X-Git-Url: https://git.libre-soc.org/?a=blobdiff_plain;f=3d_gpu.mdwn;h=4c1282bf43e27580e2c544281d8fca3ee4a174e1;hb=e4eb759cbc77cf32f78d01f13e7d9e9d1f9285e8;hp=48dc4919b9bf4a8c147316c1346262929d9625cd;hpb=91a8cd443d1be6f6c6ef58fb5454118ce9f772d6;p=libreriscv.git
diff --git a/3d_gpu.mdwn b/3d_gpu.mdwn
index 48dc4919b..4c1282bf4 100644
--- a/3d_gpu.mdwn
+++ b/3d_gpu.mdwn
@@ -2,28 +2,78 @@
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. It is being *designed* to be a **complete**
-all-in-one processor (System-on-a-Chip).
+a stand-alone GPU product (contact us if this is a product that you want).
+Our primary goal is to design a **complete** all-in-one processor
+(System-on-a-Chip) that happens to include a libre-licensed VPU and GPU.
We seek investors, sponsors, engineers and potential customers, who are
-interested in the creation and use of an entirely libre low-power mobile
-class system-on-a-chip. Comparative benchmark performance, pincount and
-price is the Allwinner A64, except that the power budget target is 2.5 watts
-in a 16x16mm 320 to 360 pin 0.8mm FBGA package.
+interested, as a first product, in the creation and use of an entirely
+libre low-power mobile class system-on-a-chip. Comparative benchmark
+performance, pincount and price is the Allwinner A64, except that the
+power budget target is 2.5 watts in a 16x16mm 320 to 360 pin 0.8mm
+FBGA package. Instead of single-issue higher clock rate, the design is
+multi-issue, aiming for around 800mhz.
-See:
+The lower pincount, lower power, and higher BGA pitch is all to reduce
+the cost of product development when it comes to PCB design and layout:
+
+* Above 4 watts requires metal packages, greater attention to thermal
+ management in the PCB design and layout, and much pricier PMICs.
+* 0.6mm pitch BGA and below requires much more expensive PCB manufacturing
+ equipment and more costly PCBA techniques.
+* Above 600 pins begins to reduce production yields as well as increase
+ the cost of testing and packaging.
+
+We can look at larger higher-power ASICs either later or, if funding
+is made available, immediately.
+
+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
+
+* the project shall be a hybrid CPU-GPU because if it is not, the
+ complexity involved in developing a split shared-memory CPU-GPU both
+ at a hardware and a software level will be so costly it will jeapordise
+ the project.
+* the project shall be commercial and mass-volume (100 million units
+ and above)
+* the project shall be entirely transparent so that end-users will be
+ able to trust it
+* the source code shall be available at all times for all components
+ for BUSINESS reasons, making development and use of SDKs dead simple
+ and aiding and assisting developers AND BUSINESSES in debugging and thus
+ hugely saving them money.
+
+# Links:
* [[shakti/m_class/libre_3d_gpu]]
* [[discussion]]
+* [[resources]]
+* [[overview]]
+* [[3d_gpu/funding]]
+* Founding [[charter]]
* Mailing list
* Crowdsupply page
* Wiki
* Git repositories
* Bugtracker
* Kazan Vulkan Driver (including 3D engine)
+* [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
+* [[nlnet_proposals]]
-Progress:
+# Progress:
+* 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.
+* Oct 2019: 3D Standards continued. POWER ISA considered. Open 3D Alliance begins. NLNet funding applications submitted.
+* Sep 2019: 3D Standards continued. Additional NLNet Funding proposals discussed.
+* Aug 2019: Development of "Transcendentals" (SIN/COS/ATAN2) Specifications
+* Jul 2019: Sponsorship from Purism received. IEEE754 FP Mul, Add, DIV,
+ FCLASS and FCVT pipelines completed.
+* Jun 2019: IEEE754 FP Mul, Add, and FSM "DIV" completed.
+* May 2019: 6600-style scoreboard started
+* Apr 2019: NLnet funding approved by independent review committee
* Mar 2019: NLnet funding application first and second phase passed
* Mar 2019: First successful nmigen pipeline milestone achieved with IEEE754 FADD
* Feb 2019: Conversion of John Dawson's IEEE754 FPU to nmigen started
@@ -37,6 +87,7 @@ Progress:
# News Articles
+*
*
*
*
@@ -51,6 +102,14 @@ Progress:
*
*
*
+*
+*
+*
+*
+*
+*
+*
+*
# Information Resources and Tutorials
@@ -67,6 +126,21 @@ Progress:
* -
*
*
+*
+*
+*
+*
+*
+*
+*
+*
+*
+*
+*
+*
+*
+*
+* Fundamentals of Modern VLSI Devices
# Analog Simulation
@@ -74,3 +148,7 @@ Progress:
*
*
*
+
+# Evaluations
+
+*[[openpower]]