in one place for quick access. We will try our best to keep links here
up-to-date. Feel free to add more links here.
+[[!toc ]]
+
+# Getting Started
+
+This section is primarily a series of useful links found online
+
+* [FSiC2019](https://wiki.f-si.org/index.php/FSiC2019)
+* Fundamentals to learn to get started [[3d_gpu/tutorial]]
+
+## Is Open Source Hardware Profitable?
+[RaptorCS on FOSS Hardware Interview](https://www.youtube.com/watch?v=o5Ihqg72T3c&feature=youtu.be)
+
# OpenPOWER ISA
-* <https://openpowerfoundation.org/?resource_lib=power-isa-version-3-0>
-* <https://openpowerfoundation.org/?resource_lib=ibm-power-isa-version-2-07-b>
+* [3.0 PDF](https://openpowerfoundation.org/?resource_lib=power-isa-version-3-0)
+* [2.07 PDF](https://openpowerfoundation.org/?resource_lib=ibm-power-isa-version-2-07-b)
+
+## Overview of the user ISA:
+
+[Raymond Chen's PowerPC series](https://devblogs.microsoft.com/oldnewthing/20180806-00/?p=99425)
+
+## OpenPOWER OpenFSI Spec (2016)
+
+* [OpenPOWER OpenFSI Spec](http://openpowerfoundation.org/wp-content/uploads/resources/OpenFSI-spec-100/OpenFSI-spec-20161212.pdf)
+
+* [OpenPOWER OpenFSI Compliance Spec](http://openpowerfoundation.org/wp-content/uploads/resources/openpower-fsi-thts-1.0/openpower-fsi-thts-20180130.pdf)
# RISC-V Instruction Set Architecture
+**PLEASE UPDATE** - we are no longer implementing full RISCV, only user-space
+RISCV
+
The Libre RISC-V Project is building a hybrid CPU/GPU SoC. As the name
-of the project implies, we will be following the RISC-V ISA due to it
+of the project implies, we will be following the RISC-V ISA I due to it
being open-source and also because of the huge software and hardware
ecosystem building around it. There are other open-source ISAs but none
of them have the same momentum and energy behind it as RISC-V.
compliant with the RISC-V standards. Doing so will allow us to to reuse
most software as-is and avoid major forks.
-* Official compiled PDFs of RISC-V ISA Manual:
- <https://github.com/riscv/riscv-isa-manual/releases/latest>
-* Working draft of the proposed RISC-V Bitmanipulation extension:
- <https://github.com/riscv/riscv-bitmanip/blob/master/bitmanip-draft.pdf>
-* RISC-V "V" Vector Extension:
- <https://riscv.github.io/documents/riscv-v-spec/>
+* [Official compiled PDFs of RISC-V ISA Manual]
+ (https://github.com/riscv/riscv-isa-manual/releases/latest)
+* [Working draft of the proposed RISC-V Bitmanipulation extension](https://github.com/riscv/riscv-bitmanip/blob/master/bitmanip-draft.pdf)
+* [RISC-V "V" Vector Extension](https://riscv.github.io/documents/riscv-v-spec/)
+* [RISC-V Supervisor Binary Interface Specification](https://github.com/riscv/riscv-sbi-doc/blob/master/riscv-sbi.md)
Note: As far as I know, we aren't using the RISC-V V Extension directly
at the moment. However, there are many wiki pages that make a reference
to the V extension so it would be good to include it here as a reference
for comparative/informative purposes with regard to Simple-V.
-# IEEE Standard for Floating-Point Arithmetic (IEEE 754)
+# Radix MMU
+ - [Qemu emulation](https://github.com/qemu/qemu/commit/d5fee0bbe68d5e61e2d2beb5ff6de0b9c1cfd182)
+
+# D-Cache
+
+## D-Cache Possible Optimizations papers and links
+- [ACDC: Small, Predictable and High-Performance Data Cache](https://dl.acm.org/doi/10.1145/2677093)
+
+
+# RTL Arithmetic SQRT, FPU etc.
