When you develop software, you need some kind of toolchain. For example, to develop for an ARM processor, you need a suitable C compiler, a linker, a library, and a programmer. FPGAs use a similar set of tools. However, instead of converting source code to machine language, these tools map the intent of your source code into configuration of FPGA elements and the connections between them.

There’s some variation, but the basic flow in an FPGA build is to use a synthesizer to convert Verilog or VHDL to a physical design. Then a mapper maps that design to the physical elements available on a particular FPGA. Finally, a place and route step determines how to put those elements in a way that they can be interconnected. The final step is to generate a bitstream the chip understands and somehow loading it to the chip (usually via JTAG or by programming a chip or an external EEPROM).

One problem with making your own tools is that the manufacturers typically hold the bitstream format and other essential details close to their chest. Of course, anything can be reverse engineered (with difficulty) and [James Bowman] was able to build a minimal CPU using an open source Lattice toolchain. The project relies on several open source projects, including IceStorm, which provides configuration tools for Lattice iCE40 FPGAs (there is a very inexpensive development platform available for this device).

We’ve covered IceStorm before. The IceStorm project provides three tools: one to produce the chip’s binary format from an ASCII representation (and the reverse conversion), a programmer for the iCEstick and HX8K development boards, and database that tells other open source tools about the device.

Those tools blend with other open source tools to form a complete toolchain–a great example of open source collaboration. Yosys does the synthesis (one of the tools available on the EDAPlayground site). The place and route is done by Arachne. The combined tools are now sufficient to build the J1A CPU and can even run a simple version of Forth. If you’ve ever wanted to play with an FPGA-based CPU design, you now have a $22 hardware option and free tools.