sun@slrpnk.net to Technology@lemmy.worldEnglish · 5 days agoMEGA launches new large file transfer service Transfer.it with no file size limitalternativeto.netexternal-linkmessage-square33fedilinkarrow-up1211arrow-down111
arrow-up1200arrow-down1external-linkMEGA launches new large file transfer service Transfer.it with no file size limitalternativeto.netsun@slrpnk.net to Technology@lemmy.worldEnglish · 5 days agomessage-square33fedilink
minus-squareScott@sh.itjust.workslinkfedilinkEnglisharrow-up47·edit-25 days agoDon’t tempt me with 10tb of /dev/urandom
minus-squaremiss_demeanour@lemmy.dbzer0.comcakelinkfedilinkEnglisharrow-up10·5 days ago1s take longer than 0s to xfer, so they must be roomier.
minus-squaredrspod@lemmy.mllinkfedilinkEnglisharrow-up22·5 days agoIs it because the 1s get stuck in the bends in the pipe, but the nice round 0s can get around the corners more easily?
minus-squareSheeEttin@lemmy.ziplinkfedilinkEnglisharrow-up1·4 days agoOther way around. The fat 0s can jam up the series of tubes, while the narrow 1s can move through more easily.
minus-squareActuallyGoingCrazy@sh.itjust.workslinkfedilinkEnglisharrow-up2·4 days agoIdk the little nub on the 1s makes me think they’ll lock together and make a big clog.
minus-squaresugar_in_your_tea@sh.itjust.workslinkfedilinkEnglisharrow-up1·4 days agoYeah, do /dev/zero instead, for maximum throughput.
Don’t tempt me with 10tb of /dev/urandom
1s take longer than 0s to xfer, so they must be roomier.
Is it because the 1s get stuck in the bends in the pipe, but the nice round 0s can get around the corners more easily?
Other way around. The fat 0s can jam up the series of tubes, while the narrow 1s can move through more easily.
Idk the little nub on the 1s makes me think they’ll lock together and make a big clog.
Yeah, do /dev/zero instead, for maximum throughput.