## Project name
-SVP64 ISA Expansion Project
+Simple-V ISA Expansion Project
## Website / wiki
# 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 sequence of projects has enabled early development of vectorisation techniques in the RISC-V domain, and higher performance demonstration with OpenPOWER ISA. This project takes the learnings from previous projects to create a powerful RISC-V based vector ISA capable of the performance of the Power ISA. A full project list is maintained at: <https://libre-soc.org/nlnet_proposals/>
+A sequence of projects has enabled early development of vectorisation techniques in the RISC-V domain, and higher performance demonstration with OpenPOWER ISA. This project takes the learnings and work from previous projects to update RISC-V to a powerful vector ISA capable of the performance of the Power ISA. A full project list is maintained at: <https://libre-soc.org/nlnet_proposals/>
they include recently:
* <https://libre-soc.org/nlnet_2022_opf_isa_wg/> - improving SVP64
the RISC-V/Simple-V environment
* Research and assessment of ARM7 and i486 (both on opencores.org) as well as ARC
as to their feasibility for applying Simple-V Prefixing in future development projects
+* Development and publication of paper in Academic Journals and presentation
# Does the project have other funding sources, both past and present?
# Compare your own project with existing or historical efforts.
+Other modern ISAs claiming to be Vectors are in fact Packed or Predicated SIMD.
+True Cray-style Vector ISAs do not have Vertical-First or Data-Dependent
+Fail-First because these are entirely novel Computer Science concepts
+(developnet of which entirely funded by NLnet, with gratitude).
+Bottom line there are zero comparable projects but the project has learned
+significantly from past ISAs dating back as far as the early 1960s.
+
## What are significant technical challenges you expect to solve during the project, if any?
-The key technical challenge in this project is the creation of special Simple-V
-instructions that enable efficiency and performance from RISC-V that would normally only be obtained from high performance architectures like POWER. The newly developed instructions will be comprehensively tested and verified, both theoretically and practically in a simulator that leads the way to its use in the widespread developer community.
+The key technical challenge in this project is to rework the special Simple-V
+instructions (from the early iteration of four years ago) that enable efficiency and performance from RISC-V that would normally only be obtained from high performance architectures like POWER. The newly developed instructions will be comprehensively tested and verified, both theoretically and practically in a simulator that leads the way to its use in the widespread developer community.
Based on the previous work of Vectorising RISC-V and POWER using Simple-V already, this project is well within the scope of the experienced teams at LibreSOC and RED Semiconductor, but is extremely detailed and comprehensive, requiring meticulous attention to detail and a very high standard of Project Management. This is a sustained standard and practices developed already over a five year period that will continue to be rigorously applied.
## Describe the ecosystem of the project, and how you will engage with relevant actors and promote the outcomes?
-The Libre-SoC has a full set of resources for Libre Project Management and development: mailing list, bugtracker, git repository, wiki and also will be doing linkedin posts in other outreach - all listed here: <https://libre-soc.org/>
+Libre-SoC has a full set of resources for Libre Project Management and development: mailing list, bugtracker, git repository, wiki and also will be doing linkedin posts and other outreach as well as Academic-quality papers - all listed here: <https://libre-soc.org/>
# Extra info to be submitted
projects / libreriscv.git / commitdiff