Iiprosesa ze-7nm ze-AMD Ryzen 3000 zexesha elizayo ezisekelwe kwi-architecture ye-Zen 2 ziya kukwazi ukusebenza kunye neemodyuli ze-DDR4-3200 RAM ngaphandle kwebhokisi, ngaphandle kokugqithisa okongeziweyo. Malunga noku ukususela ekuqaleni
I-AMD iphucula inkxaso yememori kunye nesizukulwana ngasinye se-Ryzen processors. Iichips zokuqala ezisekwe kulwakhiwo lweZen zisebenze nge-DDR4-2666 inkumbulo ngaphandle kwe-overclocking eyongezelelweyo, iimodeli zeZen + ezithathe indawo yazo sele zikwazi ukusebenza ngaphandle kwebhokisi ngememori ye-DDR4-2933, kwaye ngoku isizukulwana esilandelayo seRyzen sinikwa inkxaso. yeDDR4-3200. Qaphela ukuba iiprosesa ze-Intel Coffee Lake zixhasa imemori ye-DDR4-2666 ngokungagqibekanga, kwaye i-overclocking iyafuneka ukuze isebenze ngeemodyuli ezikhawulezayo.
Ngendlela, i-Ryzen 3000 ayiyi kuba yiprosesa yokuqala ye-AMD ukuxhasa imemori ye-DDR4-3200 ngokungagqibekanga. Ii-chips zeenkqubo ezifakwe kwi-Ryzen Embedded V1756B kunye ne-V1807B, eyakhiwe kwi-architecture ye-Zen +, nazo zinabo obu buchule.
Qaphela ukuba i-3200 MHz lelona xesha liphezulu lichazwa ngumgangatho we-JEDEC wememori ye-DDR4. Nantoni na engasentla ithetha overclocking. Kwaye ngokweengxelo ezingaqinisekanga, xa zigqithiselwe, iiprosesa ezintsha zeRyzen 3000 ziya kukwazi ukuqhuba imemori ye-DDR4 kumaza ukuya kuthi ga kwi-4400-4600 MHz okanye nangaphezulu. Ngokuqinisekileyo, yonke into iya kuxhomekeka kwiprosesa ethile kunye nemodyuli yememori, kwaye kwezinye iimeko kuya kukwazi ukufikelela kwiifrikhwensi eziphezulu, kodwa kwezinye akuyi. Inokwenzeka ukuba iboniswe kwi
umthombo: 3dnews.ru