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ARM11 Processor Family

ARM11 Processor Family Image
The ARM11™ processor family provides the engine that powers many smartphones in production today and is also widely used in consumer, home, and embedded applications. It delivers extreme low power and a range of performance from 350 MHz in small area designs up to 1 GHz in speed-optimized designs in 45 and 65 nm. ARM11 processor software is compatible with all previous generations of ARM processors, and introduces 32-bit SIMD for media processing, physically tagged caches to improve OS context switch performance, TrustZone for hardware-enforced security, and tightly coupled memories for real-time applications.
 


Low risk and fast time to market

High performance in low-cost designs

  • 800MHz to 1 GHz+ in 65G at under 2 mm2
  • 1 to 4 cores in an SMP cluster with ARM11 MPCore
  • ARM System IP, Physical IP, and available third party design support
  • ARM926/AHB to ARM11/AXI migration simplified through AMBA® AHB-AXI bridge fabric

Compelling end-user experience

  • Significant uplift over the ARM926EJ-S™ processor in media, OS, and browser performance
  • Smartphone-class web browser support and extensive software and tool ecosystem
  • Combine with Mali-200 to provide Open GL ES 2.0 support for rich UI

The ARM11 is broadly deployed in a range of SoCs and OEM products. You can also consult a full list of public ARM11 processor licensees


Applications Processors for Consumer, Wireless, and Automotive Infotainment

  • ARM1176JZ(F)-S and ARM11 MPCore™ Processors
    • Designed for use as applications processors in consumer and wireless products
    • Both processors feature the ARMv6 instruction set architecture, with media processing extensions, ARM Jazelle® technology, and ARM Thumb® for compact code.
    • In the ARM11 processor family, only the ARM1176JZ(F)-S processor has ARM TrustZone™ technology. TrustZone technology provides support within the CPU and platform architecture for building the trusted computing environments required to enable protection of critical system functions from downloaded applications, copyright protection of downloaded media, safe over-the-air system upgrades.
  • Scalable Multicore performance with ARM11 MPCore Processor
    • The ARM11 MPCore synthesizable multiprocessor, based on the ARM11 microarchitecture, can be configured to contain between one and four processors delivering up to 2600 Dhrystone MIPS of performance.

  • ARM1136J(F)-S Processor
    • Also designed for use as applications processors; includes many features of the ARM1176JZ(F)-S processor
    • Does not include AMBA® 3 AXI™ bus or TrustZone
    • Some users implement the ARM1136J(F)-S processor for compatibility with existing AMBA AHB bus peripherals from their ARM9 processor-based SoC designs
    • Software-compatible migration path to latest generation ARM Cortex-A class processors

High Performance Processors for Automotive, Data Storage, Imaging and Embedded Control

  • ARM1156T2-S Processor
    • First ARM processor to incorporate ARM Thumb-2 technology for even higher code density and instruction set efficiency.
      • Thumb-2 technology uses 31 percent less memory than pure 32-bit code to reduce system cost, while delivering up to 38 percent better performance than existing Thumb technology.
    • These processors also feature optional parity protection for caches and Tightly Coupled Memories (TCM), and non-maskable interrupts, making them ideal for embedded control applications where high reliability or high availability are paramount.
    • The ARM1156T2-S processors feature an enhanced Memory Protection Unit (MPU) and offer an ideal upgrade path for embedded control applications currently using ARM946E-S, ARM966E-S or older 16-bit processors.
    • These processors feature AMBA 3 AXI specification interfaces, offering higher system bus bandwidth with fewer bus layers and rapid timing closure.
    • Software-compatible migration path to latest generation ARM Cortex-R class processors

PPA ARM1176JZ(F)-S ARM11MPCore
Process Geometry TSMC65LP TSMC 65GP TSMC 40G TSMC 65LP
Performance (DMIPS) 603 965 1238 530 * 2
Performance (Coremarks) 1002 1605 2058 1775
Frequency * (MHz) 482 772 990 427
Total area (mm2) 1.75 1.94 1.17 3.26
Power efficiency (DMIPS/mW) 3 6 12 3.9 * 2
Dynamic power (mW/MHz) ** 0.41 0.208 0.105 0.318

ARM11 Processor Family Features:

