less_retarded_wiki/computer.md

Computer

The word computer can be defined in many ways and can also take many different meanings; a somewhat common definition may be this: computer is a machine that automatically performs mathematical computations. We can also see it as a machine for processing information or, very generally, as any tool that helps computation, in which case one's fingers or even a mathematical formula itself can be considered a computer. Here we are of course mostly concerned with electronic digital computers.

We can divide computers based on many attributes, e.g.:

• by continuous or discrete representation of data: digital vs analog
• by hardware technology: electronic ("lightning in sand"), mechanical, quantum, biological etc.
• by purpose: special purpose vs general purpose, personal, server, embedded, supercomputers, gaming computer etc.
• by programmability: non-programmable, partially or fully programmable
• by the theoretical model of computation it is based on: Turing machine, lambda calculus etc.
• by computational power: how difficult problems the computer is able to solve, i.e. where in the Chomsky hierarchy it stands (typically we want Turing complete computers)
• by other criteria: price, reliability, durability etc.

Computers are theoretically studied by computer science. The kind of computer we normally talk about consists of two main parts:

• hardware: physical parts
• software: programs executed by the hardware, made by programmers

The power of computers is limited, Alan Turing mathematically proved that there exist problems that can never be completely solved by any algorithm, i.e. there are problems a computer (including our brain) will never be able to solve (even if solution exists). This is related to the fact that the power of mathematics itself is limited in a similar way (see Godel's theorems). Turing also invented the theoretical model of a computer called the Turing machine. Besides the mentioned theoretical limitation, many solvable problems may take too long to compute, at least with computers we currently know (see computational complexity and P vs NP).

Typical Computer

Computers we normally talk about in daily conversations are electronic digital mostly personal computers such as desktops and laptops, possibly also cell phones, tablets etc.

Such a computer consists of some kind of case (chassis), internal hardware plus peripheral devices that serve for input and output -- these are for example a keyboard and mouse (input devices), a monitor (output device) or harddisk (input/output device). The internals of the computer normally include:

• motherboard: The main electronic circuit of the computer into which other components are plugged and which creates the network and interfaces that interconnect them (a chipset). It contains slots for expansion cards as well as connectors for external devices, e.g. USB. In a small memory on the board there is the most basic software (firmaware), such as BIOS, to e.g. enable installation of other software. The board also carries the clock generator for synchronization of all hardware, heat sensors etc.
• CPU (central processing unit): Core of the computer, the chip plugged into motherboard that performs general calculations and which runs programs, i.e. software.
• RAM/working memory/main memory: Lower capacity volatile (temporary, erased when powered off) working memory of the computer, plugged into motherboard. It is used as a "pen and paper" by the CPU when performing calculations.
• disk: Non-volatile (persisting when powered off) large capacity memory for storing files and other data, connected to the motherboard via some kind of bus. Different types of disks exist, most commonly hard disks and SSDs.
• expansion cards (GPU, sound card, network card, ...): Additional hardware cards plugged into motherboard for either enabling or accelerating specific functionality (e.g. GPU for graphics etc.).
• PSU (power supply unit): Converts the input electrical power from the plug to the electrical power needed by the computer.
• other things like fans for cooling, batteries in laptops etc.

Notable Computers

Here is a list of notable computers.

{ Some nice list of ancient computers is here: https://xnumber.com/xnumber/frame_malbum.htm. ~drummyfish }

