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chipyard/README.md
Abraham Gonzalez d0bec3fba7 Ariane Integration (#448) 
* [ariane/make] integrate ariane | have verilator be installed on path not in makefile

* [misc] warn on verilator not found | search for v files | cleanup build.sbt + .gitignore

* [firesim] bump

* [ci] add midas ariane tests

* [docker/ci] use new docker-image with verilator | re-elab on v changes for ariane | address comments

* [ci] remove references to local verilator install

* [verilator] update flags

* [verilator] minimal set of flags for ariane

* [ariane] bump ariane to master

* [ci] revert to 4.016 verilator

* [ci] install verilator to ci server | misc compile fixes

* [ci/make] add longer ci timeout | update when assert is added in verilator sim

* [firesim] bump for misc. updates

* [make/ci] cleanup makefile and remove firesim tests of it

* [docs/firesim] bump and clean docs

* [firesim] bump

* [ci] use remote verilator for midas tests

* [misc] cleanup built.sbt more

* [firesim] bump

* [misc] bump build.sbt patch for tutorials

* [firesim/ci] cleanup and bump firesim
2020-03-09 18:06:41 -07:00

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![CHIPYARD](https://github.com/ucb-bar/chipyard/raw/master/docs/_static/images/chipyard-logo-full.png)
# Chipyard Framework [![CircleCI](https://circleci.com/gh/ucb-bar/chipyard/tree/master.svg?style=svg)](https://circleci.com/gh/ucb-bar/chipyard/tree/master)
## Using Chipyard
To get started using Chipyard, see the documentation on the Chipyard documentation site: https://chipyard.readthedocs.io/
## What is Chipyard
Chipyard is an open source framework for agile development of Chisel-based systems-on-chip.
It will allow you to leverage the Chisel HDL, Rocket Chip SoC generator, and other [Berkeley][berkeley] projects to produce a [RISC-V][riscv] SoC with everything from MMIO-mapped peripherals to custom accelerators.
Chipyard contains processor cores ([Rocket][rocket-chip], [BOOM][boom], [Ariane][ariane]), accelerators ([Hwacha][hwacha]), memory systems, and additional peripherals and tooling to help create a full featured SoC.
Chipyard supports multiple concurrent flows of agile hardware development, including software RTL simulation, FPGA-accelerated simulation ([FireSim][firesim]), automated VLSI flows ([Hammer][hammer]), and software workload generation for bare-metal and Linux-based systems ([FireMarshal][firemarshal]).
Chipyard is actively developed in the [Berkeley Architecture Research Group][ucb-bar] in the [Electrical Engineering and Computer Sciences Department][eecs] at the [University of California, Berkeley][berkeley].
## Resources
* Chipyard Documentation: https://chipyard.readthedocs.io/
* Chipyard Basics slides: https://fires.im/micro19-slides-pdf/02_chipyard_basics.pdf
* Chipyard Tutorial Exercise slides: https://fires.im/micro19-slides-pdf/03_building_custom_socs.pdf
## Need help?
* Join the Chipyard Mailing List: https://groups.google.com/forum/#!forum/chipyard
* If you find a bug, post an issue on this repo
## Contributing
* See [CONTRIBUTING.md](/CONTRIBUTING.md)
## Chipyard-related Publications
These publications cover many of the internal components used in Chipyard. However, for the most up-to-date details, users should refer to the Chipyard docs.
* **Generators**
* **Rocket Chip**: K. Asanovic, et al., *UCB EECS TR*. [PDF](http://www2.eecs.berkeley.edu/Pubs/TechRpts/2016/EECS-2016-17.pdf).
* **BOOM**: C. Celio, et al., *Hot Chips 30*. [PDF](https://www.hotchips.org/hc30/1conf/1.03_Berkeley_BROOM_HC30.Berkeley.Celio.v02.pdf).
* **Hwacha**: Y. Lee, et al., *ESSCIRC'14*. [PDF](http://hwacha.org/papers/riscv-esscirc2014.pdf).
* **Gemmini**: H. Genc, et al., *arXiv*. [PDF](https://arxiv.org/pdf/1911.09925).
* **Sims**
* **FireSim**: S. Karandikar, et al., *ISCA'18*. [PDF](https://sagark.org/assets/pubs/firesim-isca2018.pdf).
* **FireSim Micro Top Picks**: S. Karandikar, et al., *IEEE Micro, Top Picks 2018*. [PDF](https://sagark.org/assets/pubs/firesim-micro-top-picks2018.pdf).
* **FASED**: D. Biancolin, et al., *FPGA'19*. [PDF](https://people.eecs.berkeley.edu/~biancolin/papers/fased-fpga19.pdf).
* **Golden Gate**: A. Magyar, et al., *ICCAD'19*. [PDF](https://davidbiancolin.github.io/papers/goldengate-iccad19.pdf).
* **FirePerf**: S. Karandikar, et al., *ASPLOS'20*. [PDF](https://sagark.org/assets/pubs/fireperf-asplos2020.pdf).
* **Tools**
* **Chisel**: J. Bachrach, et al., *DAC'12*. [PDF](https://people.eecs.berkeley.edu/~krste/papers/chisel-dac2012.pdf).
* **FIRRTL**: A. Izraelevitz, et al., *ICCAD'17*. [PDF](https://ieeexplore.ieee.org/document/8203780).
* **Chisel DSP**: A. Wang, et al., *DAC'18*. [PDF](https://ieeexplore.ieee.org/document/8465790).
* **VLSI**
* **Hammer**: E. Wang, et al., *ISQED'20*. [PDF](https://www.isqed.org/English/Archives/2020/Technical_Sessions/113.html).
[hwacha]:http://hwacha.org
[hammer]:https://github.com/ucb-bar/hammer
[firesim]:https://fires.im
[ucb-bar]: http://bar.eecs.berkeley.edu
[eecs]: https://eecs.berkeley.edu
[berkeley]: https://berkeley.edu
[riscv]: https://riscv.org/
[rocket-chip]: https://github.com/freechipsproject/rocket-chip
[boom]: https://github.com/ucb-bar/riscv-boom
[firemarshal]: https://github.com/firesim/FireMarshal/
[ariane]: https://github.com/pulp-platform/ariane/
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