eslint-plugin-compat
amaranth
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eslint-plugin-compat | amaranth | |
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7 | 7 | |
3,029 | 1,431 | |
- | 3.8% | |
5.1 | 9.6 | |
14 days ago | 5 days ago | |
TypeScript | Python | |
MIT License | BSD 2-clause "Simplified" License |
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For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
eslint-plugin-compat
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Is there an open source tool for analyzing JS/CSS compatibility with different browsers?
I've looked for this in the past. There's not much for this that is totally comprehensive. You might find success with eslint-plugin-compat which will error when using things that aren't supported in your browsers.
- Comparing Babel, Sucrase, and Similar Libraries
- Is there a plugin (for Jetbrains IDEs) to check javascript code compatibility for certain browser versions?
- Question about minimum browser compatibility
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JP Morgan Chase Bank, or Why Not to Whitelist Operating System User Agents
eslint-plugin-compat [0] and stylelint-no-unsupported-browser-features [1] can help you know when you're using an unsupported browser feature.
- Facts every web dev should know before they burn out and turn to painting
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[AskJS] Best practices for polyfills in libraries?
For now I'm trying to set up [eslint-plugin-compat](https://github.com/amilajack/eslint-plugin-compat) to check it for me, but I'm not sure it works — get 0 errors and 3 polyfills for a test snippet.
amaranth
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Why are there only 3 languages for FPGA development?
He probably meant Amaranth.
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VRoom A high end RISC-V implementation
As an aside, the latest and active development of nMigen has been rebranded a few months ago to Amaranth and can be found here: https://github.com/amaranth-lang/amaranth . In case people googled nMigen and came to the repository that hasn't been updated in two years.
- NMigen – A Python toolbox for building complex digital hardware (FPGAs)
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Facts every web dev should know before they burn out and turn to painting
Hmm. A followup question: are there any cheats/hacks that would make it possible (if painful) to for example explore the world of USB3, PCIe, or Linux on low-end-ish ARM (eg https://www.thirtythreeforty.net/posts/2019/12/my-business-c..., based on the 533MHz https://linux-sunxi.org/F1C100s), without needing to buy equipment in the mid-4-figure/low-5-figure range, if I were able to substitute a statistically larger-than-average amount of free time (and discipline)?
For example, I learned about https://github.com/GlasgowEmbedded/glasgow recently, a bit of a niche kitchen sink that uses https://github.com/nmigen/nmigen/ to lower a domain-specific subset of Python 3 (https://nmigen.info/nmigen/latest/lang.html) into Verilog which then runs on the Glasgow board's iCE40HX8K. The project basically makes it easier to use cheap FPGAs for rapid iteration. (The README makes a point that the synthesis is sufficiently fast that caching isn't needed.)
In certain extremely specific situations where circumstances align perfectly (caveat emptor), devices like this can sometimes present a temporary escape to the inevitable process of acquiring one's first second-hand high-end oscilloscope (fingers-crossed the expensive bits still have a few years left in them). To some extent they may also commoditize the exploration of very high-speed interfaces, which are rapidly becoming a commonplace principal of computers (eg, having 10Gbps everywhere when USB3.1 hits market saturation will be interesting) faster than test and analysis kit can keep up (eg to do proper hardware security analysis work). The Glasgow is perhaps not quite an answer to that entire statement, but maybe represents beginning steps in that sort of direction.
So, to reiterate - it's probably an unhelpfully broad question, and I'm still learning about the field so haven't quite got the preciseness I want yet, but I'm curious what gadgetry, techniques, etc would perhaps allow someone to "hack it" and dive into this stuff on a shoestring budget? :)
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Awesome Lattice FPGA Boards
Worth knowing that are two "nmigen"s nowadays - the one originated in M-Labs and one under a project also called nmigen:
https://github.com/nmigen/nmigen
It's a fork, made for reasons, but more actively developed. whitequark (long time author/contributor) works on this fork, and no longer the M-Labs version.
- Chisel/Firrtl Hardware Compiler Framework
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Unifying the CUDA Python Ecosystem
Sounds like nmigen might be a good open source successor to the project that you describe: https://github.com/nmigen/nmigen
What are some alternatives?
stylelint-no-unsupported-browser-features - Disallow features that aren't supported by your target browser audience.
SpinalHDL - Scala based HDL
xournalpp - Xournal++ is a handwriting notetaking software with PDF annotation support. Written in C++ with GTK3, supporting Linux (e.g. Ubuntu, Debian, Arch, SUSE), macOS and Windows 10. Supports pen input from devices such as Wacom Tablets.
cocotb - cocotb, a coroutine based cosimulation library for writing VHDL and Verilog testbenches in Python
browserslist - 🦔 Share target browsers between different front-end tools, like Autoprefixer, Stylelint and babel-preset-env
chisel - Chisel: A Modern Hardware Design Language
chromium-legacy - Latest Chromium (≒Chrome Canary/Stable) for Mac OS X 10.7+
chiselverify - A dynamic verification library for Chisel.
rollup-plugin-ts - A TypeScript Rollup plugin that bundles declarations, respects Browserslists, and enables seamless integration with transpilers such as babel and swc
myhdl - The MyHDL development repository
stylelint-no-unsupported-browser-fe
pygears - HW Design: A Functional Approach