A Tshwane computer engineer has tracked down one of the great treasures of the computer age – the first space flight guidance computer. ARTHUR GOLDSTUCK tells the story.
It’s not often that a YouTube video on a technical topic gives one goosebumps. And it’s not often that someone unpacking a computer makes history.
Francois Rautenbach, a computer hardware and software engineer from Tshwane, achieves both with a series of videos he has quietly posted on YouTube.
It shows the “unboxing” of a batch of computer modules that had been found in a pile of scrap metal 40 years ago and kept in storage ever since. Painstaking gathering of a wide range of evidence, from documents to archived films, had convinced Rautenbach he had tracked down the very first Guidance and Navigation Control computer, used on a test flight of the Saturn 1B rocket and the Apollo Command and Service Modules.
Apollo-Saturn 202, or Flight AS-202, as it was officially called, was the first to use an onboard computer – the same model that would eventually take Apollo 11 to the moon. Rautenbach argues that the computer on AS-202 was also the world’s first microcomputer. That title has been claimed for several computers made in later years, from the Datapoint 2200 built by CTC in 1970 to the Altair 8800 designed in 1974. The AS-202 flight computer goes back to the middle of the previous decade.
His video succinctly introduces the story: “On 25th August 1966, a very special computer was launched into space onboard Apollo flight AS-202. This was the first computer to use integrated circuits and the first release of the computer that took the astronauts to the moon. Until recently, the software for the Block 1 ACG (Apollo Guidance Computer) was thought to be lost…”
One can be forgiven for being sceptical, then, when he appears on screen for the first time to say, “I’ve got here with me the software for the first microcomputer.”
Then he unwraps the first package and says: “Guys, these modules contain the software for the first microcomputer that was ever built, that was ever used.”
The goosebumps moment comes when he reveals the NASA serial number on a device called a Rope Memory Module, and declares: “These modules are the authentic flight AS-202 software modules. These were found on a rubbish dump, on a scrap metal heap, about 40 years ago … and we are going to extract the software from this module.”
In a series of three videos, he extracts the software, shows how the computer was constructed, and uses a hospital X-Ray machine to inspect its insides. The third video starts with the kind of phrase that often sets off the hoax-detectors in social media: “Okay, so you guys won’t believe what I’ve been doing today.” But, in this case, it is almost unbelievable as Rautenbach takes the viewer through a physical inspection of the first Apollo guidance computer.
How did an engineer from Tshwane stumble upon one of the great treasures of the computer age? He has tended to avoid the limelight, and describes himself as “a hardware/software engineer who loves working on high-velocity projects and leading small teams of motivated individuals”.
In an interview this week, he added: “I am the perpetual hacker always looking for a new challenge or problem to solve. I have experience in designing digital hardware and writing everything from embedded firmware to high level security systems. Much of the work I did over the last five years revolved around building new and creative payment solutions.”
The breadth of his work gave him the expertise to investigate, verify, and extract the magic contained in the AS-202 computer. A global network of contacts led him to the forgotten hardware, and that is when the quest began in earnest.
“I got interested in the Apollo Guidance Computer after reading a book by Frank O’Brien (The Apollo Guidance Computer: Architecture and Operation). Most of us grew up with the fallacy that the AGC was less powerful than a basic programmable calculator. I discovered that this was far from the truth and that the AGC was in fact a very powerful and capable computer.
“I started communicating with experts in the field and soon realised that there was a wealth of information available on the AGC and the Apollo space program in general.
“One day I received some photos of AGC Rope Memory modules from a friend in Houston marked ‘Flight 202’. After a little googling, I realised that these modules contained the software from Flight AS-202. As I learned more about AS-202, I discovered that this was the first time the AGC was used in an actual flight.”
Rautenbach eventually tracked down the source of the photos: a man who had picked up the entire computer, with memory modules, at an auction, as part of a three-ton lot of scrap metal.
“At one point he opened up to me and said he had other modules. He admitted he had a full Apollo guidance computer, and my theory was that it was used to develop the Apollo 11 guidance computer. He sent me more information, and I thought he had THE computer.
“He’s got all this junk in his backyard. He started selling stuff on eBay and one day got a visit from the FBI wanting to know where he got it. He was able to find the original invoice and showed it to them and they went away. But it scared him and he didn’t want to tell anyone else in the USA what he had. Not being from America was an advantage.”
Rautenbach flew to Houston last year, opened the sealed packages and filmed the process.
“This was the first microcomputer. I opened it and played with it. I realised this was the first computer that actually flew. I also found Rope Memory modules that said Flight 202, and he didn’t know what that was. I found it was from AS-202, and I said we can extract stuff from this.”
Rautenbach paid a deposit to borrow the units and have them sent to South Africa, so that he could extract and rebuild the software. He also made contact with Eldon Hall, leader of the team that developed the Apollo guidance computer and author of the 1966 book, Journey to the Moon: The History of the Apollo Guidance Computer.
The correspondence helped him verify the nature of the “scrap”. The Apollo command module from flight AS-202 was restored and is now on permanent display on the USS Hornet, the legendary aircraft carrier used to recover many Apollo command modules and now a museum. However, the computer parts were sold as scrap in 1976. And NASA never preserved a single copy of the software that had been used on its first guidance computer.
Fortunately, a sharp-eyed speculator realised the lot may contain something special. He sold off some of the scrap over the years, until that visit by the FBI. He still prefers to remain nameless.
