The technology industry has entered the field of medicine and aims to eliminate disease itself. It may well succeed because of a convergence of exponentially advancing technologies, such as computing, artificial intelligence, sensors, and genomic sequencing. We’re going to see more medical advances in the next decade than happened in the past century.
Sunday, November 06, 2016
Health 2.0
The technology industry has entered the field of medicine and aims to eliminate disease itself. It may well succeed because of a convergence of exponentially advancing technologies, such as computing, artificial intelligence, sensors, and genomic sequencing. We’re going to see more medical advances in the next decade than happened in the past century.
Abundance, Round The Corner
In the 1800s, aluminum was more valuable than silver and gold because it was rarer. So when Napoleon III entertained the King of Siam, the king and his guests were honored by being given aluminum utensils, while the rest of the dinner party ate with gold.
But aluminum is not really rare.
In fact, aluminum is the third most abundant element in the Earth’s crust, making up 8.3% of the weight of our planet. But it wasn’t until chemists Charles Martin Hall and Paul Héroult discovered how to use electrolysis to cheaply separate aluminum from surrounding materials that the element became suddenly abundant.
The problems keeping us from achieving a world where everyone’s basic needs are met may seem like resource problems — when in reality, many are accessibility problems.
Think about all the things that computers and the internet made abundant that were previously far less accessible because of cost or availability …
Less than two decades ago, when someone reached a certain level of economic stability, they could spend somewhere around $10K on stereos, cameras, entertainment systems, etc — today, we have all that equipment in the palm of our hand.
When put to the right use, emerging technologies like artificial intelligence,robotics, digital manufacturing, nano-materials and digital biology make it possible for us to drastically raise the standard of living for every person on the planet.
Friday, October 28, 2016
Elon Musk: To Mars Or Not To Mars
I say no Mars. It is basic. I don't mean to spoil the fun and sound like I were saying the emperor is naked. But the human skeleton is not designed for Mars gravity. Or for the months of space travel. It would simply give up.
But reusable rockets are a great concept. The financials are in the robotic mining of the asteroid belt and, more immediately, in the network of 4,000 satellites that would carry a big chunk of the load of internet traffic. The need for bandwidth is going to grow exponentially. Both would be tremendous money makers. And robots don't have skeleton issues. Good thing.
The earth is the only home. And Elon Musk should really double down on solar. Create a Musk Law whereby costs are halved every two, or three or four years. Dirty needs to be driven out of business.
Electric vehicles go hand in hand with that.
And what's up with the hyperloop? Again, I have human body questions. All that acceleration and deceleration, how would the human body react to that? But if the hyperloop be possible then you will see an Amazon size forest in America before 2050. Good thing. People would congregate in the big cities of the world.
Mars is for the Curiosity rover. Robotic exploration is the best way.
Wednesday, October 26, 2016
Monday, October 24, 2016
FPGA: Field Programmable Gate Array
The ability to do deep learning more quickly – using that AI supercomputer in the cloud – has broad implications. It could vastly speed up advances in automatic translation, accelerate medical breakthroughs and create automated productivity tools that better anticipate our needs and solve our workday problems.
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