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I have the regular O11 Dynamic with the EK-Quantum Vector Strix RTX 3090 on an Asus Maximus XII HERO. I however can not get the side panel on anymore as the terminal protrudes out a bit to much. I was wondering if anything has the O11 Dynamic XL with the EK-Quantum Vector Strix RTX 3090 and is able to get their side panel on.
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- asus 3090 strix
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Hey Linus! Love your videos! Can you make a review and test the temp specs of the EKWB branded cooling block or any of the EKWB products of your choice on Amazon? Links below: EKWB EK-Quantum Momentum² Aorus Z690 Master D-RGB Plexi https://a.co/d/85XF2H4 EKWB EK-FB MSI X299M Gaming Pro Carbon RGB Monoblock, Nickel https://a.co/d/auokmE2 EKWB EK-Quantum Velocity 2 D-RGB CPU Water Block, AM4, Nickel/Plexi https://a.co/d/3YsZIis
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- ekwb ek-quantum momentum²
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Last year I got the 928 and did a dual build in that. Thought it would be my final case for a while but then the 909Ek dropped and once again I couldn't help myself with case hoarding. My 928 will be coming apart for some upgrades and changes. Getting all the Intel out of my life, it's nice going back to TR on 3rd gen. Liking the 909EK case functionally speaking but it's one of those cases that takes smart choices and lots of small work to look clean and remain a daily use build not one that sits on a show floor. Made some subtle changes so it's not identical to the other 198. I know of 1 that's quite different. Threw in a group shot of last years InWin build. Parts: Chasis: InWin 909EK MB: Aorux TRX40 Extreme CPU: AMD 3970x TR RAM: 128GB 3466 GSKILL GPU: 2080ti Matrix ROG. 3000 series whenever it drops will be added. Storage: 8x 2tb Samsung 970 Evo+ 1x 1tb 970. PSU: EVGA 1300 G2 Supernova Cooling: Custom loop. Wiring: killed my fingers as usual. Don't know how people do this for a living.
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I don't know if this is entirely the right place, but maybe Linus will talk about this on WAN show or the like. In this case, a little Quantum action in the scientific community.... 0 ping servers... wouldn't those be nice? Go here to read the article
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I think we all need to see this, amazing that we have access to this for free now. Quantum computer 5(now 16) Qubits from IBM https://quantumexperience.ng.bluemix.net/qx/editor Learn, run simulator, and then you can request access to real thing to run an experiment. Now I must start my coding for world domination! :-D OMG so exciting.
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Not to be left out of the quantum computing race, Intel with the help a research center in Netherlands, QuTech, have came up with their very first quantum cpu. Intel's quantum cpu has the same number of qubits as IBM's, Google's has 20, while those designed by D'Wave like their newest the 2000Q contains 2048 qubits. http://www.tomshardware.com/news/intel-17-qubit-quantum-computer,35653.html
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Buy LG 65SK95: On Amazon: http://geni.us/A6nLH8 On Newegg: http://geni.us/obBpKf9 The newest and best TVs for 2018 are rolling out, and as usual there’s a ton of marketing malarkey to cut through: OLED vs QLED, quantum dot vs nano cell, SUHD vs…Super UHD? More like ‘Super UGH’…
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'Quantum supremacy will soon be ours!', says Google as it reveals 72-qubit quantum chip The goal of the Google Quantum AI lab is to build a quantum computer that can be used to solve real-world problems. Our strategy is to explore near-term applications using systems that are forward compatible to a large-scale universal error-corrected quantum computer. In order for a quantum processor to be able to run algorithms beyond the scope of classical simulations, it requires not only a large number of qubits. Crucially, the processor must also have low error rates on readout and logical operations, such as single and two-qubit gates. Today we presented Bristlecone, our new quantum processor, at the annual American Physical Society meeting in Los Angeles. The purpose of this gate-based superconducting system is to provide a testbed for research into system error rates and scalability of our qubit technology, as well as applications in quantum simulation, optimization, and machine learning. Bristlecone is