Last week, on the 50th anniversary of the launch of AS-202, Rautenbach quietly began posting the evidence online. He also announced that the raw data he had extracted would shortly be made available to anyone who wished to analyse it.
His videos on the unboxing of the AS-202 computer and the extraction of the software can be viewed on YouTube at http://bit.ly/as202, where he also plans to post instructions for accessing the software.
- Arthur Goldstuck is founder of World Wide Worx and editor-in-chief of Gadget.co.za. Follow him on Twitter and Instagram on @art2gee
Nasa’s description of flight AS-202 can be found at: http://nssdc.gsfc.nasa.gov/nmc/spacecraftDisplay.do?id=APST202
Technical specifications of the Apollo Guidance Computer can be found at: https://en.wikipedia.org/wiki/Apollo_Guidance_Computer
Apollo comes back to Pretoria
Francois Rautenbach points out that South Africa played a prominent role during the 93 minutes of flight AS-202: “Pretoria is mentioned no less than three times in the post-flight report. The AS-202 flight actually reached it’s highest point above South Africa. The telemetry data from the flight were recorded on computer tape at Hartebeesthoek and later shipped back to NASA.”
Get your passwords in shape
New Year’s resolutions should extend to getting password protection sorted out, writes Carey van Vlaanderen, CEO at ESET Southern Africa.
Many of us have entered the new year with a boat load of New Year’s resolutions. Doing more exercise, fixing unhealthy eating habits and saving more money are all highly respectable goals, but could it be that they don’t go far enough in an era with countless apps and sites that scream for letting them help you reach your personal goals.
Now, you may want to add a few weightier and yet effortless habits on top of those well-worn choices. Here are a handful of tips for ‘exercises’ that will go good for your cyber-fitness.
I won’t pass up on stubborn passwords
Passwords have a bad rap, and deservedly so: they suffer from weaknesses, both in terms of security and convenience, that make them a less-than-ideal method of authentication. However, much of what the internet offers is independent on your singing up for this or that online service, and the available form of authentication almost universally happens to the username/password combination.
As the keys that open online accounts (not to speak of many devices), passwords are often rightly thought of as the first – alas, often only – line of defence that protects your virtual and real assets from intruders. However, passwords don’t offer much in the way of protection unless, in the first place, they’re strong and unique to each device and account.
But what constitutes a strong password? A passphrase! Done right, typical passphrases are generally both more secure and more user-friendly than typical passwords. The longer the passphrase and the more words it packs the better, with seven words providing for a solid start. With each extra character (not to mention words), the number of possible combinations rises exponentially, which makes simple brute-force password-cracking attacks far less likely to succeed, if not well-nigh impossible (assuming, of course, that the service in question does not impose limitations on password input length – something that is, sadly, far too common).
Click here to read about making secure passwords by not using dictionary words, using two-factor authentication, and how biometrics are coming to
Code Week prepares 2.3m young Africans for future
By SUNIL GENESS, Director Government Relations & CSR, Global Digital Government, at SAP Africa.
On January 6th, 2019, news broke of South African President Cyril Ramaphosa’s plans to announce a new approach to education in his second State of the Nation address, including:
- A universal roll-out of tablets for all pupils in the country’s 23 700 primary and secondary schools
- Computer coding and robotics classes for the foundation-phase pupils from grade 1-3 and the
- Digitisation of the entire curriculum, , including textbooks, workbooks and all teacher support material.
With this, the President has shown South Africa’s response to a global challenge: equipping our youth with the skills they’ll need to survive and thrive in the 21st century digital economy.
Africa’s working-age population will increase to 600 million in 2030 from a base of 370 million in 2010.
In South Africa, unemployment stands at 26.7 percent, but is much more pronounced among youths: 52.2 percent of the country’s 15-24-year-olds are looking for work.
As an organisation deeply invested in South Africa and its future, SAP has developed and implemented a range of initiatives aimed at fostering digital skills development among the country’s youth, including:
AFRICA CODE WEEK
Since its launch in 2015, Africa Code Week has introduced more than 4 million African youth to basic coding.
In 2018, more than 2.3 million youth across 37 countries took part in Africa Code Week.
The digital skills development initiative’s focus on building local capacity for sustainable learning resulted in close to 23 000 teachers being trained in the run-up to the October 2018 events.
Vital to the success of Africa Code Week is the close support it receives from a broad spectrum of public and private sector institutions, including UNESCO YouthMobile, Google, the German Federal Ministry for Economic Cooperation and Development (BMZ), the Cape Town Science Centre, the Camden Education Trust, 28 African governments, over 130 implementing partners and 120 ambassadors across the continent.
SAP’s efforts to drive digital skills development on the African continent forms part of a broader organisational commitment to the UN Sustainable Development Goals, specifically Goal 4 (“Ensure quality and inclusive education for all”)
A core component of Africa Code Week is to encourage female participation in STEM-related skills development activities: in 2018, more than 46% of all Africa Code Week participants were female.
According to Africa Code Week Global Coordinator Sunil Geness, female representation in STEM-related fields among African businesses currently stands at 30%, “requiring powerful public-private partnerships to start turning the tide and creating more equitable opportunities for African youth to contribute to the continent’s economic development and success”.
Click here to read more about the Skills for Africa graduate training programme, and about the LEGO League.