+
+## Sqrt
+* [Fast Floating Point Square Root](https://pdfs.semanticscholar.org/5060/4e9aff0e37089c4ab9a376c3f35761ffe28b.pdf)
+* [Reciprocal Square Root Algorithm](http://www.acsel-lab.com/arithmetic/arith15/papers/ARITH15_Takagi.pdf)
+
+## CORDIC and related algorithms
+
+* <https://bugs.libre-soc.org/show_bug.cgi?id=127> research into CORDIC
+* <https://bugs.libre-soc.org/show_bug.cgi?id=208>
+* [BKM (log(x) and e^x)](https://en.wikipedia.org/wiki/BKM_algorithm)
+* [CORDIC](http://www.andraka.com/files/crdcsrvy.pdf)
+ - Does not have an easy way of computing tan(x)
+* [zipcpu CORDIC](https://zipcpu.com/dsp/2017/08/30/cordic.html)
+* [Low latency and Low error floating point TCORDIC](https://ieeexplore.ieee.org/document/7784797) (email Michael or Cole if you don't have IEEE access)
+* <http://www.myhdl.org/docs/examples/sinecomp/> MyHDL version of CORDIC
+
+## IEEE Standard for Floating-Point Arithmetic (IEEE 754)
Almost all modern computers follow the IEEE Floating-Point Standard. Of
course, we will follow it as well for interoperability.
access. However, each of the Libre RISC-V members already have access
to the document.
+* [Lecture notes - Floating Point Appreciation](http://pages.cs.wisc.edu/~markhill/cs354/Fall2008/notes/flpt.apprec.html)
+
+Among other things, has a nice explanation on arithmetic, rounding modes and the sticky bit.
+
+* [What Every Computer Scientist Should Know About Floating-Point Arithmetic](https://docs.oracle.com/cd/E19957-01/806-3568/ncg_goldberg.html)
+
+Nice resource on rounding errors (ulps and epsilon) and the "table maker's dilemma".
+
+## Past FPU Mistakes to learn from
+
+* [Intel Underestimates Error Bounds by 1.3 quintillion on
+Random ASCII – tech blog of Bruce Dawson ](https://randomascii.wordpress.com/2014/10/09/intel-underestimates-error-bounds-by-1-3-quintillion/)
+* [Intel overstates FPU accuracy 06/01/2013](http://notabs.org/fpuaccuracy)
+
# Khronos Standards
The Khronos Group creates open standards for authoring and acceleration
Thus the [[zfpacc_proposal]] has been created which permits runtime dynamic
switching between different accuracy levels, in userspace applications.
-**SPIR-V Main Page <https://www.khronos.org/registry/spir-v/>**
+[**SPIR-V Main Page Link**](https://www.khronos.org/registry/spir-v/)
+
+* [SPIR-V 1.5 Specification Revision 1](https://www.khronos.org/registry/spir-v/specs/unified1/SPIRV.html)
+* [SPIR-V OpenCL Extended Instruction Set](https://www.khronos.org/registry/spir-v/specs/unified1/OpenCL.ExtendedInstructionSet.100.html)
+* [SPIR-V GLSL Extended Instruction Set](https://www.khronos.org/registry/spir-v/specs/unified1/GLSL.std.450.html)
+
+[**Vulkan Main Page Link**](https://www.khronos.org/registry/vulkan/)
-* SPIR-V 1.5 Specification Revision 1:
- <https://www.khronos.org/registry/spir-v/specs/unified1/SPIRV.html>
-* SPIR-V OpenCL Extended Instruction Set:
- <https://www.khronos.org/registry/spir-v/specs/unified1/OpenCL.ExtendedInstructionSet.100.html>
-* SPIR-V GLSL Extended Instruction Set:
- <https://www.khronos.org/registry/spir-v/specs/unified1/GLSL.std.450.html>
+* [Vulkan 1.1.122](https://www.khronos.org/registry/vulkan/specs/1.1-extensions/html/index.html)
-**Vulkan Main Page <https://www.khronos.org/registry/vulkan/>**
+[**OpenCL Main Page**](https://www.khronos.org/registry/OpenCL/)
-* Vulkan 1.1.122:
- <https://www.khronos.org/registry/vulkan/specs/1.1-extensions/html/index.html>
+* [OpenCL 2.2 API Specification](https://www.khronos.org/registry/OpenCL/specs/2.2/html/OpenCL_API.html)
