Why the obsession with “coding” misses the point

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My relatively mild column about the Year of Code fiasco has generated a fair amount of comment, and a good many emails, including some from friends who think I was too willing to give the YoC crowd the benefit of the doubt, and citing Andrew Orlowski’s characteristically caustic take on the matter.

Leaving aside the motives of those involved in the ‘initiative’, a bigger concern (for me at any rate) is that the obsession with “coding” has two significant downsides:

  • it misses the point of the new school curriculum (or which more in a minute); and,
  • it risks alienating the audience that the initiative urgently needs to convince — schoolteachers who are not techies and are probably very nervous about what lies ahead for them as they come to terms with the new computing curriculum.

In her disastrous Newsnight interview, Lottie Dexter (and indeed her tormentor, Paxman) both seemed to think that the only motivations for the ‘coding’ initiative are utilitarian and economic: it was, they seemed to think, about kids being able to get jobs, start companies and thereby boost the prospects of UK Plc.

It’s nothing of the kind. This is first and foremost about citizenship. Today’s schoolchildren will inherit a world that is largely controlled by computers and software. The choice that faces them is “Program or Be Programmed”, as Douglas Rushkoff puts it in his book of the same title. If we don’t educate them about this stuff, then they will wind up as passive users of powerful black boxes that are designed and controlled by small elites, most of them located abroad.

Preparation for citizenship in this new world requires an understanding of how software works, how it is created and controlled, and how it can be changed. We don’t want them to grow up as technologically clueless as the parliamentarians who are supposed to oversee GCHQ; or indeed as Paxman, who at one stage fell back on the old trope about not having to understand electricity in order to replace a light bulb. (The obvious riposte — that light bulbs don’t decide whether you get a mortgage, monitor your private communications or count your vote – was obviously beyond poor Dexter.)

The other aspect of this is that, while learning to program is desirable, it’s not the most important part — which is about having a good critical understanding of the technology. And much though I love Raspberry Pi, teachers can achieve a lot of what I would like to achieve without ever touching a piece of hardware — as the wonderful Computer Science Unplugged project in New Zealand demonstrates.

Why Year of Code already needs a reboot

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This morning’s Observer column.

Last week, my email inbox began to fill up with angry emails. Had I seen the dreadful/unbelievable/disgraceful/hilarious/ (delete as appropriate) Newsnight interview with Lottie Dexter? I hadn’t and as I’d never heard of Ms Dexter I wasn’t unduly bothered. After all, life is too short to be watching Newsnight every night.

Still, the drumbeat of indignation in my inbox was insistent enough to make me Google her.

Finished that ebook yet? Hang on…

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This morning’s Observer column.

A few weeks ago I bought a copy of The Second Machine Age by two MIT researchers, Erik Brynjolfsson and Andrew McAfee, who are two of the most insightful commentators currently writing about the likely impact on employment of advanced robotics, machine learning and big-data analytics. Since I already own more physical books than my house and office can hold, I tend now to buy the Kindle version of texts that are relevant to my work, and so it was with the Brynjolfsson and McAfee volume.

Yesterday, I received a cheery email from Amazon. “Hello John Naughton,” it read. “An updated version of your past Kindle purchase of The Second Machine Age: Work, Progress, and Prosperity in a Time of Brilliant Technologies by Erik Brynjolfsson is now available. The updated version contains the following changes: Improved formatting for readability. Significant editorial changes have been made. You can receive the improved versions of all your books by opting in to receive book updates automatically.”

Note the phrase, “significant editorial changes have been made”…

Read on

Fracking: no such thing as a free lunch

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Fracking

This graph — which originally came from an article in Science but which I found in the latest edition of Jeremy Grantham’s fascinating investment newsletter — suggests that the assurances about the safety of fracking could conceivably be, er, wrong. Of course correlation isn’t causation etc. But still…

Startup myths and obsessions

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The UK government’s worship of SMEs (they are the industrial equivalent of “hardworking families” in Cameron’s lexicon) is comical to behold. Likewise the devout belief of tech entrepreneurs (especially in the US) that the only thing they need from government is to get out of their way. So it’s nice to come upon a blog post by Professor Mariana Mazzucato which punctures some of these fantasies.

Innovation-led “smart” growth has occurred mainly in countries with a big group of medium to large companies, and a small group of SMEs that is spun out from some of those large companies or from universities. These firms have benefited immensely from government funded research. Indeed, in my book I show how many firms in Silicon Valley have benefitted directly from early-stage funding by government, as well as the ability to build their products on top of government funded technologies. Every technology that makes the iPhone smart was government-funded (internet, GPS, touch-screen display, SIRI). Apple spends relatively little on R&D compared with other IT firms precisely because it uses existing technology. It applies its remarkable design skills to these technologies, effectively surfing on a government-funded wave. Apple, Compaq and Intel also all enjoyed the benefits of early-stage public funds (SBIC in the case of Apple, SBIR in the case of Compaq and Intel). As for America’s biotech boom (and the startups it has spawned), it was fuelled not by a random rise of genius and tinkering but by two fundamental factors: the 1980 Bayh-Dole act that allowed publicly funded research to be patented (which led to an exponential rise of spinouts based on such patents), and the massive funding of the underlying knowledge base. Between 1936 and 2011 the publicly funded National Institutes of Health spent $792 billion (in 2011 dollars), with last year’s budget alone totalling $30.9 billion. Small innovative firms benefit immensely from interacting with such an ecosystem. Left alone they get preyed upon by an increasingly short-termist financial system.

Her book is excellent, btw.