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But for many things, the speed of the Raspberry Pi is just fine. To be clear, the Raspberry Pi is perhaps 10 to 20 times slower at running the Wolfram Language than a typical current-model laptop (and sometimes even slower when it’s lacking architecture-specific internal libraries). And now it’s clear that finally that day has come: with the Raspberry Pi, we’ve passed the threshold for being able to run the Wolfram Language on an embedded computer anywhere. HOW TO USE WOLFRAM MATHEMATICA ON RASPBERRY PI CODEBut embedded computers were a different story-where one expected that only specially compiled simple code could run.īut I knew that one day what would become the Wolfram Language would be able to run in its complete form on an embedded computer. A decade later-even though it had grown a lot-it could run well on pretty much any newly sold personal computer. HOW TO USE WOLFRAM MATHEMATICA ON RASPBERRY PI MACBack in 1988 when Mathematica was first released, it could only just fit in a high-end Mac of the time, but not yet a PC. In effect immediately injecting high-level intelligence and capabilities. Because it means that going forward it’s going to be technically possible to embed the Wolfram Language in pretty much any new machine or system. And I think that it’s the beginning of something very important. I think it’s pretty amazing that we’re now at the point where all the knowledge and computation in the Wolfram Language can run in a $25 computer. Being able to take pure code, and connect it to sensors and devices that do things. Making use of all the powerful programming paradigms that are built into the Wolfram Language.Īnd with Raspberry Pi there’s something else too: immediately being able to interact with the outside world. And then being able to scale up larger and larger. Writing a tiny program, perhaps not even a line long, and already having something really interesting happen. It’s tremendously satisfying-and educational. ![]() We’ve got a language that’s not mostly concerned with the details of computers, but is instead about being able to understand and create things on the basis of huge amounts of built-in computational ability and knowledge. ![]() And I’m excited that with the Wolfram Language I think we finally have a powerful programming language worthy of the next generation. I’m a great believer in the importance of programming as a central component of education. But I’m excited that the timing has worked out so that we’re able to give the Raspberry Pi community-with its emphasis on education and invention-the very first chance to put the Wolfram Language into action. Quite soon the Wolfram Language is going to start showing up in lots of places, notably on the web and in the cloud. In effect, this is a technology preview: it’s an early, unfinished, glimpse of the Wolfram Language. HOW TO USE WOLFRAM MATHEMATICA ON RASPBERRY PI SOFTWAREToday I’m pleased to announce a step in that direction: working with the Raspberry Pi Foundation, effective immediately there’s a pilot release of the Wolfram Language-as well as Mathematica-that will soon be bundled as part of the standard system software for every Raspberry Pi computer. Last week I wrote about our large-scale plan to use new technology we’re building to inject sophisticated computation and knowledge into everything. ![]()
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