# NL.net proposal
+* 2022-08-051, approved 24 Oct 2022
+* [[nlnet_2022_opf_isa_wg/discussion]]
+* <https://bugs.libre-soc.org/show_bug.cgi?id=952>
## Project name
-OpenPOWER ISA RFCs
+Libre-SOC OpenPOWER ISA RFCs
## Website / wiki
<https://libre-soc.org/nlnet_2022_opf_isa_wg>
+## NLnet Funding approved 25-Oct-2022 under EU Grant 101069594
+
+This project is funded through the [NGI Zero Entrust Fund](https://nlnet.nl/entrust), a fund established by [NLnet](https://nlnet.nl) with financial support from the European Commission's [Next Generation Internet](https://ngi.eu) program. Learn more on the [NLnet project page](https://nlnet.nl/project/Libre-SOC-OpenPOWER-ISA#ack).
+
+
+[<img src="https://nlnet.nl/logo/banner.png" alt="NLnet foundation logo" width="20%" />](https://nlnet.nl)
+[<img src="https://nlnet.nl/image/logos/NGI0Entrust_tag.svg" alt="NGI Zero Entrust Logo" width="20%" />](https://nlnet.nl/entrust)
+
+# Summary
+
+In earlier NLnet Grants, thanks to EU funding, we developed Draft
+SVP64 (a Vector Extension for the Power ISA), around a hundred
+new Draft instructions that dramatically improves the Supercomputing-class
+Power ISA, a Simulator, thousands
+of unit tests and over 350 pages of documentation. What we could
+not do however was submit a Specification to the OpenPOWER ISA
+Working Group because the ISA WG was in the process of being
+ratified. That has now been done, and we need to begin the
+formal process of writing up "Requests For Change" and submitting
+them. The end result will be an extremely powerful Vector ISA suitable
+for use in Digitally-Sovereign end-user products.
+
+# Submission to NLnet
+
Please be short and to the point in your answers; focus primarily on
the what and how, not so much on the why. Add longer descriptions as
attachments (see below). If English isn't your first language, don't
The current NLnet funding to date has allowed Libre-SOC to develop
one of the most powerful Scalable Vector ISAs in the world.
The 25-year-old Power ISA, developed and curated by IBM, was
-transferred to the OpenPOWER Foundation, and is the basis of
+transferred to the OpenPOWER Foundation, and is the basis on
+which, with NLnet EU funding, we have based
Simple-V, the Draft Scalable Vector Extension.
Simple-V *needs* to be submitted to the OPF ISA Working Group,
https://ftp.libre-soc.org/simple_v_spec.pdf
However the
-process of submitting Requests For Change, at the time of writing,
+process of submitting RFCs (Requests For Change), at the time of writing,
still has not been publicly announced and opened up. We expect it
-to be very soon, but obviously could not begin any RFC Submission as
-part of the earlier NLnet funding.
+to be very soon, but obviously could not begin any RFC Submission
+as part of earlier NLnet funding. The timing is now right.
-We will also become informed very shortly of the procedures but anticipate
+We will become publicly informed very shortly of the procedures but anticipate
it to include development and submission of Compliance Test Suites
(already partly covered by Simple-V unit tests, kindly funded by NLnet)
as well as ongoing work on the Simulator.
# Have you been involved with projects or organisations relevant to this project before? And if so, can you tell us a bit about your contributions?
A lot! a full list is maintained here <https://libre-soc.org/nlnet_proposals/>
-and includes the world's first FOSSHW IEEE754 Formal Correctness Proofs for fadd, fsub, and fma, with support for FP Formal Proofs added to symbiyosis;
-the world's first in-place Discrete Cosine Transform algorithm;
-Significant improvements to Europe's only silicon-proven FOSSHW VLSI toolchain (coriolis2, by LIP6 Labs) to do an 800,000 transistor fully automated RTL2GDSII
-tape-out; the side-benefits alone are enormous.
+and includes
+
+* the world's first FOSSHW IEEE754 Formal Correctness Proofs for fadd, fsub, and fma, with support for FP Formal Proofs added to symbiyosis;
+* the world's first in-place Discrete Cosine Transform algorithm;
+* Significant improvements to Europe's only silicon-proven FOSSHW VLSI toolchain (coriolis2, by LIP6 Labs of Sorbonne University)
+ to do an 800,000 transistor fully automated RTL2GDSII
+tape-out;
+* development of a 180nm Power ISA 3.0 "Test ASIC", the largest fully FOSSHW
+ ASIC ever taped-out in Europe (and funded by Horizon 2020)
+* development of an Interoperability "Test API" for Power ISA systems,
+ with thousands of unit tests.
+
+and much more. The side-benefits alone for EU citizens are enormous.
# Requested Amount
We are developing a Cray-style Scalable Vector ISA Extension for
the Supercomputing-class Power ISA. Similar historic ISAs include
-Cray YMP1, ETA-19, Cyber CDC 205. More recent is the NEC SX Aurora.
+Cray Y/MP, ETA-10, Cyber CDC 205. More recent is the NEC SX Aurora.
They are all proprietary systems: Libre-SOC's efforts are entirely
FOSSHW.