• halcyoncmdr@lemmy.world
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    14 days ago

    It’s not the right measure for progress. It’s the right measure for viability. If yield is terrible, the end product may cost too much to market.

  • dinckel@lemmy.world
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    14 days ago

    If yield rates aren’t a good metric, what does he think is then? It’s certainly not layoff numbers, or C-suite compensation.

    If after all that investment you’re only able to produce TEN PERCENT of the product successfully, that’s a failure, by definition. Even if they quintuple the yields, that’s still incredibly poor

    • Aa!@lemmy.world
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      14 days ago

      Gelsinger was hired as a known long time engineer, rather than as a business expert. I would trust his numbers from an engineering perspective, even though I was laid off under his rule

    • wewbull@feddit.uk
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      14 days ago

      All depends on the maturity of the process. 10% for a new design on a bleeding edge process is possibly viable. You’ll then tweak the design and process to get the yield up.

    • orclev@lemmy.world
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      14 days ago

      Only exception would be if they can produce those wafers at 1/10th of the previous cost, but I highly doubt that’s the case.

      • iopq@lemmy.world
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        14 days ago

        If it’s 1/10 of the cost of purchasing them from TSMC, it’s viable

    • GorgeousWalrus@feddit.org
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      14 days ago

      Yield over die area should be the metric.

      If you have a chip that is 50% of the wafer area, a single fault will lead to a yield of 50%. Now compare it with a chip that is 1% of the wafer area, the same single fault gets a yield of 99%.

      So comparing the yields of two processes without factoring in the die area is not a fair game.

  • Brkdncr@lemmy.world
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    14 days ago

    Gelsinger replied to a post by a prominent analyst, Patrick Moorhead, where it was initially claimed that Intel’s 18A wasn’t tested on a PDK 1.0 but rather an older design kit, which is why the yield rate figures are reported so low.