In the end, it took just more than 10 months for Felix Baumgartner’s skydiving record from 39km to be broken.
With considerably less publicity, a small cuddly toy named Babbage fell from a height slightly above the Austrian’s achievement after ascending to the stratosphere in a hydrogen-filled balloon.
The elaborate skydive to a field in Berkshire was accomplished using credit card-sized Raspberry Pi computers which released the toy from the balloon when it reached 31m above Baumgartner’s record and filmed the descent.
It is just one of a multitude of unique projects the bare-boned machine has been used for.
Launched in February 2012, more than 2 million of the computers — which cost about ￡30 (US$50) — have now been sold around the world, a prodigious landmark considering the group of scientists behind it thought they might sell 1,000 at most.
“If you told me I was going to sell 10,000 I would have called bullshit on that,” said Eben Upton, co-founder of the Raspberry Pi and the public face of the mini-computer.
The idea came in 2006 after Upton and some colleagues in the computer laboratory at Cambridge University shared concerns over their Friday beers at the decline in the number and skills of students applying for computer science classes.
Now 35, Upton’s digital education began with a BBC Micro home computer, learning programming languages via books and being encouraged by enthusiastic teachers.
He then went on to study physics at Cambridge after a year at IBM in a pre-university program, where he became adept at experimenting with and reprogramming computers.
When he became director of studies in computer science in Cambridge in 2004, Upton found A-level graduates no longer had his hobbyist experience when coming to university.
PCs and games consoles had replaced the easily programmable machines of his youth, while schoolchildren were being taught to use word processors and spreadsheets instead of the code that created them.
“I swear they are still as bright as they ever were. The creme de la creme are still as bright, but the problem is that they have not had the experience [of reprogramming computers],” he said.
“I want us to have a functioning first-world economy when I am old to pay my state pension and we are not going to have one unless we have engineers. It was more just this sense of sadness because we have this culture, particularly in the UK ... we have this engineering culture and we had this amazing thing and then it just went away,” he said.
Talking over chess on their Friday afternoon “happy hours” in the lab, Upton and his colleagues decided to develop an affordable computer on which children could learn to program.
The group soon expanded to include local businesspeople and by 2011 — after various different incarnations of the Pi — they came up with a computer deemed worthy of putting into production using hardware from Broadcom, the semiconductor giant where Upton is a chip architect.
A short video shown on YouTube detailing how they planned to sell the computer for US$25 garnered 600,000 views, and in turn an urgency to produce the machine, which he described as “horrific.”
On February 2012, orders were taken from the public and in March, the first major delivery of 1,950 Raspberry Pi computers arrived from China.
“I got one out and plugged it into a telly and it worked, and I got another out of a different box and that one worked as well. I turned to one of the trustees and said: ‘We’ve made a computer company.’ We were just grinning from ear to ear,” Upton said.