Lifeboat Foundation

[Figure about depicts a layout, showing two ‘somas’, or circuits that simulate the basic functions of a neuron. The green circles play the role of synapses. From presentation of K.K. Likharev, used with permission.]

One possible layout is shown above. Electronic devices called ‘somas’ play the role of the neuron’s cell body, which is to add up the inputs and fire an output. In neuromorphic hardware, somas may mimic neurons with several different levels of sophistication, depending on what is required for the task at hand. For instance, somas may generate spikes (sequences of pulses) just like neurons in the brain. There is growing evidence that sequences of spikes in the brain carry more information than just the average firing rate alone, which previously had been considered the most important quantity. Spikes are carried through the two types of neural wires, axons and dendrites, which are represented by the red and blue lines in figure 2. The green circles are connections between these wires that play the role of synapses. Each of these ‘latching switches’ must be able to hold a ‘weight’, which is encoded in either a variable capacitance or variable resistance. In principle, memristors would be an ideal component here, if one could be developed that could be mass produced. Crucially, all of the crossnet architecture can be implemented in traditional silicon-based (“CMOS”-like) technology. Each crossnet (as shown in the figure) is designed so they can be stacked, with additional wires connecting somas on different layers. In this way, neuromorphic crossnet technology can achieve component densities that rival the human brain.

Likarev’s design is still theoretical, but there are already several neuromorphic chips in production, such as IBM’s TrueNorth chip, which features spiking neurons, and Qualcomm’s “Zeroeth” project. NVIDIA is currently making major investments in deep learning hardware, and the next generation of NVIDIA devices dedicated for deep learning will likely look closer to neuromorphic chips than traditional GPUs. Another important player is the startup Nervana systems, which was recently acquired by Intel for $400 million. Many governments are are investing large amounts of money into academic research on neuromorphic chips as well. Prominent examples include the EU’s BrainScaleS project, the UK’s SpiNNaker project, and DARPA’s SyNAPSE program.

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An introduction to Google’s AI RankBrain and what it means for you.

Moises Hernandez Fernandez, PhD student at University of Oxford shares how he’s using GPUs to accelerate the analysis of the human brain’s underlying anatomical and structural organization. Learn more about their amazing work at http://nvda.ws/2bJqm9j.

Share your GPU-accelerated science with us at http://nvda.ly/Vpjxr and with the world using #ShareYourScience.

Continue reading “Share Your Science: Analyzing Human Brain Connections with GPUs” »

Brain is the new product from Jerry Yue which is based on Advanced algorithm. According to Yue, Brain will work as a personal virtual assistant for each user by having users input not just a profile of who they are, but what they do, and what they want to do in the future.

Visionary and sometimes controversial entrepreneur Elon Musk hinted at advances in next-generation brain hacking. Recent research results promise future “neural lace” technology that could enhance our brains and connect them to the cloud.

“Making progress,” said Musk in a tweet, in reply to a query about “neural lace” technologies for augmenting human intelligence.

“Maybe something to announce in a few months.”

Continue reading “Elon Musk Hints at Advances in ‘Neural Lace’ Brain Hacking Tech” »

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Utilizing experimental Watson APIs and machine learning techniques, scientists at IBM Research have collaborated with 20th Century Fox to create the first-ever cognitive movie trailer.

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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When it comes to the billions of neurons in your brain, what you see at birth is what get—except in the hippocampus. Buried deep underneath the folds of the cerebral cortex, neural stem cells in the hippocampus continue to generate new neurons, inciting a struggle between new and old as the new attempts to gain a foothold in memory-forming center of the brain.

In a study published online in Neuron, Harvard Stem Cell Institute (HSCI) researchers at Massachusetts General Hospital and the Broad Institute of Harvard and MIT in collaboration with an international team of scientists found they could bias the competition in favor of the newly generated neurons.

“The hippocampus allows us to form new memories of ‘what, when and where’ that help us navigate our lives,” said HSCI Principal Faculty member and the study’s corresponding author, Amar Sahay, PhD, “and neurogenesis—the generation of new neurons from stem cells—is critical for keeping similar memories separate.”

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Luv this article because it hits a very important topic of how will things change with BMI/ mind control technology in general. For example with BMI will we need wearable devices? if so, what type and why? Also, how will banking, healthcare, businesses, hospitality, transportation, media and entertainment, communications, government, etc. in general will change with BMI and AI together? And, don’t forget cell circuitry, and DNA storage and processing capabilities that have been proven to date and advancing.

When you take into account what we are doing with synthetic biology, BMI, AI, and QC; we are definitely going to see some very amazing things just within the next 10 years alone.

Continue reading “What Mind-Controlled Drones Mean for the Future of Digital Marketing” »