We Standardize, You Innovate
Arm provides system architectures free of charge to help designers develop secure and efficient systems with ease. These architectures offer standardized components and interfaces that address common design challenges, striking the right balance between consistency and flexibility, to reduce development cost and accelerate time to market for system‑on‑chip (SoC) solutions.
Delivered in collaboration with Arm ecosystem partners, these system architectures do not impose mandates, yet they provide clear benefits when designing systems using off‑the‑shelf components or operating systems.
Features and Benefits
Arm system architectures define hardware, firmware, and software interfaces that help streamline integration of CPUs with memory, storage, and accelerators—reducing complexity and time to market.
We combine rigorous security principles, best practices, and industry knowledge to enable secure platform designs. See our Security Architectures framework.
Our system architectures cover a diverse range of products across many market segments including automotive, embedded, IoT, mobile, server and infrastructure, and machine learning.
We provide just enough standardization to tackle common problems while empowering partners to add their own value and differentiation.
Standardized Foundations for Scalable, Interoperable Systems
We help you consistently combine Arm-specific interfaces and industry-standard interfaces to achieve a base level of compatibility across implementations for common market problems.
Chiplet Architecture
We let you design chiplets that can be customized and incorporated into multiple systems using standard system partitioning and connectivity.
Server Management
We expose essential features expected by datacenter and enterprise users, ranging from remote server monitoring and control to deployment, hardware lifecycle management, and fault management and troubleshooting.
Enabling Seamless Performance and Portability Through Software Standard
System Firmware
Facilitate secure and efficient system functionality with a set of low-level interface standards.
Software Development
Optimize performance while maintaining portability using Arm C-Language Extensions to gain access to Arm-specific instructions.
The Application Binary Interface helps ensure compatibility across compliers, linkers and run-time libraries.
Unified Standards for Component and Software Integration
Arm Generic Interrupt Controller (GIC)
Prioritize peripheral interrupts for delivery to the correct processor core.
Power Control System Architecture (PCSA)
Delegate SoC-specific power and performance management while retaining overall control with the operating system.

Advanced Microcontroller Bus Architecture
The Advanced Microcontroller Bus Architecture (AMBA) is a freely available, open set of standards for the connection and management of functional blocks in a system-on-chip (SoC).
Key Takeaways
- Free and Open System Architecture Standards
Arm offers free system architecture specifications that guide the design of secure, efficient systems. These include definitions across hardware, firmware, and software components, enabling interoperability and ecosystem-wide adoption. - Balanced Standardization That Enables Innovation
The architecture defines just enough standard interfaces to tackle common design challenges, promoting reuse and consistency, while preserving flexibility for developers to maintain design differentiation and creativity. - Optional But Often Critical for Compatibility
While adoption isn't mandatory, these system architectures are particularly useful in key markets like IoT, mobile, infrastructure, and automotive. They help ensure compatibility, especially when integrating off-the-shelf components or software platforms.
Frequently Asked Questions
Talk with an Expert
Starting off on the right foundation for your product or project is critical. Talk with an Arm expert to learn more about which architecture is right for you.