires that you play a round of the game — but this time, your 30-letter sequence is interspersed with other random 30-letter sequences. To pass authentication, you must reliably perform better on your sequence. Even after two weeks, it seems you are still able to recall this sequence."

MrSeb writes "Hardly a day goes by without a top-level research group announcing some kind of graphene-related breakthrough, but this one's a biggy: Researchers at the University of Erlangen-Nuremberg, Germany have created high-performance monolithic graphene transistors using a simple lithographic etching process. This could be the missing step that finally paves the way to post-silicon electronics. In theory, according to early demos from the likes of IBM and UCLA, graphene transistors should be capable of switching at speeds between 100GHz and a few terahertz. The problem is, graphene doesn't have a bandgap — it isn't a natural semiconductor, like silicon — and so it is proving very hard to build transistors out of the stuff. Until now! The researchers say that current performance "corresponds well with textbook predictions for the cutoff frequency of a metal-semiconductor field-effect transistor," but they also point out that very simple changes could increase performance 'by a factor of ~30.'"

MrSeb writes with a bit from Extreme Tech: "After a lot of theorizing, posturing, and non-human trials, it looks like bionic eye implants are finally hitting the market — first in Europe, and hopefully soon in the U.S. These implants can restore sight to completely blind patients — though only if the blindness is caused by a faulty retina, as in macular degeneration (which millions of old people suffer from), diabetic retinopathy, or other degenerative eye diseases. ... The Bio-Retina, developed by Nano Retina, is a whole lot more exciting. The Bio-Retina costs ... around the $60,000 [and] the 576-pixel vision-restoring sensor is actually placed inside the eye, on top of the retina. The operation only takes 30 minutes and can be performed under local anesthetic. Once installed, 576 electrodes on the back of the sensor implant themselves into your optic nerve. The best bit, though, is how the the sensor is powered: The Bio-Retina system comes with a standard pair of corrective lenses that are modified so that they can fire a near-infrared laser beam through your iris to the sensor at the back of your eye. On the sensor there is a photovoltaic cell that produces up to three milliwatts — not a lot, but more than enough."

MrSeb writes "Mechanical engineers and roboticists working at MIT have developed an intelligent automobile co-pilot that sits in the background and only interferes if you're about to have an accident. If you fall asleep, for example, the co-pilot activates and keeps you on the road until you wake up again. Like other autonomous and semi-autonomous solutions, the MIT co-pilot uses an on-board camera and laser rangefinder to identify obstacles. These obstacles are then combined with various data points — such as the driver's performance, and the car's speed, stability, and physical characteristics — to create constraints. The co-pilot stays completely silent unless you come close to breaking one of these constraints — which might be as simple as a car in front braking quickly, or as complex as taking a corner too quickly. When this happens, a ton of robotics under the hood take over, only passing back control to the driver when the car is safe. This intelligent co-pilot is starkly contrasted with Google's self-driving cars, which are completely computer-controlled unless you lean forward, put your hands on the wheel, and take over. Which method is better? A computer backup, or a human backup? I'm not sure."

MrSeb sends this excerpt from DailyDot: "Shortly, a new system in the U.S. will allow your ISP to give you gradually sterner warnings and possible punishment if you download copyrighted material. The Copyright Alerts System (CAS) — more commonly known as the 'six strikes' policy, after the number of warnings users receive — is coming. Soon. Any minute now. Really. But it's not here yet, even though several news outlets — including CNN — said the system would go online yesterday, Thursday. Speaking to the Daily Dot, a press contact for the six strikes system says: 'We do not intend to launch until we are confident that the program is consumer friendly. We expect our implementation to begin later this year, with each of the ISPs launching at potentially overlapping but different times.' ... The six strikes system is officially helmed by an industry coalition called the Center for Copyright Information (CCI), which was created by the MPAA and RIAA. It counts the U.S.'s five top ISPs under its umbrella: AT&T, Cablevision, Comcast, Time Warner Cable, and Verizon."

