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Archive for the ‘computing’ category: Page 677

Jan 19, 2017

Smart Dust – The Future of Involuntary Treatment of the Public

Posted by in categories: computing, military, particle physics

Smart dust; himm I see many uses for this some good and some truly bad when in the wrong hands.


Pedro Aquila, Staff Writer Waking Times

Smart dust is a name given to extremely small computing particles, RFID chips, or other very small technologies.

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Jan 19, 2017

Back to the future: Silicon may work for quantum computing

Posted by in categories: computing, quantum physics

Se in Si —

Back to the future: Silicon may work for quantum computing.

The qualities of hydrogen and skill with silicon make for bright qubit future.

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Jan 19, 2017

Will synthetic biology help us to eliminate age-related diseases?

Posted by in categories: bioengineering, biotech/medical, chemistry, computing, genetics, health, life extension

A quick look at synthetic biology and its potential for health and treating age-related diseases.


All living organisms contain an instruction set that determines what they look like and what they do. These instructions are encoded in the organism’s DNA within every cell, this is an organism’s genetic code (or “genome”).

Mankind has been altering the genetic code of plants and animals for thousands of years, by selectively breeding individuals with desired features. Over time we have become experts at viewing and manipulating this code, and we can now take genetic information associated with the desired features from one organism, and add it into another one. This is the basis of genetic engineering, which has allowed us to speed up the process of developing new breeds of plants and animals.

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Jan 19, 2017

Computers Made of Genetic Material Will Revolutionize Our World

Posted by in categories: biotech/medical, computing, genetics, nanotechnology

Researchers have been able to create tiny structures for conducting electricity by using DNA and gold plating. This new nanostructure could be the foundation of future electronics as soon as improvements are made on this breakthrough development.

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Jan 19, 2017

Manufacturing could be revolutionized by synthetic biology

Posted by in categories: bioengineering, biotech/medical, computing

The emerging discipline of synthetic biology sits at the crux of the intersection between design, biology, computing and manufacturing…[I]t appears more and more probable that we are on the cusp of a paradigm shift, where…biology is adopted as the next big manufacturing technology.

[The objective of Ginkgo Bioworks, an “organism design” company,] is to take synthetic biology techniques to an industrial level, machine-injecting DNA sequences into baker’s yeast creating “living organism” products like perfumes, sweeteners, cosmetics and other things that are typically extracted from plants.

There are two main potential benefits from the technology. Replacing consumption of finite natural resources with lab-grown alternatives, and the potential to replicate actual genes to produce authentic fragrances replacing chemical synthetic scented products that currently dominate the marketplace.

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Jan 18, 2017

Memristor can do multistate processing as well as nonvolatile memory

Posted by in categories: computing, nanotechnology, neuroscience, quantum physics

Nice; ReRam with multi-state processing and reliable storage.


Short of full blown molecular computers or universal quantum computers or optical computers memristors have the most potential for a hardware change to dramatically boost the power and capabilities of computers. The boost to computer power could be nearly a million times by fully leveraging memristors. It would likely be more like a thousand times with more near to mid term usage of memristors.

Memristors (aka ReRAM) could become computer memory that is over 10 times denser than Flash or DRAM in two dimensions. Memristors like flash would be nonvolatile memory that would not need power for retain memory. Memristors are created from nanowire lattices which could be stacked in three dimensions. Memristors have also previously been shown to behave like brain synapses which could be used for computer architectures that emulate the human brain for neuromorphic computing. Now there is work on multistate memristors that perform computation. This means that eventually processing and memory could be tightly integrated.

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Jan 18, 2017

Biological Computing is Getting Closer to Reality

Posted by in categories: biological, computing

My dream is coming true — Biocomputing with QC technology.


University of Maryland exploits redox molecules in E. coli to instruct the bacteria to swim or fluoresce based on electronic stimuli.

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Jan 17, 2017

Microsoft wants to make conversing with your computer the new normal

Posted by in categories: computing, mobile phones

In a mobile-first, cloud-first world, conversing with a computer through your smartphone may be the best way to communicate. Microsoft’s research is heading that way.

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Jan 17, 2017

Human organs-on-chips: Harvard develops microchips lined with living cells to revolutionise medicine

Posted by in categories: biotech/medical, computing, engineering, neuroscience

Biological engineers at Harvard University’s Wyss Institute for Biologically Inspired Engineering have invented a microchip that can be lined with living human cells in order to revolutionise medicine, particularly relating to drug testing, disease modelling and personalised medicine.

The ‘human organs-on-chip’ is a microchip made from a clear flexible polymer that contains hollow microfluidic channels that are lined with living human cells, together with an interface that lines the interior surface of blood vessels and lymphatic vessels, known as an endothelium.

The idea is that the microchip can emulate the microarchitecture and functions of multiple human organs such as the lungs, kidneys, skin, bone marrow, intestines and blood-brain barrier. And if you were able to do this, you could then test out drugs and study how diseases affect the body without having to endanger human patients, or waste precious organs needed for transplants.

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Jan 17, 2017

Cancer agency hacked for data won’t pay ransom

Posted by in categories: biotech/medical, bitcoin, computing

Pathetic. This is truly a new low for Ransomware hackers.


MUNCIE — An Indiana cancer services agency says it will replace and rebuild its data after a computer hack demanding a ransom.

Cancer Services of East Central Indiana-Little Red Door in Muncie says it was hacked Jan. 11 and the hackers demanded a ransom of 50 bitcoins, or about $43,000, for access to its data.

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