Technology That’s Shaping the Future of Compute

Arm is the world's leading technology provider of silicon IP for the intelligent system-on-chips at the heart of billions of devices. Our portfolio of products enable partners to innovate and get-to-market faster on a secure architecture built for performance and power efficiency. Find the right processor IP for your application.

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Supreme performance at optimal power
Powering the most energy-efficient embedded devices
Robust real-time performance
Custom-designed for ultimate performance and specific market needs
Highest performance for machine learning inference
Highest graphics performance for flagship gaming experiences
Higher graphics performance combined with power efficiency
Advanced ISPs for human display and computer vision applications
Scalable and flexible for cloud to edge infrastructure
Fully verified, PPA-optimized, customizable Neoverse compute subsystems
Powerful solutions for physical security applications
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First Armv9.2 premium-efficiency CPU based on DynamIQ technology. Offers sustained performance in a constrained power envelope
  • Built for next-generation consumer devices.
  • Delivers consistently high performance for wearables, smartphones, and laptops.
  • Offers new area configurability for an expanded range of use cases.


Second-generation Armv9 “big” CPU for best-in-class efficient performance
  • The CPU cluster workhorse across "big.LITTLE" configurations.
  • Targeted microarchitecture optimizations for 20% power efficiency improvements.
  • Consistent performance gains to match Cortex-X1, Arm’s first-generation Cortex-X CPU.


First-generation Armv9 “big” CPU that offers a balance of performance and efficiency
  • Addition of Armv9 architecture features for enhanced performance and security.
  • Optimal for mobile compute use cases such as smartphones and smart TVs.
  • 30% increase in energy efficiency compared to Cortex-A78.


First Armv9.2 high-efficiency “LITTLE” CPU
  • Most performant, high-efficiency CPU with improved power efficiency (up to 22% vs Cortex-A510) for DoU/real-world use cases.
  • New QARMA3 PAC algorithm lowers the performance cost, strengthening PAC deployment in the consumer technology market.
  • AArch64-only CPU for building big.LITTLE clusters across the consumer technology market.


First-generation Armv9 high-efficiency “LITTLE” CPU
  • Large performance increases for a highly efficient CPU.
  • Innovative microarchitecture upgrades.
  • Over 3x uplift in ML performance compared to Cortex-A55.


The fourth generation high-performance CPU based on DynamIQ technology. The most efficient premium Cortex-A CPU
  • Built for next generation consumer devices
  • Enabling immersive experiences on new form factors and foldables
  • Improving ML device responsiveness and capabilities such as face and speech recognition


Providing market-specific solutions with advanced security features and large big-core configurations
  • Performance for laptop class productivity and gaming on-the-go
  • Advanced data and device security with Pointer Authentication
  • Improved scalability with up to 8 big core only configuration and up to 8MB L3 cache


Arm’s most advanced processor designed for safety-critical applications
  • Suited to complex automated driving and industrial autonomous systems
  • Split-Lock capability with hybrid mode for flexible operations
  • Enhanced support for ISO 26262 ASIL B and ASIL D safety requirements


Third-generation high-performance CPU based on DynamIQ technology
  • Leadership performance and efficiency for 5G mobile solutions
  • Improved responsiveness for on device machine learning
  • Built for next-gen smartphones and laptops


Second-generation high-performance CPU based on DynamIQ technology
  • Designed for devices undertaking complex compute tasks
  • Greater single threaded performance and improved energy efficiency
  • Enables faster responsiveness and at-the-edge support for machine learning applications


The world’s first autonomous-class processor with integrated safety features
  • Purpose-built for functional safety applications such as ADAS and autonomous vehicles
  • First application processor with Split-Lock capability
  • Safety capable to industry standards, including ISO 26262 ASIL D


First-generation high-performance CPU based on DynamIQ technology
  • Flexible architecture provides a broad ecosystem of support
  • Executes up to three instructions in parallel per clock cycle
  • Broad market use covers smartphones, servers, automotive applications and more


