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Posts Tagged ‘Robert Noyce

“Please cut off a nanosecond and send it over to me”*…

960px-Commodore_Grace_M._Hopper,_USN_(covered)

 

“Amazing  Grace” Hopper, seminal computer scientist and Rear Admiral in the U.S. Navy, explains a “nanosecond”…

* Grace Hopper

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As we celebrate clarity, we might recall that it was on this date in 1961 that Robert Noyce was issued patent number 2981877 for his “semiconductor device-and-lead structure,” the first patent for what would come to be known as the integrated circuit.  In fact another engineer, Jack Kilby, had separately and essentially simultaneously developed the same technology (Kilby’s design was rooted in germanium; Noyce’s in silicon) and had filed a few months earlier than Noyce… a fact that was recognized in 2000 when Kilby was Awarded the Nobel Prize– in which Noyce, who had died in 1990, did not share.

Noyce (left) and Kilby (right)

 source

 

 

 

Written by LW

April 25, 2019 at 1:01 am

“Man is not born to solve the problem of the universe, but to find out what he has to do; and to restrain himself within the limits of his comprehension”*…

 

Half a century ago, the pioneers of chaos theory discovered that the “butterfly effect” makes long-term prediction impossible. Even the smallest perturbation to a complex system (like the weather, the economy or just about anything else) can touch off a concatenation of events that leads to a dramatically divergent future. Unable to pin down the state of these systems precisely enough to predict how they’ll play out, we live under a veil of uncertainty.

But now the robots are here to help…

In new computer experiments, artificial-intelligence algorithms can tell the future of chaotic systems.  For example, researchers have used machine learning to predict the chaotic evolution of a model flame front like the one pictured above.  Learn how– and what it may mean– at “Machine Learning’s ‘Amazing’ Ability to Predict Chaos.”

* Johann Wolfgang von Goethe

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As we contemplate complexity, we might recall that it was on this date in 1961 that Robert Noyce was issued patent number 2981877 for his “semiconductor device-and-lead structure,” the first patent for what would come to be known as the integrated circuit.  In fact another engineer, Jack Kilby, had separately and essentially simultaneously developed the same technology (Kilby’s design was rooted in germanium; Noyce’s in silicon) and had filed a few months earlier than Noyce… a fact that was recognized in 2000 when Kilby was Awarded the Nobel Prize– in which Noyce, who had died in 1990, did not share.

Noyce (left) and Kilby (right)

 source

 

 

Finding a higher use for those left-over Easter eggs…

From the always-inspirational Instructables, and user bbstudio (among whose passions is carving that natural geometric marvel, the egg shell, as above):

This was done simply to discover if I could do it. I went though a stage where my goal was to remove as much material from an egg shell as possible while still retaining the shape and image of the egg.

More views of this minimalist marvel here; links to more views of the scrimshaw egg shell, and to other contra-seasonal sensations here.

As we gratefully put away the Rit dye, we might recall that it was on this date in 1961 that Robert Noyce was awarded the patent for the integrated circuit that changed electronics.  Readers may recall that Jack Kilby had (separately and independently) patented the integrated earlier than Noyce— and won a Nobel Prize for it.  But Noyce’s design (rooted in silicon, as opposed to the germanium that Kilby used) was more practical… and paved the way for an altogether new kind of “Easter egg.”

Noyce made his breakthrough at Fairchild Semiconductor, of which he was a founding member.  He went on to co-found Intel, then to serve as the unofficial “Mayor of Silicon Valley,” a mentor to scores to tech entrepreneurs– including Steve Jobs.

Noyce with a print of his integrated circuit (source: BBC)

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