Lifeboat Foundation: Safeguarding Humanity
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Not trying to throw stones; however, why didn’t they just connect with the DoE as they already (for 2 decades) had an real-time solution doing this type of tracking.

WASHINGTON, Nov. 14 (UPI) — The U.S. Defense Advanced Research Projects Agency has completed the first citywide assessment of its SIGMA radioactive threat detection system.

SIGMA is designed to aid defense personnel with responding to potential nuclear and radiological threats such as dirty bombs. The recent deployment test involved 1,000 detectors and over 100 mobile sensors, marking the largest demonstration of its kind in the program’s history.

“The SIGMA system performed very well, and we collected and analyzed a huge amount of streaming data as we watched in real-time as participants covered a large portion of D.C.,” DARPA program manager Vincent Tang said in a press release. “The data collected is already proving invaluable for further development of the system, and we’re excited that SIGMA is on track to provide U.S. cities an enhanced layer of defense against radiological and nuclear threats.”

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Researchers from Yale University have unveiled CertiKOS, the world’s first operating system that runs on multi-core processors and shields against cyber-attacks. Scientists believe this could lead to a new generation of reliable and secure systems software.

Led by Zhong Shao, professor of computer science at Yale, the researchers developed an operating system that incorporates formal verification to ensure that a program performs precisely as its designers intended — a safeguard that could prevent the hacking of anything from home appliances and Internet of Things (IoT) devices to self-driving cars and digital currency. Their paper on CertiKOS was presented at the 12th USENIX Symposium on Operating Systems Design and Implementation held Nov. 2–4 in Savannah, Ga.

Computer scientists have long believed that computers’ operating systems should have at their core a small, trustworthy kernel that facilitates communication between the systems’ software and hardware. But operating systems are complicated, and all it takes is a single weak link in the code — one that is virtually impossible to detect via traditional testing — to leave a system vulnerable to hackers.

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There weren’t many people who had heard of bioterrorism before 9/11. But shortly after the September 11th terrorist attacks, a wave of anthrax mailings diverted the attention of the public towards a new weapon in the arsenal of terrorists—bioterrorism. A US federal prosecutor found that an army biological researcher was responsible for mailing the anthrax-laced letters, which killed 5 and sickened 15 people in 2001. The cases generated huge media attention, and the fear of a new kind of terrorist warfare was arising.

However, as with every media hype, the one about bioterrorism disappeared quickly.

But looking toward the future, I believe that we may not be paying as much attention to it as we should. Although it may be scary, we have to prepare ourselves for the worst. It is the only way we can be prepared to mitigate the damages of any harmful abuses if (and when) they arise.

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It definitely can.

NEW YORK (CNN) — There was another big win in the advancement of immunotherapy treatments for cancer this week.

The Food and Drug Administration approved an immunotherapy drug called Keytruda, which stimulates the body’s immune system, for the first-line treatment of patients with metastatic non-small-cell lung cancer.

In other words, the drug could be the very first treatment a patient receives for the disease, instead of chemotherapy. Keytruda is the only immunotherapy drug approved for first-line treatment for these patients.

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As I have stated many times; anyone not adding QC to their 5 yr roadmaps is not planning well.

Scientists are getting closer to a breakthrough in quantum technology — one where the transfer of information via quantum principles makes the process almost instantaneous.

Scientists from the Polytechnique Montreal and France’s Centre National de la Recherche Scientifique (CNRS) have brought the world closer to a time when information can now be transferred instantaneously.

According to Science Daily, a paper published in Physical Review Letters has documented the creation of a qubit in zinc selenide that makes it possible to produce an interface between quantum physics and the transfer of information at the speed of light.

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SALT LAKE CITY, Nov. 14, 2016 /PRNewswire/ IBM (NYSE: IBM) and NVIDIA (NVDA)today announced collaboration on a new deep learning tool optimized for the latest IBM and NVIDIA technologies to help train computers to think and learn in more human-like ways at a faster pace.

Deep learning is a fast growing machine learning method that extracts information by crunching through millions of pieces of data to detect and rank the most important aspects from the data. Publicly supported among leading consumer web and mobile application companies, deep learning is quickly being adopted by more traditional business enterprises.

Deep learning and other artificial intelligence capabilities are being used across a wide range of industry sectors; in banking to advance fraud detection through facial recognition; in automotive for self-driving automobiles and in retail for fully automated call centers with computers that can better understand speech and answer questions.

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Quantum computing is heralded as the next revolution in terms of global computing. Google, Intel and IBM are just some of the big names investing millions currently in the field of quantum computing which will enable faster, more efficient computing required to power our future computing needs.

Now a researcher and his team at Tyndall National Institute in Cork have made a ‘quantum leap’ by developing a technical step that could enable the use of quantum computers sooner than expected.

Conventional digital computing uses ‘on-off’ switches, but quantum computing looks to harness quantum state of matters – such as entangled photons of light or multiple states of atoms – to encode information. In theory, this can lead to much faster and more powerful computer processing, but the technology to underpin quantum computing is currently difficult to develop at scale.

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QC micro devices are coming.

Researchers from The University of Manchester have taken a significant step closer to demonstrate that it is possible to create miniscule – but very powerful – computers that could work at atomic scale.

Scientists have been working on the developing the theory of quantum computing for decades – that is, highly efficient and powerful computing created at atomic scale. Such computing would perform some computational tasks far more efficiently than the computers we currently use.

Now The University of Manchester has revealed breakthrough evidence that large molecules made of nickel and chromium could store and process information in the same way bytes do for everyday digital computers.

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I told folks that we would find that crystalized formations is truly making a difference in the future of QC. There is so much more for us to learn how impactful the formations are in some many areas of communications and technology.

It does make one step back and ponder that perhaps we truly are connected in so many ways as John Wheeler has described many times.

Zinc selenide is a crystal in which atoms are precisely organized, and it is considered a well-known semiconductor material, conducive to introducing tellurium impurities, which can effectively trap positively-charged “holes.” Electron holes are not physical particles like negatively-charged electrons, but can be thought of as the absence of an electron in a particular place in an atom.

A zinc-selenide/tellurium impurity-host system is an ideal environment to protect a hole’s spin from which a quantum bit (qubit) can be formed, and for its coherence time can be sustained. Scientists aim to achieve for the longest coherence time in qubits to store, encode and process robust quantum information.

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