Highly power-efficient CPU that maintains high-performance
  • Increased power efficiency of up to 30 percent over predecessors
  • Smallest Armv8-A processor
  • Designed for mobile and consumer applications


High-performance CPU that has multiple uses including mobile and embedded technologies
  • Advanced branch predictor reduces wasted energy consumption
  • Gain significant advantages in reduced memory requirements
  • Suitable for implementation in an Arm big.LITTLE configuration


Arm’s first multithreaded Cortex-A CPU with Split-Lock for functional safety
  • Best-in-class throughput efficiency for memory intensive workloads
  • Highest levels of safety with Dual Core Lock-Step for demanding safety-critical tasks
  • Supports Split-Lock for improved cost efficiency in mixed-criticality applications


Arm’s first multithreaded Cortex-A CPU.
  • Best-in-class throughput efficiency for memory intensive workloads
  • Processes two threads simultaneously, scales up to eight cores in a single cluster
  • Built on DynamIQ technology, supports an array of configurations


Highest efficiency mid-range processor that can be paired with a high-performance CPU in a DynamIQ configuration
  • Flexible design meets requirements to support broad market application
  • Ideal for smaller devices with constrained environments
  • Designed for compatibilty with DynamIQ configurations


The most widely-used mid-range processor with balanced performance and efficiency
  • Available in Arm Flexible Access
  • The choice for high single thread and FPU/Neon performance
  • Supports a wide range of applications across automotive and networking and more
  • Most widely deployed 64-bit Armv8-A processor


Armv8-A processor that seamlessly supports 32-bit and 64-bit
  • Power management features reduce the power budget
  • Supports 64-bit processing suitable for embedded applications
  • Ideal processor to use for IoT nodes and gateways


Smallest and most power-efficient 64-bit Armv8-A processor
  • Scalable from a single core or up to a cluster of 4 processors
  • Advanced power management with idle power management features
  • Supports 64-bit processing suitable for embedded applications


Smallest and lowest power Armv8-A processor
  • Advanced power management with idle power mangement features
  • Scalability of use as a single core or up to a cluster of four processors
  • Logical choice for embedded and IoT markets


Smallest and most efficient 32-bit Armv7-A processor
  • Enhanced hardware virtualization provided by Armv7-A extensions
  • Improved memory performance of up to 20 percent over its predecessors
  • Supports 32-bit, rich operating systems, including Linux


Customizable Armv7-A processor for high-performance in a low-power profile
  • Scalable versatility for cost-sensitive, low-power applications
  • Advanced features and rich OS support for the smallest devices
  • Access at $0 through Arm Flexible Access



Latest-generation, highest-performing Cortex-M processor with Arm Helium technology.
  • Delivers unprecedented scalar, DSP and ML performance while maintaining Cortex-M determinism and simple programming model.
  • Offers enhanced software security with new PACBTI extension.


AI-capable mainstream Cortex-M processor with Arm Helium technology.
  • Delivers efficient ML and DSP performance for Cortex-M.
  • Simplifies AI implementation for IoT with the ease-of-use of Cortex-M, a single toolchain, optimized software libraries, and an industry-leading embedded ecosystem.


The first Armv8-M processor with tamper resistance built in
  • Added physical resilience and system safety functions won't compromise performance
  • Includes the option of integrated digital signal processing (DSP)
  • Layers of protection guard against easy attacks and system takeovers


Ideal blend of real-time determinism, efficiency and security
  • Simplifies digital signal processing with security
  • Differentiate your product with TrustZone software isolation
  • Brings 32-bit performance to even the simplest and cost-sensitive devices


Smallest and lowest power microcontroller with TrustZone security
  • Includes built-in security foundation with TrustZone; Memory protection minimizes the of risk unexpected access
  • Ideal processor for use in energy-harvesting IoT nodes and small sensors
  • Access at $0 through Arm Flexible Access


High-performance Cortex-M processor
  • Simplifies signal processing to bring high-performance DSP to the masses
  • Built in floating point processing reduces power consumption
  • Supports innovative MCUs for more intensive automation tasks


