• @[email protected]
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    -179 days ago

    You’re describing how ancient magnetic core memory works, that’s not how modern DRAM (Dynamic RAM) works. DRAM uses a constant pulsing refresh cycle to recharge the micro capacitors of each cell.

    And on top of that, SRAM (Static RAM) doesn’t even need the refresh circuitry, it just works and holds it’s data as long as it remains powered. It only takes 2 discreet transistors, 2 resistors, 2 buttons and 2 LEDs to demonstrate this on a simple breadboard.

    I’m taking a wild guess that you’ve never built any circuits yourself.

    • Zement
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      9 days ago

      I’m taking a wild guess that you completely ignored the subject of the thread to start an electronics engineering pissing contest?

      • @[email protected]
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        -149 days ago

        Do you really trust the results of any computing system, no matter how it’s designed, when it has pathetic memory integrity compared to ancient technology?

        • Zement
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          109 days ago

          That is not a product. This is research.

    • @[email protected]
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      69 days ago

      And you would have been there shitting on magnetic core memory when it came out. But without that we wouldn’t have the more advanced successors we have now.

        • @[email protected]
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          69 days ago

          Doubt.

          Core memory loses information on read and DRAM is only good while power is applied. Your street dime will be readable practically forever and your abacus is stable until someone kicks it over.

          You’re not the arbiter of what technology is “good enough” to warrant spending money on.

          • @[email protected]
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            -59 days ago

            Core memory is also designed to accomodate for that and almost instantly rewrite the data back to memory. That in itself might be a crude form of ‘error’ correction, but it still lasts way longer than an hour.

            Granted that quantum computers are a different beast of their own, how much digital data does a qbit actually store? And how does that stack up in price per bit comparison?

            If they already know quantum computers are more prone to memory errors, why not just use reliable conventional RAM to store the intermediate data and just let the quantum side of things just be the ‘CPU’, or QPU if you like?

            I dunno, it just makes absolutely no sense to me to utilitze any sort of memory technology that even with error correction still manages to lose information faster than a jumping spider’s memory?