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Category: computing – Page 893

Progress toward real life super-soldiers

For three years ago U.S. Special Operations Command and DARPA announced they had started work on a super-soldier suit called TALOS (Tactical Assault Light Operator Suit) unlike anything in the history of warfare. It is engineered with full-body ballistics protection; integrated heating and cooling systems; embedded sensors, antennas, and computers; 3D audio (to indicate where a fellow warfighter is by the sound of his voice); optics for vision in various light conditions; life-saving oxygen and hemorrhage controls; and more.

It aims to be “fully functional” by 2018. “I am here to announce that we are building Iron Man,” President Barack Obama said of the suit during a manufacturing innovation event in 2014. When the president said, “This has been a secret project we’ve been working on for a long time,” he wasn’t kidding.

In 1999 DARPA created the Defense Sciences Office (DSO) and made Michael Goldblatt its director. Goldblatt saw the creation of the super-soldier as imperative to 21st-century warfare.

5 Technologies for 2031

What will be most interesting about the next 15 years is that unlike the last 15, which was largely defined by digital technology, the advancements to come will arise from the confluence of a number of fields.

Exponentially more powerful computing architectures will make it possible for us to work at the genomic and molecular levels and create intelligent machines. New sources of energy, as well as the ability to store that energy far more efficiently, will allow these technologies to be practical, safe and affordable.

Today, in 2016, we have largely mastered the virtual world of information. By 2031, we will have begun to master the physical world as well.

Samsung plugs IBM’s brain-imitating chip into an advanced sensor

IBM’s TrueNorth, a so-called “cognitive chip,” remarkably resembles the human brain: its 4,096 cores combine to create about a million digital neurons and 256 million synapse connections. In short, like everyone’s favorite complex organ, it operates extremely quickly and consumes far less energy than typical processors. Samsung has taken the chip and plugged it into its Dynamic Vision Sensor (DVS) to process digital imagery at a blindingly fast rate.

Typical digital cameras max out 120 frames per second, but a DVS-equipped gadget can capture an incredible 2,000 fps. Unlike a conventional sensor, each pixel on Samsung’s only reacts if it needs to report a change in what it’s seeing, according to CNET. That high speed could be useful for creating 3D maps or gesture controls. At a press event on Thursday in San Jose, the company demonstrated its ability to control a TV as it recognized hand waves and finger pinches from ten feet away.

DVS is efficient like its TrueNorth chip base, and only consumes about 300 milliwatts of power. That’s about a hundredth the drain of a laptop’s processor and a tenth of a phone’s, a Samsung VP said at the event. But we still have a ways to go before we approach the minimal power requirements of the human brain, he said, which can process some tasks at 100 million times less power than a computer.

IBM’s New Artificial Neurons a Big Step Toward Powerful Brain-Like Computers

Thanks to a sleek new computer chip developed by IBM, we are one step closer to making computers work like the brain.

The neuromorphic chip is made from a phase-change material commonly found in rewritable optical discs (confused? more on this later). Because of this secret sauce, the chip’s components behave strikingly similar to biological neurons: they can scale down to nanometer size and perform complicated computations rapidly with little energy.

Towards the T-1000: Liquid metals propel future electronics

Science fiction is inching closer to reality with the development of revolutionary self-propelling liquid metals—a critical step towards future elastic electronics.

While building a shape-shifting liquid metal T-1000 Terminator may still be far on the horizon, the pioneering work by researchers at RMIT University in Melbourne, Australia, is setting the foundation for moving beyond solid state electronics towards flexible and dynamically reconfigurable soft circuit systems.

Modern electronic technologies like smart phones and computers are mainly based on circuits that use solid state components, with fixed metallic tracks and semiconducting devices.

Immortality Through Technology, Exploring the Singularity with Ray Kurzweil

I love investing. Every investor who strives to understand their craft to the fullest, ends up at the undeniable conclusion that time is the most valuable asset, bar none. Without it, nothing else of value can exist, it’s the magic ingredient. We can leave value behind for our loved ones, but on an individual level, this intangible asset is a requirement to value and enjoyment as a life form.

Technological innovation and growth can be compared to a snowball rolling down a mountainside, growing faster with each rotation, while speeding up simultaneously. Moore’s Law has held for decades, some say we will hit a wall in silicon transistor shrinking, but the advent of graphene has recently given new light on how this can continue on. New materials, will keep the acceleration of processing power and shrinking of those technologies, intact.

Fun With DNA

We have seen the beauty of DNA in medical advancements, tech for storage, and even in designer fashion, Now, lets play with Art and art expression.

Tiny computers, microscopic art, bringing back the dodo—the future uses of the double helix.

WEF: These are the technologies that will transform finance over the next few decades

Like this article; there is 2 more pieces missing from the roadmap for 2010 & beyond and that is Biocomputing & Singularity. Biocomputing will provide the financial industry (banks, trading firms, accounting & audit firms, bond insurers, etc.) the ability to expand information/ data storage and transmission capacities like we have never see before just look at what Microsoft, Google, Amazon, etc. have done with DNA storage. And, the much loved Singularity enables boosting of knowledge and insights as well as more mobility and access to information as they need it. BTW — Biometrics is NOT the same as Biocomputing; biocomputing goes well beyond security/ identity management.

The influential non-profit rates these technologies alongside the PC, the internet, and smartphones in terms of their potential to transform financial…

Consciousness Lives in Quantum State After Death Physicists Claim

Hmmm.

Testimonials from prominent physics researchers from institutions such as Cambridge University, Princeton University, and the Max Planck Institute for Physics in Munich claim that quantum mechanics predicts some version of “life after death.”

They assert that a person may possess a body-soul duality that is an extension of the wave-particle duality of subatomic particles.

Wave-particle duality, a fundamental concept of quantum mechanics, proposes that elementary particles, such as photons and electrons, possess the properties of both particles and waves. These physicists claim that they can possibly extend this theory to the soul-body dichotomy. If there is a quantum code for all things, living and dead, then there is an existence after death (speaking in purely physical terms). Dr. Hans-Peter Dürr, former head of the Max Planck Institute for Physics in Munich, posits that, just as a particle “writes” all of its information on its wave function, the brain is the tangible “floppy disk” on which we save our data, and this data is then “uploaded” into the spiritual quantum field. Continuing with this analogy, when we die the body, or the physical disk, is gone, but our consciousness, or the data on the computer, lives on.

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