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#overclocking — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #overclocking, aggregated by home.social.

  1. Raspberry Pi RP2350 microcontroller overclocked to run at more than 5X original frequency

    The Raspberry Pi RP2350 is a microcontroller chip designed for low-power, low-latency applications. While it’s a big step up from the older RP2040 chip, it’s still not exactly a speed demon. But what if it… was?

    When Raspberry Pi first introduced the RP2350 in 2024, the company described it as a chip with two Arm Cortex-M33 cores with frequencies up to 150 MHz and two Hazard3 RISC-V cores […]

    #mcu #overclocking #raspberryPiPico2 #rp2350 Read more: liliputing.com/raspberry-pi-rp
  2. Raspberry Pi RP2350 microcontroller overclocked to run at more than 5X original frequency

    The Raspberry Pi RP2350 is a microcontroller chip designed for low-power, low-latency applications. While it’s a big step up from the older RP2040 chip, it’s still not exactly a speed demon. But what if it… was?

    When Raspberry Pi first introduced the RP2350 in 2024, the company described it as a chip with two Arm Cortex-M33 cores with frequencies up to 150 MHz and two Hazard3 RISC-V cores […]

    #mcu #overclocking #raspberryPiPico2 #rp2350 Read more: liliputing.com/raspberry-pi-rp
  3. Raspberry Pi RP2350 microcontroller overclocked to run at more than 5X original frequency

    The Raspberry Pi RP2350 is a microcontroller chip designed for low-power, low-latency applications. While it’s a big step up from the older RP2040 chip, it’s still not exactly a speed demon. But what if it… was?

    When Raspberry Pi first introduced the RP2350 in 2024, the company described it as a chip with two Arm Cortex-M33 cores with frequencies up to 150 MHz and two Hazard3 RISC-V cores […]

    #mcu #overclocking #raspberryPiPico2 #rp2350 Read more: liliputing.com/raspberry-pi-rp
  4. Raspberry Pi RP2350 microcontroller overclocked to run at more than 5X original frequency

    The Raspberry Pi RP2350 is a microcontroller chip designed for low-power, low-latency applications. While it’s a big step up from the older RP2040 chip, it’s still not exactly a speed demon. But what if it… was?

    When Raspberry Pi first introduced the RP2350 in 2024, the company described it as a chip with two Arm Cortex-M33 cores with frequencies up to 150 MHz and two Hazard3 RISC-V cores […]

    #mcu #overclocking #raspberryPiPico2 #rp2350 Read more: liliputing.com/raspberry-pi-rp
  5. Neuer #Weltrekord: Der #Ryzen 7 #9800X3D wurde erstmals auf 7335,48 MHz getrieben. Möglich machte das eine extreme Flüssigstickstoff-Kühlung und eine Kernspannung von 1,688 Volt. #AMD #Overclocking winfuture.de/news,155915.html?

  6. GPU overclocker uses chilled car antifreeze and pond pump to push Intel card to sub-zero temps, sets world record — 'TrashBench' sets GPU benchmark record at -17C, gains 16% more performance - TrashBench manages to break the 3DMark Time Spy performance... - tomshardware.com/pc-components #overclocking #pccomponents

  7. Imagine the overclocking you could do with these. Much more efficient than dry ice. He was able to get it down to -93C by using both stacked on top of each other.

    youtube.com/watch?v=ImiSpAjKjss

    #overclocking #electronics #engineering #physics #science

  8. STM32 Short #7 - OVERCLOCKING is it possible?

    Planning a video on the STM32 clock configuration we decided to experiment with overclocking. Can you in fact overclock a STM32 MCU past the specifications and how far can you push it. Lawyers might argue I need to include a disclaimer here: "Do not try this at home", but I really think you SHOULD try this at home.

