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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Immortalis Graphics Processors
Arm Immortalis-G925
- Fragment prepass.
- Doubled tiler throughput.
- Doubled shift-convert unit thoughput.
- Improved command stream frontend.
- Improved ray tracing performance.
Immortalis-G720
- Deferred vertex shading geometry pipeline.
- Doubled 64bpp texture throughput.
- Optimized 2xMSAA (multisampling anti-aliasing).
- Hardware-based ray tracing support on mobile.
Immortalis-G715
- First Arm GPU to offer hardware-based ray tracing support on mobile.
- New variable-rate shading for gaming boost.
- 2x architectural ML improvements.
Cortex-A
Cortex-A725
- Designed to enhance consumer experience with AAA gaming and web browsing.
- Delivers increased sustained performance within fixed power envelope.
- Continues the area-optimized configurability option for cost-constrained markets.
Cortex-A720AE
- Designed for the next generation of software defined vehicles.
- Arm DynamIQ Shared Unit, DSU-120AE, brings increased levels of scalability.
- Introduces safety features for both ISO 26262 ASIL B and ASIL D certifications.
Cortex-A720
- 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.
Cortex-A715
- 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.
Cortex-A710
- 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.
Cortex-A520AE
- Designed for the next generation of software defined vehicles (SDVs).
- Innovative micro-architecture delivering highly efficient performance.
- Split-lock feature to build silicon once and address multiple markets.
Cortex-A520
- 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.
Cortex-A510
- Large performance increases for a highly efficient CPU.
- Innovative microarchitecture upgrades.
- Over 3x uplift in ML performance compared to Cortex-A55.
Cortex-A78
- 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.
Cortex-A78C
- 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.
Cortex-A78AE
- Designed for the software-defined vehicle.
- Split-lock capability with hybrid mode for efficient functional safety and post-silicon flexibility.
- ISO 26262 ASIL D certifications, and enhanced features targeted at ASIL B and quality management use cases.
Cortex-A77
- Leadership performance and efficiency for 5G mobile solutions.
- Improved responsiveness for on device machine learning.
- Built for next-gen smartphones and laptops.
Cortex-A76
- 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.
Cortex-A76AE
- 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.
Cortex-A75
- 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.
Cortex-A73
- Increased power efficiency of up to 30 percent over predecessors.
- Smallest Armv8-A processor.
- Designed for mobile and consumer applications.
Cortex-A72
- Advanced branch predictor reduces wasted energy consumption.
- Gain significant advantages in reduced memory requirements.
- Suitable for implementation in an Arm big.LITTLE configuration.
Cortex-A65AE
- 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.
Cortex-A65
- 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.
Cortex-A55
- Flexible design meets requirements to support broad market application.
- Ideal for smaller devices with constrained environments.
- Designed for compatibilty with DynamIQ configurations.
Cortex-A53
- 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.
Cortex-A35
- Power management features reduce the power budget.
- Supports 64-bit processing suitable for embedded applications.
- Ideal processor to use for IoT nodes and gateways.
Cortex-A34
- 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.
Cortex-A32
- 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.
Cortex-A7
- 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.
Cortex-A5
- 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.
Cortex-M
Cortex-M85
- Unprecedented scalar, DSP, and ML performance for demanding use cases.
- Offers enhanced software security with TrustZone and PACBTI extension to accelerate the route to PSA Certified silicon.
- Optional support for Arm Custom Instructions, enabling product differentiation without fragmentation.
Cortex-M55
- Efficient scalar, ML, and DSP performance for general purpose applications.
- Arm TrustZone accelerates the route to PSA Certified silicon.
- Optional support for Arm Custom Instructions, enabling product differentiation without fragmentation.
Cortex-M52
- Efficient scalar, ML, and DSP performance for cost sensitive designs.
- Offers enhanced software security with TrustZone and PACBTI extension to accelerate the route to PSA Certified silicon.
- Optional support for Arm Custom Instructions, enabling product differentiation without fragmentation.
Cortex-M35P
- 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.
Cortex-M33
- 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.
Cortex-M23
- 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.
Cortex-M7
- 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.
Cortex-M4
- 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.
Cortex-M3
- 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.
Cortex-M1
- Available for a no license fee through DesignStart FPGA.
- Based on the most proven and trusted embedded architecture.
- Optimised for FPGA development.
Cortex-M0+
- 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.
Cortex-M0
- 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.
Cortex-R
Cortex-R82AE
- High-performance single-thread 64-bit real-time processing.
- Enabling real-time advanced safety applications.
- Implements MMU for rich OS support.
Cortex-R82
- Offers efficient, high-performance compute for complex storage applications.
- Supports Arm Neon technology for ML acceleration.