Google’s newest quantum processor (left). On the right is a cartoon of the device: each “X” represents a qubit, with nearest neighbor connectivity. The guiding design principle for this device is to preserve the underlying physics of our previous 9-qubit linear array technology1, 2, which demonstrated low error rates for readout (1%), single-qubit gates (0.1%) and most importantly two-qubit gates (0.6%) as our best result. This device uses the same scheme for coupling, control, and readout, but is scaled to a square array of 72 qubits. We chose a device of this size to be able to demonstrate quantum supremacy in the future, investigate first and second order error-correction using the surface code, and to facilitate quantum algorithm development on actual hardware. 2D conceptual chart showing the relationship between error rate and number of qubits. The intended research direction of the Quantum AI Lab is shown in red, where we hope to access near-term applications on the road to building an error corrected quantum computer. Before investigating specific applications, it is important to quantify a quantum processor’s capabilities. Our theory team has developed a benchmarking tool for exactly this task. We can assign a single system error by applying random quantum circuits to the device and checking the sampled output distribution against a classical simulation. If a quantum processor can be operated with low enough error, it would be able to outperform a classical supercomputer on a well-defined computer science problem, an achievement known as quantum supremacy. These random circuits must be large in both number of qubits as well as computational length (depth). Although no one has achieved this goal yet, we calculate quantum supremacy can be comfortably demonstrated with 49 qubits, a circuit depth exceeding 40, and a two-qubit error below 0.5%. We believe the experimental demonstration of a quantum processor outperforming a supercomputer would be a watershed moment for our field, and remains one of our key objectives. A Bristlecone chip being installed by Research Scientist Marissa Giustina at the Quantum AI Lab in Santa Barbara We are looking to achieve similar performance to the best error rates of the 9-qubit device, but now across all 72 qubits of Bristlecone. We believe Bristlecone would then be a compelling proof-of-principle for building larger scale quantum computers. Operating a device such as Bristlecone at low system error requires harmony between a full stack of technology ranging from software and control electronics to the processor itself. Getting this right requires careful systems engineering over several iterations. We are cautiously optimistic that quantum supremacy can be achieved with Bristlecone, and feel that learning to build and operate devices at this level of performance is an exciting challenge! We look forward to sharing the results and allowing collaborators to run experiments in the future.
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Right so I really don't know what's going on so some of you might be able to help me or verify this. I started using FFQ when it got hyped and launched, and it was great! No crashes, no slowdowns, everything was just as I expected. But fast forward to last month I've started noticing lags when searching anything on google and shrugged it off. Now, its down to the point where "Google.com" loads up, but if I type anything in the search bar on the website or the URL bar, it just keeps loading, and takes about at least 45 seconds to produce the results page, I've tried to compare it to chrome and as expected, chrome dished out web pages almost instantly. I have tried clearing cache, deleting all plugins, deleting history etc (because someone said that Firefox chokes up if you browse too much? what?!) And even to the point of MULTIPLE clean re-installations, but the problem persists. (yes im on the most recent version of Firefox, since it likes to update automatically anyway.) Honestly, I'm just thinking of switching back to chrome, its not like FFQ isn't stable for me, but I really don't want to wait forever for my web pages to load. Have you guys experienced similar situations, if so have you found a fix that's not already mentioned above?
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D Wave is a company from near where LMG operates, and I think it would be really cool if he covered it on the HOLY $H!T segment! They operate at 25kW and cost several million apiece. There's also a bit of a debate among physicists as to whether they're "real" quantum computers.
