-# RISC-V 3D GPU / CPU / VPU
+# Hybrid 3D GPU / CPU / VPU
Creating a trustworthy processor for the world.
+Our [[3d_gpu/business_objectives]]
+
Note: this is a **hybrid** CPU, VPU and GPU. It is not, as many news articles
are implying, a "dedicated exclusive GPU". The option exists to *create*
a stand-alone GPU product (contact us if this is a product that you want).
Recent applications to NLNet (Oct 2019) are for a test chip in 180nm,
64 bit, single core dual issue, around 300 to 350mhz. This will provide
the confidence to go to higher geometries, as well as be a commercially
-viable embedded product in its own right.
-
-# Business Objectives
-
-See [[3d_gpu/business_objectives]]
-
-# Links:
-
-* [[shakti/m_class/libre_3d_gpu]]
-* [[discussion]]
-* [[resources]]
-* [[overview]]
-* [[3d_gpu/funding]]
-* [[3d_gpu/architecture]]
-* Founding [[charter]]
-* Mailing list <http://lists.libre-riscv.org/pipermail/libre-riscv-dev/>
-* Crowdsupply page <https://www.crowdsupply.com/libre-risc-v/m-class>
-* Wiki <https://libre-riscv.org>
-* Git repositories <https://git.libre-riscv.org>
-* Bugtracker <http://bugs.libre-riscv.org>
-* Kazan Vulkan Driver (including 3D engine) <https://salsa.debian.org/Kazan-team/kazan>
-* [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)
-* NLNet Project Page <https://nlnet.nl/project/Libre-RISCV/>
-* [[nlnet_proposals]]
-* [[llvm]]
+viable embedded product in its own right. Tapeout deadline is Oct 2020.
# Progress:
-* Feb 2020: OpenPower Foundation EULA released.
+* Feb 2020: OpenPower Foundation EULA released. Coriolis2 Layout experimentation begun. Dynamic Partitioned SIMD ALU created.
* Jan 2020: New team members, Yehowshua and Michael. Last-minute attendance of FOSDEM2020
* Dec 2019: Second round NLNet questions answered. External Review completed. 6 NLNet proposals accepted (EUR 200,000+)
* Nov 2019: Alternative FP library to Berkeley softfloat developed. NLNet first round questions answered.