Category Archives: Technology & Innovation

For all my techie friends — in the Einstein Alley groups, NJEN, the Keller Center, and the E-Quad — event notices, items from U.S. 1 Newspaper and the NYT

John Springrose: “Prototype your imagination”

Ann Yasuhara, Business, Healthcare, Technology & Innovation, , , , , , , ,

Sometimes a better chamberspeaker says what they said to a U.S. 1 reporter as published in the previous issue. Not so this time. Diccon Hyatt’s interview with John Springrose was way different from his talk at the Princeton Regional Chamber breakfast this morning. Springrose’s company (formerly inDimension3, now Philadelphia-based Koine) pioneers in 3D printers, more aptly named “rapid prototyping machines.

An IBM-er turned investment banker, Springrose  began with a “then and now” show of how innovation increases productivity, even though jobs are lost along the way. For instance, IBM’s first middle market computer, System 32, cost $40,000 and had only 5k of memory but in 1975 it could replace accounting functions. Checkers were replaced by self checkout and scans, tellers by ATMs, German auto workers by robots, and so on. “Innovation does lead to productivity,” he tells students, “and it forces us to think.” Be an innovator or run the risk of losing your job.

Examples of how a rapid prototyping machine can work: High school student gets an idea for jazzing up the wine drinking experience. Prints a prototype of a new wine holder, gets it manufactured in China, sells several hundred units on ebay for $40 each, total cost of each unit $1.89, accomplished this in less than a month. Product: a wine bottle holder that is lit from underneath, sending colors through a bottle of white wine. Cool. True story.

A plant “goes down” for lack of a part? A 3-D printer could make that part in a snap. A corporation could have a rapid prototype machine in the lobby and greet clients is greeted with a logo or miniature product from their company. Now that’s hospitality.

Three-D printers like toys can cost as little as $700 but, to be reliable, one should cost at least $5,000 for business use. Customers are mostly overseas. Springrose worries that the U.S. is getting left behind.

In addition to plastic, products can be in wood, metal — “anything that will melt.’ His industry today is where IBM’s System 32 computer was in 1975. “You give me the industry, I give you the use,” he offered.  “Prototype your imagination,” he challenges. “If you think about it, you can do it.”

As for the difference between the interview and the talk — the reporter dug into the not-so-successful early stage of Springrose’s company, when it was making cheap printers that were not reliable and got scathing online reviews. That’s why Springrose moved to the high end. More than 700 startups make 3 D printers but just three– including Koine — are working on business-quality tools.

Springrose has a very personal interest in the medical applications for his devices. He looks forward to the day when a rapid prototyping machine can print out a liver or a kidney. That’s because he has lived through a liver transplant. But printable organs won’t happen any time soon. Springrose came without a demo machine because — the day before, he demoed to doctors at Jefferson — and they broke the machine.

Photo: L to R, Grant Somerville (chamber program committee), John Springrose, Peter Crowley (chamber CEO).  

Commentary on “Alan Turing: The Enigma”

Around Town, Technology & Innovation, , , ,

2014 feb 1 leech, BC beard

For this post I asked my husband, George Fox, to read “Alan Turing: The Enigma” by Andrew Hodges and write about Turing’s Princeton connections. Princeton University Press had sent the book, issued at the same time as the The Imitation Game movie now playing at the Garden Theatre, but I didn’t have time to plow through all 768 pages. Like many engineers and programmers, George is a Turing admirer, and he obliged. As here:

In 1935 at age 22 Alan Turing was the first of his year group to be elected a Fellow at Cambridge and receive a fellowship which paid 300 pounds a year for three years. His focus area was mathematics and his first paper was a small improvement to a paper by John von Neumann.

John von Neumann happened to be spending a summer away from Princeton and gave a lecture course at Cambridge on the subject of ‘almost periodic functions’ – which provided Alan an opportunity to meet him.

Turing decided to apply for a visiting Fellowship at Princeton for the following year – 1936.

He did not receive the Princeton Fellowship but left for Princeton in September 1935 – spending 1936 and ’37 at Princeton.

The next year he was awarded the prestigious Procter Fellowship at Princeton. William Cooper Procter (of Procter and Gamble) was Princeton Class of 1883 and a significant benefactor to Princeton and to the Graduate College.  (The term Ivory Tower originates in the Song of Solomon but the Graduate Tower at Princeton is sometimes jokingly referred to as the Ivory Tower – a reference to William Procter.)

The birth of the modern computer

In the meantime (1935) Turing continued at Cambridge. He was a long distance runner and one day while running he had an inspiration to approach the mathematical problem of “provability of any mathematical assertion presented”.

Turing’s approach to the problem was published in 1936 in a paper titled “Computable Numbers.”

He had to abstract the quality of being determined and apply it to the manipulation of symbols.

His inspiration was to envision a machine which at any time would be one of a finite number of possible states with an exact determined behavior in each state. His inspiration was based on the typewriter which he had seen his mother using when he was a child.

He imagined the input to his machine as being a form of tape marked off into unit squares such that just one symbol could be written on any one square. Thus his theoretical machine was finitely defined but allowed an unlimited amount of space on which to work. The theoretical machine would scan a single square and could read, write and erase the symbol on the square but could only move one square to the left or right at a time.

The entire process could be done without human intervention.

