Ngo-2015, i-ARM ibonise ukonga amandla okuyi-64/32-bit core ye-heterogeneous big.LITTLE architecture, kwaye ngo-2016 yakhupha i-32-bit kernel. kwizinto zombane ezinxitywayo.
Kwaye ngoku, ngaphandle kokutsala ingqalelo enkulu, inkampani iye yazisa undoqo we-64-bit Cortex-A34. Le mveliso inikezelwa ngeprogram yeFlexible Access, enika abaqulunqi beesekethe ezidibeneyo ukufikelela kuluhlu olubanzi lwepropathi yengqondo kunye nokukwazi ukuhlawula kuphela iibhloko eziza kusetyenziswa kwimveliso yokugqibela.
Kuphela kweCortex iprosesa, kunye neCortex-A65, exhasa kuphela imiyalelo ye-64-bit kwaye ayihambelani nekhowudi ye-32-bit. I-Cortex-A34 yakhiwe kwi-architecture ye-ARMv8-A, inombhobho okwinqanaba elisi-8, ixhasa i-symmetric multiprocessing (SMP) ukuya kuthi ga kwi-4 cores kwiqela elinye kunye neqela elilandelelanayo le-SMP processors eziqhagamshelwe ngebhasi ye-AMBA 4. imemori ye-cache esasaziweyo yenqanaba lesibini inokufikelela kwi-1 MB, kuquka ukulungiswa kwempazamo ye-ECC.
Kukho inkxaso yeteknoloji yokhuseleko lweTrustZone, i-hardware virtualization, i-DSP extensions, i-SIMD (NEON), kunye nexabiso eliphantsi le-VFPv4 lendawo edadayo, kunye nelayibrari yecandelo elibanzi lokulungisa kunye nokulandelela imisebenzi kwinkqubo ye-CoreSight SoC-400.
I-ARM ibonisa ukuba i-Cortex-A34 iya kusetyenziswa kwiintlobo ngeentlobo zezicelo, kubandakanywa izixhobo zamashishini, i-electronics yasekhaya ehlakaniphile, ukhathalelo lwezempilo kunye ne-cloud computing. Ngokuqinisekileyo, ukushiya imiyalelo ye-32-bit kuya kwenza i-chip yokugqibela ingabizi.
umthombo: 3dnews.ru