Toggle light / dark theme

Nice write up and references the Cognitive Toolkit that was leveraged on Skype, Xbox, etc. Also, a nice plug on the QC work.


“Only Cray can bring the combination of supercomputing technologies, supercomputing best practices, and expertise in performance optimization to scale deep learning problems,” said Dr. Mark S. Staveley, Cray’s director of deep learning and machine learning. “We are working to unlock possibilities around new approaches and model sizes, turning the dreams and theories of scientists into something real that they can explore. Our collaboration with Microsoft and CSCS is a game changer for what can be accomplished using deep learning.”

Also Read: Ignore The Financials, MSFT Stock Is Headed Higher : Microsoft Corporation (NASDAQ: MSFT)

“Cray’s proficiency in performance analysis and profiling, combined with the unique architecture of the XC systems, allowed us to bring deep learning problems to our [system] and scale them in a way that nobody else has,” added Prof. Dr. Thomas C. Schulthess, director of the Swiss National Supercomputing Centre (CSCS). “What is most exciting is that our researchers and scientists will now be able to use our existing Cray XC supercomputer to take on a new class of deep learning problems that were previously infeasible.”

QC and Formula 1 another opportunity and believer.


In the latest of our occasional series of interviews with interesting players behind the scenes in Formula 1 we meet a Russian scientist, who is keeping the Toro Rosso safe from cyber attacks and who has big plans for using quantum computers to create new F1 materials.

Acronis is a data support and protection business that was founded in 2003. It reportedly has five million personal consumers and 500,000 businesses using its technology in over 145 countries and offers services such as cloud security, data back up and recovery support.

Here James Allen interviews Acronis CEO Serguei Beloussov, who has a PhD in physics and sits on the board of directors at the Russian Quantum Center and Centre for Quantum Technologies in Singapore, about why Acronis has decided to spend its money on F1.

For the first time, scientists have used cellular reprogramming to reverse the ageing process in living animals, enabling mice with a form of premature ageing to live 30 percent longer than control animals.

The technique involves the use of induced pluripotent stem cells (iPSCs), which lets scientists reprogram skin cells to a base, embryonic-like state. From there, iPSCs can develop into other types of cells in the body – and now researchers have shown that reprogramming cells can also rejuvenate living creatures, in addition to winding back cells.

“In other studies scientists have completely reprogrammed cells all the way back to a stem-cell-like state,” says researcher Pradeep Reddy from the Salk Institute for Biological Studies.

Read more

Getting old may not be inevitable — scientists have found a way to turn back the clock on human and animal cells, making them look and behave like younger versions of themselves.

The researchers also used the method to treat mice with a rare disease that causes them to age prematurely and die early, and found that the method increased the animals’ lifespan by 30 percent. And, when normal mice received the treatment, they appeared to be rejuvenated, with some of their cells healing faster than normal in response to injury.

The researchers said that their findings may help scientists better understand the process of aging. One day, it may be possible to use a similar approach to ward off age-related diseases in humans, and thus improve people’s health and increase their lifespan, they said.

Read more

It’s 3 AM on a warm Thursday night in December, a usually quiet street in the Gothic Quarter in Barcelona is bustling with activity, as a cohort of 200 artificial intelligence researchers leave in single-file out of a sprawling yellow mansion. The police count heads as the researchers film the procession on their phones and tweet #rocketai.

The guest list looked like the results of a search for most popular AI authors on arXiv. Every major corporate and academic AI lab was in attendance — Google DeepMind, Open AI, Facebook AI Research, Google Brain, Stanford University, MIT, U of Montreal, as well as a multitude of other AI start-ups and investors from around the world — all in town for the 30th annual NIPS conference.

NIPS (Neural Information Processing Systems) has become the academic and industry AI conference, growing near-exponentially over the past decade as corporate sponsors fight to keep the loyalty of their engineers and aggressively recruit others. Corporates plan months in advance to parade their capital expenditure and technical talent. Tickets for the main conference, despite nearly doubling in quantity since last year, sold out more than 6 weeks before the event.

Read more

Dr. Matthew O’Connor from the SENS Research Foundation gives a fascinating talk about this years successful results of the mitochondrial repair project (MitoSENS) and the potential for repairing age-related damage to the mitochondria that SENS proposes. 2017 could be an even better year for progress, please consider donating to the SRF Winter Fundraiser and help them make age-related disease a thing of the past.


Please take a few minutes to watch SENS Research Foundation’s Matthew O’Connor give a Google TechTalk during Google’s Giving Week campaign. The topic is his recently published article on our MitoSENS Research. If you enjoy this presentation and support our work please go to our website and donate today. Your support is critical to our success. You can donate at www.sens.org/donate

Donate

The team showed that a new form of gene therapy produced a remarkable rejuvenating effect in mice. After six weeks of treatment, the animals looked younger, had straighter spines and better cardiovascular health, healed quicker when injured, and lived 30% longer.

Juan Carlos Izpisua Belmonte, who led the work at the Salk Institute in La Jolla, California, said: “Our study shows that ageing may not have to proceed in one single direction. With careful modulation, ageing might be reversed.”

The genetic techniques used do not lend themselves to immediate use in humans, and the team predict that clinical applications are a decade away. However, the discovery raises the prospect of a new approach to healthcare in which ageing itself is treated, rather than the various diseases associated with it.

Read more

Excellent article by Nick Gillespie, Editor-in Chief of Reason. Genetic editing is so far the 21st Century’s most important science—and it’s already being challenged by many as too radical: http://reason.com/blog/2016/12/15/will-gene-editing-technologies-spark-the #transhumanism #CRISPR #Future


The folks behind CRISPR gene editing were runners-up for Time’s Person of the Year. Their creation may win the future for secular China.

Read more