AbakwaSamsung baqale ukukhiqizwa ngobuningi bamaprosesa besebenzisa inqubo ye-14-nm FinFET muva nje, kodwa isivele ilungiselela ikusasa futhi iqala ukuzama ubuchwepheshe be-10-nm, futhi njengoba isho, ngisho nobuchwepheshe be-5-nm akuyona inkinga enkulu yona. Le nkampani iveze lawa maqiniso athokozisayo engqungqutheleni ye-ISSCC 2015, lapho yethule khona ama-prototypes amaphrosesa enziwe kusetshenziswa ubuchwepheshe be-10-nm, ezobusebenzisa eminyakeni embalwa ezayo. Ngaso leso sikhathi, uKinam Kim ukuqinisekisile ukuthi i-Samsung izokhiqiza amaphrosesa ngokuzayo isebenzisa inqubo esivele iseduze noMthetho kaMoore.
Kepha kubonakala sengathi akukho okuvimba i-Samsung ukuthi idlule umkhawulo obekwe nguGordon Moore nokwenza ama-chips amancane futhi ayonga kakhulu. Inkampani iveze ukuthi ingahle iqale ukukhiqiza amaphrosesa isebenzisa inqubo yokukhiqiza engu-3,25-nm ngokuzayo. Kepha umbuzo usasele ukuthi izosebenzisa ziphi izinto, njengoba i-Intel isimemezele ukuthi angeke kusakwazi ukusebenzisa i-silicon ngaphansi komkhawulo we-7-nm. Yingakho ehlela ukukhiqiza ama-chips ngosizo lwe-Indium-Gallium-Arsenide, eyaziwa kangcono ngesifinyezo sayo esithi InGaAs. Kodwa-ke, isengasebenzisa i-silicon ngenqubo yamanje ye-14-nm FinFET. Lesi sakamuva sisetshenziswa ngakolunye uhlangothi ekukhiqizeni ama-pre chips Galaxy S6 futhi uzoyisebenzisela ukukhiqiza ama-pre chips iPhone 6s kanye neQualcomm. Uhlela ukusebenzisa amaprosesa enziwe kusetshenziswa inqubo ye-10-nm emikhiqizweni ye-IoT, ngenxa yokusetshenziswa kwe-chip ephansi. Kodwa-ke, lawa madivayisi azovela ekuqaleni kuka-2016 no-2017.
var sklikData = { elm: "sklikReklama_47926", zoneId: 47926, w: 600, h: 190};
var sklikData = { elm: "sklikReklama_47925", zoneId: 47925, w: 600, h: 190};
*Umthombo: Nikkeibp.co.jp; I-ZDNet
