Alorium rolled out a new product late last year that caught our attention. The Sno (pronounced like “snow”) board is a tiny footprint Arduino board that you can see in the video below. By itself that isn’t that interesting, but the Sno also has an Altera/Intel Max 10 FPGA onboard. If you aren’t an FPGA user, don’t tune out yet, though, because while you can customize the FPGA in several ways, you don’t have to.

Like Alorium’s XLR8 product, the FPGA comes with preprogrammed functions and a matching Arduino API to use them. In particular, there are modules to do analog to digital conversion, servo control, operate NeoPixels, and do floating point math.

However, you can reprogram the FPGA to have other functions — known as XBs or Xcelerator Blocks — if you like. The only problem we see is that, so far, there aren’t many of them. In addition to the stock XBs, there is one that will do quadrature decoding for dealing with things like shaft encoders. There are a few others you can find on their GitHub page. You can get an idea for the workflow by looking at this tutorial for the XLR8 board.

Of course, you can write your own FPGA configurations as you see fit, but they also provide a standard workflow — OpenXLR8 — that lets you build your own blocks that operate just like their blocks. It would be easy to imagine an “app store” concept where people develop custom blocks and make them available.

We really like the idea of this device and it is certainly inexpensive. You can prototype on the XLR8 which looks like a UNO or you can put headers in the Sno. They also sell a breakout board that will make the Sno physically more like an UNO. We are surprised, though, that there are not more XBs created over the last two years.

The FPGA onboard is similar to the one on the Arrow board we looked at earlier this year, although that has some additional components like SDRAM. If you are looking for a project, it might be interesting to convert our PWM code into an XB.

Thanks to [K5STV] for showing us one of these.

What would you get it you mashed up an FPGA and an Arduino? An FPGA development board with far too few output pins? Or a board in the form-factor of Arduino that’s impossible to program?

Fortunately, the ICEZUM Alhambra looks like it’s avoided these pitfalls, at least for the most part. It’s based on the Lattice iCE40 FPGA, which we’ve covered previously a number of times because of its cheap development boards and open-source development flow. Indeed, we were wondering what the BQ folks were up to when they were working on an easy-to-use GUI for the FPGA family. Now we know — it’s the support software for an FPGA “Arduino”.

The Alhambra board itself looks to be Arduino-compatible, with the horrible gap between the rows on the left-hand-side and all, so it will work with your existing shields. But they’ve also doubled them with pinheaders in a more hacker-friendly layout: SVG — signal, voltage, ground. This is great for attaching small, powered sensors using a three-wire cable like the one that you use for servos. (Hackaday.io has two Arduino clones using SVG pinouts: in SMT and DIP formats.)

The iCE40 FPGA has 144 pins, so you’re probably asking yourself where they all end up, and frankly, so are we. There are eight user LEDs on the board, plus the 28 I/O pins that end in pinheaders. That leaves around a hundred potential I/Os unaccounted-for. One of the main attractions of FPGAs in our book is the tremendous availability of fast I/Os. Still, it’s more I/O than you get on a plain-vanilla Arduino, so we’re not complaining too loudly. Sometimes simplicity is a virtue. Everything’s up on GitHub, but not yet ported to KiCad, so you can tweak the hardware if you’ve got a copy of Altium.

We’ve been seeing FPGA projects popping up all over, and with the open-source toolchains making them more accessible, we wonder if they will get mainstreamed; the lure of reconfigurable hardware is just so strong. Putting an FPGA into an Arduino-compatible form-factor and backing it with an open GUI is an interesting idea. This project is clearly in its very early stages, but we can’t wait to see how it shakes out. If anyone gets their hands on these boards, let us know, OK?

Thanks [RS] for the tip!

Some things are better together: me and my wife, peanut butter and jelly, and FPGAs and Arduino Unos. Veteran hacker [Valentin Angelovski] seems to agree: the FleaFPGA Uno is his latest creation that combines an FPGA (a Lattice MachX02 700HC) with an Arduino-compatible CPU.

It’s a step-up model from the origional FleaFPGA. With a few other components thrown in (such as a HDMI and composite video output and a WiFi option), you have a killer combination for experimenting with FPGAs or building an embedded system. That is because the Arduino part frees the FleaFPGA Uno from the breadboard: you can easily program, control and interface with the FPGA over a serial line or a wireless link using the Arduino IDE. There is even support for Arduino shields (albeit only 3.3V ones), making it even more expandable. This would be an awesome starting point for a retro gaming system, as many 8-bit consoles can be easily emulated in an FPGA. [Valentin] is currently selling the boards directly, and they are very reasonably priced at $50 or $60 for the WiFi version.

The XLR8 is an FPGA based board that looks and feels like an Arduino Uno. But not all is what it seems on the surface.

Read more on MAKE

The post XLR8 Project Blends FPGA Speed with Arduino Coding appeared first on Make: DIY Projects, How-Tos, Electronics, Crafts and Ideas for Makers.

If you’ve been keeping up with the hobbyist FPGA community, you’ll recognize the DE0 Nano as “that small form-factor FPGA” with a deep history of projects from Oldland cpu cores to synthesizable Parallax Propeller processors. After more than four years in the field though, it’s about time for a reboot.

Its successor, the DE0 Nano SoC, is a complete redesign from multiples perspectives while doing it’s best to preserve the bite-size form factor and price that made the first model so appealing. First, the dev board boasts a Cyclone V with 40,000 logical elements (up from the DE0’s 22K) and an integrated dual-core Arm Cortex A9 Processor. The PCB layout also brings us  3.3V Arduino shield compatibility via female headers, 1 Gig of external DDR3 SDRAM and gigabit ethernet support via two onboard ASICs to handle the protocol. The folks at Terasic also seem to be tipping their hats towards the “Duino-Pi” hobbyist community, given that they’ve kindly provided both Linux and Arduino images to get you started a few steps above your classic finite-state machines and everyday combinational logic.

And while the new SoC model sports a slightly larger form factor at 68.59mm x 96mm (as opposed to the original’s 49mm x 75.2mm), we’d say it’s a small price to pay in footprint for a whirlwind of new possibilities on the logic level. The board hits online shelves now at a respectable $100.

Next, as a heads-up, the aforementioned Arduino Zero finally makes it’s release on June 15. If you’ve ever considered taking the leap from an 8-bit to a 32-bit processor without having to hassle through the setup of an ARM toolchain, now might be a great time to get started.

via [the Arduino Blog]

It’s been a while since we’ve seen some new boards that combine an FPGA and an Arduino, so naturally the state of the art is a little bit behind. The latest from [Jack Gassett], the Papilio Duo, aims to change that by addressing all the complaints of the original Papilio and adding some neat, modern features that you would expect on a board designed in 2014.

On board the Duo is an ATMega32u4, the same chip used in the Arduino Leonardo, allowing for easy integration with your standard Arduino projects. The top of the board is where the real money is. There’s a Spartan 6 FPGA with 9k logic cells, enough to run emulate some of the classic computers of yore, including the famous SID chip, Yamaha YM2149, and the Atari POKEY (!).  With host and device USB, 512k or 2M of SRAM, and an ADC on the FPGA inputs, this board should be able to handle just about everything you would want to throw at it. There’s even a breakout for HDMI on the bottom.

There are a few interesting software features of the Duo, including a full debugger for the ATMega chip, thanks to an emulated Atmel JTAG ICE MKII. Yes, an Arduino-compatible board finally has a real debugger. The FPGA can also implement a 32 channel logic analyzer, making this not only an extremely powerful dev board, but also a useful tool to keep around the workbench.