    #STM32 #GettingStarted #STM32CubeIDE #STM32CubeMX #Clock #Overclocking #STM32World

    youtube.com/watch?v=DTdoIq5RIDg

  9. #AMD #Ryzen 7000 #X3D #CPU With 3D #VCache Are Unlocked For #Overclocking, running up to 1.4V but stacked #L3cache on the chip is very sensitive to high temperatures and additional voltage and it is possible that the chips can break if these are tweaked bit.ly/3kF8L5t

  10. Watching Jayz2Cents and company doing Extreme Overclocking with LN2 and stuff, and dealing with moisture and I'm over here wonder why they're not putting the computer in an acrylic bucket and letting the LN2 displace the air around the computer. Put a top on it, leave a hole a bit bigger than the pot with the pot located inside, and let the LN2 boiloff displace all the wet air with Nitrogen.

    You'd effectively eliminate condensation issues.

    (In theory other gasses could work too, but LN2 is self replacing in this system, and effectively free, it's just going out into the room otherwise.)

    #Overclocking #LN2 #XOC #Jayz2Cents #YouTube

  11. Crazed modder straps DIY copper waterpipes to GTX 1060, sets world overclocking records in 12600KF category — card hits 2,202 MHz, takes top six Fire Strike scores - TrashBench dominates 3D Mark Fire Strike GTX 1060 with i5-1... - tomshardware.com/pc-components #overclocking #pccomponents

  12. Fun post: Dave Farquhar, History of #overclocking

    dfarq.homeip.net/history-of-ov

    A quote about #Celeron:

    > In 1998, Intel released the Celeron to compete with cheap CPUs from AMD and Cyrix. To make it, they took all of the Level 2 cache off a Pentium II, clocked it at 266 or 300 MHz, and sold it at an AMD-like price. But due to the lack of L2 cache, it was slower than a previous-generation Pentium running at 233 MHz, let alone an AMD or Cyrix chip running at 266 or 300 MHz.
    >
    > But the L2 cache was the Pentium II’s limiting factor in overclocking. So a 266 MHz Celeron ran happily at 400 MHz, or potentially even 450 MHz, the same speed as the fastest Pentium II at the time. It was slower than a Pentium II at the same speed, but it worked well for 3D gaming.
    >
    > But the only people who bought those Celerons were overclockers and people who didn’t know anything about computers. […]

  13. Ciekawy post: Dave Farquhar, History of #overclocking

    dfarq.homeip.net/history-of-ov

    Cytat na temat procesorów #Celeron (tłum. moje):

    > W roku 1998, Intel wydał Celerona, by konkurować z tanimi procesorami AMD i Cyriksa. W tym celu usunięto cache L2 z Pentiuma II, ustawiono zegar na 266 albo 300 MHz, i sprzedawano w cenie zbliżonej do AMD. Ale ze względu na brak cache'a L2, te procesory były mniej wydajne niż Pentium poprzedniej generacji z zegarem 233 MHz, nie wspominając o AMD czy Cyriksach z 266 albo 300 MHz.
    >
    > Ale cache L2 stanowił ograniczenie dla podkręcania procesorów Pentium II. Więc 266 MHz-owy Celeron z radością chodził przy 400 MHz, albo nawet 450 MHz — podobnie jak najszybsze dostępne wersje Pentium II. Był mniej wydajny niż Pentium II przy tym samym zegarze, ale do gier 3D się nadawał.
    >
    > Te Celerony kupowały dwa rodzaje osób: overclockerzy, oraz ludzie, którzy nie mieli pojęcia o komputerach. […]

  14. I'm really impressed with ASUS's AI Overclocking routines. I'm not big on overclocking (I've bricked stuff before so no thanks) but this really is a one click solution.

    And if I'm getting such scores with an AIO cooler, then I'm happy \o/

    #PCGaming #Overclocking

  15. This is how the Apple Cinema Display 23 responded when I tried to overclock its refresh rate. I knew it wouldn't work, but I still wanted to try using:

    cvt 1920 1200 61.

    I also tried 75 Hz, but the display turned off.

    #freebsd #apple #xrandr #cvt #overclocking #monitor