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# [TECH] Digital Computing

**Digital Computing** encompasses the programmable electronic computers that emerged in the 1940s–1950s, from ENIAC (1945) to the IBM System/360 (1964), establishing the von Neumann architecture that defines computers today.

## Overview

Alan Turing formalised the concept of universal computation (1936). Colossus (1943, Bletchley Park) and ENIAC (1945, University of Pennsylvania) were the first electronic computers (vacuum tube-based). John von Neumann's stored-program architecture (1945) became universal. The IBM System/360 (1964) introduced the concept of compatible computer families. Computers revolutionised science (Monte Carlo simulations, weather forecasting, finite element analysis), engineering design, and ultimately all of commerce and communications.

## Key Actors

- **Companies**: IBM (1911), Remington Rand/UNIVAC (1955), Digital Equipment Corp. (1957), Control Data (1957)
- **Inventors**: Alan Turing (1912–1954), John von Neumann (1903–1957), John Eckert (1919–1995), John Mauchly (1907–1980)

## Key Patents

- Eckert, J.P. & Mauchly, J. US Patent 3,120,606 (1964) — electronic digital computer (ENIAC, filed 1947, later invalidated)

## Economic Value

Global IT industry (hardware + software + services): **\$5.2 trillion/year** (2023, Gartner). Digital transformation enables \$16T+/year in business value (McKinsey Global Institute 2023).

## Notes

Gartner *IT Spending Forecast* 2023. McKinsey *The Economic Value of Digital Transformation* 2023.

## What This Enables
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- **[SCI] Turbulence Theory** — Numerical simulation of Navier–Stokes on digital computers opened direct numerical simulation (DNS) of turbulence.
- **[SCI] Nonlinear Dynamics & Chaos Theory** — Lorenz discovered chaos in 1963 by running a 12-equation weather model on a Royal McBee LGP-30 computer.
- **[SCI] Machine Learning Theory** — All ML algorithms — perceptrons, SVMs, neural networks — require digital computers to train and evaluate.
- **[SCI] Genomics & Computational Biology** — Genome sequencing, assembly, and bioinformatics are computationally intensive tasks impossible without digital computers.
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# Parents

* [TECH] Vacuum Tube Electronics
* [TECH] Electric Power Grid
* [TECH] Vacuum Tube Electronics
* [SCI] Information Theory
* [TECH] Radar
* [TECH] Transistor