## Overview of the user ISA:
-[Raymond Chen's PowerPC series](https://devblogs.microsoft.com/oldnewthing/20180806-00/?p=99425)
+* [Raymond Chen's PowerPC series](https://devblogs.microsoft.com/oldnewthing/20180806-00/?p=99425)
+* Power ISA listings <https://power-isa-beta.mybluemix.net/>
## OpenPOWER OpenFSI Spec (2016)
* [OpenPOWER OpenFSI Compliance Spec](http://openpowerfoundation.org/wp-content/uploads/resources/openpower-fsi-thts-1.0/openpower-fsi-thts-20180130.pdf)
+# Energy-efficient cores
+
+* https://arxiv.org/abs/2002.10143
+
# Communities
* <https://www.reddit.com/r/OpenPOWER/>
* <http://lists.mailinglist.openpowerfoundation.org/pipermail/openpower-hdl-cores/>
* <http://lists.mailinglist.openpowerfoundation.org/pipermail/openpower-community-dev/>
+* Open tape-out mailing list <https://groups.google.com/a/opentapeout.dev/g/mailinglist>
+
+# Other GPU Specifications
+*
+* https://developer.amd.com/wp-content/resources/RDNA_Shader_ISA.pdf
+* https://developer.amd.com/wp-content/resources/Vega_Shader_ISA_28July2017.pdf
+* MALI Midgard
+* [Nyuzi](https://github.com/jbush001/NyuziProcessor)
+* VideoCore IV
+* etnaviv
# JTAG
"The objective of this work is to design and implement a TAP controller IP core compatible with IEEE 1149.1-2013 revision of the standard. The test logic architecture also includes the Test Mode Persistence controller and its associated logic. This work is expected to serve as a ready to use module that can be directly inserted in to a new digital IC designs with little modifications."
-# 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 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.
-
-To fully take advantage of the RISC-V ecosystem, it is important to be
-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/)
-* [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 (correction: we were never going to). 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.
-<https://github.com/riscv/riscv-v-spec/blob/master/v-spec.adoc#vsetvlivsetvl-instructions>
-
# Radix MMU
- [Qemu emulation](https://github.com/qemu/qemu/commit/d5fee0bbe68d5e61e2d2beb5ff6de0b9c1cfd182)
# D-Cache
+- [A Primer on Memory Consistency and Cache Coherence
+](https://www.morganclaypool.com/doi/10.2200/S00962ED2V01Y201910CAC049)
+
## D-Cache Possible Optimizations papers and links
- [ACDC: Small, Predictable and High-Performance Data Cache](https://dl.acm.org/doi/10.1145/2677093)
+- [Stop Crying Over Your Cache Miss Rate: Handling Efficiently Thousands of
+Outstanding Misses in FPGAs](https://dl.acm.org/doi/abs/10.1145/3289602.3293901)
# BW Enhancing Shared L1 Cache Design research done in cooperation with AMD
- [Youtube video PACT 2020 - Analyzing and Leveraging Shared L1 Caches in GPUs](https://m.youtube.com/watch?v=CGIhOnt7F6s)
Note: Even though this is such an important standard used by everyone,
it is unfortunately not freely available and requires a payment to
-access. However, each of the Libre RISC-V members already have access
+access. However, each of the Libre-SOC members already have access
to the document.
* [Lecture notes - Floating Point Appreciation](http://pages.cs.wisc.edu/~markhill/cs354/Fall2008/notes/flpt.apprec.html)
* How not to design an ISA
<https://player.vimeo.com/video/450406346>
Meester Forsyth <http://eelpi.gotdns.org/>
+
# Khronos Standards
The Khronos Group creates open standards for authoring and acceleration
OpenCL while relying on other software projects to translate APIs to
Vulkan. E.g. Zink allows for OpenGL-to-Vulkan in software.
+# Open Source (CC BY + MIT) DirectX specs (by Microsoft, but not official specs)
+
+https://github.com/Microsoft/DirectX-Specs
+
# Graphics and Compute API Stack
I found this informative post that mentions Kazan and a whole bunch of
# Conferences
-## Free Silicon Conference
+see [[conferences]]
-The conference brought together experts and enthusiasts who want to build
-a complete Free and Open Source CAD ecosystem for designing analog and
-digital integrated circuits. The conference covered the full spectrum of
-the design process, from system architecture, to layout and verification.
-* <https://wiki.f-si.org/index.php/FSiC2019#Foundries.2C_PDKs_and_cell_libraries>
+# Coriolis2
* LIP6's Coriolis - a set of backend design tools:
<https://www-soc.lip6.fr/equipe-cian/logiciels/coriolis/>
Note: The rest of LIP6's website is in French, but there is a UK flag
in the corner that gives the English version.