- Implements MMU for rich OS support.
Cortex-R52
- Enables advanced safety features for a range of automotive applications.
- Software separation protects safety-critical code.
- High-performance multicore clusters deliver real-time responsiveness.
Cortex-R52+
- Software separation enables integration of multiple operating systems while protecting safety-critical code.
- High-performance multicore clusters deliver real-time responsiveness.
Cortex-R8
- Offers low latency.
- Configurable ports support flexible design options.
- Delivers the responsive power needed for high-performance mass storage applications.
Cortex-R5
- 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.
Cortex-R4
- 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.
Cortex-X
Cortex-X
- 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
Ethos-U85
- Delivers up to 4 TOPs scalable ML performance.
- 20% improvements in energy efficiency than previous Ethos-U NPUs.
- Native support for transformer networks.
Ethos-U65
- 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.
Ethos-U55
- 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.
Arm NN SDK
- 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.
Ethos-N78
- 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.
Mali Graphics Processors
Mali-G725
- Fragment prepass.
- Doubled tiler throughput.
- Doubled shirt-converter unit throughput.
- Improved command stream frontend.
Mali-G720
- Deferred vertex shading geometry pipeline.
- Doubled 64bpp texture throughput.
- Optimized 2xMSAA (multisampling anti-aliasing).
Mali-G715
- New variable rate shading for gaming boost.
- Improved execution engine for more compute power.
- 2x architectural ML improvements.
Mali-G710
- 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.
Mali-G625
- Designed to enhance consumer experience with AAA gaming and web browsing.
- Delivers increased sustained performance within fixed power envelope.
- Continues the area-optimized configurability option for cost constrained markets.
Mali-G620
- Adopts features from Mali-G720, including deferred vertex shading geometry pipeline.
- Design work from Mali-G720 can be used to address wider audience.
Mali-G615
- 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.
Mali-G610
- 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.
Mali-G510
- 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.
Mali-G310
- 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.
Mali-G78AE
- Flexible Partitioning enables hardware separation for mixed-criticality workloads.
- Hardware virtualisation support.
- Highly scalable, from 1-24 shader cores from a single IP.
Mali-G78
- 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.
Mali-G68
- 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.
Mali-G77
- 60 percent performance improvement for on-device machine learning.
- Improved high-fidelity gaming performance.
- Increased performance due to the innovative super scalar engine.
Mali-G76
- 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.
Mali-G57
- 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.
Mali-G72
- Arithmetic optimizations for performance and efficiency improvements.
- Advanced technologies to increase tile buffer memory support.
Mali-G52
- 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.
Mali-G31
- 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-470
- 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.
Mali Image Signal Processors
Mali-C720AE
- Configurable architecture compliant with ISO 26262 standard (ASIL B diagnostic/ASIL D systematic).
- Dual computer vision/human vision pipeline.
- Differentiable ISP model.
- RGBIr 4x4 support.
Mali-C78AE
- Built on the class-leading Arm Mali-C71AE design.
- Improved image quality features.
- Advanced capabilities for computer vision and display applications, including scaled outputs.
Mali-C71AE
- Multi-camera HDR support.
- Display and computer vision outputs.
- Addresses a variety of automotive and industrial use cases, including ADAS and mobile robotics.
Mali-C55
- 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.
Mali-C52
- High precision and high dynamic range.
- Image quality focused.
- Use cases range from security cameras to high-end drones, and more.
Mali-C32
- 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
Neoverse N3
- 20% greater performance-per-watt efficiency compared to Neoverse N2.
- 2MB L2 cache option offers nearly 3x performance gains on ML workloads.
Neoverse V3
- Highest single-thread performance for cloud, HPC, and AI/ML workloads.
- Supports up to 3MB private L2 cache per core.
- The perfect foundation for AI accelerator development.
Neoverse V3AE
- Highest single-thread performance for AI/ML workloads and automotive markets.
- Supports up to 3MB L2 cache per core.
- Performance to meet the needs of complex workloads for autonomous vehicles and advanced driver-assistance systems in future generations of software-defined vehicles.
Neoverse V2
- 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
- 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
- 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
- Revolutionary compute performance.
- Platform features specific to infrastructure.
- Designed for extreme range of scale and diversity of compute.
Neoverse E1
- 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 V3
- Up to 64 high-performance Neoverse V3 cores per die.
- Offers a highly customizable, high-performance memory subsystem.
- Supports high-speed, low-latency AI accelerator attachment options.
Neoverse CSS N3
- Highly configurable to target 5G, enterprise networking, and infrastructure edge use cases.
- Supports from 8 to 32 Neoverse N3 cores per die.
Neoverse CSS N2
- 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.
SecurCore
SC300
- 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.
SC000
- 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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