A Sipeed Tang Nano 9k board on a Thinkpad keyboard, with an LCD panel attached to it

An Open Toolchain For Sipeed Tang Nano FPGAs

June 12, 2022 by Arya Voronova 9 Comments

[Sevan Janiyan] shares their research on putting an open FPGA toolchain together. Specifically, this is an open toolchain for the Sipeed Nano Tang FPGAs, which are relatively cheap offerings by Sipeed from China. The official toolchain is proprietary and requires you to apply for a license that’s to be renewed every year. There’s a limited educational version you can use more freely, but of course, that’s not necessarily sufficient for comfortable work.

This toolchain relies on the apicula project, an effort to reverse-engineer, reimplement and document the Gowin FPGA bitstream format, as well as the gowin integration for nextpnr (an open tool for FPGA place-and-route). With a combination of yosys, apicula, nextpnr and openFPGAloader, [Sevan] put together a set of commands you can use to build gateware for your Nano Tang FPGAs – without any proprietary limitations blocking your way. They show a basic blinkie demo, and also a demo that successfully operates a parallel LCD connected to the board.

The availability of open toolchains for FPGAs has always been somewhat of a sore point. Wondering about open FPGA toolchains? This Supercon 2019 talk by Tim [Mithro] Ansell will get you up to speed!

We thank [feinfinger (sneezing)] for sharing this with us!

Will MiSTer Fool You Into Learning FPGAs?

May 9, 2022 by Elliot Williams 45 Comments

What’s the killer app for FPGAs? For some people, the allure is the ultra-high data throughput for parallelizable tasks, which can enable some pretty gnarly projects. But what if you’re just starting out? How about 1980s style video games?

The MiSTer FPGA project created a bit of FPGA hardware that makes it easy to build essentially any old school video game or computer platform. That’s a massive clean slate. Of course, you can simply download someone else’s Atari ST or Commodore 64 setup and load it up, but if you want to learn FPGAs while recreating old-school video game machines, you’re going to want to get your hands dirty.

[Mister Retro Wolf] started up a video series last winter (trailer embedded below) where he’s embarked on a project to recreate a classic video game machine from the ground up using the MiSTer FPGA platform. In particular, he’s going to recreate the Namco Tank Battalion arcade game, from the schematics, in Verilog.

This is literally building a 6502-based video game machine from scratch (in gateware), so if you’re interested in retrocomputing or FPGAs, you’ll have something to learn here. He’s gotten through the CPU, screen, tilemap graphics, and memory so far, but it’s not done yet. To follow along, get yourself some hardware and you can probably catch up.

We’ve covered the MiSTer FPGA project before, of course, because we think it’s cool. And if a video game arcade machine is going to be your gateway drug into the seedy world of programmable gates, then so be it.

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Now The V In RISC-V Stands For VRoom

March 26, 2022 by Matthew Carlson 24 Comments

Hundreds of variations of open-source CPUs written in an HDL seem to float around the internet these days (and that’s a great thing). Many are RISC-V, an open-source instruction set (ISA), and are small toy processors useful for learning and small tasks. However, if you’re [Paul Campbell], you go for a high-end super-scalar, out-of-order, speculative, 8 IPC monster of a RISC-V CPU known as VRoom!.

That might seem a bit like word soup to the uninitiated in the processor design world (which is admittedly relatively small) but what makes this different from VexRISC is the scale and complexity. Rather than executing one instruction at a time sequentially, it executes multiple instructions, completing them concurrently in whatever order it can handle. The VexRISC chip is a good 32-bit modular design that can run Linux. It pulls a solid 1.57 DMIPS/MHz with everything turned on. The VRoom already clocks in at mighty 6.5 DMIPS/MHz, with more performance gains. It peaks at 8 instructions every clock cycle with a dual register file and a clever committing system to keep up.

VRoom is written in System Verilog to leverage Verilator (a handy linting and simulation framework), and while there is some C that generates different files, we’d wager it is pretty run-of-the-mill compared to a TypeScript based project. VRoom currently boots Linux thanks to an AWS-FPGA instance (a Xilinx VU9P Ultrascale), though it has to be trimmed to fit. [Paul] has big plans working his way up to a server-class chip with lots of cores and a huge cache.

It’s all on GitHub under a GPLv3 license; go check it out! [Paul] also has a talk with lots of great details. If you’re interested in getting into RISC-V but a server-class isn’t your speed, we heard Espressif is starting to use RISC-V cores in their ever-popular ESP series.

FPGA Starter Videos To Help Soften That Learning Curve

February 17, 2022 by Dave Rowntree 8 Comments

Digi-Key have been producing YouTube videos for a number of years now, and if you weren’t aware, they’re definitely worthy of some viewing time. The playlist we’re highlighting here is a pretty good introduction to FPGAs, specifically those supported by open source tools, with low cost hardware. If you’ve always wanted to get into hacking FPGA platforms, but don’t know where to start, this is going to be a big help. After first covering what an FPGA is and is not, and why you want to use one, [Shawn Hymel] dives in to the toolchain.

