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Cortex-A710
The ARM Cortex-A710 is the successor to the ARM Cortex-A78, being the First-Generation Armv9 "big" Cortex CPU. It is the companion to the ARM Cortex-A510 "LITTLE" efficiency core. It was designed by ARM Ltd.'s Austin centre. It is the fourth and last iteration of Arm's Austin core family. It forms part of Arm's Total Compute Solutions 2021 (TCS21) along with Arm's Cortex-X2, Cortex-A510, Mali-G710 and CoreLink CI-700/NI-700. Architecture changes in comparison with ARM Cortex-A78 The processor implements the following changes: * Rename / Dispatch width: 5 (decreased from 6). * 10-cycle pipeline (decreased from 11). * One of only two ARMv9 cores to support EL0 AArch32, along with the ARM Cortex-A510. Improvements: * 30% more power efficient than Cortex-A78. * 10% uplift in performance compared to Cortex-A78 *2x ML uplift Architecture comparison :;"big" core Usage * Qualcomm Snapdragon 7 Gen 1, Snapdragon 7+ Gen 2, Snapdragon 8/8+ Gen 1 * MediaTek Dimensity 90 ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
List Of Qualcomm Snapdragon Processors
The Qualcomm Snapdragon suite of System on a chip, systems on chips (SoCs) are designed for use in smartphones, Tablet computer, tablets, laptops, 2-in-1 PCs, smartwatches, and smartbooks devices. Before Snapdragon SoC made by Qualcomm before it was renamed to Qualcomm Snapdragon, Snapdragon. *MSM (Mobile Station Modem) *QSC (Qualcomm Single Chip) Snapdragon S series Snapdragon S1 Snapdragon S2 Snapdragon S3 Snapdragon S4 Snapdragon S4 was offered in three models: S4 Play for budget and entry-level devices, S4 Plus for mid-range devices and S4 Pro for high-end devices. It was launched in 2012. The Snapdragon S4 were succeeded by the Snapdragon 200/400 series (S4 Play) and 600/800 series (S4 Plus and S4 Pro). Snapdragon S4 Play Snapdragon S4 Plus Snapdragon S4 Pro and S4 Prime (2012) Snapdragon 2 series The Snapdragon 2 series is the entry-level SoC designed for low-end or ultra-budget smartphones. It replaces the MS ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
List Of Qualcomm Snapdragon Systems On Chips
The Qualcomm Snapdragon suite of systems on chips (SoCs) are designed for use in smartphones, tablets, laptops, 2-in-1 PCs, smartwatches, and smartbooks devices. Before Snapdragon SoC made by Qualcomm before it was renamed to Snapdragon. *MSM (Mobile Station Modem) *QSC (Qualcomm Single Chip) Snapdragon S series Snapdragon S1 Snapdragon S2 Snapdragon S3 Snapdragon S4 Snapdragon S4 was offered in three models: S4 Play for budget and entry-level devices, S4 Plus for mid-range devices and S4 Pro for high-end devices. It was launched in 2012. The Snapdragon S4 were succeeded by the Snapdragon 200/400 series (S4 Play) and 600/800 series (S4 Plus and S4 Pro). Snapdragon S4 Play Snapdragon S4 Plus Snapdragon S4 Pro and S4 Prime (2012) Snapdragon 2 series The Snapdragon 2 series is the entry-level SoC designed for low-end or ultra-budget smartphones. It replaces the MSM8225 S4 Play model as the lowest-end SoC in the enti ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
ARM Cortex-A710
The ARM Cortex-A710 is the successor to the ARM Cortex-A78, being the First-Generation Armv9 "big" Cortex CPU. It is the companion to the ARM Cortex-A510 "LITTLE" efficiency core. It was designed by ARM Ltd.'s Austin centre. It is the fourth and last iteration of Arm's Austin core family. It forms part of Arm's Total Compute Solutions 2021 (TCS21) along with Arm's Cortex-X2, Cortex-A510, Mali-G710 and CoreLink CI-700/NI-700. Architecture changes in comparison with ARM Cortex-A78 The processor implements the following changes: * Rename / Dispatch width: 5 (decreased from 6). * 10-cycle pipeline (decreased from 11). * One of only two ARMv9 cores to support EL0 AArch32, along with the ARM Cortex-A510. Improvements: * 30% more power efficient than Cortex-A78. * 10% uplift in performance compared to Cortex-A78 *2x ML uplift Architecture comparison :;"big" core Usage * Qualcomm Snapdragon 7 Gen 1, Snapdragon 7+ Gen 2, Snapdragon 8/8+ Gen 1 * MediaTek Dimensity 9 ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
