Difference between revisions of "High level Simulation"
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* web: https://tima.imag.fr/sls/people/petrot/ | * web: https://tima.imag.fr/sls/people/petrot/ | ||
== | ==Downloads== | ||
[[ | * [[:File:fsic-petrot.pdf|Slides]] | ||
* [https://peertube.f-si.org/videos/watch/7072eda5-04f7-4816-87d2-53a8d892fc33 Video recording] | |||
==Abstract== | ==Abstract== | ||
Simulation at levels higher than RTL has been around for about 25 years now, and ad-hoc internally developed solutions, even though still quite in used, are gently being replaced by more opened, system level simulation environments. In this talk I will introduce system level simulation techniques, and give some details on two open-source digital system level environments: SoClib, a relatively confidential initiative targeting close to RTL descriptions, and QEMU, the very well known "processor emulator" (which is indeed a simulator). | Simulation at levels higher than RTL has been around for about 25 years now, and ad-hoc internally developed solutions, even though still quite in used, are gently being replaced by more opened, system level simulation environments. In this talk I will introduce system level simulation techniques, and give some details on two open-source digital system level environments: SoClib, a relatively confidential initiative targeting close to RTL descriptions, and QEMU, the very well known "processor emulator" (which is indeed a simulator). |
Latest revision as of 17:15, 16 July 2019
- Speaker(s): Frédéric Pétrot
- email: frederic.petrot@univ-grenoble-alpes.fr
- web: https://tima.imag.fr/sls/people/petrot/
Downloads
Abstract
Simulation at levels higher than RTL has been around for about 25 years now, and ad-hoc internally developed solutions, even though still quite in used, are gently being replaced by more opened, system level simulation environments. In this talk I will introduce system level simulation techniques, and give some details on two open-source digital system level environments: SoClib, a relatively confidential initiative targeting close to RTL descriptions, and QEMU, the very well known "processor emulator" (which is indeed a simulator).
Software
Disclaimer: Please note that I am not among the authors of these programs, and present them only because they are useful to my research and believe it could be useful to others.
SoClib
General information
- Repository: https://www.soclib.fr/svn/trunk/soclib
- Main documentation website: https://www.soclib.fr/
- Wikipedia page: None (yet!)
- Wiki page on wiki.f-si.org: None (yet!) either
- The software has been used in the following projects: SoClib, TSAR
- The software has been extensively used to teach classes at the hardware/software interface
Roadmap
- The software wishes to interface with the following tools: GHDL? GTKWave? QEMU?
- The project seeks help on:
- general project architecture and cleanup
- ISS support (through QEMU? or conversely)
- Testing infrastructure
- And ideas to speed-up simulation
- Predecode in caches
- Parallel simulation
- ...
- New platforms
- New IPs
References
Papers by various authors of the SoClib environment
QEMU
General information
- Repository: https://git.qemu.org/git/qemu.git
- Main documentation website: https://www.qemu.org/
- Wikipedia page: https://en.wikipedia.org/wiki/QEMU
- The software has been used in the following projects: The Android Emulator, and too many to name, and many we are not aware of!
- The software has been extensively used to teach classes in assembler level programming and operating system design and implementation
- for example (in French, sorry): Projet de conception de système d'exploitation
Roadmap
- On the hands on the QEMU community!
- But what could be useful to us:
- instrumentation infrastructure (many proposals, none made it to mainline yet)
- clean way to encapsulate a CPU
References
Fabrice Bellard. QEMU, a fast and portable dynamic translator. Proceedings of the USENIX Annual Technical Conference, 2005.