The Atomic Pi was billed as a high-power alternative to the Raspberry Pi, and the specs are amazing. For thirty five American buckaroos, you get a single board computer with an Intel processor.
You have WiFi, you have Bluetooth, you have a real time clock, something so many of the other single board computers forget. The best part? Naturally, people lost their minds. There are many challengers to the Raspberry Pi, but nothing so far can beat the Pi on both price and performance. Could the Atomic Pi be the single board computer that finally brings the folks from Cambridge to their knees?
Is this the computer that will revolutionize STEM education, get on a postage stamp, and sell tens of millions of units? The answer is no. This is a piece of electronic flotsam that will go down in history right next to the Ouya console. There will be no new Atomic Pis made, and I highly doubt there will ever be any software updates.
Come throw your money away on silicon, fiberglass and metal detritus! Or maybe you have a use for this thing. Meet the Atomic Pi! It seems the Atomic Pi is simply a module meant for a larger product. With this many JST connectors, you would just assume this is a module custom-built for a larger product.
Probably not something relating to automotive tech, but at the very least some sort of IoT home goods product. Maybe even a robotic juicer. Speculation is one thing, and proof is another. Mayfield Robotics, the makers of the Kuri, paused operations.
But they still had some hardware sitting around, notably some fancy single board computers loaded up with an x86 chip. These modules went on the auction block and Team IoT snapped them up and put together a Kickstarter.
This is the Atomic Pi. What kind of things? I have no idea. Home automation? A magic mirror? Only about 28, Atomic Pis will ever be produced. This is incorrect, the only engineering that has gone into the Atomic Pi is the power adapter and breakout board.
In the meantime, we have something that is a surplused bit of an unsuccessful product. Again, less than thirty thousand Atomic Pis will ever be produced, a fraction of the number of Ouya consoles ever built.
No, the Atomic Pi is what you get when you try to fill an existential void by buying stuff. The Atomic Pi fills a market need for guys who think the ability to install Kali Linux constitutes a personality.
This is a three-year-old chip clocked at 1. Maybe Fortnite.The diminutive board that once served as the guts of a failed robot now lives on as a powerful x86 SBC available at a fire sale price. In theory, all you needed to do was disable the Ethernet controller and tack on an external PCI-E socket so you could plug in whatever you want.
The trick is pulling off the extremely fine-pitch soldering such a modification required, especially considering how picky the PCI Express standard is.
Baby Breakout for Atomic Pi
In practice, it took several attempts with different types of wire before [Jason] was able to get the Atomic Pi to actually recognize something plugged into it. The final winning combination was 40 gauge magnet wire going between the PCB and a thin SATA cable that is mechanically secured to the board with a piece of metal to keep anything from flexing.
At this point, [Jason] has tested enough external devices connected to his hacked-on port to know the modification has promise. Any readers interested in a collaboration? Like most of you, we had high hopes for the Atomic Pi when we first heard about it. I recently added a bunch of these extenders and a PCIe multiplier card to an aging machine yay!
I have an Atomic Pi and my eyes are too old to see the traces to perform such a mod. Maybe 5 years ago I think I could still see well enough to have considered it. Check out the RockPro It has a PCI-e 4 lane slot built in. But the development for the software needs some work and support.
At least it did a year ago…. Wonder what the pad pitch is on the ethernet footprint. Definitely makes me want to pick up an Atomic Pi. I have ample patients for micro soldering… but zero knowledge of the workings of PCIe busses and the like.
On one of my router n classthere is a non-populated footprint for a 5GHz wireless chip. The interface is likely to be PCIe as it has the familiar pads for some series caps on 4 lines. If so, that interface has been documented by GL.
Atomic Pi Brings Intel to Single-Board Computers
It does have x86 processor. So this board has more development done on it already then raspberrypi will have in 1 years. Silly me! I thought when the kickstarter ended, these things were unobtainium. I should have included the link. Bought two from Amazon. The original 4-week leadtime given at purchase was subsequently reduced three times until I received them about 6 days after paying including a weekend.
This site uses Akismet to reduce spam.The world is full of single board computers that want a slice of the Raspberry Pi action. Most of them are terrible. The latest contender to the Raspberry Pi is the Atomic Pi. Is it worth it? Is it even in the same market as a Raspberry Pi? Or is it just a small budget computer without a box?
I have no idea. One that would run Windows. You will need to supply both 5 V and 12 V to the board if you would like to use the Class D audio amplifier, but if you only want to use audio over HDMI, supplying only 5 V will do. This may be a tough sell to a crowd with zero experience booting a bare Linux system.
