10 years of Raspberry Pi: The $25 computer has come a long way:
This little device has revolutionized computing since it came on the scene. We take a look back at its journey.
The UK in the 1980s was ground zero for the microcomputer revolution. Cheap computers based on 8-bit processors flooded the market, teaching a generation to program using built-in BASIC interpreters. Homes had devices like Sinclair's ZX81 and Spectrum, while schools used Acorn's BBC Micro.
These weren't like today's PCs. They were designed and built to be accessible, with IO ports that could be accessed directly from the built-in programming environments. Turn one on, and you were ready to start programming.
But then things changed: 16-bit machines were more expensive, and technical and marketing failures started to remove pioneers from the market. The final nail in the coffin was the IBM PC and its myriad clones, focused on the business market and designed to run, not build, applications.
It became harder to learn computing skills, with home computers slowly replaced by gaming consoles, smartphones and tablets. How could an inquisitive child learn to code or build their own hardware?
The answer first came from the Arduino, a small ARM-based developer board that served as a target for easy-to-learn programming languages. But it wasn't a computer; you couldn't hook it up to a keyboard and screen and use it.
Eben Upton, an engineer at microcontroller chip manufacturer Broadcom, was frustrated with the status quo. Looking at the current generation of ARM-based microcontrollers he realized it was possible to use a low-cost (and relatively low power) chip to build a single-board computer. Using a system-on-a-chip architecture, you could bundle CPU and GPU and memory on a single chip. Using the SOC's general purpose IO ports, you could build it into a device that was easily expandable, booting from a simple SD storage card.
Work on what was to become the Raspberry Pi began in 2006, with a team of volunteers working with simple ARM SOC.
Can anyone remember the first program that they actually wrote (rather than copied from a magazine or downloaded from a friend's cassette tape)? Mine simply moved an asterisk around the screen 'bouncing' off the edges, and was written in Z80 assembly language. That is all I had on my Nascom 1.
(Score: 2) by looorg on Monday March 14 2022, @02:02PM
It took a bit for compilers for BASIC to come about. But yes they had the added benefit of obfuscating and turning it into an executable in that regard. By doing so it also tended to speed it up somewhat since you didn't have to interpret every line in realtime. Still not as fast as hand coded machine code or assembly tho. But a lot faster then just normal interpreted BASIC. Borland Turbo Basic is very late 80's tho and I think most of us here talked about early 80's or even earlier then that so it doesn't really compare. All the Borland products looked the same as I recall it if it was C or PASCAL or whatnot, I don't think I ever saw Borland Turbo Basic.
Along with compilers tho you tend to also have decompilers. So it's not like you are safe in that regard or did you incorporate some devilish DRM within your EXE? If not that thing was quite open for edit with a simple hex editor or machine code monitor if you wanted to.