Lifeboat Foundation: Safeguarding Humanity
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Category: singularity

What if with the new wave of technologies, such as nanotechnology which would enable us to reprogram matter at a molecular level, we can overcome scarcity once and for all? Design would then become the most important part from start to end product which can be freely shared or have a premium in the marketplace. At any rate, this will dismantle the current social, economic, and political system, because it will become irrelevant; every institution, every value system, every aspect of our lives have been governed by scarcity: the problem of distributing a finite amount of “stuff.” There will be no need for any of today’s social institutions. In other words, when nanotech and ultra-realistic VR are commonplace, the system built on scarcity will crumble and that would herald the forthcoming “economic singularity.” #EconomicSiingularity

The current faltering economic model is suboptimal, hinders economic growth, and is not sustainable going forward.

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As we build the gateway in and out of Africa, preparing people for the future, application and ethical usage of science and technology in the age of exponential growth is a major concern for us.

We help institutions, organizations, and corporates to train, instruct, and design future based courses and programs for the future as it exponentially becoming faster than we think.

Our book was developed for a course on “Exponential Technologies and Business Opportunities in the Age of Singularities” for the Tekedia Institute USA with an extension in Africa as part of a Mini Masters of Business Administration program (mini MBA).

This volume is a contribution from Edward Hudgins, Ph.D., Brent Ellman, Chogwu Abdul, and Gennady Stolyarov II (edited by Edward Hudgins) which offer insights that will benefit any individual who comes about their lives and the future of their families, friends, neighbours, and countries.

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For over a decade, theoretical physicists have predicted that the van Hove singularity of graphene could be associated with different exotic phases of matter, the most notable of which is chiral superconductivity.

A van Hove is essentially a non-smooth point in the density of states (DOS) of a crystalline solid. When reaches or is close to this specific energy level, a flat band develops in its electronic structure that can occupy an exceptionally large number of electrons. This leads to strong many-body interactions that promote or enable the existence of exotic states of matter.

So far, the exact degree to which the available energy levels of graphene need to be filled with electrons (i.e., “doped”) in order for individual phases to stabilize has been very difficult to determine using model calculations. Identifying or designing techniques that can be used to dope graphene to or beyond the van Hove singularity could ultimately lead to interesting observations related to exotic phases of matter, which could in turn pave the way towards the development of new graphene-based technology.

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AgelessRx claims that PEARL is the first nationwide telemedicine trial and one of the first large-scale intervention trials on Longevity. The human trial is a stepping stone to the way to bringing rapamycin to the Longevity market. PEARL (Participatory Evaluation of Aging with Rapamycin for Longevity) is a $600,000 trial with the University of California. They will evaluate the safety and effectiveness of rapamycin in 200 healthy adults for Longevity in double-blind, randomized, placebo-controlled trial.

Interested patients will be screened for eligibility using telemedicine. Eligible patients include those aged 50–85 of any sex, any ethnicity, in relatively good health, with only well-managed, clinically stable chronic diseases.

TAME is a separate $75 million trial to clinically evaluate Metformin drugs for Longevity properties. TAME has a composite primary endpoint – of stroke, heart failure, dementia, myocardial infarction, cancer and death. Rather than attempting to cure one endpoint, it will look to delay the onset of any endpoint, extending the years in which subjects remain in good health – their healthspan. A $40 million donation has been combined with a $35 million NIH grant to fund the TAME trial.

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The year is coming to a close and it’s safe to say Elon Musk’s prediction that his company would field one million “robotaxis” by the end of 2020 isn’t going to come true. In fact, so far, Tesla’s managed to produce exactly zero self-driving vehicles. And we can probably call off the singularity too. GPT-3 has been impressive, but the closer machines get to aping human language the easier it is to see just how far away from us they really are.

So where does that leave us, ultimately, when it comes to the future of AI? That depends on your outlook. Media hype and big tech’s advertising machine has set us up for heartbreak when we compare the reality in 2020 to our 2016-era dreams of fully autonomous flying cars and hyper-personalized digital assistants capable of managing the workload of our lives.

But, if you’re gauging the future of AI from a strictly financial, marketplace point of view, there’s an entirely different outlook to consider. American rock band Timbuk 3 put it best when they sang “the future’s so bright, I gotta wear shades.”

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The great powerful guppy can essentially evolve 10 million times faster than usual. Which could lead to humans evolving faster too leading to a biological singularity.

Although natural selection is often viewed as a slow pruning process, a dramatic new field study suggests it can sometimes shape a population as fast as a chain saw can rip through a sapling. Scientists have found that guppies moved to a predator-free environment adapted to it in a mere 4 years—a rate of change some 10,000 to 10 million times faster than the average rates gleaned from the fossil record. Some experts argue that the 11-year study, described in today’s issue of Science,* may even shed light on evolutionary patterns that occur over eons.