MrSeb writes "Engineers at the Massachusetts Institute of Technology (MIT) are busy working on a type of 3D display capable of presenting a 3D image without eye gear. What you've been presented with at your local cinema (with 3D glasses) or on your Nintendo 3DS console (with your naked eye) pales in comparison to what these guys and gals are trying to develop: a truly immersive 3D experience, not unlike a hologram, that changes perspective as you move around. The project is called High Rank 3D (HR3D). To begin with, HR3D involved a sandwich of two LCD displays, and advanced algorithms for generating top and bottom images that change with varying perspectives. With literally hundreds of perspectives needed to accommodate a moving viewer, maintaining a realistic 3D illusion would require a display with a 1,000Hz refresh rate. To get around this issue, the MIT team introduced a third LCD screen to the mix. This third layer brings the refresh rate requirement down to a much more manageable 360Hz — almost within range of commercially produced LCD panels."

MrSeb writes "It seems like every time I set foot in an airport, there is some new machine I need to stand in, walk through, or put my shoes on. The argument can be made that much of this is security theater — an effort to just make things look safe. However, if a new kind of laser-based molecular scanner lives up to its promise and finds its way into airports as planned, it could actually make a difference. A company called Genia Photonics has developed a programmable picosecond laser that is capable of spotting trace amounts of a variety of substances. Genia claims that the system can detect explosives, chemical agents, and hazardous biological substances at up to 50 meters. This device relies on classic spectroscopy; just a very advanced form of it. In the case of Genia's scanner, it is using far-infrared radiation in the terahertz band. This is why the U.S. Department of Homeland Security is so keen on getting it into airports. Understandably, some are calling foul on the possible privacy concerns, but this technology is halfway to a Star Trek tricorder."

MrSeb writes "When Intel goes looking for new chip manufacturing technology to invest in, the company doesn't play for pennies. Chipzilla has announced a major investment and partial purchase of lithography equipment developer ASML. Intel has agreed to invest €829 million (~$1B USD) in ASML's R&D programs for EUV and 450mm wafer deployment, to purchase €1.7B worth of ASML shares ($2.1B USD, or roughly 10% of the total shares available) and to invest general R&D funds totaling €3.3B (~$4.1B USD). The goal is to bring 450mm wafer technology and extreme ultraviolet lithography (EUVL) within reach despite the challenges facing both deployments. Moving to 450mm wafers is a transition Intel and TSMC have backed for years, while smaller foundries (including GlobalFoundries, UMC, and Chartered, when it existed as a separate entity) have dug in their heels against the shift — mostly because the shift costs an insane amount of money. It's effectively impossible to retrofit 300mm equipment for 450mm wafers, which makes shifting from one to the other extremely expensive. EUVL is a technology that's been percolating in the background for years, but the deployment time frame has slipped steadily outwards as problems stubbornly refused to roll over and solve themselves. Basically, this investment is a signal from Intel that it intends to push its technological advantage over TSMC, GloFo, UMC, and Samsung, even further."

MrSeb writes "Researchers from the University of Oulu in Finland has created an indoor navigation system (IPS) that uses the Earth's innate magnetic field to ascertain your position — just like a homing pigeon or spiny lobster. According to IndoorAtlas, the company spun off by the university to market and sell the tech, its system has an accuracy of between 0.1 and 2 meters. The Finnish IPS technology is ingenious in its simplicity: Basically, every square inch of Earth emits a magnetic field — and this field is then modulated by man-made concrete and steel structures. With a magnetometer (compass), which every modern smartphone has, you can first create a magnetic field map — and then use that map to navigate the shopping mall, underground garage, airport, etc. Compared to most other IPSes, which require thousands of WiFi or Bluetooth base stations to achieve comparable accuracy, IndoorAtlas' infrastructure-free approach sounds rather awesome."