Kungekudala, iifoto zeprosesa entsha ye-hybrid yavela kwi-Intanethi. isizukulwana Picasso, eyenzelwe iiPC zedesktop. Kwaye ngoku umthombo ofanayo waseTshayina upapashe idatha entsha malunga nePicasso-generation desktop APUs ezizayo. Ngokukodwa, wafumanisa amandla angaphezulu kweemveliso ezitsha, kwaye waphinda wakhupha enye yazo.
Ke, okokuqala, masikhumbule ukuba ii-APU zeRyzen 3000 (ezineegraphics ezihlanganisiweyo) azinanto ifana kakhulu neRyzen 3000 CPUs ezayo (ngaphandle kwemizobo edibeneyo). Ii-APU ezintsha ziza kubonelela ngee-cores ze-Zen + kwaye ziza kuveliswa kusetyenziswa iteknoloji yenkqubo ye-12nm, ngelixa ii-CPU zexesha elizayo ziza kube sele zenziwe kusetyenziswa iteknoloji yenkqubo ye-7nm kwaye iya kubonisa i-Zen 2 cores.
Ngoku makhe siqhubele phambili kwiziphumo zovavanyo lomthandi waseTshayina. Wakwazi ukugqithisa iprosesa encinci ye-Ryzen 3 3200G ukuya kwi-4,3 GHz kwi-voltage engundoqo ye-1,38 V. Ngokuthelekisa, i-predecessor yayo, i-Ryzen 3 2200G, yayigqithise kuphela kwi-4,0 GHz kwi-voltage efanayo. Ngaloo ndlela, i-Ryzen 5 3400G endala yayigqithiselwe kwi-4,25 GHz kwi-voltage efanayo ye-1,38 V. I-predecessor yayo, i-Ryzen 5 2400G, yayigqithise kuphela kwi-3,925 GHz kwi-voltage efanayo. Ewe kunjalo, kuzo zonke iimeko sithetha ngokugqithisa zonke ii-cores.
Ngokubhekiselele kwiqondo lokushisa, xa i-overclocked, i-Ryzen 3 3200G ishushu ukuya kwi-75 Β° C, oko kukuthi, ifana neyangaphambili. Ngaloo ndlela, ukushisa okugqithisiweyo kwe-Ryzen 5 3400G kwakuyi-80 Β° C, eyi-degree eyodwa kuphela ephezulu kunokushisa kwe-Ryzen 5 2400G. Kuyavela ukuba ii-APU ezintsha, xa zigqithiselwe, ziyakwazi ukufikelela kwii-frequencies malunga ne-300 MHz phezulu, ngelixa zisebenza kumbane ofanayo kunye nobushushu obufanayo. Masikhumbule ukuba ii-APU ze-Ryzen 3 zine-cores ezi-4, iintambo ze-4 kunye ne-4 MB ye-cache yezinga lesithathu. Emva koko, i-Ryzen 5 APU ine-4 cores kunye ne-8 threads.
Emva kokuzama i-overclocking, umthandi waseTshayina wagqiba kwelokuba akhuphe iRyzen 3 3200G encinci. Akazange aphumelele kakhulu - icrystal yeprosesa yonakaliswe kakhulu, kodwa uvavanyo lwakhe lwatyhila into enye ebingalindelekanga yemveliso entsha. Kukho i-solder phakathi kokufa kunye nesigqubuthelo seprosesa, ngelixa i-Ryzen 2000 kunye nee-APU ezindala zisebenzisa i-thermal paste. Kuyabonakala ukuba, ubukho be-solder bube nefuthe elihle kwi-overclocking ye-chips entsha. Kuyafaneleka ukuba uqaphele ukuba imilinganiselo yeetshiphusi kwiimveliso ezitsha zifana ncam nezo zangaphambili.
Ngokubanzi, iiprosesa zeRyzen 3000 ezixubileyo ziya kwahluka kubanduleli bazo ngendlela efanayo neRyzen 1000 eqhelekileyo kunye ne-2000 yeeprosesa eziphambili zohluka. Izibonelelo zeZen + cores xa kuthelekiswa neZen eqhelekileyo kunye nokutshintshwa kweteknoloji yenkqubo ye-12-nm sele ikhulise amandla emveliso emitsha, kwaye ubukho be-solder buya kunceda ukudibanisa umphumo.
umthombo: 3dnews.ru