ARM Cortex-A715
The ARM Cortex-A715 is the second generation ARMv9 "big" Cortex CPU. Compared to its predecessor the Cortex-A710 the Cortex-A715 CPU is noted for having a 20% increase in power efficiency, and 5% improvement in performance. The Cortex-A715 shows comparable performance to the previous generation Cortex-X1 CPU. This generation of chips starting with the A715 drops native 32-bit support. It forms part of Arm's Total Compute Solutions 2022 (TCS22) along with Arm's Cortex-X3, Cortex-A510, Arm Immortalis-G715 and CoreLink CI-700/NI-700. Architecture changes in comparison with ARM Cortex-A710 The processor implements the following changes: * Decode width: 5 (increased from 4) * Removed micro-op (MOP) cache (previously 1.5k entries) Usage * MediaTek • Dimensity 8300 • Dimensity 9200 * Qualcomm • Snapdragon 8 Gen 2 * Google • Tensor G3 Architecture comparison :;"big" core See also * ARM Cortex-X3, related high performance microarchitecture * Comparison o ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
ARM Cortex-X2
The ARM Cortex-X2 is a CPU implementing the ARMv9-A 64-bit instruction set designed by ARM Holdings' Austin design centre as part of ARM's Cortex-X Custom (CXC) program. It forms part of Arm's Total Compute Solutions 2021 (TCS21) along with Arm's Cortex-A710, Cortex-A510, Mali-G710 and CoreLink CI-700/NI-700. Architecture changes in comparison with ARM Cortex-X1 The processor implements the following changes: * ARMv9.0 * 10 cycle pipeline down from 11, created by reducing the dispatch stage from 2 cycles to 1 * Reorder buffer (ROB) increased by 30% from 224 entries to 288 * dTLB increased by 20% from 40 entries to 48 * SVE2 SIMD support * Bfloat16 data type support * Support for Aarch32 removed * DSU-110 ** Up to 12 cores (up from 8 cores) ** Up to 16M L3 cache (up from 8 MB) * CoreLink CI-700/NI-700 ** Up to 32MB SLC Performance claims: *Comparing the Cortex-X2 to the Cortex-X1 with the same process, clock speed, and 4MB of L3 cache (also known as ISO-process): **16% g ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
ARM Cortex-A720
The ARM Cortex-A720 is a CPU core model from Arm unveiled in 2023. It serves as a successor to the ARM Cortex-A715. Cortex-A700 CPU cores series focus on balanced performance and efficiency, and the CPU core can be paired with other cores in its family such as the high performance ARM Cortex-X4 or/and high efficiency ARM Cortex-A520 in a CPU cluster. It can be used as either "big" or " LITTLE". Architecture changes in comparison with ARM Cortex-A715 * Update to ARMv9.2 * 15% peak performance improvement over the Cortex-A715 * Can down to same size as Cortex-A78 with 10% performance improvement * Area optimize configuration for no area cost vs Cortex-A78 * Down L2 cache hit latency to 9 cycles (from 10 cycles) * Down mispredict latency to 11 cycles (from 12 cycles) * x2 L2 bandwidth * DSU-120 ** Up to 14 cores (up from 12 cores) ** Up to 32 MiB of shared L3 cache (increased from 16 MiB) Architecture comparison :;"big" core Usage * Google • Tensor G4 * MediaT ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
ARM Cortex-A510
The ARM Cortex-A510 is the successor to the ARM Cortex-A55 and the first ARMv9 high efficiency " LITTLE" CPU. It is the companion to the ARM Cortex-A710 "big" core. It is a clean-sheet 64-bit CPU designed by ARM Holdings' Cambridge design team. Design The Cortex-A510 is a “LITTLE” CPU core focusing on high efficiency, bringing the following improvements from last gen: * 3-wide in-order design, the Cortex-A55 was 2-wide. *3-wide fetch and decode front-end as well as 3-wide issue and execute on the back-end, which includes 3 ALU's. * 35% performance uplift compared to Cortex-A55 * 20% more energy efficient than Cortex-A55 * 3x ML uplift ARM announced a refresh for the Cortex-A510 CPU core on 28 June 2022 along with other CPU cores. The refresh improved power efficiency by 5% and scalability from 8 cores to up to 12 cores. Additionally, the refresh could be configured with 32-bit support, whereas the original was 64-bit only. Architecture comparison :;"LITTLE" ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Comparison Of ARMv8-A Cores