+* [OpenCL 2.2 Extension Specification](https://www.khronos.org/registry/OpenCL/specs/2.2/html/OpenCL_Ext.html)
+* [OpenCL 2.2 SPIR-V Environment Specification](https://www.khronos.org/registry/OpenCL/specs/2.2/html/OpenCL_Env.html)
-**OpenCL Main Page <https://www.khronos.org/registry/OpenCL/>**
+* OpenCL released the proposed OpenCL 3.0 spec for comments in april 2020
-* OpenCL 2.2 API Specification:
- <https://www.khronos.org/registry/OpenCL/specs/2.2/html/OpenCL_API.html>
-* OpenCL 2.2 Extension Specification:
- <https://www.khronos.org/registry/OpenCL/specs/2.2/html/OpenCL_Ext.html>
-* OpenCL 2.2 SPIR-V Environment Specification:
- <https://www.khronos.org/registry/OpenCL/specs/2.2/html/OpenCL_Env.html>
+* [Announcement video](https://youtu.be/h0_syTg6TtY)
+* [Announcement video slides (PDF)](https://www.khronos.org/assets/uploads/apis/OpenCL-3.0-Launch-Apr20.pdf)
Note: We are implementing hardware accelerated Vulkan and
OpenCL while relying on other software projects to translate APIs to
<https://synappsis.wordpress.com/2017/06/03/opengl-over-vulkan-dev/>
-# Free Silicon Conference
+* Pixilica is heading up an initiative to create a RISC-V graphical ISA
+
+* [Pixilica 3D Graphical ISA Slides](https://b5792ddd-543e-4dd4-9b97-fe259caf375d.filesusr.com/ugd/841f2a_c8685ced353b4c3ea20dbb993c4d4d18.pdf)
+
+
+# Various POWER Communities
+ - [An effort to make a 100% Libre POWER Laptop](https://www.powerpc-notebook.org/en/)
+ The T2080 is a POWER8 chip.
+ - [Power Progress Community](https://www.powerprogress.org/campaigns/donations-to-all-the-power-progress-community-projects/)
+ Supporting/Raising awareness of various POWER related open projects on the FOSS
+ community
+ - [OpenPOWER](https://openpowerfoundation.org)
+ Promotes and ensure compliance with the Power ISA amongst members.
+ - [OpenCapi](https://opencapi.org)
+ High performance interconnect for POWER machines. One of the big advantages
+ of the POWER architecture. Notably more performant than PCIE Gen4, and is
+ designed to be layered on top of the physical PCIE link.
+ - [OpenPOWER “Virtual Coffee” Calls](https://openpowerfoundation.org/openpower-virtual-coffee-calls/)
+ Truly open bi-weekly teleconference lines for anybody interested in helping
+ advance or adopting the POWER architecture.
+
+# Conferences
+
+## Free Silicon Conference
The conference brought together experts and enthusiasts who want to build
a complete Free and Open Source CAD ecosystem for designing analog and
* //TODO LINK TO RISC-V CONFORMANCE TEST
-## IEEE 754 Tests
+## IEEE 754 Testing/Emulation
+
+IEEE 754 has no official tests for floating-point but there are
+well-known third party tools to check such as John Hauser's TestFloat.
-IEEE 754 has no official tests for floating-point but there are several
-well-known third party tools to check such as John Hauser's SoftFloat
-and TestFloat.
+There is also his SoftFloat library, which is a software emulation
+library for IEEE 754.
* <http://www.jhauser.us/arithmetic/>
-Jacob is also making a Rust library to check IEEE 754 operations.
+Jacob is also working on an IEEE 754 software emulation library written
+in Rust which also has Python bindings:
-* <http://lists.libre-riscv.org/pipermail/libre-riscv-dev/2019-September/002737.html>
+* Source: <https://salsa.debian.org/Kazan-team/simple-soft-float>
+* Crate: <https://crates.io/crates/simple-soft-float>
+* Autogenerated Docs: <https://docs.rs/simple-soft-float/>
A cool paper I came across in my research is "IeeeCC754++ : An Advanced
Set of Tools to Check IEEE 754-2008 Conformity" by Dr. Matthias Hüsken.
