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Category: singularity

When I 1st read this headline, I had to pause and ask myself “was the article’s author informed at all on QC?” especially given China’s own efforts much less D-Wave, Google, and University of Sydney. And, then I read the article and I still have to wonder if the author is on top of the emerging technologies such as BMI, graphene, QC, and other nanotechnology that are already being tested to go live in the next 7 to 10 years plus much of the content is very superficial at best. I am glad that the author did put the tid bit on Singularity as the endpoint state; however, that is pretty well known. Nonetheles, sharing to let you be the judge.

For decades, we relied on silicon as the semiconductor for our computer chips. But now, working at nanometer scales, it looks like physical limitations may end the current methods to include more and more processing power onto each individual chip.

Many companies are making billion-dollar investments to continue scaling down semiconductor technology. The pressures of big data and cloud computing are pushing the limits of the current semiconductor technology in terms of bandwidth, memory, processing speed, and device power consumption.

Today’s state-of-the-art silicon chips are engineered at the 22- and 14-nanometer scale. Research is underway to take that down to 10-nanometer scale in the next several years.

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While Amazon, Google, and Microsoft are moving forward with nextgen technologies such as VR & AR, QC, bio & nano technologies, etc used to advance areas such as Singularity and longevity.; Apples going bigger in the entertainment and media space.

Even if Apple never made an actual move to buy Time Warner, a tentative approach shows that the iPhone maker is serious about getting into media content.

Eddy Cue, who’s in charge of iTunes and Apple Music, brought up the idea of a possible deal with Time Warner corporate strategy head Olaf Olafsson in a meeting late last year, according to a person familiar with the situation. While the two never started negotiations, Time Warner, which owns HBO and the Warner Brothers studio, is on the top of the list of media companies Apple would buy should it eventually commit to the content business, the person said.

As iPhone sales slow, Apple is under pressure to show that it can grow in other areas, particularly in services. Chief Executive Officer Tim Cook has emphasised the expansion of non-hardware businesses such as music, the App Store and iCloud as a way of stabilising revenue.

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New spin on all things that are Singular. Hmmm — so if Singularity becomes a religion; is Ray Kurzweil its God?

A colleague forwarded John Horgan’s recent Scientific American article, “The Singularity and the Neural Code.” Horgan argues that the intelligence augmentation and mind uploading that would lead to a technological singularity depend upon cracking the neural code. The problem is that we don’t understand our neural code, the software or algorithms that transform neurophysiology into the stuff of minds like perceptions, memories, and meanings. In other words, we know very little about how brains make minds.

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Hmmmmm.

“We had analysts crawling all over that,” says Chappell of the Hold Security cache. “Quickly it was clear that a lot of those were from previous breaches.”

Anyone using this tool would have had a rapid assessment of their potential exposure. If breached data turns out to be new, the next task is to understand how it might have ended up in the hands of criminals. There are several sources for breached data including straight database theft but also phishing attacks and malware campaigns, each with its own dynamics and set of business implications.

“Instant responders are in a horrible position. They have to work out whether it [the breach] is genuine or not — Google is not effective,” says Chappell.

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https://www.youtube.com/watch?v=8CSNmrunCnA

Michio Kaku and Ray Kurzweil explains the exponential rate at which Technological Singularity is approaching and the future is far near than we can Imagine!

2029 : Singularity Year — Neil deGrasse Tyson & Ray Kurzweil — https://www.youtube.com/watch?v=EyFYFjESkWU

Life Changing Future Technologies [Full Documentary] : https://www.youtube.com/watch?v=TRSlkx5qaSk

The technological singularity is a hypothetical event in which artificial general intelligence (constituting, for example, intelligent computers, computer networks, or robots) would be capable of recursive self-improvement (progressively redesigning itself), or of autonomously building ever smarter and more powerful machines than itself, up to the point of a runaway effect—an intelligence explosion—that yields an intelligence surpassing all current human control or understanding. Because the capabilities of such a superintelligence may be impossible for a human to comprehend, the technological singularity is the point beyond which events may become unpredictable or even unfathomable to human intelligence.

Other related resources
https://www.singularityweblog.com/17-definitions-of-the-technological-singularity/

Technological singularity.
https://en.wikipedia.org/wiki/Technological_singularity

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Twisted bilayer graphene (tBLG) with van Hove Singularity (VHS) has exhibited novel twist-angle-dependent chemical and physical phenomena. However, scalable production of high-quality tBLG is still in its infancy, especially lacking the angle controlled preparation methods. Here, we report a facile approach to prepare tBLG with large domain sizes (100 μm) and controlled twist angles by a clean layer-by-layer transfer of two constituent graphene monolayers. The whole process without interfacial polymer contamination in two monolayers guarantees the interlayer interaction of the π-bond electrons, which gives rise to the existence of minigaps in electronic structures and the consequent formation of VHSs in density of state. Such perturbation on band structure was directly observed by angle-resolved photoemission spectroscopy with submicrometer spatial resolution (micro-ARPES). The VHSs lead to a strong light–matter interaction and thus introduce ∼20-fold enhanced intensity of Raman G-band, which is a characteristic of high-quality tBLG. The as-prepared tBLG with strong light–matter interaction was further fabricated into high-performance photodetectors with selectively enhanced photocurrent generation (up to ∼6 times compared with monolayer in our device).

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https://youtube.com/watch?v=Mj6wbbrH03I

Why biocomputing is proving that bio and technology integrated can do amazing things and will eventually get us to real Singularity. Now imaging, take what you have seen so far in technology today and add Quantum to that picture then add bio to that; then you will truly see amazing SINGULARITY.

Scientists have developed a material that can mimic cartilage and potentially encourage it to re-grow.

Cartilage is flexible connective tissue found in places such as in joints and between vertebrae in the spine. Compared to other types of connective tissue is not easy to repair.

The researchers from Imperial College London and the University of Milano-Bicocca have developed a bio-glass material that mimics the shock-absorbing and load bearing qualities of real cartilage. It can be formulated to exhibit different properties, and they are now hoping to use it to develop implants for replacing damaged cartilage discs between vertebrae.

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You are really starting to see the shape of the Singularity, ever more clearly, in the convergence of so many engineering and scientific discoveries, inventions, and philosophical musings.

I can say, without a doubt, that we are all living in truly extraordinary times!

This five-fingered robot hand developed by University of Washington computer science and engineering researchers can learn how to perform dexterous manipulation — like spinning a tube full of coffee beans — on its own, rather than having humans program its actions. (credit: University of Washington)

A University of Washington team of computer scientists and engineers has built what they say is one of the most highly capable five-fingered robot hands in the world. It can perform dexterous manipulation and learn from its own experience without needing humans to direct it.

Their work is described in a paper to be presented May 17 at the IEEE International Conference on Robotics and Automation.

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