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Archive for the ‘computing’ category: Page 713

Sep 1, 2016

Baidu offers brainy solutions

Posted by in categories: computing, internet, neuroscience, robotics/AI

Hoping Google/ Alphabet, Microsoft are paying attention.


Robin Li (right), chief executive officer of Baidu Inc at the launch of” Baidu Brain” on Sept 1, 2016 in Beijing. (Photo/China Daily)

Chinese tech giant reveals its latest bid to gain the upper hand in the field of artificial intelligence

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Sep 1, 2016

Pharmacogenetics Informs Clinical Practice

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

I remember 4 years ago at a CIO Life Sciences Conference in AZ when one of the leaders over a research lab mention the desire to finally enable patients to share their entire DNA sequence on a thumb drive with their doctor in order to be treated properly as well as have insights on the patient’s future risks. However, limitations such as HIPAA was brought up in the discussion. Personally, with how we’re advancing things like synthetic biology which includes DNA data storage, cell circuitry, electronic tattoos, etc. thumb drive maybe too outdated.


The circle that is personalized medicine consists of more than just doctor, patient, and patient data. Other elements are in the loop, such as EHR systems that incorporate gene-drug information and updated clinical guidelines.

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Sep 1, 2016

Google isn’t far off from achieving quantum supremacy

Posted by in categories: computing, quantum physics

Google’s new QC targeted by the end of next year.


Researchers at the company could unveil a quantum computer that is superior to conventional computers by the end of next year.

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Sep 1, 2016

Continuous Roll-process Technology for Transferring and Packaging Flexible Large-scale Integrated Circuits

Posted by in categories: computing, wearables

Luv this.


A research team led by Professor Keon Jae Lee from the Korea Advanced Institute of Science and Technology (KAIST) and by Dr. Jae-Hyun Kim from the Korea Institute of Machinery and Materials (KIMM) has jointly developed a continuous roll-processing technology that transfers and packages flexible large-scale integrated circuits (LSI), the key element in constructing the computer’s brain such as CPU, on plastics to realize flexible electronics.

Professor Lee previously demonstrated the silicon-based flexible LSIs using 0.18 CMOS (complementary metal -oxide semiconductor) process in 2013 (ACS Nano, “In Vivo Silicon-based Flexible Radio Frequency Integrated Circuits Monolithically Encapsulated with Biocompatible Liquid Crystal Polymers”) and presented the work in an invited talk of 2015 International Electron Device Meeting (IEDM), the world’s premier semiconductor forum.

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Sep 1, 2016

Is the black hole at our galaxy’s centre a quantum computer?

Posted by in categories: computing, cosmology, quantum physics

Might nature’s bottomless pits actually be ultra-efficient quantum computers? That could explain why data never dies.

Sabine Hossenfelder

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Sep 1, 2016

Carbon nanotube nonvolatile NRAM memory 1000 times faster than Flash will be commercially released by the end of 2018 by Nantero and Fujitsu

Posted by in categories: computing, nanotechnology

Nantero, Fujitsu Semiconductor and Mie Fujitsu Semiconductor today announced an agreement for Fujitsu and Mie Fujtisu to license that Nantero’s technology for NRAM, non-volatile RAM using carbon nanotubes, and to conduct joint development towards releasing a product based on 55-nm process technology.

Three companies are aiming to develop a product using NRAM non-volatile RAM that achieves several 1000 times faster rewrites and many thousands of times more rewrite cycles than embedded flash memory, making it potentially capable of replacing DRAM with non-volatile memory.

Fujitsu Semiconductor plans to develop an NRAM-embedded custom LSI product by the end of 2018, with the goal of expanding the product line-up into stand-alone NRAM product after that. Mie Fujitsu Semiconductor, which is a pure-play foundry, plans to offer NRAM-based technology to its foundry customers.

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Sep 1, 2016

It’s Getting Closer Every Day: Quantum Computing Explained

Posted by in categories: computing, quantum physics

This fun, easy and in-depth video explains the complexities of quantum computing and how it could dramatically change our lives once it’s here.

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Aug 31, 2016

Lenovo’s Yoga Book is part tablet, part sketch pad

Posted by in categories: computing, innovation

Let’s face it: Tablets are on the brink of death, and it’s difficult to get excited about a new slate these days. And even though tablet-laptop hybrids are taking off, that market is cornered by Surfaces and iPad Pros. So I wasn’t prepared to be as thrilled as I was by Lenovo’s latest offering. The Yoga Book, based on my experience with a preview unit, is not merely a mimicry of Microsoft’s Surface Book; it has impressively innovative features and a well-thought-out interface that make it a solid hybrid in its own right.

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Aug 31, 2016

Dolomite Lends a Helping Hand to Synthetic Biology Research

Posted by in categories: bioengineering, biological, computing

Excellent opportunity.


Dolomite microfluidic chips are helping researchers from the Biodesign Institute at Arizona State University (ASU) to develop novel enzymes capable of polymerising synthetic nucleotides.

dolomiteUsing these chips, the team has created a droplet-based optical polymerase sorting (DrOPS) technique allowing rapid screening for novel polymerase activities in uniform water-in-oil microcompartments. The team’s leader, Professor John C. Chaput – formerly at ASU and currently at the University of California, Irvine – explained: “The creation of synthetic nucleic acids is of great interest to synthetic biologists but, because they are not found in nature, wild type polymerases struggle to process them. To overcome this issue, we are developing novel polymerases using directed evolution in water-in-oil microcompartments. The DrOPS methodology has significant advantages over traditional methods, which are both labour intensive and impractical to perform on a large scale due to the amount of precious artificial nucleotide reagents required for screening.”

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Aug 31, 2016

Colors from darkness: Researchers develop alternative approach to quantum computing

Posted by in categories: computing, particle physics, quantum physics

Another approach to QC; the title of the article is misleading because you still are using quantum properties in the approach.


Researchers at Aalto University have demonstrated the suitability of microwave signals in the coding of information for quantum computing. Previous development of the field has been focusing on optical systems. Researchers used a microwave resonator based on extremely sensitive measurement devices known as superconductive quantum interference devices (SQUIDs). In their studies, the resonator was cooled down and kept near absolute zero, where any thermal motion freezes. This state corresponds to perfect darkness where no photon — a real particle of electromagnetic radiation such as visible light or microwaves — is present.

However, in this state (called quantum vacuum) there exist fluctuations that bring photons in and out of existence for a very short time. The researchers have now managed to convert these fluctuations into real photons of microwave radiation with different frequencies, showing that, in a sense, darkness is more than just absence of light.

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