Highest Performance CPU with Split-Lock
Cortex-A78AE is the highest performance Cortex-A processor designed for devices undertaking complex and demanding safety-critical tasks. The Split-Lock capability with second-generation Dual Core Lock-Step (DCLS) enables flexible operations at the highest levels of safety. With the ability to run different workloads concurrently and a 30 percent performance uplift compared to its predecessor, Cortex-A78AE offers the scalable, efficient, heterogeneous compute required for automated driving and autonomous industrial systems.
The Cortex-A78AE features an advanced energy-efficient microarchitecture designed for performance density to deliver highest peak and sustained single-thread performance in thermally constrained fanless designs.
Options for multicore, multi-cluster, accelerator ports and heterogenous compute configurations offer the ability to run different workloads or application footprints, allowing the deployment of the same SoC compute architecture into different domain controllers.
Switch between split mode for highest cluster-level performance, lock mode for advanced multicore fault-tolerance with ASIL D/SIL 3 hardware metrics, or hybrid mode to deliver higher compute availability to help achieve ASIL B/SIL 2 safety requirements.
Any faults and failures may be life threatening so automotive systems demand higher levels of functional safety. Cortex-A78AE provides a flexible, scalable heterogeneous compute solution to meet the highest Automotive Safety Integrity Level (ASIL) standards required for advanced driver assistance systems (ADAS) and autonomous driving.
Find out how Cortex-A78AE can bring high-performance compute, power efficiency, and safety to your complex automotive and industrial solutions.
CMN-600AE is a highly scalable coherent mesh network optimized for Armv8-A processors and designed for high-performance IVI, digital cockpit, and ADAS systems that need to meet ASIL B to ASIL D automotive safety requirements.
The Arm MMU-600AE handles all aspects of memory management, including memory virtualization and supporting PCIe address translation services. It enables high-performance systems targeting ASIL B to ASIL D safety integrity levels.
Arm’s latest GICv4 compatible interrupt controller incorporates advanced safety mechanisms to target up to ASIL D applications. In conjunction with Armv8-A class AE CPUs, the GIC-600AE enables high-performance safety-oriented systems in IVI, ADAS and autonomous systems.
Mali-G78AE is a highly scalable GPU that enables configurable workload separation and virtualization. Mali-G78AE is designed to the IEC 61508 and ISO 26262 safety standards for industrial and automotive application respectively and is ASIL B/SIL 2 safety-capable.
With the most comprehensive library for the creation of debug and trace solutions, the CoreSight SoC-600 enables protocol-based debug access throughout the product lifecycle.
As an advanced high-performance ISP, Mali-C71AE delivers key visual information to both computer vision (CV) systems and human display for clear and convenient viewing. Mali-C71AE is the first Arm ISP with built-in features for functional safety.
Arm-based chips, device architectures and technologies orchestrate the performance of everything that makes modern life possible.
Everything you need to know to make the right decision for your project. Includes technical documentation, industry insights, and where to go for expert advice.
- Fast Track to Autonomy with Software Development
- Enabling Next-Generation Autonomous Systems
- Arm Cortex-A78AE: On the Road to an Autonomous Future
- Accelerating ADAS Adoption on the Road to Vision Zero
- Evolving Safety Systems: Comparing Lockstep, Redundant Execution and Split Lock Technologies
- How To Accelerate The Journey To Autonomous Vehicles
- How To Navigate the Journey to Autonomous Factories, & Supply Chains