Some learning resources I found in the community:
-* ZipCPU: <http://zipcpu.com/>
-
-ZipCPU provides a comprehensive tutorial for beginners and many exercises/quizzes/slides: <http://zipcpu.com/tutorial/>
-
-
-* Western Digital's SweRV CPU blog (I recommend looking at all their posts): <https://tomverbeure.github.io/>
-
-<https://tomverbeure.github.io/risc-v/2018/11/19/A-Bug-Free-RISC-V-Core-without-Simulation.html>
-
-<https://tomverbeure.github.io/rtl/2019/01/04/Under-the-Hood-of-Formal-Verification.html>
+* ZipCPU: <http://zipcpu.com/> ZipCPU provides a comprehensive
+ tutorial for beginners and many exercises/quizzes/slides:
+ <http://zipcpu.com/tutorial/>
+* Western Digital's SweRV CPU blog (I recommend looking at all their
+ posts): <https://tomverbeure.github.io/>
+* <https://tomverbeure.github.io/risc-v/2018/11/19/A-Bug-Free-RISC-V-Core-without-Simulation.html>
+* <https://tomverbeure.github.io/rtl/2019/01/04/Under-the-Hood-of-Formal-Verification.html>
## Automation
* <https://danluu.com/branch-prediction/>
-
-# Information Resources and Tutorials
-
-This section is primarily a series of useful links found online
-
-* FSiC2019 <https://wiki.f-si.org/index.php/FSiC2019>
-* Fundamentals to learn to get started [[3d_gpu/tutorial]]
-* <https://github.com/timvideos/litex-buildenv/wiki/LiteX-for-Hardware-Engineers>
-* <https://jeffrey.co.in/blog/2014/01/d-flip-flop-using-migen/>
-* <http://lists.libre-riscv.org/pipermail/libre-riscv-dev/2019-March/000705.html>
+# Python RTL Tools
+
+* [Migen - a Python RTL](https://jeffrey.co.in/blog/2014/01/d-flip-flop-using-migen/)
+* [LiTeX](https://github.com/timvideos/litex-buildenv/wiki/LiteX-for-Hardware-Engineers)
+ An SOC builder written in Python Migen DSL. Allows you to generate functional
+ RTL for a SOC configured with cache, a RISCV core, ethernet, DRAM support,
+ and parameterizeable CSRs.
+* [Migen Tutorial](http://blog.lambdaconcept.com/doku.php?id=migen:tutorial>)
+* There is a great guy, Robert Baruch, who has a good
+ [tutorial](https://github.com/RobertBaruch/nmigen-tutorial) on nMigen.
+ He also build an FPGA-proven Motorola 6800 CPU clone with nMigen and put
+ [the code](https://github.com/RobertBaruch/n6800) and
+ [instructional videos](https://www.youtube.com/playlist?list=PLEeZWGE3PwbbjxV7_XnPSR7ouLR2zjktw)
+ online.
+* [Minerva](https://github.com/lambdaconcept/minerva)
+ An SOC written in Python nMigen DSL
+* [Using our Python Unit Tests(old)](http://lists.libre-riscv.org/pipermail/libre-riscv-dev/2019-March/000705.html)
* <https://chisel.eecs.berkeley.edu/api/latest/chisel3/util/DecoupledIO.html>
* <http://www.clifford.at/papers/2016/yosys-synth-formal/slides.pdf>
-* <http://blog.lambdaconcept.com/doku.php?id=migen:tutorial>
-* Samuel's KC5 code <http://chiselapp.com/user/kc5tja/repository/kestrel-3/dir?ci=6c559135a301f321&name=cores/cpu>
+
+# Other
+
+* <https://wiki.f-si.org/index.php/FSiC2019>
+* <https://fusesoc.net>
+* <https://www.lowrisc.org/open-silicon/>
+* <http://fpgacpu.ca/fpga/Pipeline_Skid_Buffer.html> pipeline skid buffer
+* <https://pyvcd.readthedocs.io/en/latest/vcd.gtkw.html> GTKwave
+* <http://www.sunburst-design.com/papers/CummingsSNUG2002SJ_Resets.pdf>
+ Synchronous Resets? Asynchronous Resets? I am so confused! How will I
+ ever know which to use? by Clifford E. Cummings
+* <http://www.sunburst-design.com/papers/CummingsSNUG2008Boston_CDC.pdf>
+ Clock Domain Crossing (CDC) Design & Verification Techniques Using
+ SystemVerilog, by Clifford E. Cummings
+ In particular, see section 5.8.2: Multi-bit CDC signal passing using
+ 1-deep / 2-register FIFO synchronizer.
