VexRiscv/scripts/Murax/iCE40-hx8k_breakout_board/README.md

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This example is for the
[Lattice iCE40HX-8K Breakout Board](http://www.latticesemi.com/Products/DevelopmentBoardsAndKits/iCE40HX8KBreakoutBoard.aspx).
An image of this board is shown below;
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![`iCE40HX8K breakout revA`](img/iCE40HX8K-breakout-revA.png)
This board can be purchased for ~$USD 49 directly from Lattice and is supported
by the IceStorm
[`iceprog`](https://github.com/cliffordwolf/icestorm/tree/master/iceprog) tool.
# Using the example
## Before Starting
Before starting make sure that your board is configured for `CRAM Programming`
mode. This requires removing jumper `J7` and putting the pair of jumpers on
`J6` to be parallel to the text on the board.
This is shown in **Figure 5** of the
[iCE40HX-8K Breakout Board User Guide](http://www.latticesemi.com/view_document?document_id=50373).
which is also reproduced below;
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![CRAM Programming Config](img/cram-programming-config.png)
Once your board is ready, you should follow the setup instructions at the
[top level](../../../README.md).
You should make sure you have the following tools installed;
* Yosys
* arachne-pnr
* icestorm tools (like icepack and iceprog)
* riscv toolchain
* sbt
## Building
You should be able to just type `make compile` and get output similar to this;
```
...
place time 10.14s
route...
pass 1, 15 shared.
pass 2, 4 shared.
pass 3, 1 shared.
pass 4, 0 shared.
After routing:
span_4 4406 / 29696
span_12 951 / 5632
route time 9.12s
write_txt bin/toplevel.asc...
icepack bin/toplevel.asc bin/toplevel.bin
```
The process should take around 30 seconds on a reasonable fast computer.
## Programming
After building you should be able to run `make prog`. You may need to run `make
sudo-prog` if root is needed to access your USB devices.
You should get output like the following;
```
iceprog -S bin/toplevel.bin
init..
cdone: high
reset..
cdone: low
programming..
cdone: high
Bye.
```
After programming the LEDs at the top of the board should start flashing in an
interesting pattern.
## Connect
After programming you should be able to connect to the serial port and have the
output echoed back to you.
On Linux you can do this using a command like `screen /dev/ttyUSB1`. Then as
you type you should get back the same characters.