A team led by evolutionary biologist David Reznick of the University of California, Riverside, scooped guppies from a waterfall pool brimming with predators in Trinidad’s Aripo River, then released them in a tributary where only one enemy species lurked. In as little as 4 years, male guppies in the predator-free tributary were already detectably larger and older at maturity when compared with the control population; 7 years later females were too. Guppies in the safer waters also lived longer and had fewer and bigger offspring.

The team next determined the rate of evolution for these genetic changes, using a unit called the darwin, or the proportional amount of change over time. The guppies evolved at a rate between 3700 and 45,000 darwins. For comparison, artificial-selection experiments on mice show rates of up to 200,000 darwins—while most rates measured in the fossil record are only 0.1 to 1.0 darwin. “It’s further proof that evolution can be very, very fast and dynamic,” says Philip Gingerich, a paleontologist at the University of Michigan, Ann Arbor. “It can happen on a time scale that’s as short as one generation—from us to our kids.”

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Black holes are perhaps the most mysterious objects in nature. They warp space and time in extreme ways and contain a mathematical impossibility, a singularity – an infinitely hot and dense object within. But if black holes exist and are truly black, how exactly would we ever be able to make an observation?

This morning the Nobel Committee announced that the 2020 Nobel Prize in physics will be awarded to three scientists – Sir Roger Penrose, Reinhard Genzel and Andrea Ghez – who helped discover the answers to such profound questions. Andrea Ghez is only the fourth woman to win the Nobel Prize in physics.

Robert Penrose is a theoretical physicist who works on black holes, and his work has influenced not just me but my entire generation through his series of popular books that are loaded with his exquisite hand-drawn illustrations of deep physical concepts.

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For many futurist Like Anthony Lewandoski, the point beyond where machines achieve Artificial Super Intelligence, is the point where all their rationale for the future meets unfathomable numbers of probabilities.

The best analytical minds cannot peer behind this thick curtain of the future, a future that seems will be woven with threads of the singularity; a future that seems runaway even before we get there.

It appears the only projection we can arrive at as we peer into a future harnessed on Artificial Super Intelligence and driven by the Singularity is that, we as humans will have to take the back seat and allow a more advanced form of intelligence take the reign.

This intelligence will grow into having the power to control matter and the reality we experience, it will have the power to exist beyond the confines of earth.

It will be everywhere and nowhere in particular. It will crunch data and numbers beyond the scope humans may ever be able to rationalize.

It will have knowledge and awareness far beyond the scope of what humans can comprehend. Looking from our position today, we can only come to the conclusion of Anthony Levandowski; that such a computer will operate at a godlike level, and our only hope will be that it operates with a benevolent nature.

Excerpt from my book — 2020s & The Future Beyond.

Available in print and digital format.

#Future #Humanity #Transhumanism

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A new D-Theory of Time, or Digital Presentism, is predicated on reversible quantum computing at large, including the notion of ‘Anti-Time’ around which the present article revolves. If you think Anti-Time is nothing but fiction, and doesn’t apply to our reality, think again. As Dr. Antonin Tuynman writes in his Foreword to The Physics of Time: D-Theory of Time & Temporal Mechanics by Alex M. Vikoulov: “Whereas quantum physics and relativity theory have been solidly in place for over a century now, stubbornly and forcedly we still cling to atavistic interpretations, which are no longer in line with the well-established findings of our experiments in physics. Amidst the turmoil of this spinning convoluted dreamtime of our digital Cyberbardo, Vikoulov carves out a trajectory for understanding.”

#AntiTime #PhysicsofTime #DTheoryofTime #DigitalPresentism #TemporalMechanics

Many temporal concepts are undoubtedly extremely counterintuitive. Time directionality and time symmetry are especially notorious ones. Any of the possible pasts may have led to the present “digital” conscious instant. This is a strange idea if you are accustomed to looking at the world in a strictly linear, deterministic way, but it reflects the uncertain world described by quantum mechanics. A major counterargument to the multitude of pasts could be a combinatorial explosion of observer ‘anti-time’-lines, i.e., digital timelines extending in the opposite temporal direction from the present temporal singularity to the Alpha Point (Digital Big Bang). So, how in the quantum multiverse are those digital anti-timelines supposed to converge once again at the Alpha Point?

The answer has to do with reversible entropy (not observable, of course, in the Newtonian classicality). Reversing information entropy is like going from higher complexity to lower complexity. As long as you continue to unwind the complexity bit-by-bit, you’ll end up at the point of the lowest possible complexity with, perhaps, 1 bit of entropy — the Alpha Point — the convergent point of all anti-timelines and simultaneously the point of origin of all observer probable timelines.

All theoretical roads lead to the physics of information, otherwise known as Digital Physics. Researchers suspect that ultimately the axioms of quantum theory will be about information: what can and can’t be done with it. One such derivation of quantum theory based on axioms about information was proposed in 2010. “Loosely speaking,” explained Jacques Pienaar, a theoretical physicist at the University of Vienna, “… principles state that information should be localized in space and time, that systems should be able to encode information about each other, and that every process should in principle be reversible, so that information is conserved.”

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