NOTE the following is a work-in-progress (WIP) and has not reached
a minor release point. If you happen to come across this public repository
feel free to try it out and contribute. This repository will
be unstable until the first minor release 0.1. This repository is
a merge of the mn
and gizflo
projects.
The rhea
python package is a collection of HDL cores written in
MyHDL. The rhea
package also includes
a small set of utilities to augment the myhdl types and functions
as well as FPGA build automation tools.
Pronounced ray (as in ray-gun), just a random name and not pronounced the same as the bird or moon.
- myhdl currently 1.0dev (pre-release)
- pytest for the test suite
- Pillow >= 2.9, some video tests utilize the imaging library
- FPGA vendor tools, only for automated build tools.
If you are not familiar with myhdl starting with the
myhdl manual and
examples is recommended. General myhdl
questions
can be answered on the #myhdl IRC channel
or on the myhdl mailing-list.
I am often available to answer rhea
specific questions on the previously
mentioned communications or the rhea
gitter can be used.
IMPORTANT NOTE this repository is under development and is using features from a development version of MyHDL (1.0dev). If you wish to try out this package get the development myhdl (you will need to clone it and install the source). The first rhea release will not occur until myhdl 1.0 is released (probably much later).
Getting close to the fist minor release. The first minor release will contain a small collection of documented cores and frameworks (see below).
This code/package is licensed under the MIT license. This allows
anyone to use the package in their projects with no limitations.
Questions and other license options email me.
The following are the definition of some terms used in this README :
-
cores : the building blocks of a system. Also, know as IP (intellectual property).
-
system : the digital design being implement, synonymous with system-on-a-chip, not using the term system-on-a-chip (SoC) because SoC it is typically reserved for systems that contains a CPU. In this document and the example the system can be a SoC or other complex digital design.
-
register : collection of bits that retain state.
-
register file : collection of same-sized registers, a register file is organized into read-write entities and read-only entities. A register-file is a programming/configuration interface to a core.
-
CSR: control and status registers also known as config and status.
This term is commonly used for the memory-mapped interface to the cores.
To get started with the latest version (repo version) checkout out the code and run setup in develop mode. The dependencies listed above need to be installed.
Install the latest myhdl.
>> git clone https://github.com/jandecaluwe/myhdl
>> sudo python setup.py install
>> cd ..
or
>> pip install git+https://github.com/jandecaluwe/myhdl
After the dependencies have been installed clone this repository to get started.
>> git clone https://github.com/cfelton/rhea
>> cd rhea
# requires setuptools
>> sudo python setup.py develop
The tests can be run from the test directory.
# attempt to run the tests
>> cd test
>> py.test
If FPGA vendor tools (Xilinx, Altera, Lattice, Yosys) are installed the build examples can be run to generate bitstreams.
# try to compile one of the examples
# (requires FPGA tools installed)
>> cd ../examples/build/
>> python ex_xula.py
The test directory contains test for the different cores in the package.
Run the tests in the test directory:
>> cd test
>> py.test
Run the tests in the examples directory:
>> cd examples
>> py.test
In the example directory are projects that demonstrate how to build systems using the cores and various tools and target a particular FPGA development board. The examples/build contains LED blinky examples for many different boards.
The following is a list of cores being developed for the 0.1 release, an [x] indicates the core has been completed and verified on an FPGA development board.
- sync FIFO
- async FIFO
- UART lite
- byte-stream to bus-transaction
- SPI controller
- SDRAM controller
- VGA
- LT24 LCD controller
- HDMI
- Ethernet MAC
- PRBS tester (generator and checker)
- ADC 128x022 interface
- ADXL345 interface
- *USB: usbp FX2 interface
- *USB: fpgalink FX2 interface
* Complete but dysfunctional. These are old cores that were working on an FPGA, at one point in time, but have not been updated in ages.