A bunch of us at LShift recently discovered a shared interest in FPGAs. These devices are reconfigurable hardware: chips that can be programmed to act like any arrangement of digital logic gates, including designs as large as general purpose processors. High-end FPGAs still cost thousands of dollars, but low-end development boards are relatively affordable, and due to the march of Moore’s law, they are now capable enough for potentially interesting applications. This means that the same kind of economic structure that allows open source software development to thrive now applies to the world of hardware design. Students, enthusiasts and professional engineers publish their projects on the Internet, and communities have formed around sites such as OpenCores.
Obstacles remain for those from a software background who wish to learn about FPGAs. Many of these are cultural: There is an overlap between the concepts used in hardware design and those of software construction, but often those superficial similarities conceal significant differences in the basic approach. And some areas that are considered basic knowledge for electronic engineers will be unfamiliar to most software developers.
But there’s nothing we like more than jumping into a previously unfamiliar area. So we have acquired an FPGA development board to play with. This board has a Xilinx FPGA, together with other bits and pieces including a 32MB DRAM chip, various Flash chips, an Ethernet port, a couple of serial ports, and a small LCD display. One of the attractions of this board is that Xilinx makes a full version of their ISE development environment free to download, including the Linux version. It’s not open source, but in the world of FPGA development environments, this is as good as it currently gets; FPGA vendors consider some details of their devices to be confidential, and so steps in the FPGA programming process necessarily involve proprietary tools.
We are still finding our feet with VHDL and Verilog, and understanding what is and isn’t feasible in the scope of an evenings-and-weekends hardware design project. The Xilinx development environment is not as polished or easy to get started with as modern software development environments. But we have already made some modest progress:
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