Tag Archives: VHDL

First steps with a Lattice iCE40 FPGA

I’ve just been doing some work with the iCE40 series of FPGAs from Lattice Semiconductor. They’re small FPGAs, with up to 7680 gates, and they’re very low-power, which is nice for mobile applications. From what I can gather, Lattice acquired the designs when they bought a company called SiliconBlue in 2011. I’ve been used to using the Lattice Diamond software with their other chips, but the iCE40 chips aren’t supported by Diamond. Instead, they get their own software called iCEcube2. It’s a bit of a pain to use and not very well documented. I’ve just been through the process of starting a project and getting a very basic design working, and I’m writing about it here in case someone else finds it useful.

Img_0602

The iCEcube2 software looks convincingly like an IDE, but it isn’t, really. It doesn’t even seem to have a way of creating new source code files, and the order in which some things have to be done is not at all obvious. I think iCEcube2 is really designed for taking existing designs and implementing them on the Lattice iCE40 chips. While the software is a complete dog’s breakfast, it does have the key advantage of being free. You do need to create a node-locked licence for it using their licencing page.

iCEcube-blank

To start an empty project, double click Project -> New Project. Select the chip you’re going to use. This creates a folder with the title of the project, containing:

  • <project>_sbt.project
  • <project>_syn.prj
  • folder <project>_Implmnt, containing folder sbt, containing folders constraint, log and outputs. All are empty apart from iceCube0.log in log folder.

Now you can add your source files. If you click on ‘Synthesis Tool’, then an ‘Add Synthesis Files’ menu item appears, but clicking on this doesn’t do anything useful. You have to right-click on ‘Add Synthesis Files’ and select ‘Add Files…’ from the pop-up menu. Go figure. I used a very simple VHDL source file:

LIBRARY ieee;
USE ieee.std_logic_1164.ALL;

ENTITY test IS
 PORT
 (
 d: in std_logic;
 q: out std_logic;
 qn: out std_logic
 );
END test;

ARCHITECTURE rtl OF test IS
BEGIN

 q <= d;
 qn <= not d;
 
END rtl;

At this point I’d expect to be able to allocate signal names (d, q and qn, in this case) to pins on the device package. But you can’t do that yet in the wonderful world of iCEcube2. All the buttons on the toolbar are greyed out. The way to proceed is to double click ‘Run Synplify Pro Synthesis’. Hopefully your code will compile without errors, and lots of files get created.

The project folder now contains:

  • stdout.log and stdout.log.bak
  • synlog.tcl
  • loads of stuff under <project>_Implmnt

Two new files appear in the project under ‘P&R Flow’: <project>.edf and <project>.scf.

Now double-click ‘Run P&R’. The design will get placed and routed, and a bitmap gets generated for programming the chip.

At this point the toolbar buttons for timing constraints, pin constraints, floor planner, package view, power estimator and timing analysis become active. Hurrah! Now you can change your pin constraints.

iCEcube-toolbar-enabled

Click on ‘Pin Constraints Editor’, the fourth icon from the left. Put in the pin locations for the signals you want. Make sure you click the ‘locked’ checkboxes on the left hand side, otherwise the place and route process is likely to move them. Press ctrl-S to save. The constraints get saved in <project>_Implmnt\sbt\constraint\<top design file>_pcf_sbt.pcf. You will then get asked to add the file to the project. Say yes.

If you’re using source control, it’s a good idea to add this file to it. I’m not so sure about all the other junk that iCEcube generates.

Now double-click ‘Run P&R’ again and the new bitmap file will be generated, using your pin constraints.

Programming an actual chip (or at least its SPI Flash ROM) needs the Diamond Programming tool, which comes as part of the Lattice Diamond software and *not* as part of iCEcube2. That’s just another couple of gigabytes to download, and another licence (free) to acquire, so it’s a pain, but it does work.

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