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Archive for the ‘computing’ category: Page 621

Apr 24, 2019

On-chip drug screening for identifying antibiotic interactions in eight hours

Posted by in categories: biotech/medical, computing

A KAIST research team developed a microfluidic-based drug screening chip that identifies synergistic interactions between two antibiotics in eight hours. This chip can be a cell-based drug screening platform for exploring critical pharmacological patterns of antibiotic interactions, along with potential applications in screening other cell-type agents and guidance for clinical therapies.

Antibiotic susceptibility testing, which determines types and doses of antibiotics that can effectively inhibit , has become more critical in recent years with the emergence of antibiotic-resistant pathogenic bacteria strains.

To overcome the , combinatory therapy using two or more kinds of antibiotics has been gaining considerable attention. However, the major problem is that this therapy is not always effective; occasionally, unfavorable antibiotic pairs may worsen results, leading to suppressed antimicrobial effects. Therefore, combinatory testing is a crucial preliminary process to find suitable antibiotic pairs and their concentration range against unknown pathogens, but the conventional testing methods are inconvenient for concentration dilution and sample preparation, and they take more than 24 hours to produce results.

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Apr 24, 2019

A faster method for multiplying very big numbers

Posted by in categories: computing, education, information science, mathematics

The multiplication of integers is a problem that has kept mathematicians busy since Antiquity. The “Babylonian” method we learn at school requires us to multiply each digit of the first number by each digit of the second one. But when both numbers have a billion digits each, that means a billion times a billion or 1018 operations.

At a rate of a billion operations per second, it would take a computer a little over 30 years to finish the job. In 1971, the mathematicians Schönhage and Strassen discovered a quicker way, cutting calculation time down to about 30 seconds on a modern laptop. In their article, they also predicted that another algorithm—yet to be found—could do an even faster job. Joris van der Hoeven, a CNRS researcher from the École Polytechnique Computer Science Laboratory LIX, and David Harvey from the University of New South Wales (Australia) have found that algorithm.

They present their work in a new article that is available to the through the online HAL archive. But one problem raised by Schönhage et Strassen remains to be solved: proving that no quicker method exists. This poses a new challenge for theoretical science.

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Apr 24, 2019

A New Approach to Multiplication Opens the Door to Better Quantum Computers

Posted by in categories: computing, information science, quantum physics

Quantum computers can’t selectively forget information. A new algorithm for multiplication shows a way around that problem.

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Apr 23, 2019

Light-based computer hardware that can compete with silicon

Posted by in categories: business, computing, quantum physics

A team of researchers at NTT Corporation has developed a way to use light-based computer hardware that allows it to to compete with silicon. In their paper published in the journal Nature Photonics, the group describes their research, the devices they created and how well they worked.

Computer scientists have known for some time that the era of increasing speed by modifying silicon-based computer parts is coming to an end. To that end, many have turned to quantum computing as the way to speed up computers—but to date, such efforts have not led to useful machines and there is no guarantee they ever will. Because of that, others in the are looking for other options, such as using to move data around inside of computers instead of electrons. Currently, light is generally only used to carry data long distances. In this new effort, the researchers report that they have developed computing devices based partially on light that performed as well as electron-based hardware.

The idea of using only light as a data medium in is still a long way off—instead, engineers are focusing on using light in areas where it seems feasible and electrons everywhere else. Because of that computer devices must be able to convert between the two mediums, a problem that until now has prevented such devices from being built. Prior efforts have required too much power to be feasible and the conversion process has been too slow. To get around both problems, the researchers developed a new kind of photonic crystal that was able to diffuse light in a way that allowed it to follow a designated path on demand and to also be absorbed when needed to be used for generating current. The crystal was also able to work in reverse.

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Apr 22, 2019

Elon Musk says machine to connect human brain to computers is ‘coming soon’

Posted by in categories: computing, Elon Musk, neuroscience

21 votes and so far on Reddit.

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Apr 20, 2019

This Quantum Computer Can See the Future — All 16 of Them

Posted by in categories: computing, quantum physics

Researchers have built a quantum computer prototype that can show 16 possible futures at the same time.

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Apr 20, 2019

MicroSD Cards Packing 1TB of Storage Arrive This Spring

Posted by in category: computing

They’re in the works at Micron and Western Digital, but they won’t be cheap. WD’s card arrives in April for $449.99; Micron has not yet announced pricing.

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Apr 19, 2019

Microsoft buys Express Logic, adds a third operating system to its IoT range

Posted by in category: computing

ThreadX joins Azure Sphere, Windows 10 for IoT.

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Apr 18, 2019

Team Linked to Elon Musk Edges Closer to Brain Computers

Posted by in categories: computing, Elon Musk, neuroscience

Scientists describe an electronic method that could one day enable brain computers.

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Apr 18, 2019

Breakthrough research to revolutionise internet communication

Posted by in categories: computing, internet

A team of University of Otago/Dodd-Walls Centre scientists have created a novel device that could enable the next generation of faster, more energy efficient internet. Their breakthrough results have been published in the world’s premiere scientific journal Nature this morning.

The internet is one of the single biggest consumers of power in the world. With data capacity expected to double every year and the used to encode and process data reaching its limits, there is huge pressure to find new solutions to increase the speed and capacity of the internet.

Principal Investigator Dr. Harald Schwefel and Dr. Madhuri Kumari’s research has found an answer. They have created a device called a microresonator made out of a tiny disc of crystal. The device transforms a single colour of into a rainbow of 160 different frequencies – each beam totally in sync with each other and perfectly stable. One such device could replace hundreds of power-consuming lasers currently used to encode and send data around the world.

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