name	year	specs (max, approx)	comment
brain	-500M	86+ billion neurons	biological computer, developed by nature
abacus	-2500		one of the simplest digital counting tools
Antikythera mechanism	-125	~30 gears, largest with 223 teeth	1st known analog comp., by Greeks (mechanical)
slide rule	1620		simple tool for multiplication and division
Shickard's calculating clock	1623	17 wheels	1st known calculator, could multiply, add and sub.
Arithmometer	1820	6 digit numebrs	1st commercial calculator (add, sub., mult.)
Difference Engine	1822	8 digit numbers, 24 axles, 96 wheels	mech. digital comp. of polynomials, by Babbage
Analytical Engine design	1837	~16K RAM, 40 digit numbers	1st general purpose comp, not realized, by Babbage
nomogram	1884		graphical/geometrical tools aiding computation
Z3	1941	176B RAM, CPU 10Hz 22bit 2600 relays	1st fully programmable electronic digital computer
ENIAC	1945	~85B RAM, ~5KHz CPU, 18000 vaccum tubes	1st general purpose computer
PDP 11	1970	4M RAM, CPU 1.25Mhz 16bit	legendary mini
Apple II	1977	64K RAM, 1MHz CPU 8bit	popular TV-attached home computer by Apple
Atari 800	1979	8K RAM, CPU 1.7MHz 8bit	popular TV-attached home computer by Atari
VIC 20	1980	32K RAM, 1MHz CPU 8bit, 20K ROM	successful TV-connected home computer by Commodore
IBM PC	1981	256K RAM, CPU 4.7MHz 16bit, BASIC, DOS	1st personal computer as we know it now, modular
Commodore 64	1982	64K RAM, 20K ROM, CPU 1MHz 8bit	very popular TV-connected home computer
ZX Spectrum	1982	128K RAM, CPU 3.5MHz 8bit	successful UK TV-connected home comp. by Sinclair
NES/Famicom	1983	2K RAM, 2K VRAM, CPU 1.7MHz 8bit, PPU	TV-connected Nintendo game console
Macintosh	1984	128K RAM, CPU 7MHz 32bit, floppy, 512x342	very popular personal computer by Apple
Amiga	1985	256K RAM, 256K ROM, CPU 7MHz 16bit, AmigaOS	personal compuer by Commodore, ahead of its time
SNES	1990	128K RAM, 64K VRAM, CPU 21MHz 16bit	game console, NES successor
PlayStation	1994	2M RAM, 1M VRAM, CPU 33MHz 32bit, CD-ROM	popular TV-connected game console by Sony
TI-80	1995	7K RAM, CPU 980KHz, 48x64 1bit screen	famous programmable graphing calculator
Deep Blue	1995	30 128MHz CPUs, ~11 GFLOPS	1st computer to defeat world chess champion
Nintendo 64	1996	8M RAM, CPU 93MHz 64bit, 64M ROM cartr.	famous TV-connected game console
GameBoy Color	1998	32K RAM, 16K VRAM, CPU 2MHz 8bit, 160x144	handheld gaming console by Ninetendo
GameBoy Advance	2001	~256K RAM, 96K VRAM, CPU 16MHz 32bit ARM, 240x160	successor to GBC
Xbox	2001	64M RAM, CPU 733MHz Pentium III	TV-connected game console by Micro$oft
Nintendo DS	2004	4M RAM, 256K ROM, CPU ARM 67MHz, touchscreen	famous handheld game console by Nintendo
iPhone (aka spyphone)	2007	128M RAM, CPU ARM 620MHz, GPU, cam., Wifi, 480x320	1st of the harmful Apple "smartphones"
ThinkPad X200	2008	8G RAM, CPU 2.6GHz, Wifi	legendary laptop, great constr., freedom friendly
ThinkPad T400	2008	8G RAM, CPU 2.8GHz, Wifi	legendary laptop, great constr., freedom friendly
Raspberry Pi 3	2016	1G RAM, CPU 1.4GHz ARM, Wifi	very popular tiny inexpensive SBC
Arduboy	2016	2.5K RAM, CPU 16MHz AVR 8bit, 1b display	tiny Arduino open console
Pokitto	2017	36K RAM, 256K ROM, CPU 72MHz ARM	indie educational open console
Raspberry Pi 4	2019	8G RAM, CPU 1.5GHz ARM, Wifi	tiny inexpensive SBC, usable as desktop
Deep Thought			fictional computer from Hitchhiker's Guide ...
HAL 9000			fictional AI computer (2001: A Space Oddysey)
PD computer			planned LRS computer
Turing machine			important theoretical computer by Alan Turing

TODO: mnt reform 2, pinephone, NeXT, 3DO, ti-89, quantum?, wii?