That said, it runs Nintendo 64 emulators wellwhich is the only reason people buy Raspberry Pis anyway. Is the Atomic Pi the single board computer you need? I do exactly the same. I use a Turing machine so anyone with a pencil and an infinite amount of paper can run my program. I basically have this setup. I still prefer butterflies. I use an abacus emulated in Krispy Kreme donuts so that if I get my numbers wrong, I can eat them.
I would call that a commercial power supply. The cost could be 10x a commercial type. There are also other voltages available, all in the price range of equivalent of 30USD….
The company is doing their best to keep them in stock. They pop up on Amazon for a few days, then go out of stock again. You just gotta keep checking. There are some on Ebay now and some of the Full and baby breakout boards — I think some ship out of the US.
Can anyone confirm the GPU on this one? I am very curious about its power draw myself — as one of the great things about a Pi is even going flat out you can have a little farm of them before you draw the idle power of 64bit workstation.
As they are quite good with media of all types you can stuff one behind the TV, as a NAS, webserver and not worry about the power bill.
For me this needs to be in a similar computation per watt range as a Pi to be worth it. Otherwise use your old desktop, or laptop — why have new silicon if you have working old stuff that can do the job just as well. Yah, I accidentally a power VR atom netbook, after fusterclucks of win 10 and lubuntu installs it ended up with windoze 7. Did they finish designing this thing?
Who knows, their documentation is awful. Their FAQ has a line about Mate-N-Lok connectors for power — why is there a FAQ asking where to get a power connector that is not documented as used anywhere on the board?
From comments sections on other sites so I guess consider the source lol the consensus is that these were boards purchased to be integrated into some audio appliance which either was never created or failed design or some other reason that there were of these weird boards available.For that price, the specs were beyond impressive - they were in the "so cheap, there must be something wrong" category.
One week later, the "bare-bones" board arrived. And another two weeks later, this little machine has really pushed my limits. I've never soldered on Intel HW before; an Intel machine somehow always created a kind of mental block in my head: "This is not a toy!
And I was able to achieve the results shown below. Here it is, in all its splendor, my nerdy brothers and sisters My new little UNIX server.
I started playing with them 3 years ago, beginning with a Raspberry PI2. A year later I "graduated" into a setup that was a bit more advanced In addition, all of it was done via completely open-sourced SW. And this being an Intel machine, it came with USB3. If you keep in touch with the current state of computer HW, your reaction to this is probably like mine: What the That's impossible!
So yes, I just had to try this out I took a leap of faith betting that it's not some fraudulent schemeand ordered this from Amazon. And I immediately realized that this is not a common SBC There was no "mainstream" way to power it on. I already had an Excelway configurable-voltage power supply that could provide the required amps at 5V; so I ordered a female 5.
So I took my Arduino board - which had such a jack one that the Excelway's power plug fit in and soldered two wires on the power pins - driving the output directly to the Atomic PI's pin 3 5V and pin 6 GND. I was not disappointed - the Atom was at least 3 times faster than my Orange PI Zero; and more importantly, the huge heatsink kept it cool while staying dead-silent! I had to attach a fan and write my own PI D controller to keep it cool. No such worries with the Atomic PI.
I launched Firefox, went to Youtube and watched in full screen a 4K 60fps video. It worked like a charm - with no hiccups of any kind. You can, in theory, compile a kernel from the mainline - but you usually end up with a barely functioning framebuffer-based, non-accelerated X11 experience. The 5. I quickly desoldered the wires from my Arduino board, and put my adjustable buck PSU in the loop - so I could measure power:.
Idle power measurements on Atomic PI: 5V x 0. I am guessing that when the HDMI port is not connected, some parts of the design power off. Even though it's nice to have accelerated X11 and video decoding, the purpose I had in mind for my Atomic PI was replacing my old OrangePI-based server with this much more powerful, headless machine. This would allow me to do things like offline ffmpeg-based video transcoding - taking advantage of the huge optimizations done over the years with Intel-specific hand-written assembly routines.
That's all. Whatever happens on the SBC's serial port will then be shown in your terminal. If you are wondering about the stty commands, they allow sending control characters - e.
Ctrl-C is sent across to the remote, not to the local nc. This means you can use the connection to perform logins, etc.The onslaught of single-board computers continued last week with the debut of Atomic Pi, a product from Digital Loggers that combines the small form factor of a Raspberry Pi with an Intel Atom processor, ostensibly because the company believes it can offer better pricing and performance that way.
