freepdk-45nm
skywater-pdk
freepdk-45nm | skywater-pdk | |
---|---|---|
1 | 27 | |
108 | 2,831 | |
0.0% | 0.6% | |
10.0 | 2.3 | |
about 4 years ago | 8 months ago | |
Verilog | Python | |
- | Apache License 2.0 |
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freepdk-45nm
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Compiling Code into Silicon
Pretty neat, a python tool that converts Verilog to an IC layout so that you can make your own custom SOC (assuming you have a substantial budget to pay for fab).
Since it's not clearly stated on the front page, I had to go digging to figure out what processes it supports. Looks like FreePDK45, which is "an open-source generic process design kit (PDK) (i.e., does not correspond to any real process and cannot be fabricated)" [0], ASAP7 "Warning Work in progress (not ready for use)" [1] and Skywater130 which "As of May 2020, this repository is targeting the SKY130 process node. If the SKY130 process node release is successful then in the future more advanced technology nodes may become available." [2] The floorplanner supports their ZeroSOC [3] which I guess is based on TitanSOC [4]
If this sounds negative, it's not, I just couldn't figure out what processes this was intended for without digging. ASAP7 is Arm and NCSU, and Skywater130 is Skywater and Google.
[0] https://github.com/mflowgen/freepdk-45nm
skywater-pdk
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Ask HN: Open-Source Simple CPU?
Preferably Intel compatible or able to run Linux? Something I can build in my garage or in a simple microprocessor fab.
https://github.com/google/skywater-pdk
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Libre Silicon – Free semiconductors for everyone
It looks neat, but the process node is 1 um with 3 metal layers.
The open Skywater PDK is 130 nm : https://github.com/google/skywater-pdk (though I don't know how reliable the PDK is?)
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Ask HN: How to start a fabless chip company targeting a modern process node?
From working in a somewhat related discipline, the PDKs for the high end nodes (think tsmc N16 and lower) are quite hard to obtain and require your org to pass security audit. In addition to that the cadence licenses are priced very much for a big-org rather than a startup.
Does your chip absolutely need a modern node? I'm assuming you've seen the open source skywater pdk, but here it is just in case. https://github.com/google/skywater-pdk
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Cadence Genus&Innovus
If you need a free PDK, check out: https://github.com/google/skywater-pdk
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DIY-Thermocam: The Affordable and Easy-to-Build Thermal Camera for Everyone
That would be really neat, but I haven't seen anyone even make a CMOS imager on SKY130.
https://github.com/google/skywater-pdk
One could make an array of thermopiles, like the hacker that made their own imager out of discrete diodes (digiOBSCURA) . But each pixel would cost $7.
https://www.digikey.com/en/products/detail/excelitas-technol...
One might be able to make an array of thermistors (possibly with active cooling using a peltier) like the diycamera (digiOBSCURA) below. Might be an application of combining many RC oscillators in a tree and recovering the signal with an FFT. I have a gut feeling this is possible, but haven't show it.
https://www.digikey.com/en/products/detail/panasonic-electro...
https://github.com/IdleHandsProject/diycamera (digiOBSCURA)
One could experiment with microbolometers on tinytapeout. https://elicit.org/search?q=cmos+microbolometer
https://tinytapeout.com/
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Riscv board running quake II using a Radeon card.
Unlike x86_64 which can only legally be produced by two and one-quarter companies, RISC-V is a permissively open-sourced ISA so anyone can make a chip. Literally, you can download Verilog of Berkeley Rocket cores from Github and run it on an FPGA, or prep it to send to SkyWater to fab at 130nm.
- NCSU Free 45nmPDK
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Making open source hardware design a reality
Taping out an actual chip inevitably involves IP that's not yours, e.g. the standard cell library and other 'physical' IP like memories and flash. You cannot open source that as it is not yours and in general the owners of it won't want to open source it either (though there are exceptions e.g. the Skywater 130nm PDK https://github.com/google/skywater-pdk).
In OpenTitan we've built all the 'logical' IP ourselves from the ground up. This is the Verilog RTL you can see in our repository but you need the 'physical' IP to make a real chip. We haven't built any physical IP so we need to get it from the traditional industry sources which means traditional industry licensing (i.e. very much not open).
- Cadence market share?
- Compiling Code into Silicon
What are some alternatives?
openlane - OpenLane is an automated RTL to GDSII flow based on several components including OpenROAD, Yosys, Magic, Netgen and custom methodology scripts for design exploration and optimization.
edalize - An abstraction library for interfacing EDA tools
RocksDB - A library that provides an embeddable, persistent key-value store for fast storage.
Verilog.jl - Verilog for Julia
gssi - Stuff I worked on while at GSSI (L'Aquila, Italy)
opentitan - OpenTitan: Open source silicon root of trust
quibble - Quibble - the custom Windows bootloader
chisel - Chisel: A Modern Hardware Design Language
PeakRDL-uvm - Generate UVM register model from compiled SystemRDL input
zerosoc - Demo SoC for SiliconCompiler.