ATOMIC Pi Intel Atom x5 Board Goes for $34 and Up (Crowdfunding)

Following Raspberry Pi form factor, AAEON Up Board powered by an Intel Atom x5-Z8300 processor launched in 2015 for 89 Euros and up via a crowdfunding campaign. Since then, the company switched to Atom x5-Z8350, and now offers for the board for $99 US and up, with for example the 2GB RAM / 16GB flash version going for $109 excluding taxes and shipping.

I’m mentioning this board, as there’s now a crowdfunding campaign for a larger board with similar specifications (x5-Z8350, 2GB RAM, 16GB flash) called ATOMIC Pi, and being offered for just $34 plus shipping by “Team IoT”. This looks too good to be true, but that’s intriguing so let’s have  closer look.

ATOMIC PiATOMIC Pi specifications:

  • SoC – Intel Atom x5-Z8350 quad core processor @ up to 1.92GHz with Intel HD graphics
  • System Memory – 2GB DDR3L-1600
  • Storage – 16GB eMMC flash, slot for SD expansion up to 256GB
  • Video Output – HDMI port
  • Connectivity
    • Gigabit Ethernet via Realtek RTL8111G transceiver
    • Dual band 802.11b/g/n/ac WiFi 5 via RT5572 with IPX connectors on board
    • Bluetooth 4.0 via CSR8510
  • USB – USB 3.0 and USB 2.0 ports
  • Sensor – 9-axis inertial navigation sensor with compass (BNO055)
  • Expansion – JST style connectors and a 26-pin header for power & GPIO
  • Debugging – TTL serial debug and expansion serial ports up to 3.6Mbps
  • Misc – Real time clock & battery
  • Power Supply – 5V/4A recommended. 4-15 watts typ. power consumption
  • Dimensions – 130 x 100 x 50 mm

The board will come pre-loaded with Linux, but Windows 10 64-bit is also supported. The datasheet and a quick start guide will be available on AtomicPi.org which now redirects to Digital Loggers website… The short video below shows the ATOMIC Pi works, and runs Kubuntu.

If you pay close attention to the first photo, there’s no power barrel connector, so you’d need to need to wire the power connection yourself, unless you purchase the kit with the breakout shield – also used in the video – which adds screw terminals, a 12V header, and a prototyping area.

Atomic Pi Breakout BoardThe total cost for Atomic Pi board plus the breakout board is still only $49 plus shipping, which adds $11 to the United States for a total of $60. What if you live outside of the US? Sorry they won’t ship, so your only option would be to go with a US forwarder. What even more interesting is that AAEON, UP board maker, is one of their manufacturing partners along with Qualtech Circuits, and PC Way. Team IoT has managed three earlier KickStarter campaigns in the past, and they did ship to backers. Atomic Pi board appears to be ready, as shipping is scheduled for the end of January 2019.

Thanks to PuceBaboon for the tip.

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32 Replies to “ATOMIC Pi Intel Atom x5 Board Goes for $34 and Up (Crowdfunding)”

  1. It looks really inexpensive, but I suspect that once it starts to ship, they will cover costs in extra accessories (cables, power supplies, heat sink, etc) and/or shipping, at least due to the weight imposed by the large heat sink. The specs look pretty close to the up board and should make it a good general purpose board. Just like with the UP board, many users will miss SATA, without which they can’t make a home NAS, and an enclosure.

    It can very likely help drive some developers to SBCs. I still know some people who don’t want to try something different from x86 because they think it’s complicated. By keeping the x86 and trying an SBC which comes with the same principles as other SBCs (low price, having to flash your image, GPIO, no clean shutdown etc) some people might be convinced to make the jump and will then experience a lower difficulty trying other ARM- or MIPS-based boards.

    1. I really see the advantage of the x86 that everything, really everything, works out of the box. Many SBCs suffer from poor drivers. Take for instance a Rockchip RK3399 based board. Some come with dual MIPI camera slots, but then only one is supported by their own Linux distribution. So you’ll have to write your own driver.
      Also, there are not so many high performing SBCs out there today. The RK3399 falls, as far as I can see, behind its potential, maybe because of poor software support. The Atom Z8350 is a very slow Intel CPU, but probably already outperforms the RK3399 in many tasks.
      Faster ARM based alternatives are usually very expensive, like the Huawei 970 based boards, or those based on current Snapdragon SoCs.
      For Intel, there are the NUCs, which come quite close to a SBC experience, but when buying additional RAM and storage, they are also in the $200+ range. So this Atom based board seems like a really interesting fit for a lower price but better performance and compatibility than similarly priced boards.

      1. > Rockchip RK3399 based board. Some come with dual MIPI camera slots, but then only one is supported by their own Linux distribution. So you’ll have to write your own driver.

        Why would you need to ‘write a driver’? It should be just a DTS change to get the 2nd CSI camera to work. Now let’s compare with x86. On the UP Board there is one CSI slot but no camera will work there since… Intel: https://forum.up-community.org/discussion/166/mipi-csi-camera

        I guess that’s the ‘everything, really everything, works out of the box’ x86 experience 😉 Adding to this: my UP Board runs on an outdated 4.9 vendor kernel since otherwise a lot of the SBC stuff wouldn’t work: github.com/emutex/ubilinux-kernel/commits/upboard-4.9

        Wrt your performance comparison between RK3399 and the x5-Z8350 here: With single-threaded workloads the A72 cores give you ~1.3 the performance compared to an Atom core, with multi-threaded loads ARM is around 1.5 times faster. Only if your code makes good use of SIMD extensions such an x5 Atom can outperform an RK3399.