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Scientist at the university of Maryland has created the very first reprogrammable quantum computer. It was made possible by using lasers, as it hits each of 5 individual charged IONS, surrounding by a magnetic field, that lies at the core of the machine. When the laser hits the ions, it's able to change it from one state to the other or both. Something that can't be done to a traditional computer, where it can only understand 1s and 0s. With this, scientist are able to program softwares, where even the most powerful traditional computers can't solve, such at Quantum Fourier Transform (QFT), a highly complex programs that's used to break strong encryptions. While this first reprogrammable quantum computer only consist of 5 ions, it's flexibility allows for scientist to add more later on. http://www.irishexaminer.com/examviral/science-world/scientists-have-created-a-quantum-computer-that-can-be-reprogrammed-with-laser-beams-413989.html
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Source: http://www.businessinsider.com/ibm-launches-first-quantum-computer-cloud-service-2016-5 IBM has released a publicly available, cloud quantum computer with a user interface to allow anyone with some algebra skills and some programming knowledge to create programs for it. The computer is 5 qubits, on par with a regular computer. The industry is expecting IBM and Google to race to somewhere around 50 qubits, much more powerful than today's super computers. This article focuses primarily on explaining the race between Google and IBM with some background on Quantum computing and specifics of this computer. As someone who is new to the world of quantum computing (for those like me see Tech Quickie-Quantum Computing), it seems like this is next leap forward in processing power, especially as we hear Intel tell us that processing innovation is slowing. I appreciate the opportunity the IBM is offering the public to use this intro to the technology via a cloud service. The article seems to frame this milestone as a possible put down to Google as a way to for IBM to say "haha we're here first." It's going to be an interesting playing around with this though, is there a Programming in Quantum for Dummies yet? Source 2: http://www.wired.com/2016/05/ibm-letting-anyone-play-quantum-computer/
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AMD is getting ready to present second generation of Project Quantum. This time they are going all RED with new CPU generation Zen and GPU Vega. We have updated standards (DisplayPort 1.3, HDMI 2.0) that will nicely compliment all new hardware. When the first generation came out there were no VR headsets on the market ready to show off the strength of the hardware packed in this futuristic box. So sadly the time of "Liquid VR" - sign that AMD put right on the cover - was still yet to come. Well, situation is different now and we can hope to see some cool demo of AMD Project Quantum v2 soon. Computex 2016...anyone?!?! I am very excited to watch how will this second generation perform and hope to see this concept turned into a real mass produced computer. I am feeling very optimistic and ready to go all in on RED in 2016. :-) Source: http://diit.cz/clanek/amd-project-quantum-neni-mrtvy
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Australian researchers at the University Of New South Wales have announce a new breakthrough that could bring viable quantum computing closer to reality, they have developed a quantum programming language that can take advantage of the quantum effect in quantum chips. Professor Andrea Morello, project leader, told The Sydney Morning Herald, "The advancement proves that we can write the most unique type of computer code that a quantum computer can support," "In other words, we have now shown that we can access the full 'quantum vocabulary' He further stated, "Things become more interesting when you have two quantum bits, like in the case of our experiment: there you can write '00', '01', '10','11' [like in an ordinary computer], but also combinations of them, like '00 + 11', '01 + 10', and so on," Morello says. It's not all good news however. Professor Andrew Greentree of RMIT University told Fairfax Media that this is by no means a silver bullet, "They've looked at entanglement between two spins on the same atom: one the spin of phosphorus nucleus, and the other the spin of a lone electron attached to the atom," he said. "This is not scalable, because the phosphorus really doesn't have any more spins. What they need is to entangle one phosphorus with the next phosphorus atom," Regardless, this is still viewed as an important step to bring quantum computing closer to reality. Source (Sydney Morning Herald): http://www.smh.com.au/technology/sci-tech/unsw-researchers-make-another-quantum-computing-breakthrough-20151116-gkzv4b.html
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Australian researchers are claiming that they have figured out how to make quantum logic gates in silicon chips. It is believes that this could pave the way to mass manufacturing of quantum processors and making quantum computing viable. Quoted from The Sydney Morning Herald: "For decades scientists have been trying to turn quantum computing — which allows for multiple calculations to happen at once, making it immeasurably faster than standard computing — into a practical reality rather than a moonshot theory. Until now, they have largely relied on "exotic" materials to construct quantum computers, making them unsuitable for commercial production. But researchers at the University of New South Wales have patented a new design, published in the scientific journal Nature on Tuesday, created specifically with computer industry manufacturing standards in mind and using affordable silicon, which is found in regular computer chips like those we use every day in smartphones or tablets. UNSW's Professor Andrew Dzurak. Photo: Supplied "Our team at UNSW has just cleared a major hurdle to making quantum computing a reality," the director of the university's Australian National Fabrication Facility, Andrew Dzurak, the project's leader, said." Source: http://www.smh.com.au/technology/sci-tech/australian-researchers-make-quantum-computing-breakthrough-paving-way-for-worldfirst-chip-20151005-gk1bov.html
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Read more http://hexus.net/tech/news/cpu/86987-australian-researchers-build-first-two-qubit-logic-gate-silicon/ We are one step closer to a quantum chip being usable in a computer
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TLDR: New on chip metamaterial allows for light to be better manipulated at the nanoscale and in a way that could be integrated into further photonic applications Sources: https://www.seas.harvard.edu/news/2015/10/to-infinity-and-beyond http://www.nature.com/nphoton/journal/vaop/ncurrent/full/nphoton.2015.198.html The refractive index of a material is essentially how quickly the phase of a wave changes in a material. A vacuum has a refractive index of 1 (with air being close to one), water has a refractive index of about 1.3 (this causes the light to bend when it moves between the water and air causing) and diamond has a refractive index of about 2.4 (which causes the sparkles of well-cut diamond). A new metamaterial has been developed in a Harvard lab that has a refractive index of zero, which allows for light to be manipulated at the nanoscale. Having a refractive index of zero essentially means that instead of looking like a usual wave with troughs and crests the light becomes one infinitely long crest or trough. According to the Harvard article and As opposed to previous zero index metamaterials, this is on chip which would allow for better integration with other photonic applications. From the nature journal: The Harvard article describes the metamaterial as: Disclaimer: I do not have a formal degree in Physics and anything that has not been directly quoted could be slightly wrong due to the way that I have tried to simplify things
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The University Of New South Wales will next week make a major breakthrough announcement in regards to quantum computing. It has been hinted that it could clear the way to making quantum computing viable. Source: http://www.smh.com.au/technology/sci-tech/what-we-have-is-a-game-changer-unsw-researchers-to-reveal-breakthrough-in-quantum-computing-20151001-gjyp79 Any ideas what this could be?