Control and performance for mixed signal devices
  • Integrated digital signal processing (DSP) simplifies system design
  • Essential microcontroller features make it ideal for industrial applications
  • Most widely deployed Cortex-M processor with broad ecosystem


Exceptional 32-bit performance with low power consumption
  • Access at $0 through Arm Flexible Access
  • Commonly used across many smart home devices
  • Deployed in billions of devices across a broad set of embedded applications


Small, low-power Cortex-M processor for FPGA devices
  • Available for a no license fee through DesignStart FPGA
  • Based on the most proven and trusted embedded architecture
  • Optimised for FPGA development


Most energy-efficient Arm processor available
  • Take advantage of 32-bit processing intelligence at an 8-bit cost
  • Three highly optimized low power modes conserve energy
  • Most commonly used in wearables for healthcare, fitness and more


Smallest Arm processor available
  • Access at $0 through Arm Flexible Access
  • Ideal for smart sensors and mixed signal systems-on-chip (SoC)
  • Three highly optimized low power modes conserve energy



Highest performance real-time processor
  • Offers efficient, high-performance compute for complex storage applications
  • Supports Arm Neon technology for ML acceleration
  • Implements MMU for rich OS support


Advanced processor for functional safety
  • Enables advanced safety features for a range of automotive applications
  • Software separation protects safety-critical code
  • High-performance multicore clusters deliver real-time responsiveness


Real-time virtualization support for functional safety
  • Software separation enables integration of multiple operating systems while protecting safety-critical code
  • High-performance multicore clusters deliver real-time responsiveness


High performance processor suited for storage controllers and modems
  • Offers low latency
  • Configurable ports support flexible design options
  • Delivers the responsive power needed for high-performance mass storage applications


Offers seamless, real-time performance with functional safety
  • Dual core configurations enables twice the performance of previous Cortex-R processors
  • Ideally suited for the development of safety-critical products
  • Most commonly used in high-volume deeply embedded SoC applications


Smallest, real-time performance processor
  • Offers excellent energy efficiency and cost effectiveness
  • Prioritize reliability and error management with built-in error handling
  • Ideal for embedded applications including automobiles and cameras



Custom-design beyond traditional Arm Cortex products for next-generation devices
  • Delivers ultimate performance and compatibility with Arm Cortex-A
  • Addresses market-specific goals and relevant use cases
  • Provides DynamIQ support for intelligent, scalable solutions and flexibility

Ethos - NPUs


Scalable and efficient second-generation ML inference processor
  • 2x faster inference with 40% lower bandwidth, 25% increased efficiency
  • Multiple markets from 1 to 10 TOP/s and up to 90 unique configurations
  • Develop once, deploy anywhere with online and offline compilation


Powering innovation in a new world of AI devices at the edge and endpoint
  • Delivers 1.0 TOP/s ML performance in about 0.6 mm2
  • Partner configurable from 256 to 512 8-bit MACs
  • Unified toolchain supports Cortex-M and Cortex-A based systems


Configurable and efficient embedded ML inference
  • Delivers up to 0.5 TOP/s, a 480x ML up lift and 90% energy reduction 
  • Partner configurable from 32 to 256 8-bit MACs in around 0.1mm2
  • Rapid development with a single tool chain for Cortex-M and Ethos-U


Bridges the gap between existing neural network frameworks and the underlying IP
  • Free of charge
  • Supports Arm Cortex CPUs, Arm Mali GPUs and the Arm Machine Learning processor
  • Arm NN for NNAPI accelerates neural networks on Android devices

Immortalis Graphics Processors


Arm’s latest flagship GPU is based on the new 5th Gen GPU architecture, bringing the next generation of visual computing to mobile
  • Deferred vertex shading geometry pipeline.
  • Doubled 64bpp texture throughput.
  • Optimized 2xMSAA (multisampling anti-aliasing).
  • Hardware-based ray tracing support on mobile.


