| ..2025report: Today, human relationships (trust and emotions) are being gravitated throough every communiy on earth by 3 engineering/artifical million fold multipers that's 10*18 more tech for kids, parensts and grand parents to transform human race around than 60 years ago: *computation (ask a 1960s school kid or teachger how long and hard work artithemtic was with big numbers ) *communications - both stories we tell each other & life timely intel (eg tsunami is coming) & banking data to map local & global brain power - every person today has 1)real life, 2 digital life, 3 soon ai agented life (potentially greatest education boost or reverse) *silicon- weirdly what first millionfold change wave : Moores Law 1965-95, applying materials mainly silicon to designer smaller and smaller compoenents - what in 1960 inovled a building of computers is now the mobile phone in your pocket but it actually integratyed hundreds of supply chain inventions. It was Pacific ocean people's love of micro-design (Japan-Korea-Taiwan twinned with Siliocon Valley) that grounded tech spaces; materially their design of supercity (20 million peoples productivity) needed most compact lifestyles electronics goods could accelerate as well as early robot advances ; at their best Asian supply chains hace have win-win trade entrepreneurially boderless. Biotech 2025-35 will accelerate this further as greatest innovation context ever. The 3rd quarter of 20th C progress of Asia Rising by delivering improved customer benefits with every jump in Moore's law was featired Xmas 1976 issue of the Economist - Entrepreneurial Revolution www.economistdiary.com/1976  | .Today we connect 10**18 (millionmillliomilillion) more tech to communicate influence celebrate how every person learns and lives. The innovation opportunities and risks to our brains' joy and productivity are traingularised by deep and as yet unverified data which is multiplying exponentially strtetch our imagination faster than is humanly normal need machines to mediate real time decision making wherever data is too much for human brains alone to adminsister What this means is we need to democratise coding beyond 0,1 maths. Examples From 2002 steve jobs (then owner of pixar) and jensen haung started coding pixels; immediate use rendering games and films but then radiologists joines in, soon all medics needing pattern maps to operate or dicosver dna, rna, proteins, illness prevention, stopping infections, as well as drug manufacturers were joining in this inteligence game But question was what needs to be coded before we can trus robots (both to move around in public and to make real time decisions); in 2009 jensen hiang family started up deepp learning lab- reserachers told huang if you accelerated chips brain power we'll train machines to understand and practice all 5 human senses- do you know exactly who was at early silicon valley deisgned global coding competitions from 2009 In summer 2025. my brain is wowed by these intels - but I dont know whom I have missed as i only speak english and maths RSVP chris.macrae@yahoo.co.uk - currently interned in Washington DC Region. Countgry codes include T Taiwan, S Singapore, F France, Le Lebanon as well as variety of English language models ranging from Kings English and Trump's American
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Today every human's Icubed intelligence can multiply positively & exponentially,
stretching our imagination faster than is humanly normal; best to team than to examine self on everything,
need to unite machines to mediate real time decision making wherever data is deeply too much (eg how to prevent cancer all over the world) or transacting info 24/7 that's too much for human brains alone to adminsister.
TO MAKE COMMON SENSE OF TODAYS EXCITING OPPORTUNITIES
ask where and whom did these unprecdented tech waves come from and was their purpose openly trustworthily or in some way closed to fewer and fewer people powrering over us.
Before steve jobs and others put chips into personal computing networks mid 1980s on - do you know who designed first 1000fold silicon chip apps 1965-1980
or whast happened during two much slower artificial revolutions known s the indutrial revolution part 2 1865-1960 or part 1 1760-1865 ; what many call the era of industrial revolution was pretty slow: engineering or artificial system design involved two century long waves before the 1960s.