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https://www.engineering.unsw.edu.au/news/quantum-computing-first-two-qubit-logic-gate-in-silicon https://newsroom.unsw.edu.au/news/science-tech/breakthrough-opens-door-affordable-quantum-computers I would like to hear your thoughts on this subject. With quantum computing becoming a viable reality within our lifetime, what prospects do you have for this emerging technology. Not only in fields which require such computing methods ,such as Genomic sequencing and calculations in physics, but also how it could effect the future of gaming. Will this technology allow for virtual reality to become more of a realistic? Also, what about the consequences of this technology? What will happen to the world if we build a quantum computer capable of hacking into almost any network, but fail to develop security measures against it? What will happen to online security? Etc... While it is amazing that we are proceeding further into a more technological advanced society, what about the potential risk and threats that come with it? Is this a Yay, Nay or Turnip for you?
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Quantum Break is confirmed to be coming to Windows 10 on April 5th. The minimum and recommended specs have been released and both show DX12. Will this be the first complete title with DX12 support? Will be interesting to see how much performance and detail we'll get from the game http://www.gamespot.com/articles/quantum-break-pc-version-confirmed/1100-6434694/
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- dx12
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So I have fios quantum atm and using the advance wifi router(red one), the wifi does not extend far enough and the signal drops just after a few rooms down. my speeds are 50up 50 down. I use Ethernet when I can to get the best speeds but sometimes I just need wifi #firstworldproblems Anyone tried or is using the quantum gateway and can tell me if it's good? http://www.verizon.com/home/MLP/router.html
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Hello there! i am new and i want to share this very sciency topic with you. Well straight to the point, the UNSW (University of New South Wales), have created a very precise Quantum bit (or QuBit for short), i won't give a ton of specs because it will be just copy-paste. It's very exciting (at least for me) because for quite some time, Computer Scientist, physicists and Engineers have tried really hard to create QuBits enough precise to create a real Quantum computer, and yes, there are quantum computers being created and sold to big corporations, Universities, and Research groups (Google bought one), this computers are partially Quantum, this means that they are very imprecise and still use conventional processors to simulate the "randomness" of a Quantum Computer, this computers have 50% of precision or less, and those new ones have a 99.99% precision. Well, i should stop barging about this, and let you all read it from the source, have fun! Source: http://www.scienceal...1310-26322.html This is a Science alert post, check the video, is very short. Also check the results posted in Nature.com in the nano-technology journal. they are linked in the science alert post (so read it ) I hope you all like it, and i hope i didn't post it in the wrong section, i am a Computer Scientist Student from México, and Quantum Computing makes me very exited, so i had to share.
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In a milestone for quantum computing, researchers at ETH Zurich have demonstrated quantum teleportation in a solid-state circuit. Even more, they’ve broken something of a quantum speed record – they estimate that their system could teleport 10,000 quantum bits can be teleported per second. This teleportation occurred on a setup involving superconducting circuits in a configuration resembling a conventional computer chip. Source: http://www.forbes.com/sites/alexknapp/2013/08/17/the-first-quantum-teleportation-in-a-computer-chip/
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