According to Digital Loggers, that "eats [Raspberry Pi] for dessert" and also "beats some desktops.How To Install An Operating System On The Atomic Pi - Any Linux Distro
Digital Loggers offers multiple configurations of the Atomic Pi. The next model up adds support for a 2. Atomic Pi is sold via the Digital Loggers store as well as Amazon. With Prime shipping, for those who can't wait to get their itty-bitty computer. The base model is sold out on Amazon, but the Digital Loggers store appears to have everything but the Full Developers Kit in stock.
Image credit: Digital Loggers The onslaught of single-board computers continued last week with the debut of Atomic Pi, a product from Digital Loggers that combines the small form factor of a Raspberry Pi with an Intel Atom processor, ostensibly because the company believes it can offer better pricing and performance that way.I recently picked up the Atomic Pi from Amazon.
This works out pretty well because I am able to have an entire computer on my workbench without really taking up much space or it costing me much money. It can run tools like avr-gcc and avrdude just fine.
My intention with this is to replace the Raspberry Pi, thus freeing up the Raspberry pi for other projects. The Atomic Pi arrived much earlier than the expected date, so I also grabbed the following from Amazon as well.
The first issue is the battery for the onboard real time clock. It's really cool that this board has an RTC so it can keep time even when unplugged or the power is out.
However, it seems they completely forgot about mounting the thing. As a result, the battery is attached via some wires only to a connector on the board. Those leads are routed through the heat sink and held in place with some tape. There is just enough slack in the wires so that every time you sit the board down the battery smacks the circuit board, which could possibly damage something.
I don't know why they didn't just tape the battery to the heatsink. If you're planning on mounting this into a chassis of some kind this makes it tricky. The ideal way is to have all the connectors on a single side.
This would allow you to just cut holes for the connectors in one piece of material. The next best way is to have something like the Raspberry Pi layout where the connectors are on two sides of a rectangle that are perpendicular to each other.
If the board is mounted in a corner, you can just cut two holes in the chassis for the connectors. This limitation won't matter much if you're incorporating this into a large piece of equipement. But I purchased this mainly just to use as a computer. There is onboard bluetooth and WiFi, but no onboard antennas. There are all kind of headers on the board and I simply couldn't find any master document explaining them all. Let's just leave this topic for the next section.
The only way to power this board is with a header on the bottom. This is one of the most perplexing aspects of the design of this board. The header could easily be mounted on top of the board, but instead they put it on the bottom with a female socket. So you'll need to get some male pins to power the board. Included in the boards packaging was a poor image of how the manufacturer suggested powering it up. I searched around but found absolutely no images explaining what pins were used for what.
This is a really important detail as applying power to the wrong pins will certainly destroy the board. So here is an image of the Atomic pi header pinout I made. After figuring out what pins were suitable to use for powering the board, I grabbed a buck converter I already had purchased off AliExpress a while back. The optional 12 volts DC connection is to run an amplifier for the speaker outputs.
The buck converter is a device can be fed with a much higher voltage which it converts into 5 volts DC which can power the Atomic Pi. They are actually pretty common, most motherboards use a device like this to lower the voltage to create the desired operating voltage for the memory, CPU, etc. I supplied this buck converter with 19 volts DC from an old laptop power supply.Specifically, Digital Loggers has opted for the Atom x5-Za quad-core chip that has a 1.
Moreover, there are USB 3. The board has a total of 26 GPIO pins for connecting actuators and sensors and a 9-axis inertial navigation sensor with a compass too. The Atomic Pi packs in a real-time clock and battery too along with a comparatively huge heatsink despite its small size. The board measures just x x 50 mm with the heatsink attached or 20 mm with it removed, for reference.
The company provides Debian and Ubuntu images too, which you can download here. You must factor in shipping though, which can add up. Best Displaysfor University Students. At the time of writing, it is only possible to buy the device directly from Digital Loggers, which only ship to the US. We have reached out to the company for more information and will update this article accordingly if we hear back from them. The developer board has numerous expansion connectors, ports and sensors too.
Update: Shipping information clarified. Source s. Related Articles. Paradox teases brief sneak peek at Biostar and ASRock tease Ryzen Please share our article, every link counts! Alex Alderson - News Editor - aldersonaj. Prior to writing and translating for Notebookcheck, I worked for various companies including Apple and Neowin.
Happy to chat on Twitter or Notebookchat.