First out of Glasgow 1760s came the engineering of physical power, automation, transporation, city factories replacing rural as the only produce to market. Scots had become a somewhat unwilling colony of London so infliuencers like Adam Smith diarise. IN reality Adam had these strage ideas which he asked engineers to valkue: Don't design machines which conflict with nature's systems Be bold in quizzing trust-logics of professors hired by City of London at places like Oxford Open source your innovation on a new contiennt scale - ei USA dont let it solely be applied by slave trading Empires like London's Adam came to these views because in 1760s's scxotalnd life expectancy was under 40; best brains were home schooled by family clans, sent to Glasgow college age 11-15 to gradiate, sent to eg oxford to doctorate 15-19. At oxford Adam found professors designing silos refencing each others hierarchies and primarily sponsored by London's Money narons. So that's why he returned toGlasgow tio be appoined professor of moral system trade mapping- his diaries begin in 1758 as book moral sentiments, end in 1776 with book adgnatanges of nations. In between he mentired several bright brains some of whom interned in France which was planting the entrepreneurial revolution of cutting off the heads of those monoplising the people's land and assets. Iro0nically 1776 saw the oppoiste of Adam's hopes. Instead of USA inviting scotland to be the next state of American, independence of America from Britain was announed. This had 2 big impacts that its not polite to talk about. British empire doubled down in enslaving asian caostlines until in 1843 queen victoriua asked eiitors of royal society newsleteres led by the economist to map commonwealth trading. America became the continent of immigrants - most of whom disliked their countru of origin but who brought enginering updates with them | If you think 1760s to 1860s was a chaotic century, 1860s-1960s may blow your mind. From 1865 old engineering was multlied by new engineers of telecommunicatiosn and electricity. Their centre of gravity was GASHR_F - that's Germany Austria Switzerland Hungary Russia France. Switserland was nominated as neutral open source standard setter beceuas eguess what neither communications nor eleectricity scake unlsess youi connect people with one openly improvinhg standard. The histiry of what hapened in the old world and the new world from 1865 to 1945 has many differences interrupted by the 2 world ars which were rooted in unequal application of the engineering techs of comps and and electric energy (whose scaling up to 1945 required miinerals of carbon and iron). |
If understanding Adam Smith diaries mattered to diaspora scots during the first century of engineering, then understanding of the NET's diaris Neumann-Einstein-Turing is integral to mappig how 1860-1950 started up our era of 10**18 more tech.
Roughly these 3 men were a generation apart, but vecauise they all died within 2 yeras of ecah other in thye mid 1950s, its hard to trace who was an alumni of whom in spite of the need to unite their intelligences before rishing into age they had planted of 10**18 more tech
Known dates are
1905 Einstein published e=mcsuared - this tells us that all of nature's pjysicla chemican and bilogocal energy does not deeply compute the way man's science had hoiterto assumed. Newton maths was a fair approximation but for example if you anted to leverage photosynthesis or nuclear energy you needed to map much more local and deep data. Discussions arund einstein did not scale before world war 1 distracted everyones attention. At the end of world war 1 Einstein triued to mediate International Intellectual Coopertaion daologues out of switzerland - thats' along side the electricity and telecoms standards at the new reconsicilation space Geneva's league of nations. Probably more impoactfully Vo neumann started solving 20 of the deepst maths problems whoich einsytein alumni were cataloguing. Tow crises emerged. The nuckear arms race took over atention from all other Einstein apps. Hiter's Germany was not the safe space for Jewish matjhematicians causeing Neumann to emigrate to Princetion 1930 folowe by Einstein 1932. By this time Einstein mental health (he blamed himself for early publication of nuclear) was too distracted to do more great maths though his philosophical dialogues with eg Gandhi and neurscientist Freund are mind-opening. So it was that as well as the nuclear race, von neumann became the main puzzle solver of every transforamtive maths engineers needed until 1938. Then for a year a student Alan Turing pkanted an idea in Neumann's head. From then on his dairies start talking about coding and ocmpiting as the maths he must devote his life to s soon as nucreal race is won. Princeton maddeningly separates its main brains miles out oif twon from the studnt campus. So Turing didnt stay and the correpondence between turing and neumann and so algoirithms they loved like neural networks failed to unite academics anywhere until a decade after the death of the NET. It may surprsie you to know that tyhe pacific ocean people of Japan and Silicon Valley with a little helpo from 2 Kings and JF Kennedy became pivotal to most of the best tristed applications of 10**18 more tech. At least diaries of JFK and the Royal Families iof Japan and Uk become essential to anywhere that wants its millennials brains to tgranfirm education and health nd effcetively advance the goalkks the multilateral have been chatting about since 2000 but which neiter western education nor western helath services have vanued computaionally or mediwaise.
I mention this because if you want to celebrate the best of intelligence dicsovery toiday look at jensen hunag and alumni, demis hassabis and alumni, Yann Lecun and alumni. Thier nhetwirks will give young minds polenty of maps for integrting health and liveli=hood elarning through every last mile. Once you can see the sorts of discoveries needed how to design energy and other natural resources to multip-ly intergeneratyional trust is a game worth playing/
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