Note: I am not affiliated with the project

    • Danny M@lemmy.escapebigtech.infoOP
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      11 months ago

      The more you know! I don’t follow their blog so I didn’t realize this. This is a pleasant surprise and yet another reason to love Mullvad.

      • akrot@lemmy.world
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        11 months ago

        The only reason I am hesitant about mullvad is that they are swedish based

  • simple@lemmy.world
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    11 months ago

    Seems like a cool project, but with such weak specs what can one actually do with this?

    • Danny M@lemmy.escapebigtech.infoOP
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      11 months ago

      The specs are literally the reason why people would buy this. It’s basically the best device we have available that can be used as a base for devices handling secure computation, or software handling secure computation. Think of a FIDO2 key, or a gpg smartcard, all secure and verifiable

      • dragontamer@lemmy.world
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        11 months ago

        Ehhhh… I’d recommend a Teensy instead, or a variety of other microprocessors. At $72, this is awful value. And there seems to be no specifications with regards to power-consumption.

        https://www.pjrc.com/store/teensy41.html

        Teensy 4.1 gives you Hardware Floating point, 100 MBit Ethernet, USB, 600MHz, 1024kB of SRAM, 7MB of Flash for like $35 and within ~100mA of current usage at this 600MHz speed, meaning it easily runs off of AA Batteries for over a day with just a bit of idle/sleep cycles.

          • dragontamer@lemmy.world
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            11 months ago

            On the contrary, RISC-V is typically bigger and less efficient than Cortex-M7 on the Teensy.

            There are 10-cent ARM Cortex M0+ processors (M0+ being the smallest ARM). M7 is kinda-small. ARM scales to different sizes and power-efficiencies.

            • Danny M@lemmy.escapebigtech.infoOP
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              11 months ago

              in this case the instruction set is extremely small (and includes open source verilog, so you could even fab it yourself)

              quote from the website:

              The CPU of the TKey is a modified version of PicoRV32, 32-bit RISC-V running at 18 MHz. Modifications includes a fast 32x32 multiplier implemented using the multiplier blocks in the iCE40 DSPs as well as a HW trap function.

              The supported instruction set supported by the CPU is a subset of RV32I. Specifically it includes compressed instructions, but excludes instructions for:

              • Counters
              • System
              • Synch
              • CSR access
              • Change level
              • Trap redirect
              • Interrupt
              • MMU

              The instruction set implemented by the CPU also includes multiplication instructions from the RV32IC_Zmmul (-march=rv32iczmmul) extension. Division is not supported.

              Any illegal, unsupported instruction will halt the CPU. The halted CPU is detected by the hardware, which will blink the RGB LED with red to indicate the error state. There is no way for the CPU to exit the trap state besides a power cycle of the device.

              Note that the CPU has no support for interrupts. No instructions, ports or logic.

        • BearOfaTime@lemm.ee
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          11 months ago

          Wow.

          I have no idea what I’d use it for (or even how to use it) but I want one!

    • dragontamer@lemmy.world
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      11 months ago

      This thing is like 5x more MHz with 8x more RAM than an Arduino. 18MHz and 128kB is plenty.

      Remember: the Apollo flight computer (Moon landing) was accomplished with 2MHz and 4096 bytes of RAM. Even the Arduino is more computationally powerful than the Moon Lander.

        • dragontamer@lemmy.world
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          11 months ago

          Any computer application you can think of from the 1970s or earlier can be replicated by a device of approximately the specs listed in this topic.

          IE: Airplanes, Space Exploration, Differential Equations, Matrix Multiplications, Simulations, Cruise Missiles, Homing Missiles, Firing Computers (aka: aim-bots), RADAR, SONAR, Radio communications, Error-correction codes, Reed-Solomon (aka: reliable communications to the Voyager Probe)

          To just give you an incomplete idea of what’s possible. So erm… anything you want, really. Yeah, we have faster computers today, but we use most of that computational power for convenience and graphics, rather than like, actually solving problems.


          The vast majority of car controls (Air Bags, Tire Pressure Sensors, Electronic Computer timings, Traction Control, Radio, etc. etc.) is built up from cheap (but very reliable) microcontrollers. Industrial control systems that run our factories and precisely perform operations using servos and sensors are also using chips of this caliber.

          You might be surprised at what a few MHz and a few kilobytes of RAM can accomplish.

          • Plopp@lemmy.world
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            11 months ago

            Oh, well in that case I’m making a USB connected sonar guided homing missile with an airbag!

            • dragontamer@lemmy.world
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              11 months ago

              That’s what confused me.

              Modern versions of ATMega (ex: the AVR DD) run at 4MHz by default, even if they can go up to 24MHz. Looking back at ATMega328p (which powered the Arduino Uno, aka the one that got popular), the ATMega328p defaults to 1MHz. (IE: 8MHz internal oscillator with 1/8 clock division == 1MHz overall)