        BTW: I’m not playing the ARM fanboy here, just mentioning that ‘SBC with typical SBC use cases in mind‘ can be a problem regardless of the ISA since ‘everything, really everything, works out of the box’ with x86 isn’t true unfortunately.

        1. Thank you, some good information. I wanted to get a RK3399 board but performances seemed a bit disappointing based on benchmarks I’ve seen, and Software better on Rockchip but still sketchy. Is any RK3399 board really recommendable in terms of good software /kernel support?
          I think SIMD may not be so important since on the RK3399 I could use Neon which may give a similar boost.
          Yeah, admittedly with the Intel board I thought I could then just use a USB or Ethernet camera. Not exactly the same.
          Maybe I’ll just splash and get a J5005 NUC as a Christmas present. That would be in a completely different league then.

          1. > Is any RK3399 board really recommendable in terms of good software /kernel support?

            Well, it’s all about the SoC so basically software support situation is the same for every RK3399 board out there as long as you keep in mind that vendor offerings are often horrible (Xunlong / Orange Pi setting the low mark and most probably FriendlyELEC providing the best OS images — I don’t know exactly since I would never use those vendor provided OS images anyway).

            And as always: without mentioning the use case it’s a bit hard to tell anything about software support situation.

          2. I do like FrienlyElec’s NanoPI M4. It comes with a large enough heat sink under the board, and uses the same form factor as the UP board while being 15% faster in my build tests, and up to 35% faster once overclocked (which you can’t do on the Atom). However if I absolutely needed an x86, then the UP board would still get my preference for its low power consumption and form factor.

        2. >Intel: https://forum.up-community.org/discussion/166/mipi-csi-camera

          Looks like Intel provide a driver that they certify for their partners. This is pretty much how it works for every vendor.

          >since otherwise a lot of the SBC stuff wouldn’t work: github.com/emutex/ubilinux-kernel/commits/upboard-4.9

          Looks like an MFD driver and some other bits for their hardware. You could probably just rebase to 4.10, then 4.11 etc until you find a point where a conflict happens and use that version until you can be bothered to fix it.

          >‘SBC with typical SBC use cases in mind‘

          You mean stuff like GPIO, SPI etc?

          1. It was only about the ‘everything, really everything, works out of the box’ with x86 claim which is unfortunately not the case with somewhat recent low-power Intel offerings. And yeah, it was about GPIO, SPI, CSI, whatever — the ‘typical SBC use cases’.

            My own use cases usually differ (energy efficient server/NAS stuff) and once cpufreq/DVFS, networking and storage is working the platform is ok. So with this use case in mind my UP board or this board here will also run fine with Linux mainline or *BSD.

          2. >And yeah, it was about GPIO, SPI, CSI, whatever — the ‘typical SBC use cases’.

            I think if there was interest then there could a driver for the Intel CSI block that works with other cameras. For my own use case on the Odroid H2 I’ll just have a cortex M0 as an I2C slave for the embedded interfaces. Most of the current SBCs are based on TV box/Smart phone SoCs that are pretty limited in that area too (i.e. no ADCs or only one ADC for reading resistor ladder multiplied keys) so it’s not a big difference.

          3. Yeah, that’s what I’d be doing as well, a powerful SBC for computing (Robotics for fun, like running a localization/SLAM algorithm or some computer vision) and then a second embedded device (Arduino is fine for me) to connect motors and sensors. The H2 would have been perfect, but sold out too quickly 😉

          4. Make sure you use a 3.3v arduino. 🙂
            I have two H2s. Seems really good so far. Nice to be able to boot a stock debian kernel and have everything work instead of adding yet another branch to my linux fork that I’m afraid to merge master into. Only downsides so far is that it doesn’t seem possible to have the bios redirected to serial, so the earliest you get access is grub, and that 32GB of DDR4 for each of them was about $600 🙁

      1. The x86 boards are unfortunately very rare, Hardkernel sold out and Lattepanda Delta not there yet. Lattepanda Alpha or Udoo Bolt quite expensive and therefore not comparable. I wish more boards will come in that price range around $100-$150, but Intel also has a shortage of CPUs at the moment, so it doesn’t look too good.

    1. Really interesting at that price, it indeed comes with the enclosure, and I would say a stackable enclosure, as if you want to make a cluster, you can easily stack 10 of them on top of each other.

      It’s impressive and a bit sad that their Windows version is cheaper than the Linux one by the way :-/

  2. why in the hell do i need a 5 volt powersupply to run this thing rofl . why not make things 100 times easier on the consumer and just make it work via usb c for power

  3. i have previous AEEON mini boards with Intel Atom x5-Z8350 4GB RAM and 32GB storage. Now we have sometning devided into two. Form me electronic rubbish

    1. Honest price, locked in for the first 10k units, at least. I’m the maker.
      Just trying to offer more for the money.
      -Martin 408 330-5599

  4. Ghhhhm… Much variants with Atom in this price. Wintel CX-W8 for example and more TV-boxes. Not clear benefits besides “prototype area”. Controversial thing

  5. I do have concern about breakout board and it seem the traces are not wide enough to support end device. it’s too narrow.

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