+# Logical Equivalence and extraction
+
+* NETGEN
+* CVC https://github.com/d-m-bailey/cvc
+
+# Klayout
+
* KLayout - Layout viewer and editor: <https://www.klayout.de/>
+# image to GDS-II
+
+* https://nazca-design.org/convert-image-to-gds/
+
# The OpenROAD Project
OpenROAD seeks to develop and foster an autonomous, 24-hour, open-source
* Possible way to speed up our solvers for our formal proofs <https://web.archive.org/web/20201029205507/https://github.com/eth-sri/fastsmt>
* Algorithms (papers) submitted for 2018 International SAT Competition <https://web.archive.org/web/20201029205239/https://helda.helsinki.fi/bitstream/handle/10138/237063/sc2018_proceedings.pdf> <https://web.archive.org/web/20201029205637/http://www.satcompetition.org/>
+* Minisail <https://www.isa-afp.org/entries/MiniSail.html> - compiler
+ for SAIL into c
Some learning resources I found in the community:
* <https://www.ohwr.org/project/wishbone-gen>
+# Bus Architectures
+
+* Avalon <https://www.intel.com/content/dam/www/programmable/us/en/pdfs/literature/manual/mnl_avalon_spec.pdf>
+* CXM <https://www.computeexpresslink.org/download-the-specification>
+
+# Vector Processors
+
+* THOR <https://github.com/robfinch/Thor/blob/main/Thor2021/doc/Thor2021.pdf>
+* NEC SX-Aurora
+* RVV
+* MRISC32 <https://github.com/mrisc32/mrisc32>
+
# LLVM
## Adding new instructions:
# Python RTL Tools
+* <https://ieeexplore.ieee.org/document/9591456> pylog fpga
+ <https://github.com/hst10/pylog>
* [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.
[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
-* Minerva example using nmigen-soc
- <https://github.com/jfng/minerva-examples/blob/master/hello/core.py>
+ There is now a page [[docs/learning_nmigen]].
* [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>
# Other
+* Cray-1 Pocket Reference
+ <https://nitter.it/aka_pugs/status/1546576975166201856>
+ <https://ftp.libre-soc.org/cray-1-pocket-ref/>
+ <https://www.computerhistory.org/collections/catalog/102685876>
+* <https://github.com/tdene/synth_opt_adders> Prefix-tree generation scripts
* <https://debugger.medium.com/why-is-apples-m1-chip-so-fast-3262b158cba2> N1
* <https://codeberg.org/tok/librecell> Libre Cell Library
* <https://wiki.f-si.org/index.php/FSiC2019>
* <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
+* <https://github.com/Ben1152000/sootty> - console-based vcd viewer
+* <https://github.com/ics-jku/wal> - Waveform Analysis
* <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
Understanding Latency Hiding on GPUs, by Vasily Volkov
* Efabless "Openlane" <https://github.com/efabless/openlane>
* example of openlane with nmigen
- <https://gist.github.com/lethalbit/e65e296bc6a3810280d1b256c9df591b>
+ <https://github.com/lethalbit/nmigen/tree/openlane>
* Co-simulation plugin for verilator, transferring to ECP5
<https://github.com/vmware/cascade>
* Multi-read/write ported memories
* Circuit of Compunit <http://home.macintosh.garden/~mepy2/libre-soc/comp_unit_req_rel.html>
* Circuitverse 16-bit <https://circuitverse.org/users/17603/projects/54486>
* Nice example model of a Tomasulo-based architecture, with multi-issue, in-order issue, out-of-order execution, in-order commit, with reservation stations and reorder buffers, and hazard avoidance.
-<https://www.brown.edu/Departments/Engineering/Courses/En164/Tomasulo_10.pdf>
+<https://www.brown.edu/Departments/Engineering/Courses/En164/Tomasulo_10.pdf>
+* adrian_b architecture comparison <https://news.ycombinator.com/item?id=24459041>
+* ericandecscent RISC-V <https://libre-soc.org/irclog/%23libre-soc.2021-07-11.log.html>
+
# Real/Physical Projects
* [Samuel's KC5 code](http://chiselapp.com/user/kc5tja/repository/kestrel-3/dir?ci=6c559135a301f321&name=cores/cpu)
OpenTitan also uses FuseSoC
LowRISC is UK based
https://antmicro.com/blog/2020/12/ibex-support-in-verilator-yosys-via-uhdm-surelog/
+ https://cirosantilli.com/x86-paging
+ https://stackoverflow.com/questions/18431261/how-does-x86-paging-work
+ http://denninginstitute.com/modules/vm/red/i486page.html
```