We’re really lucky that the bitstream for the Lattice iCE40 was reverse engineered by the super talented Claire (née Clifford) Wolf (AMP hour interview) which enabled the project ICEstorm toolchain to be created. Leveraging Yosys for synthesis and logic mapping, Icarus verilog coupled with GTKwave for simulation, netpnr for place and route and finally the project ICEstorm bitstream tools for packing into iCE40 format and loading onto the hardware. The whole toolchain flow is managed by APIO for simplicity, that is, provided your FPGA board is supported!

Of course, [Shawn] is using the low cost (for an FPGA) ICEStick by Lattice for this tutorial series, and they’re currently hard to get (you know why by now!) but, there are many other boards you could use. If you want to play with applications coupling a ARM micro to an FPGA, then the excellent BlackIce Mx is an option, but there are many other boards now with an decent micro nestled next to an FPGA and a few peripherals for convenience.

We should mention here, that project ICEstorm and the iCE40 is not the only show in town. Project Trellis has had our eye for a while, which targets the more complex Lattice ECP5 device. Yosys and friends do support more architectures, but the available flows usually require at least some vendor tool support at this time (looking straight at you, Xilinx) but as more devices get decoded, the open source tools will grow, and we will bring you that news!

What’s nice about this Digi-Key YT series, is that it doesn’t just cover the basic toolchain flow, then drop you in at the deep end of a big learning curve. There are videos covering subjects such as finite state machines (FSMs), test-benching and simulation, using embedded (block) memories, PLLs, harder subjects like dealing with metastability and clock-domain crossing (OK, he covers one technique – there’s more than one way to skin that particular cat) before finally looking at soft cores like the RISC-V. Lots to learn, and pretty well executed if you ask us! A Github version is available, for those who can’t stand watching the videos!

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Tilting At Windmills Nine Bits At A Time

February 11, 2022 by Al Williams 18 Comments

In the old days — we are talking like the 1960s and 1970s — computers were often built for very specific purposes using either discrete logic or “bit slice” chips. Either way, more bits meant more money so frequently these computers were made with just enough bits to meet a required precision. We don’t think that was what was on [Mad Ned’s] mind, though, when he decided to implement a 9-bit CPU called QIXOTE-1 on an FPGA.

Like many hobby projects, this one started with an FPGA board in search of a problem. At first, [Ned] had a plan to create a custom computer along with a custom language to then produce a video game. A quick search on the Internet led to that being a common enough project with one guy that we’ve talked about here on Hackaday before knocking it out of the park.

[Ned] then thought about just doing a no-software video game. Too late to be the first to do that. Not to be deterred, he decided to duplicate the PDP-8. Whoops. That’s been done before, too. Wanting something original, he finally decided on a custom CPU. Since bytes are usually — if not technically — 8 bits, this CPU calls its 9-bit words nonads and uses octal which maps nicely to three digits per nonad.

This first post talks about the story behind the CPU and gives a short overview of its capabilities, but we are waiting for future posts to show more of what’s behind the curtain in what [Ned] calls “Holy Nonads, Part 010.”

The downside to doing a custom CPU is you have to build your own tools. You can always, of course, duplicate something and steal your toolchain. Or go universal.

DE10-Lite-Ful FPGA Dev Board Hack Plays The 1981 Classic Defender

January 8, 2022 by Ryan Flowers 6 Comments

We’re not sure what the assignment was, but the results of [Garret Carter]’s homework for his Digital System Design class at Tennessee Tech couldn’t help but capture our attention. Below the break you can see what [Garrett] describes as a “simplified stylized version” of the 1981 arcade hit “Defender”.

With the goal of keeping the price low but keeping performance as high as possible, [Garrett] set forth to program the DE10-Lite FPGA development board in VHDL. The results are convincing, and while not perfect, came in under budget.

The DE10-Lite board gave [Garrett] the opportunity to get even more creative, using the dev board’s onboard switches, buttons, 7-segment LED’s and accelerometer to full effect. In this case, the dev board is not only the game, but also the controller and status display. A very neat hack indeed!

If you want to make your own, you can get the full project details at [Garrett]’s Github page. And [Garrett], we don’t know what marks your professor will give, but we give you an A+, would definitely play again.

While FPGA development boards aren’t necessarily inexpensive, our own Jenny List shows where you might be able to find a used but workable FPGA board for a fraction of the cost, If you know where to look.

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6502 Goes FPGA (Again)

December 26, 2021 by Al Williams 35 Comments

While there has been no shortage of FPGA-based recreations of classic processors, we always enjoy seeing a new approach. Last month [Some Assembly Required] took on the challenge to recreate a classic computer from the ground up and started with a 6502 implementation in Verilog. You can see in the second video below that he’s made good progress and there are apparently more videos to come.

The ROL instruction is the subject of the second video. We liked the approach of looking at what the instruction does and how many cycles it takes on different variants It is always good to make sure you know exactly what you are trying to accomplish before you get started.

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