Alphane Moon@lemmy.worldM to Hardware@lemmy.worldEnglish · 1 day agoChinese chipmaker readies 128-core, 512-thread CPU with AVX-512 and 16-channel DDR5-5600 supportwww.tomshardware.comexternal-linkmessage-square9fedilinkarrow-up147arrow-down12
arrow-up145arrow-down1external-linkChinese chipmaker readies 128-core, 512-thread CPU with AVX-512 and 16-channel DDR5-5600 supportwww.tomshardware.comAlphane Moon@lemmy.worldM to Hardware@lemmy.worldEnglish · 1 day agomessage-square9fedilink
minus-squareMentalEdge@sopuli.xyzlinkfedilinkEnglisharrow-up4·18 hours agoFour threads per core? Is that useful?
minus-squareAlphane Moon@lemmy.worldOPMlinkfedilinkEnglisharrow-up3·14 hours agoYes, it’s good for low complexity, large scope use cases. The classic example is transaction processing (that’s what those IBM mainframe with 4 way and 8 way SMT are often used for).
minus-squareShawdow194@fedia.iolinkfedilinkarrow-up3·16 hours agoI was gonna say this might be more proof of concept than actual applications right now Make the hardware and they will come…
minus-squareUnfortunateShort@lemmy.worldlinkfedilinkEnglisharrow-up5·15 hours agoHas been a thing in IBM processors for years. They even do 8-way multithreading. Doesn’t handle fundamentally different than 2-way, except you have less hardware = less compute per thread. Basically the same as using slower clocking cores, if they hide the multithreading right.
Four threads per core?
Is that useful?
Yes, it’s good for low complexity, large scope use cases.
The classic example is transaction processing (that’s what those IBM mainframe with 4 way and 8 way SMT are often used for).
I was gonna say this might be more proof of concept than actual applications right now
Make the hardware and they will come…
Has been a thing in IBM processors for years.
They even do 8-way multithreading. Doesn’t handle fundamentally different than 2-way, except you have less hardware = less compute per thread. Basically the same as using slower clocking cores, if they hide the multithreading right.