All the information associated with a given machine could be written out as a table which completely defined the machine. There could be an infinite number of unique machines – each associated with only a single table.

Each table could be identified with a corresponding number. From this followed the idea of a universal machine which when presented with a given table could do the unique function associated with the table.

. In Computable Numbers Turing used binary numbers – which make it possible to represent all of the computable numbers as infinite sequences of 0’s and 1’s.

Turing began to think of Turing machines as comprised of combinations of electromagnetic relay switches. Off or on, 0 or 1, true or false. Thus the logical processes of Boolean algebra and binary arithmetic could be implemented in a physical process.

Alan Turing received his PhD from Princeton in June, 1938.

Turing and cryptanalysis

In 1937 while Turing was working on his PhD thesis at Princeton he became interested in cryptanalysis.

By 1937 Turing could see the growing tension with Germany and the value of code breaking.

The Enigma machine

The Enigma machine was an electro-mechanical rotor cipher machine invented by a German engineer at the end of World War I and was used for enciphering and deciphering secret messages.

Three Polish cryptologists are credited with reverse engineering the Enigma machine in 1932.

In 1939 British and French Intelligence were briefed on the Polish work with Enigma and were promised a Polish reconstructed Enigma. This machine became a vital basis for British continuation of the code breaking effort.

Alan Turing and his Universal Machine soon became deeply involved in British Intelligence and the continuing work in code breaking the Enigma.

The story of Turing’s work in breaking the German code is told in the movie “The Imitation Game.”

Note: Princeton Echo’s February issue features W. Barksdale Maynard‘s  complete account of Turing and the birth of computing in Princeton, first printed in the Princeton Alumni Weekly.

Above:  ALLEN “Downton Abbey” LEECH, BENEDICT CUMBERBATCH and MATTHEW BEARD star in THE IMITATION GAME
Photo by Jack English courtesy of Black Bear Pictures

The alternative energy czaress –Emily Carter, in charge of the new Andlinger Center at Princeton University —  has plenty of opinions on various aspects of global warming, as you might expect. But you might be surprised at what she says about hydrofracking. She’s the subject of the cover story, by Diccon Hyatt, in this week’s U.S. 1.

1-28 Cover & Front (1-7).indd

Capstone for a Career, Strategy for the Next One

Around Town, Business, Healthcare, Technology & Innovation, , , , ,

JaneTervooren2

Jane Tervooren has had multi-layered careers,  chronicled  in U.S. 1, most recently in a December 10 cover story by Diccon Hyatt. Tervooren’s departure from one fulfilling job to invest in an exciting new company was occasioned by a health event. As Hyatt describes, “surviving cancer is what led her to put a capstone on an 18-year career.”

Being diagnosed with a fatal disease, no matter what the outcome, inspires change.

Tervooren’s advice is appropriate for the New Year: “it’s never too late to re-invent yourself. Don’t settle if you’re unhappy in a relationship or a job. have the guts to make a change. If you are stuck, it’s because you feel stuck. People have options.

Sobin: Turning on a Dime

Business, Technology & Innovation, , , ,

Kudos to David Sobin, who must surely get this year’s prize for turning on a dime to meet a new business need. To the product line of his broadband operations firm, BAMNet, he added Replay Locker, which lets high school football teams video replays like the pros.  Here is Diccon Hyatt’s story in U.S. 1 this week.

Princeton Firm Helps Fight Ebola

Healthcare, Technology & Innovation

Peter Lentini, CSO of Carnegie Center-based Microdermis, says the U.S. Army will deploy its new antiseptic product, Provodine, in its fight against Ebola in West Africa.

Press release quote: “Unlike most branded antiseptic products – which are contra-indicated for eye, mucosal surfaces (nose and mouth), ear and genitals – Provodine® can be safely used on the most sensitive areas of the body.”

Ed Felten warned against the Mosaic Effect in testimony on November 20 before the federal Privacy and Civil Liberties Oversight Board. The feds could protect our privacy by changing the rules.

I was thinking that I might have bamboozled the snoops by combining my buying account with my husband’s. Just let them try to figure out the profile of someone who buys toys and lug wrenches and also lipsticks.

In case I am not as smart as I think, maybe I should consult with Ed.

The new head of the New Jersey Technology Council, James Barrood, hosts a meet and greet tonight (10/30) at the Nassau Inn’s Yankee Doodle Tap Room. A bargain $10 (Members free) gets you a drink and snacks, 6 to 8 p.m. Keep out of trouble on Mischief Night!

The Future of Work: November 12

Business, Technology & Innovation, , , , ,

America is in the throes of a demographic overhaul. By mid-century, the population of the United States will be majority non-white and our median age will edge above 40-both unprecedented milestones. The November 12 conference,  The Future of Work, will look at the nature of work in this technology driven, hyperconnected, global world.

Keynotes: Paul Taylor, author of The Next America,  star political reporter, and Pew Research executive and Carl Van Horn, Director of the Heldrich Center for Workforce Development.

Register for $65 today at www.einsteinsalley.org.  Earlybird rate goes through October 31. It is cosponsored by Einstein’s Alley and, among others, the Princeton Regional Chamber. Registration includes copies of Taylor’s book, The Next America, and Van Horn’s book, Working Scared (Or Not at All): The Lost Decade, Great Recession, and Restoring the Shattered American Dream.