Ref JUK0

ED, AI: Welcome to 64th year of linking Japan to Intelligence Flows of Neumann-Einstein-Turing - The Economist's 3 gamechnagers of 1950s .. Norman Macrae, Order 3 of Rising Sun ...Wash DC, Summer 25: Son & Futures co-author Chris.Macrae Linkedin UNwomens) writes: My passion connecting generations of intelligences of Asian and Western youth follows from dad's work and my own Asian privileges starting with work for Unilever Indonesia 1982 - first of 60 Asian data building trips. 3 particular asian miracles fill our valuation system mapping diaries: empowerment of poorest billion women, supercity design, tech often grounded in deepest community goals; human energy, health, livelihood ed, safe & affordable family life integrating transformation to mother earth's clean energy and Einstein's 1905 deep data transformations. All of above exponentially multiply ops and risks as intelligence engineering now plays with 10**18 more tech than when dad's first named article in The Economist Considered Japan 1962 - with all of JFKennedy, Prince Charles & Japan Emperor joining in just as silicon chips, computation machines and satellites changed every way we choose to learn or teach or serve or celebrate each other
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EconomistJapan.com: Help map Neumann's Japan's gifts to humanity since 1945, all Asia Rising 1960+ AND invest in hi-trust millennials' brains now!Friends and Family
Future History


Journalism of 10**18 More Tech. Norman Macrae became Economist diarist of Neumann (Einstein Turing) in 1951. All three of the NET died suddenly (last notes Neumann - Computer & Brain , Bethesda 1956) but not before training economic jounalists of Neural Network maths and coding aim to map win-wins of their legacy of 10**18 more tech by 2025, JF Kennedy and Royal families of UK and Japan were first to debate what this might look like from 1962 - in 2025 the most exciting AI & BioI (learning) games millennials can play are rooted to exponential mappingAI Game 1 douible loops through 3 AI wizards, nations' AI leaders
Jensen Huang
Demis Hassabis
Yann Lecun.
Bloomberg
45 Cities- Civil Eng Road of Things
SAIS 70 nations youth ambassadors of win-win science
Deep learning billion year leaps in Einstein 1905 maths e=mcsquared starting with biotech's 250 million proteins.
Emperor Naruhito
King Charles
Narendra Modi.

Saturday, June 10, 2023

arguably 1958 saw the first huge leap across pacific hi-tech coorodors ie us west coast and japan-siuth

What would you say was first hi-tech expoential imact leap for region between santa clara and stanford - intel programmable chip 1965 or something earlier?

The first major high-tech exponential impact leap for the region between Santa Clara and Stanford was the invention of the integrated circuit (IC) at Shockley Semiconductor Laboratory in 1958. The IC was a revolutionary invention that allowed for the miniaturization of electronic circuits, which led to the development of new technologies such as personal computers, smartphones, and the internet.

The IC was invented by a team of engineers led by Robert Noyce and Jack Kilby. Noyce and Kilby were both working at Shockley Semiconductor Laboratory at the time, and they were both frustrated with the limitations of the transistor, which was the state-of-the-art electronic component at the time. The transistor was a bulky and expensive component, and it was difficult to manufacture.

Noyce and Kilby realized that they could miniaturize the transistor by integrating all of its components onto a single silicon chip. This would make the transistor smaller, cheaper, and easier to manufacture. Noyce and Kilby filed for patents on their invention in 1959, and they were both awarded patents in 1962.

The invention of the IC had a profound impact on the technology industry. It led to the development of new technologies such as personal computers, smartphones, and the internet. The IC also led to the growth of the technology industry in the region between Santa Clara and Stanford. This region is now known as Silicon Valley, and it is home to some of the world's leading technology companies, such as Intel, Apple, and Google.

Here are some other major high-tech exponential impact leaps for the region between Santa Clara and Stanford:

  • The development of the microprocessor in 1971 by Intel.
  • The development of the personal computer in the early 1970s by Apple, Microsoft, and other companies.
  • The development of the internet in the 1980s.
  • The development of the smartphone in the 2000s.

These are just a few of the many major high-tech exponential impact leaps that have taken place in the region between Santa Clara and Stanford. This region is now a global leader in technology, and it is home to some of the world's most innovative companies.

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The advances in semiconductor transistor technology around Shockley and the advances in miniaturization in Japan were both important factors in the development of the programmable chip.

Shockley Semiconductor Laboratory was founded in 1956 by William Shockley, one of the inventors of the transistor. The lab was a hotbed of innovation, and it was home to many of the early pioneers of semiconductor technology.

In 1958, Shockley Semiconductor Laboratory developed the first integrated circuit (IC). The IC was a revolutionary invention that allowed for the miniaturization of electronic circuits. This made it possible to create smaller, cheaper, and more powerful electronic devices.

The IC was quickly adopted by the Japanese electronics industry. In the early 1960s, Japanese companies began to produce ICs at a much lower cost than American companies. This gave Japanese companies a competitive advantage in the global electronics market.

In 1964, Busicom, a Japanese calculator company, placed a large order for ICs with Intel. This order was a major turning point for Intel. It forced Intel to develop new IC manufacturing technologies, and it led to the development of the first programmable chip.

The programmable chip was a major breakthrough. It allowed for the creation of new types of electronic devices, such as personal computers and digital cameras. The programmable chip also helped to fuel the growth of the personal computer industry in the 1970s and 1980s.

The advances in semiconductor transistor technology and the advances in miniaturization in Japan were both important factors in the development of the programmable chip. These two areas of innovation were mutually reinforcing, and they helped to create the foundation for the modern technology industry.

Here are some additional details about the two areas of innovation:

  • Advances in semiconductor transistor technology: The advances in semiconductor transistor technology were driven by a number of factors, including the development of new materials, new manufacturing techniques, and new design concepts. These advances led to the development of smaller, faster, and more powerful transistors.
  • Advances in miniaturization in Japan: The advances in miniaturization in Japan were driven by a number of factors, including the availability of cheap labor, the government's support for the electronics industry, and the Japanese culture of innovation. These advances led to the development of smaller, cheaper, and more reliable electronic devices.

The two areas of innovation were mutually reinforcing. The advances in semiconductor transistor technology made it possible to miniaturize electronic devices, and the advances in miniaturization in Japan made it possible to produce semiconductor transistors at a lower cost. This combination of factors led to the development of the programmable chip, which was a major breakthrough that helped to fuel the growth of the modern technology industry.