Baochip is a license-free RISCV implementation with MMU. It is custom CPU logic hitchhiked on another company's SOC. The SOC is dual CPU like the rp2340, but with the other CPU fused off.
Xous is a an operating system that runs on the Baochip and an FPGA version of it.
Precursor is a prototype mobile hardware secrets device. It has an FPGA that runs Xous and costs around $600. One of the core goals of the project is to make inspectable hardware.
This baochip is the next step is to make prototype devices cheaper by running xous on the baochip instead of FPGA. The baochip is inspectable using a technique called IRIS.
Almost. SoC is a 1+4 design, with a vexriscv main core (350MHz), and 4 tiny "Baochip IO" PicoRV cores (700MHz) (somewhat akin to the ultra-puny Programmable IO/PIO cores on rp2350). The crowdsupply for this board just opened. For on vexriscv, which has been around: https://hn.algolia.com/?q=vexrisc
This is an embedded chip, not a full on application core like an arm cortex A78. No GPU, 2mb+256k onboard ram + psram external. But like a rp2350 there are graphics drivers. It has a ridiculously fast for its class internal execute-in-place flash. A rather featureful MMU for a device of its small size, to support it's rust based borrow-checked memory OS. Tons of security & encryption features such as sha256/512, blake2/3, ECC ram, TRNG, etc. 22nm doesn't sound impressive by modern standards but is pretty good for a small embedded chip; rp2350 is 40nm.
The BIO is going to be ridiculous. Fully cross barred to output and just ridiculously fast.
I want Oxide to start an RFD for evaluate changing their base processor to this ("Gimlet"). Much higher security than anything else available. Switching off Hubris is probably a non-starter, it probably lacks some nice/necessary peripherals, and major supply chain risk, but also, an incredible open source chip you could go deeper on.
..which is a huge thing because AFAIK most Cortex-A SoCs on the market are full of undocumented peripherals. Cortex-Ms are usually sufficiently documented that you can bring them up from scratch. Once you want a MMU it's either "use our mainlined Linux drivers full of dark magic" (if you are very lucky - perfect if you want Linux, less so if you are developing your own OS), "use our Linux kernel full of binary blobs" (if you are less lucky) or, as a rule, "sign a NDA and don't even bother us if you aren't a billion-dollar corporation".
(Started it as a minor edit, then decided to elaborate so moved it to a new comment).
For those unfamiliar with this project:
Baochip is a license-free RISCV implementation with MMU. It is custom CPU logic hitchhiked on another company's SOC. The SOC is dual CPU like the rp2340, but with the other CPU fused off.
Xous is a an operating system that runs on the Baochip and an FPGA version of it.
Precursor is a prototype mobile hardware secrets device. It has an FPGA that runs Xous and costs around $600. One of the core goals of the project is to make inspectable hardware.
This baochip is the next step is to make prototype devices cheaper by running xous on the baochip instead of FPGA. The baochip is inspectable using a technique called IRIS.
Bunnie is leading this project.
His talk at Teardown last year was excellent; I’m glad to see development is still going strong.
Is the case that captures all RF still planned for the productised Baochip?
Almost. SoC is a 1+4 design, with a vexriscv main core (350MHz), and 4 tiny "Baochip IO" PicoRV cores (700MHz) (somewhat akin to the ultra-puny Programmable IO/PIO cores on rp2350). The crowdsupply for this board just opened. For on vexriscv, which has been around: https://hn.algolia.com/?q=vexrisc
This is an embedded chip, not a full on application core like an arm cortex A78. No GPU, 2mb+256k onboard ram + psram external. But like a rp2350 there are graphics drivers. It has a ridiculously fast for its class internal execute-in-place flash. A rather featureful MMU for a device of its small size, to support it's rust based borrow-checked memory OS. Tons of security & encryption features such as sha256/512, blake2/3, ECC ram, TRNG, etc. 22nm doesn't sound impressive by modern standards but is pretty good for a small embedded chip; rp2350 is 40nm.
The BIO is going to be ridiculous. Fully cross barred to output and just ridiculously fast.
Previous discussion from 47d ago on Xous, with Baochip X1 mentions, https://news.ycombinator.com/item?id=46619059 (183 points, 69 comments, nice)
I want Oxide to start an RFD for evaluate changing their base processor to this ("Gimlet"). Much higher security than anything else available. Switching off Hubris is probably a non-starter, it probably lacks some nice/necessary peripherals, and major supply chain risk, but also, an incredible open source chip you could go deeper on.
https://youtu.be/DaWkfSmIgRs
This talk from 3c explains the hardware and operating system side of the project.
Interesting: https://baochip.com/.
I didn't know the concept of "Warrant Canary". [0]
[0]: https://en.wikipedia.org/wiki/Warrant_canary
https://archive.is/YSfin
This is a really interesting project IMO, especially the BIO programmable IO system (similar to RPi's PIO but open).
Two cores and 22nm doesn't scream performance if this is a general purpose CPU.
Depends on your definition of general-purpose. It is much closer to RP2350 than to a Ryzen.
Edit: except it has a MMU…
..which is a huge thing because AFAIK most Cortex-A SoCs on the market are full of undocumented peripherals. Cortex-Ms are usually sufficiently documented that you can bring them up from scratch. Once you want a MMU it's either "use our mainlined Linux drivers full of dark magic" (if you are very lucky - perfect if you want Linux, less so if you are developing your own OS), "use our Linux kernel full of binary blobs" (if you are less lucky) or, as a rule, "sign a NDA and don't even bother us if you aren't a billion-dollar corporation".
(Started it as a minor edit, then decided to elaborate so moved it to a new comment).
focus on Security over performance