+* <http://www2.eecs.berkeley.edu/Pubs/TechRpts/2016/EECS-2016-143.pdf>
+ Understanding Latency Hiding on GPUs, by Vasily Volkov
+* Efabless "Openlane" <https://github.com/efabless/openlane>
+* Co-simulation plugin for verilator, transferring to ECP5
+ <https://github.com/vmware/cascade>
+
+
+# Real/Physical Projects
+
+* [Samuel's KC5 code](http://chiselapp.com/user/kc5tja/repository/kestrel-3/dir?ci=6c559135a301f321&name=cores/cpu)
* <https://chips4makers.io/blog/>
* <https://hackaday.io/project/7817-zynqberry>
-* <https://wiki.f-si.org/index.php/FSiC2019>
-* <https://github.com/efabless/raven-picorv32> - <https://efabless.com>
+* <https://github.com/efabless/raven-picorv32>
+* <https://efabless.com>
* <https://efabless.com/design_catalog/default>
+* <https://wiki.f-si.org/index.php/The_Raven_chip:_First-time_silicon_success_with_qflow_and_efabless>
+* <https://mshahrad.github.io/openpiton-asplos16.html>
+
+# ASIC tape-out pricing
+
+* <https://europractice-ic.com/wp-content/uploads/2020/05/General-MPW-EUROPRACTICE-200505-v8.pdf>
+
+# Funding
+
* <https://toyota-ai.ventures/>
-* <https://github.com/lambdaconcept/minerva>
-* <https://en.wikipedia.org/wiki/Liskov_substitution_principle>
-* <https://en.wikipedia.org/wiki/Principle_of_least_astonishment>
+* [NLNet Applications](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)
+
+# Good Programming/Design Practices
+
+* [Liskov Substitution Principle](https://en.wikipedia.org/wiki/Liskov_substitution_principle)
+* [Principle of Least Astonishment](https://en.wikipedia.org/wiki/Principle_of_least_astonishment)
* <https://peertube.f-si.org/videos/watch/379ef007-40b7-4a51-ba1a-0db4f48e8b16>
-* <https://github.com/riscv/riscv-sbi-doc/blob/master/riscv-sbi.md>
-* <https://mshahrad.github.io/openpiton-asplos16.html>
-* <https://wiki.f-si.org/index.php/The_Raven_chip:_First-time_silicon_success_with_qflow_and_efabless>
-* <http://smallcultfollowing.com/babysteps/blog/2019/04/19/aic-adventures-in-consensus/>
-* <http://www.crnhq.org/12-Skills-Summary.aspx?rw=c>
-* <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>
-* <https://pdfs.semanticscholar.org/5060/4e9aff0e37089c4ab9a376c3f35761ffe28b.pdf>
-* <http://www.acsel-lab.com/arithmetic/arith15/papers/ARITH15_Takagi.pdf>
+* [Rust-Lang Philosophy and Consensus](http://smallcultfollowing.com/babysteps/blog/2019/04/19/aic-adventures-in-consensus/)
+
* <https://youtu.be/o5Ihqg72T3c>
* <http://flopoco.gforge.inria.fr/>
-* Fundamentals of Modern VLSI Devices <https://groups.google.com/a/groups.riscv.org/d/msg/hw-dev/b4pPvlzBzu0/7hDfxArEAgAJ>
+* Fundamentals of Modern VLSI Devices
+ <https://groups.google.com/a/groups.riscv.org/d/msg/hw-dev/b4pPvlzBzu0/7hDfxArEAgAJ>
+
+# 12 skills summary
+
+* <https://www.crnhq.org/cr-kit/>
# Analog Simulation
* <http://ngspice.sourceforge.net/adms.html>
* <https://en.wikipedia.org/wiki/Verilog-AMS#Open_Source_Implementations>
-# Libre-RISC-V Standards
+# Libre-SOC Standards
This list auto-generated from a page tag "standards":
# Server setup
-[[resources/server-setup/git-mirroring]]
+* [[resources/server-setup/web-server]]
+* [[resources/server-setup/git-mirroring]]
+* [[resources/server-setup/nagios-monitoring]]
+
+# Testbeds
+
+* <https://www.fed4fire.eu/testbeds/>
+
+# Really Useful Stuff
+
+* <https://github.com/im-tomu/fomu-workshop/blob/master/docs/requirements.txt>
+* <https://github.com/im-tomu/fomu-workshop/blob/master/docs/conf.py#L39-L47>