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README

                      __   _ __      _______ _________
                     / /  (_) /____ / __/ _ /_  __/ _ |
                    / /__/ / __/ -_)\ \/ __ |/ / / __ |
                   /____/_/\__/\__/___/_/ |_/_/ /_/ |_|

        Copyright 2014-2015 / Florent Kermarrec / florent@enjoy-digital.fr

               A small footprint and configurable SATA core
              developed in partnership with M-Labs Ltd & HKU

[> Intro
-----------
LiteSATA provides a small footprint and configurable SATA1/2/3 core.

LiteSATA is part of LiteX libraries whose aims is to lower entry level of complex
FPGA IP cores by providing simple, elegant and efficient implementations of
components used in today's SoC such as Ethernet, SATA, PCIe, SDRAM Controller...

The core uses simple and specific streaming buses and will provides in the future
adapters to use standardized AXI or Avalon-ST streaming buses.

Since Python is used to describe the HDL, the core is highly and easily
configurable.

The synthetizable BIST can be used as a starting point to integrate SATA in
your own SoC.

LiteSATA uses technologies developed in partnership with M-Labs Ltd:
 - Migen enables generating HDL with Python in an efficient way.
 - MiSoC provides the basic blocks to build a powerful and small footprint SoC.

LiteSATA can be used as a Migen/MiSoC library (by simply installing  it
with the provided setup.py) or can be integrated with your standard design flow
by generating the verilog rtl that you will use as a standard core.

[> Features
------------------
PHY:
  - OOB, COMWAKE, COMINIT
  - ALIGN inserter/remover and bytes alignment on K28.5
  - 8B/10B encoding/decoding in transceiver
  - Errors detection and reporting
  - 32 bits interface
  - 1.5/3.0/6.0GBps supported speeds (respectively 37.5/75/150MHz system clk)
Core:
  Link:
    - CONT inserter/remover
    - Scrambling/Descrambling of data
    - CRC inserter/checker
    - HOLD insertion/detection
    - Errors detection and reporting
  Transport/Command:
    - Easy to use user interfaces (Can be used with or without CPU)
    - 48 bits sector addressing
    - 3 supported commands: READ_DMA(_EXT), WRITE_DMA(_EXT), IDENTIFY_DEVICE
    - Errors detection and reporting

Frontend:
  - Configurable crossbar (simply use core.crossbar.get_port() to add a new port!)
  - Ports arbitration transparent to the user
  - Synthetizable BIST

[> Possibles improvements
----------------------
- add standardized interfaces (AXI, Avalon-ST)
- add NCQ support
- add AES hardware encryption
- add on-the-flow compression/decompression
- add support for Altera PHYs.
- add support for Lattice PHYs.
- add support for Xilinx 7-Series GTP/GTH (currently only 7-Series GTX are
  supported)
- add Zynq Linux drivers.
- ...

If you want to support these features, please contact us at florent [AT]
enjoy-digital.fr. You can also contact our partner on the public mailing list
devel [AT] lists.m-labs.hk.

[> Getting started
------------------
1. Install Python3 and Xilinx's Vivado software

2. Obtain Migen and install it:
  git clone https://github.com/enjoy-digital/migen
  cd migen
  python3 setup.py install
  cd ..

3. Obtain Miscope and install it:
  git clone https://github.com/enjoy-digital/miscope
  cd miscope
  python3 setup.py install
  cd ..

4. Obtain MiSoC:
  git clone https://github.com/enjoy-digital/misoc --recursive

5. Copy lite-sata in working directory and move to it.

6. Build and load design:
  python3 make.py all

7. Test design:
  go to test directory and run:
  python3 bist.py

[> Simulations:
  Simulations are avalaible in ./lib/sata/test:
    - crc_tb
    - scrambler_tb
    - phy_datapath_tb
    - link_tb
    - command_tb
    - bist_tb
  hdd.py is a simplified HDD model implementing all SATA layers.
  To run a simulation, move to ./lib/sata/test and run:
    make simulation_name

[> Tests :
  A synthetisable BIST is provided and can be controlled with ./test/bist.py
  By using Miscope and the provided ./test/test_link.py example you are able to
  visualize the internal logic of the design and even inject the captured data in
  the HDD model!

[> License
----------------------
LiteSATA is released under the very permissive two-clause BSD license. Under the
terms of this license, you are authorized to use LiteSATA for closed-source
proprietary designs.
Even though we do not require you to do so, those things are awesome, so please
do them if possible:
 - tell us that you are using LiteSATA
 - cite LiteSATA in publications related to research it has helped
 - send us feedback and suggestions for improvements
 - send us bug reports when something goes wrong
 - send us the modifications and improvements you have done to LiteSATA.

[> Support
----------------------
We love open-source hardware and like sharing our designs with others. We think
that providing this core with a BSD license will enable its easy reuse and
customization without the usual restrictions of commercial cores.

We also offer design services and can:
- provide you commercial support for our cores.
- customize our cores to fit your needs and help you to integrate it in your design.
- create custom designs for you and provide our already proven cores for free.
- ...

So feel free to contact us, we'd love to work with you!

[> Contact
E-mail: florent [AT] enjoy-digital.fr