3d_gpu.mdwn

   1 # RISC-V 3D GPU / CPU / VPU
   2
   3 Note: this is a **hybrid** CPU, VPU and GPU.  It is not, as many news articles
   4 are implying, a "dedicated exclusive GPU".  The option exists to **create**
   5 a stand-alone GPU product.  It is being *designed* to be a **complete**
   6 all-in-one processor (System-on-a-Chip).
   7
   8 We seek investors, sponsors, engineers and potential customers, who are
   9 interested in the creation and use of an entirely libre low-power mobile
  10 class system-on-a-chip.  Comparative benchmark performance, pincount and
  11 price is the Allwinner A64, except that the power budget target is 2.5 watts
  12 in a 16x16mm 320 to 360 pin 0.8mm FBGA package.
  13
  14 See:
  15
  16 * [[shakti/m_class/libre_3d_gpu]]
  17 * [[discussion]]
  18 * Founding [[charter]]
  19 * Mailing list <http://lists.libre-riscv.org/pipermail/libre-riscv-dev/>
  20 * Crowdsupply page <https://www.crowdsupply.com/libre-risc-v/m-class>
  21 * Wiki <https://libre-riscv.org>
  22 * Git repositories <https://git.libre-riscv.org>
  23 * Bugtracker <http://bugs.libre-riscv.org>
  24 * Kazan Vulkan Driver (including 3D engine) <https://salsa.debian.org/Kazan-team/kazan>
  25 * [NLNet 2019 Milestones](http://bugs.libre-riscv.org/buglist.cgi?columnlist=assigned_to%2Cbug_status%2Cresolution%2Cshort_desc%2Ccf_budget&f1=cf_nlnet_milestone&o1=equals&query_format=advanced&resolution=---&v1=NLnet.2019.02)
  26
  27 Progress:
  28
  29 * Apr 2019: NLnet funding approved by independent review committee
  30 * Mar 2019: NLnet funding application first and second phase passed
  31 * Mar 2019: First successful nmigen pipeline milestone achieved with IEEE754 FADD
  32 * Feb 2019: Conversion of John Dawson's IEEE754 FPU to nmigen started
  33 * Jan 2019: Second version Simple-V preliminary proposal (suited to LLVM)
  34 * 2017 - Nov 2018: Simple-V specification preliminary draft completed
  35 * Aug 2018 - Nov 2018: spike-sv implementation of draft spec completed
  36 * Aug 2018: Kazan Vulkan Driver initiated
  37 * Sep 2018: mailing list established
  38 * Sep 2018: Crowdsupply pre-launch page up (for updates)
  39 * Dec 2018: preliminary floorplan and architecture designed (comp.arch)
  40
  41 # News Articles
  42
  43 * <https://hub.packtpub.com/a-libre-gpu-effort-based-on-risc-v-rust-llvm-and-vulkan-by-the-developer-of-an-earth-friendly-computer/>
  44 * <https://riscv.org/2018/10/packt-hub-article-a-libre-gpu-effort-based-on-risc-v-rust-llvm-and-vulkan-by-the-developer-of-an-earth-friendly-computer/>
  45 * <https://www.reddit.com/r/RISCV/comments/9jts9t/theres_a_new_libre_gpu_effort_building_on_riscv/>
  46 * <https://www.linux.com/blog/2018/11/risc-v-linux-development-full-swing>
  47 * <https://www.phoronix.com/scan.php?page=news_item&px=Libre-GPU-RISC-V-Vulkan>
  48 * <https://www.heise.de/newsticker/meldung/Mobilprozessor-mit-freier-GPU-Libre-RISC-V-M-Class-geplant-4242802.html>
  49 * <https://news.ycombinator.com/item?id=18094734>
  50 * <http://www.tuxmachines.org/node/116004>
  51 * <https://linuxfr.org/users/martoni/journaux/risc-v-est-pret-pour-le-desktop>
  52 * <https://www.reddit.com/r/hardware/comments/9jlby1/theres_a_new_libre_gpu_effort_building_on_riscv/>
  53 * <http://www.eevblog.com/forum/crowd-funded-projects/libre-risc-v-m-class-with-open-source-gpu-and-kazan-vulkan-driver/>
  54 * <https://www.reddit.com/domain/libre-riscv.org/>
  55 * <https://hardware.slashdot.org/comments.pl?sid=13447940&cid=58160868>
  56 * <https://www.phoronix.com/forums/forum/hardware/graphics-cards/1080755-libre-risc-v-gpu-aiming-for-2-5-watt-power-draw-continues-being-plotted/page5>
  57
  58 # Information Resources and Tutorials
  59
  60 * <https://github.com/timvideos/litex-buildenv/wiki/LiteX-for-Hardware-Engineers>
  61 * <https://jeffrey.co.in/blog/2014/01/d-flip-flop-using-migen/>
  62 * <http://lists.libre-riscv.org/pipermail/libre-riscv-dev/2019-March/000705.html>
  63 * <https://chisel.eecs.berkeley.edu/api/latest/chisel3/util/DecoupledIO.html>
  64 * <http://www.clifford.at/papers/2016/yosys-synth-formal/slides.pdf>
  65 * <http://blog.lambdaconcept.com/doku.php?id=migen:tutorial>
  66 * <http://chiselapp.com/user/kc5tja/repository/kestrel-3/dir?ci=6c559135a301f321&name=cores/cpu>
  67 * <https://chips4makers.io/blog/>
  68 * <https://hackaday.io/project/7817-zynqberry>
  69 * <https://wiki.f-si.org/index.php/FSiC2019>
  70 * <https://github.com/efabless/raven-picorv32> - <https://efabless.com>
  71 * <https://efabless.com/design_catalog/default>
  72 * <https://toyota-ai.ventures/>
  73 * <https://github.com/lambdaconcept/minerva>
  74 * <https://en.wikipedia.org/wiki/Liskov_substitution_principle>
  75 * <https://en.wikipedia.org/wiki/Principle_of_least_astonishment>
  76 * <https://peertube.f-si.org/videos/watch/379ef007-40b7-4a51-ba1a-0db4f48e8b16>
  77 * <https://github.com/riscv/riscv-sbi-doc/blob/master/riscv-sbi.md>
  78 * <https://mshahrad.github.io/openpiton-asplos16.html>
  79 * <https://wiki.f-si.org/index.php/The_Raven_chip:_First-time_silicon_success_with_qflow_and_efabless>
  80 * <http://smallcultfollowing.com/babysteps/blog/2019/04/19/aic-adventures-in-consensus/>
  81 * <http://www.crnhq.org/12-Skills-Summary.aspx?rw=c>
  82 * <http://bugs.libre-riscv.org/buglist.cgi?columnlist=assigned_to%2Cbug_status%2Cresolution%2Cshort_desc%2Ccf_budget&f1=cf_nlnet_milestone&o1=equals&query_format=advanced&resolution=---&v1=NLnet.2019.02>
  83 * <https://pdfs.semanticscholar.org/5060/4e9aff0e37089c4ab9a376c3f35761ffe28b.pdf>
  84 * <http://www.acsel-lab.com/arithmetic/arith15/papers/ARITH15_Takagi.pdf>
  85 * <https://youtu.be/o5Ihqg72T3c>
  86 * <http://flopoco.gforge.inria.fr/>
  87
  88 # Analog Simulation
  89
  90 * <https://github.com/Isotel/mixedsim>
  91 * <http://www.vlsiacademy.org/open-source-cad-tools.html>
  92 * <http://ngspice.sourceforge.net/adms.html>
  93 * <https://en.wikipedia.org/wiki/Verilog-AMS#Open_Source_Implementations>