IO 😇@lemmy.blahaj.zone to Microblog Memes@lemmy.worldEnglish · 2 months agoI didn't know tbhlemmy.blahaj.zoneimagemessage-square16fedilinkarrow-up1314arrow-down14file-text
arrow-up1310arrow-down1imageI didn't know tbhlemmy.blahaj.zoneIO 😇@lemmy.blahaj.zone to Microblog Memes@lemmy.worldEnglish · 2 months agomessage-square16fedilinkfile-text
minus-squareUndearius@lemmy.calinkfedilinkEnglisharrow-up243arrow-down1·2 months agoZeros are round like the wire so they can stack nicely. Ones need to be put through the wire length-wise meaning they take up more space.
minus-squarezerofk@lemmy.ziplinkfedilinkEnglisharrow-up70·2 months agoIs that what happens in network congestion: a 1 bit gets in the wire sideways and takes a while to dislodge?
minus-squareSkaveRat@discuss.tchncs.delinkfedilinkEnglisharrow-up33·2 months agoYes. When that happens a network engineer has to blow through the cable, that’s why it causes lag
minus-squareTrackinDaKraken@lemmy.worldlinkfedilinkEnglisharrow-up46·2 months agoFinally, an answer that makes sense.
minus-squarezxqwas@lemmy.worldlinkfedilinkEnglisharrow-up25·2 months agoAnd since they are round-ish it does not matter so much which way is up when you stack them. A computer will always recognize them as zeros. A one has to be somewhat close to the right way up (or upside down works too).
Zeros are round like the wire so they can stack nicely.
Ones need to be put through the wire length-wise meaning they take up more space.
Is that what happens in network congestion: a 1 bit gets in the wire sideways and takes a while to dislodge?
Yes. When that happens a network engineer has to blow through the cable, that’s why it causes lag
Finally, an answer that makes sense.
And since they are round-ish it does not matter so much which way is up when you stack them. A computer will always recognize them as zeros.
A one has to be somewhat close to the right way up (or upside down works too).