Arm’s new flagship GPU provides ultimate mobile gaming experiences
  • First Arm GPU to offer hardware-based ray tracing support on mobile.
  • New variable rate shading for gaming boost.
  • 2x architectural ML improvements.

Mali Graphics Processors


5th Gen based graphics processing unit (GPU) for premium mobile market
  • Deferred vertex shading geometry pipeline.
  • Doubled 64bpp texture throughput.
  • Optimized 2xMSAA (multisampling anti-aliasing).


Fourth-generation Valhall-based graphics processing unit (GPU) for premium mobile market
  • New variable rate shading for gaming boost.
  • Improved execution engine for more compute power.
  • 2x architectural ML improvements.


5th Gen based graphics processing unit (GPU)
  • Adopts features from Mali-G720, including deferred vertex shading geometry pipeline.
  • Design work from Mali-G720 can be used to address wider audience.


Fourth-generation Valhall-based graphics processing unit (GPU) in Mali-G600 series
  • Adopts features from Mali-G715, including variable rate shading, for gaming boost.
  • Enables high-quality battery life.
  • Design work from Mali-G715 can be used to address wider audience.


Third-generation Valhall-based graphics processing unit (GPU) in Mali-G600 series
  • Brings premium use cases to a wider audience of developers and consumers.
  • Inclusion of command stream frontend for an improved gaming experience.
  • Industry-leading device efficiency to boost battery life.


Third-generation Valhall-based graphics processing unit (GPU) for the mainstream market
  • Bringing premium features to a range of different devices.
  • Doubling on device graphics performance and increased visual fidelity on smart TVs.
  • Doubling of machine learning capabilities on previous generation mainstream GPUs.


Third- generation Valhall-based graphics processing unit (GPU) for the premium market
  • Game changing features to improve on-device graphics.
  • Inclusion of command stream frontend for a more realistic gaming experience.
  • Larger cores to boost device efficiency to improve battery life.


Third-generation Valhall-based high-efficiency graphics processing unit (GPU).
  • Multiple configurations to suit design needs.
  • Inclusion of premium level features such as command stream frontend for a more realistic gaming experience.
  • Targeting market segments and devices such as entry-level smart TVs and AR/VR devices.


High-performance GPU suitable for complex autonomous applications, safety capable to ASIL B
  • Flexible Partitioning enables hardware separation for mixed-criticality workloads 
  • Hardware virtualisation support
  • Highly scalable, from 1-24 shader cores from a single IP


Valhall-based graphics processing unit (GPU) for the sub premium market
  • Fused Multiply-Add (FMA) built from the ground up offers improved power consumption and prolonged battery life
  • Enables developers to target larger consumer markets with high-performing applications and mobile gaming


Second-generation premium GPU based on the Mali Valhall architecture
  • Enables superior digital immersion for consumers
  • Asynchronous Top Level for power savings and greater battery life for next-generation devices
  • On device improvements in ML enabling more realistic gaming experiences on mobile


First-generation premium GPU based on the Mali Valhall architecture.
  • 60 percent performance improvement for on-device machine learning
  • Improved high-fidelity gaming performance
  • Increased performance due to the innovative super scalar engine


Second-generation Bifrost-based high-performance Graphics Processing Unit (GPU) for high-fidelity gaming and complex machine learning (ML) workloads
  • Arithmetic optimizations for performance and efficiency improvements.
  • Advanced technologies to increase tile buffer memory support.


Premium GPU based on the Mali Bifrost architecture, delivering high energy and area-efficiency.
  • Execution engine width doubled with eight-thread pipelines
  • Uses three wider engines to double overall compute capability per shader core
  • 8-bit integer dot product accelerates neural network (NN) interface


First-generation mainstream GPU based on the Mali Valhall architecture
  • Improved performance and increased efficiency
  • Premium high-fidelity content delivered to mass markets
  • Re-engineered for Vulkan to be positioned for the future of gaming


Mainstream Mali Bifrost architecture GPU with a scalable core
  • Large range of configurations - two or three 8-thread wide pipelines per shader core
  • Significant performance over Mali-G51 for complex graphics
  • 8-bit integer dot product accelerates neural network (NN) interface


