From the 3DR blog:
On Tuesday, 3D Robotics announced that we’ve partnered with Intel in the development of Edison, a new microcomputer that basically gives you PC power in postage stamp size. We’ve worked closely and for a long time with Intel on this project because the combination of Edison’s incredible power and affordability will lead to truly revolutionary advancements for our company, and for the Internet of Things in general.
- The Intel Edison module uses a 22-nm Intel® Atom™ SoC, formerly Silvermont that includes a dual core, dual threaded CPU at 500 MHz and a 32-bit Intel® Quark™ processor MCU at 100 MHz. It supports 40 GPIOs and includes: 1 GB LPDDR3, 4 GB EMMC, and dual-band WiFi and Bluetooth® Low Energy on a module the size of a postage stamp.
- The Intel Edison module will initially support development with Arduino* and C/C++, followed by Node.JS, Python, RTOS, and Visual Programming support in the near future.
- The Intel Edison module includes a device-to-device and device-to-cloud connectivity framework to enable cross-device communication and a cloud-based, multi-tenant, time-series analytics service.
The Edison board has the kind of processing that at one time you could only find in a personal computer. This means that when we integrate Edison into our next-generation autopilot, we’ll be able to make incredible leaps forward in on-board image processing, sense and avoid, new classes of sensors, and artificial intelligence, with many more eggs yet to be discovered and cracked open. The technology is now here. The challenge now is to start doing important and interesting things with it.
For instance, for the big announcement on Tuesday we ran a demo of IRIS+ using an “optical” version of our 3PV™ Follow Me technology, with Edison as a companion computer to our Pixhawk autopilot. That sounds way too technical. But what that really means is that with the extra computing power from Edison, 3PV™ can now track people and objects with vision instead of relying on a GPS signal, so you won’t need to carry another device on you anymore—you can just go and the drone will visually recognize where you are and keep the camera on you.
3DR CEO Chris Anderson called the partnership, “A rich collaboration between Intel’s engineers and ours to integrate the Edison into our platform and add image processing power.” For Chris, Edison unlocks what you might call “the long tail of drones.” In other words, drones won’t come in a handful of sizes and models with a handful of universal capabilities, as they do today. Instead, drones will be customized and adapted, changed and invented and reinvented to meet an untold number of needs and solve an untold number of problems, most of which we aren’t even aware of today. That’s the long tail. With additional computing power from Edison, 3DR will build drones that can do more things for more people in more industries, and eventually drones that can be infinitely tailored to meet the many unique needs of the real world that are out there now, waiting for their applications to come along.
Comments
Hi Kevin,
Thanks! Thanks to Arthur too!
Hi John, yes - the code is open source, it is here: https://github.com/diydrones/visual-followme (written 99% by Arthur)
Soon I'll do a post on dev.ardupilot.com with instructions on how to build/run etc...
Is the existing code developped so far (assuming it's open source and based on open source) available anywhere?
Oooh Yeaaah, I'm going to have a nerdgaasssmm
this is fascinating news, really looking forward to getting my hands on this technology
Overall the Edison looks like a nice deal. The x86 means easy development and it has lots of connectivity built in. But it is not a powerhouse. Having a under-clocked Atom, there clearly are more powerful solutions available if you are into heavy visual computing tasks etc. But I think their goal was "good enough" for most tasks in a small package, and they have succeeded at that.
My only real problem with this chip is the 1.8v I/O. Considering this is marked towards the DIY segment, this is problematic. You will need a lot of extra electronics just to talk to your normal 3.3 and 5v peripherals. And I predict a lot of fried Edison chips in the near future..
Nice step forward. Interested to see where this goes.
i don't know what i can do with a x86 could not run with windows. gcc without hassle to port any code? but how much stress i could through to it. price too high, no learning passion for the platform. Galileo was a failure i think.
More info on this chip (i.e. Intel Edison) here.
http://hackaday.com/2014/09/10/hands-on-with-the-intel-edison/
From the link,
" Closing thoughts
This isn’t a Raspi killer, a Beaglebone killer, a TI CC3200 killer, or an ESP8266 killer. It’s an x86 board, with WiFi, Bluetooth and Linux that can toggle a few pins"