Karna@lemmy.ml to Technology@lemmy.ml · 6 months agoFull scan of 1 cubic millimeter of brain tissue took 1.4 petabytes of data, equivalent to 14,000 4K movies — Google's AI experts assist researcherswww.tomshardware.comexternal-linkmessage-square51fedilinkarrow-up1336arrow-down18cross-posted to: futurology@futurology.todaydataisbeautiful@lemmit.online
arrow-up1328arrow-down1external-linkFull scan of 1 cubic millimeter of brain tissue took 1.4 petabytes of data, equivalent to 14,000 4K movies — Google's AI experts assist researcherswww.tomshardware.comKarna@lemmy.ml to Technology@lemmy.ml · 6 months agomessage-square51fedilinkcross-posted to: futurology@futurology.todaydataisbeautiful@lemmit.online
minus-squareutopiah@lemmy.mllinkfedilinkarrow-up2·6 months agoI’d be curious about the access speed comparison, because I’d assume for the brain it’s be RAM equivalent, not SDD
minus-squareVivendi@lemmy.ziplinkfedilinkarrow-up2·6 months agoThe brain is a tightly coupled biological computer , it’s access speed is practically instantaneous Also data/processing in the brain is some mighty uncovered field of science
minus-squareTheRealKuni@lemmy.worldlinkfedilinkEnglisharrow-up2·6 months agoJust gotta lower the clock speed enough for us not to notice. As long as we don’t interact with the outside world, just other stored human brains, it can be slow as molasses and we won’t notice.
I’d be curious about the access speed comparison, because I’d assume for the brain it’s be RAM equivalent, not SDD
The brain is a tightly coupled biological computer , it’s access speed is practically instantaneous
Also data/processing in the brain is some mighty uncovered field of science
Just gotta lower the clock speed enough for us not to notice. As long as we don’t interact with the outside world, just other stored human brains, it can be slow as molasses and we won’t notice.