Sesivele sekuyiminyaka embalwa lapho ukwenziwa kwamaphrosesa ngosayizi abancishisiwe kuthatha ukugqama kakhulu futhi kulokhu kukhulunywa ngekusasa elithembisayo le-Apple Silicon, amaphrosesa kulindeleke ukuthi bafike nama-nanometers angu-3 kanye nama-cores afika kwangu-40.
Lapha okufanele kubhekwe yizici ezifana nokusebenza ngezikhathi zesidingo esikhulu, ukuzinza kanye nokusetshenziswa. Ngalo mqondo, amaphrosesa amasha eMac neMacBook Pro azoba ne- i-architecture ekwazi ukuletha ukusebenza kuma-Apple processors.
3 i-nanometer architecture enama-cores angama-40
Ulwazi uxwayise ngalolu shintsho esikhathini esizayo esingekude kakhulu se-Apple processors. Ngokunengqondo ngeke kube wushintsho esilubona kumaphrosesa kulo nyaka ozayo, kungase kudingeke silinde omunye unyaka ukuze sifinyelele lezi 3nm. Noma kunjalo, yonke into ihamba ngokushesha kakhulu ngalo mqondo futhi ama-processor amasha e-4nm angabonakala nango-2022, kufanele siqaphe ngoba kusukela onyakeni owodwa kuye kolandelayo yonke into ingaphenduka futhi iqale ukukhiqiza lawa ma-chips anamandla amakhompyutha avela ku-Apple.
Lezi zinhlobo zamaphrosesa zinikeza ukusebenza okuphezulu (okungukuthi ukubona ama-ARM amanje we-Macs) kanye nokusebenza kahle kwamandla okuthuthukisiwe. Konke lokhu kwenza isethi ibukeke ngempela ngokwamandla. Ama-SoC amasha angaba ngcono kunawamanje. Okwamanje, kubonakala sengathi ukwakhiwa kwe-5-namometer kuzoqhubeka nokuba yisisekelo sokukhiqiza se-TSMC namuhla., kodwa akushiwo ukuthi ngesikhashana nje bazoqala ngalawa 3 kanye nama-4nm asethuthukiswa embonini.