  • Powerful ARMv6 instruction set architecture
  • ARM Thumb® instruction set reduces memory bandwidth and size requirements by up to 35%
  • ARM Jazelle® technology for efficient embedded Java execution
  • ARM DSP extensions
  • SIMD (Single Instruction Multiple Data) media processing extensions deliver up to 2x performance for video processing
  • ARM TrustZone® technology for on-chip security foundation (ARM1176JZ-S and ARM1176JZF-S processors)
  • Thumb-2 technology (ARM1156(F)-S only) for enhanced performance, energy efficiency and code density
  • Low power consumption:
    • 0.21 mW/MHz (65G) including cache controllers
    • Energy saving power-down modes address static leakage currents in advanced processes
  • High performance integer processor
    • 8-stage integer pipeline delivers high clock frequency (9 stages for ARM1156T2(F)-S)
    • Separate load-store and arithmetic pipelines
    • Branch Prediction and Return Stack
  • High performance memory system design
    • Supports 4-64k cache sizes
    • Optional tightly coupled memories with DMA for multi-media applications
    • High-performance 64-bit memory system speeds data access for media processing and networking applications
    • ARMv6 memory system architecture accelerates OS context-switch
  • Vectored interrupt interface and low-interrupt-latency mode speeds interrupt response and real-time performance
  • Optional Vector Floating Point coprocessor for automotive/industrial controls and 3D graphics acceleration (ARM1136JF-S, ARM1176JZF-S and ARM1156T2F-S processors)
  • All ARM11 family processors are delivered as ARM-Synopsys Reference Methodology compliant deliverables which significantly reduce the time to generate a specific technology implementation of the core and to generate a complete set of industry standard views and models.

Cortex Alternative

The Cortex™-A5 processor is a related follow-on product to the ARM1176. The Cortex-A5 processor offers similar speed to ARM11™ processors, at lower power and smaller die area, with the ARMv7 benefits of NEON™, and TrustZone®, as well as a more advanced AMBA® AXI™ bus. Cutting edge new SoC designs for are starting now based on the ARM Cortex-A5 processor, however some SoC designs are still starting with ARM1176 processor where cost and minimal risk are important considerations.

System IP

The ARM1176 processor is commonly integrated with many other IP blocks to optimize the SoC for performance, power, and security.

System IP components are essential for building complex system on chips and by utilizing System IP components developers can significantly reduce development and validation cycles, saving cost and reducing time to market.

Description AMBA Bus System IP Components
Advanced AMBA 3 Interconnect IP AXI NIC-301, PL301
DMA Controller AXI DMA-330 , PL330
Level 2 Cache Controller AXI L2C-310 , PL310
Dynamic Memory Controller AXI DMC-340 , PL340
DDR2 Dynamic Memory Controller AXI DMC-342
Static Memory Controller AXI SMC-35x , PL35x
TrustZone Address Space Controller AXI PL380
CoreSight™ Design Kit ATB CDK-11

Media Processors
The Mali™ family of products combine to provide the complete graphics stack for all embedded graphics needs, enabling device manufacturers and content developers to deliver the highest quality, cutting edge graphics solutions across the broadest range of consumer devices.
Mali-200 GPU High performance graphical processor providing advanced 2D and 3D acceleration. Supports OpenGL ES 2.0
Mali-55 GPU Small, OpenGL ES 1.0 capable GPU

Physical IP
ARM® Physical IP Platforms deliver process optimised IP, for up to 1 GHz processor implementations of the ARM11 in G processes at 65nm and below, and up to 500 MHz implementations in LP nodes 65 nm and below. ARM Physical IP includes Logic Libraries, Embedded Memory, Interface Libraries, and High Speed Interface components for the following nodes relevant to ARM11.
Standard Cell Logic Libraries Available in a variety of different architectures ARM Standard Cell Libraries support a wide performance range for all types of SoC designs. Designers can choose between different libraries and optimize their designs for speed, power and/or area
Memory Compilers and Registers A broad array of silicon proven SRAM, Register File and ROM memory compilers for all types of SoC designs ranging from performance critical to cost sensitive and low power applications.
Interface Libraries A broad portfolio of silicon-proven Interface IP designed to meet varying system architectures and standards. General Purpose I/O, Specialty I/O, High Speed DDR and Serial Interfaces are optimized to deliver high data throughput performance with low pin counts.
Process Nodes for ARM11
  • TSMC 65 nm Technology
  • GLOBALFOUNDRIES 65 nm Technology
  • TSMC 40 nm Technology

Tools Support

All ARM processors are supported by the ARM RealView® portfolio of development tools, as well as a wide range of third party tools, operating system and EDA vendors. ARM RealView tools are unique in their ability to provide solutions that span the complete development process from concept to final product deployment.


 
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ARM11 Powered Products
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