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This is a comparison of ARM instruction set architecture application processor cores designed by Arm Holdings (ARM Cortex-A) and 3rd parties. It does not include ARM Cortex-R , ARM Cortex-M , or legacy ARM cores.
The ARM Cortex-A9 MPCore is a 32-bit multi-core processor that provides up to 4 cache-coherent cores, each implementing the ARM v7 architecture instruction set. [1] It was introduced in 2007. [ 2 ]
The ARM Cortex-A is a group of 32-bit and 64-bit RISC ARM processor cores licensed by Arm Holdings.The cores are intended for application use. The group consists of 32-bit only cores: ARM Cortex-A5, ARM Cortex-A7, ARM Cortex-A8, ARM Cortex-A9, ARM Cortex-A12, ARM Cortex-A15, ARM Cortex-A17 MPCore, and ARM Cortex-A32, 32/64-bit mixed operation cores: ARM Cortex-A35, ARM Cortex-A53, ARM Cortex ...
ARM Cortex-A8: 2005 13 Dual-issue, in-order, speculative execution, superscalar, 2-way pipeline decode ARM Cortex-A9 MPCore: 2007 8–11 Out-of-order, speculative issue, superscalar ARM Cortex-A15 MPCore: 2010 15 Multi-core (up to 16), out-of-order, speculative issue, 3-way superscalar ARM Cortex-A53: 2012 Partial dual-issue, in-order ARM ...
Cortex-A15: Texas Instruments OMAP5, Samsung Exynos 5250, ST Ericsson NovaThor A9600, [20] Fujitsu, [21] Nvidia Tegra 4 Samsung/Google Nexus 10, Samsung Chromebook XE303 Cortex-A17: Rockchip: RK3288: RK3288 Asus Tinker Board, Boardcon EM3288 SBC [22] Cortex-A32: Cortex-A35: NXP i.MX8X, MediaTek MT6799, MT8516, Rockchip RK3308: Cortex-A53 ...
The ARM Cortex-A8 is a 32-bit processor core licensed by ARM Holdings implementing the ARMv7-A architecture. Compared to the ARM11, the Cortex-A8 is a dual-issue superscalar design, achieving roughly twice the instructions per cycle. The Cortex-A8 was the first Cortex design to be adopted on a large scale in consumer devices. [2]
The Sitara Arm Processor family, developed by Texas Instruments, features ARM9, ARM Cortex-A8, ARM Cortex-A9, ARM Cortex-A15, and ARM Cortex-A53 application cores, C66x DSP cores, imaging and multimedia acceleration cores, industrial communication IP, and other technology to serve a broad base of applications.
In Neon, the SIMD supports up to 16 operations at the same time. The Neon hardware shares the same floating-point registers as used in VFP. Devices such as the ARM Cortex-A8 and Cortex-A9 support 128-bit vectors, but will execute with 64 bits at a time, [135] whereas newer Cortex-A15 devices can execute 128 bits at a time. [141] [142]