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http://dbpedia.org/resource/ARM_Cortex-A76
http://dbpedia.org/ontology/abstract ARM Cortex-A76 — мікроархітектура, що реалізує 64-бітний набір команд ARMv8.2-A, спроектована центром досліджень і розробки ARM Holdings у Остіні (Техас). За заявою ARM, має на 25% вищу швидкодію у операціях з цілими числами, і на 35% — з рухомою комою. , El ARM Cortex-A76 es una microarquitecturaEl ARM Cortex-A76 es una microarquitectura que implementa el ARMv8.2-A de 64 bits diseñado por el centro de diseño de ARM Holdings de Austin. ARM afirma un aumento del 25% y del 35% en el rendimiento de los enteros y de la coma flotante, respectivamente, respecto a un Cortex-A75 de la generación anterior. ​un Cortex-A75 de la generación anterior. ​ , ARM Cortex-A76是一個基於64位指令集架構設計的中央處理器以及ARM內核。由安謀控股旗下奧斯汀設計中心的奧斯汀團隊設計。 , The ARM Cortex-A76 is a central processingThe ARM Cortex-A76 is a central processing unit implementing the ARMv8.2-A 64-bit instruction set designed by ARM Holdings' Austin design centre. ARM states a 25% and 35% increase in integer and floating point performance, respectively, over a Cortex-A75 of the previous generation.r a Cortex-A75 of the previous generation. , L' ARM Cortex-A76 est une microarchitecturL' ARM Cortex-A76 est une microarchitecture implémentant le jeu d'instructions ARMv8.2-A 64 bits conçu par ARM Holdings. Le Cortex-A76 remplace le Cortex-A73 et le , mais repose sur une conception en feuille épurée. Le noyau prend en charge les applications 32 bits sans privilège, mais les applications privilégiées doivent utiliser l'ISA ARMv8-A 64 bits. ARM a annoncé des augmentations respectives de 25 % et 35 % des performances en nombres entiers et en virgule flottante. La bande passante mémoire a augmenté de 90 % par rapport à l'A75. Selon ARM, l’A76 devrait offrir des performances deux fois supérieures à celles de l’A73 et ne vise pas uniquement les charges de travail mobiles. Les performances ciblent la "classe ordinateur portable", y compris les périphériques Windows 10, concurrents du Kaby Lake d’Intel. Le Cortex-A76 prend en charge la technologie DynamIQ d'ARM, qui devrait être utilisée comme cœurs haute performance lorsqu'elle est utilisée en combinaison avec des cœurs écoénergétiques Cortex-A55.avec des cœurs écoénergétiques Cortex-A55.
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rdfs:comment ARM Cortex-A76 — мікроархітектура, що реалізує 64-бітний набір команд ARMv8.2-A, спроектована центром досліджень і розробки ARM Holdings у Остіні (Техас). За заявою ARM, має на 25% вищу швидкодію у операціях з цілими числами, і на 35% — з рухомою комою. , El ARM Cortex-A76 es una microarquitecturaEl ARM Cortex-A76 es una microarquitectura que implementa el ARMv8.2-A de 64 bits diseñado por el centro de diseño de ARM Holdings de Austin. ARM afirma un aumento del 25% y del 35% en el rendimiento de los enteros y de la coma flotante, respectivamente, respecto a un Cortex-A75 de la generación anterior. ​un Cortex-A75 de la generación anterior. ​ , L' ARM Cortex-A76 est une microarchitecturL' ARM Cortex-A76 est une microarchitecture implémentant le jeu d'instructions ARMv8.2-A 64 bits conçu par ARM Holdings. Le Cortex-A76 remplace le Cortex-A73 et le , mais repose sur une conception en feuille épurée. Le noyau prend en charge les applications 32 bits sans privilège, mais les applications privilégiées doivent utiliser l'ISA ARMv8-A 64 bits. ARM a annoncé des augmentations respectives de 25 % et 35 % des performances en nombres entiers et en virgule flottante. La bande passante mémoire a augmenté de 90 % par rapport à l'A75. Selon ARM, l’A76 devrait offrir des performances deux fois supérieures à celles de l’A73 et ne vise pas uniquement les charges de travail mobiles. Les performances ciblent la "classe ordinateur portable", y compris les périphériques Windows 10, concurrents les périphériques Windows 10, concurrents , ARM Cortex-A76是一個基於64位指令集架構設計的中央處理器以及ARM內核。由安謀控股旗下奧斯汀設計中心的奧斯汀團隊設計。 , The ARM Cortex-A76 is a central processingThe ARM Cortex-A76 is a central processing unit implementing the ARMv8.2-A 64-bit instruction set designed by ARM Holdings' Austin design centre. ARM states a 25% and 35% increase in integer and floating point performance, respectively, over a Cortex-A75 of the previous generation.r a Cortex-A75 of the previous generation.
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