Major update to the highly successful Mali-400 GPU
  • Final GPU based on the Mali Utgard architecture
  • Highly optimized for wearables and low-power devices
  • Doubles the energy-efficiency of Mali-400 GPU in the same silicon area


Ultra-efficient GPU based on the Mali Bifrost architecture - GPU of choice for cost constrained devices
  • Significant area savings – 20 percent smaller than the mainstream GPU
  • 20 percent increased performance density for complex workloads
  • 12 percent improvement for the growing complexity of UI

Mali Image Signal Processors


High performance, multi-camera automotive image signal processor.
  • Built on the class-leading Arm Mali-C71AE design
  • Improved image quality features
  • Advanced capabilities for computer vision and display applications, including scaled outputs


Advanced high-performance image signal processor with built-in functional safety features.
  • Multi-camera HDR support
  • Display and computer vision outputs
  • Addresses a variety of automotive and industrial use cases, including ADAS and mobile robotics


Configurable, energy-efficient ISP for IoT and embedded markets.
  • Outstanding precision and dynamic range.
  • Excellent image quality in small silicon area.
  • Easy integration between Mali-C55 and ML accelerators.
  • Ideal for a range of use cases, from smart home cameras and commercial security to smart displays.


Multi-camera image signal processor for display applications
  • High precision and high dynamic range
  • Image quality focussed
  • Use cases range from security cameras to high-end drones, and more


Configuration version of Mali-C52, optimized for area.
  • High precision and high dynamic range
  • Use cases include low-power, cost-sensitive embedded vision devices where the full feature set of Mali-C52 is not required


Neoverse V2

A New Benchmark for Cloud Computing, HPC, and ML Performance.
  • With an enhanced pipeline and up to 2MB L2 cache per core, Neoverse V2 can deliver 2x the performance of Neoverse V1 on cloud and ML applications.
  • Arm's first V-series core with Armv9 features like memory tagging extension (MTE) and performance defined power (PDP).

Neoverse V1

A performance-first tier targeting HPC, HPC in the Cloud and AI/ML-accelerated applications.
  • Arm’s first SVE implementation for the HPC market, with 2x floating and 4x ML uplift over Neoverse N1.
  • Expands market-leading performance with 50% IPC uplift over Neoverse N1.

Neoverse N2

Leading performance efficiency for cloud-to-edge infrastructure.
  • Market leading scalability and versatility.
  • Significant 40% IPC performance improvement over Neoverse N1.
  • Armv9 introduces key features for performance (SVE2) and security (MTE).

Neoverse N1

Accelerating the transformation to a scalable cloud to edge infrastructure.
  • Revolutionary compute performance.
  • Platform features specific to infrastructure.
  • Designed for extreme range of scale and diversity of compute.

Neoverse E1

Empowering the infrastructure to meet next-generation throughput demands.
  • Intelligent design for highly efficient throughput. 
  • Fully leverages diverse Arm software ecosystem. 
  • Highly scalable throughput for edge-to-core data transport.

Neoverse Compute Subsystems

Neoverse CSS N2

The market leading performance-per-watt of the Arm Neoverse N2 platform, delivered as a fully verified, customizable compute subsystem.
  • Up to 64 Neoverse N2 cores in a 5nm advanced process.
  • Up to 1MB L2 private cache per core and up to 64MB shared system-level cache.
  • Up to 8x DDR5 40b or LPDDR5 channels.
  • Up to 4x x16 PCIe/CXL Gen5 lanes.



High performance processor with low dynamic power
  • Combines benefits of the Cortex-M3 processor with enhanced security features
  • Designed primarily for tamper resistant smart cards
  • Embeds counter measures against side channel attacks and fault injections


Designed specifically for the highest volume smartcard and embedded security applications
  • Combines benefits of the Cortex-M0 processor with enhanced security features
  • Upward compatible with SC300 processor
  • Extensive ecosystem of embedded tools, software and knowledgebase
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