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. ARMv7-A This is a table comparing 32-bit central processing units that implement the ARMv7-A (A means Application) instruction set architecture and mandatory or optional extensions of it, the last AArch32. ARMv8-A This is a table of 64/32-bit central processing units that implement the ARMv8-A instruction set architecture and mandatory or optional extensions of it. Most chips support the 32-bit ARMv7-A for legacy applications. All chips of this type have a floating-point unit (FPU) that is better than the one in older ARMv7-A and NEON (SIMD) chips. Some of these chips have coprocessors also include cores from the older 32-bit architecture (ARMv7). Some of the chips are SoCs and can combine both ARM Cortex-A53 and ARM Cortex-A57, such as the Samsung Exynos ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Exynos
The Samsung Exynos (stylized as SΛMSUNG Exynos), formerly Hummingbird (), is a series of ARM architecture, Arm-based System on a chip, system-on-chips developed by Samsung Electronics' System LSI division and manufactured by Samsung Foundry. It is a continuation of Samsung's earlier List of Samsung systems on a chip, S3C, S5L and S5P line of SoCs. The first debut of Samsung's indigenously developed SoC is Samsung Hummingbird (S5PC110/111), later renamed as Exynos 3 Single 3110. Samsung announce it on July 27, 2009. In 2011, Samsung announced Exynos 4 Dual 4210 that was later equipped on Samsung Galaxy S II. Since then, Samsung has used Exynos as a representative brand name of their SoC, based on Arm Cortex cores. In 2017, Samsung launched their proprietary Arm ISA-based customized core designs, codenamed "Exynos M". Exynos M series core made a debut with Exynos M1 nicknamed "Mongoose", which was used for Exynos 8 Octa 8890. The Exynos M-series have been implemented throughout t ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
ARM Neoverse
The ARM Neoverse is a group of 64-bit ARM processor cores licensed by Arm (company), Arm Holdings. The cores are intended for datacenter, edge computing, and high-performance computing use. The group consists of ARM Neoverse V-Series, ARM Neoverse N-Series, and ARM Neoverse E-Series. Neoverse V-Series The Neoverse V-Series processors are intended for high-performance computing. Neoverse V1 Neoverse V1 (code named ''Zeus'') is derived from the ARM Cortex-X1, Cortex-X1 and implements the ARMv8.4-A instruction set and some part of ARMv8.6-A. It was officially announced by Arm on September 22, 2020. It is said to be initially realized with a 7 nm process from TSMC. One of the changes from the X1 is that it supports SVE 2x256-bit. According to ''The Next Platform'', the AWS_Graviton#Graviton3, AWS Graviton3 is based on the Neoverse V1. Neoverse V2 Neoverse V2 (code named ''Demeter'') is derived from the ARM Cortex-X3 and implements the ARMv9.0-A instruction set. It was officiall ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
AArch32
ARM (stylised in lowercase as arm, formerly an acronym for Advanced RISC Machines and originally Acorn RISC Machine) is a family of RISC instruction set architectures (ISAs) for computer processors. Arm Holdings develops the ISAs and licenses them to other companies, who build the physical devices that use the instruction set. It also designs and licenses cores that implement these ISAs. Due to their low costs, low power consumption, and low heat generation, ARM processors are useful for light, portable, battery-powered devices, including smartphones, laptops, and tablet computers, as well as embedded systems. However, ARM processors are also used for desktops and servers, including Fugaku, the world's fastest supercomputer from 2020 to 2022. With over 230 billion ARM chips produced, , ARM is the most widely used family of instruction set architectures. There have been several generations of the ARM design. The original ARM1 used a 32-bit internal structure but had a ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
