How to Select the ARM for your design? Overview of TI ARM based processors with example application case studies

1. How to Select the ARM for your design?Overview of TI ARM based processors with example application case studies ARM TECHNOLOGY CONFERENCE Santa Clara, CA 10 November 2010 Ram Sathappan Miguel Morales

2. TI ARM® investment and innovation TMS570FMCU TMS570MCU DaVinci™ DaVinci™ StellarisMCU OMAP™ OMAP1510 OMAP™ OMAP™ OMAP3 OMAP-L138 1st single-chip digital baseband - DSP/ARM multi-core Fixed/Floating-Point ARM9 SoC TI Acquires Luminary Micro Two ARM Cortex-R4 cores for automotive Introduced DaVinci™ processors for digital video – ARM9-based SoCs Stellaris®DustDevil Class TI Licenses first ARM core Stellaris®Fury Class • 2010 • First licensee of the ARM®Cortex™-A15 MPcore • TI introduces the Sitara AM389x platform - industry’s fastest single core ARM®Cortex™-A8 based processors running upto 1.5 GHz TI Licenses Cortex-A9 *TI first licensee for ARM Cortex™- A8 1993 1995 2002 2005 2006 2009 2008 2007 Stellaris®Tempest Class 1st multi-core applications processor, ARM9-based TI announces 31 new ARM-based products and introduces Sitara™ family Stellaris® Sandstorm Class 1st R4F-based floating-point, dual-core auto MCU 1st ARM Cortex-A8 based silicon Newest DaVinci solution for flexible, HD video TI has shipped over 5 billion ARM-based products and continues to invest in a large portfolio of scalable platforms from $1 to >1GHz * TI licensed in July 2003, but publicly announced Oct 2005.

3. TI ARM-based Processors As one of the top ARM-core licensee in the industry and having shipped over 5 billion ARM-based devices, TI has over the years expanded its ARM processor experience beyond Smartphones . . . . Offering 6 scalable ARM based Product Lines OMAP™ Cortex™-A8 Dual CoreCortex™-A9 DaVinci™ ARM9 or Cortex™-A8plusMedia Accelerators Integra™ ARM9 or Cortex™-A8plusC6000 DSP Sitara™ ARM9 & Cortex™-A8 TMS570 Cortex™-R4 Stellaris® Cortex™-M3

4. Stellaris®ARM® Cortex™-M3 Ideal for applications requiring Embedded control • Real time control • Connectivity • Integrated Ethernet with PHY • USB ( Device, Host, & OTG ) • Ready to use Software libraries • Graphics, IEC 60730, IQ Math • Open, application-specific dev kits • Up to 512 KB Flash and 96 KB RAM • On-chip Ethernet PHY w/IEEE 1588 • Integrated ADC, Comparators, LDO, Temp Sensor • Motion control PWMs • QEI inputs • Auto dead-band generation • 32-bit external bus interface Advanced Application Platforms Connectivity HMI Automation Security Energy Evaluation  Development  Reference  Modules

5. TMS570 – ARM® Cortex™-R4 Ideal for applications requiring Safety Critical Features • High performance real time control using model based development flows • Performance in harsh environments • Safety certification and high reliability • And… • Scalability • System cost constraints • Software re-use and portability • ARM Cortex-R4F floating-point CPU available today up to 160MHz going to 200+MHz • Developed specifically for safety critical systems and SIL3 certified by exida • Scalable roadmap of embedded Flash MCUs going up to 4MB • Support for fast engineering ramp and time to market TMS570 – a good fit for Transportation & Safety Hybrid & Electric Vehicles Railway Automotive Safety Systems Offroad Vehicles Avionics

6. Sitara™ – ARM926 & ARM® Cortex™-A8 Ideal for applications requiring Embedded computing • High performance • Using high level operating system • Graphics and Display needs • Wired and wireless networking • And… • Software re-use and portability • Low power for portable/mobile • Sitara platform consists of • ARM926 MPUs • High performance ARM Cortex-A8 based MPUs • Options 3D graphics • Extensive support for high level OS like Linux, WinCE and Android and RTOS (GHS, QNX, WR etc.) • Easy to use tools and SDK Sitara™ – a good fit for Industrial & Medical embedded computing Medical instrumentation Point of Service Single board computing HMI Test & measurement

7. Integra™ – C6000 DSP with ARM926 or ARM® Cortex™A8 Ideal for applications requiring Signal Processing • Intensive signal processing • High precision floating point operations • Operating systems support • Display and Graphics acceleration • High speed interface (IO) • Wired and Wireless networking • Integra platform consists of • C6000 fixed and floating point DSP with ARM926 or ARM Cortex-A8 based MPUs • With optional Graphics accelerators • Extensive support for high level OS like Linux, Android, WinCE • Easy to use tools and SDK Integra™ – a good fit for Industrial & Military signal processing Software Radios Avionics/Radar Medical ImagingEquipment Test & Measurement Machine Vision

8. DaVinci™ – ARM926 & ARM® Cortex™-A8 with Media accelerators Ideal for applications requiring Media Processing • Single or Multiple channels of Video encode and decode (VGA to Full HD) • Camera and Display needs • Wired and wireless networking • And… • Software re-use and portability • Low power for portable/mobile • DaVinci platform consists of • ARM926 MPUs with HD media accelerators • High performance ARM Cortex-A8 with HD media accelerators • Extensive support for high level OS like Linux, WinCE and Android • IP netcam & DVR Reference designs DaVinci™ – a good fit for Video capture, processing and display Digital Signage Digital Video Recorders Consumer Media IP Netcameras Video Conferencing

9. OMAP™ – ARM® Cortex™A8 and Cortex™ A9 Ideal for applications requiring Mobile Communications • Portability and mobility • Rich applications processing • Multimedia performance • Rich graphics and displayWireless • Wireless connectivity (WiFi, 3G/4G) • Long battery life • Software re-use and portability • OMAP platform consists of • ARM Cortex A8 based application processors • Dual ARM Cortex-A9 based application processors • With Multi-media and graphics accelerators • Support for high level OS like Linux, Android, Symbian, WinCE…. OMAP™ – a good fit for Mobile Communications & media apps eReaders eTablets Navigation Portable Media Smartphones Gaming Devices

10. Example Application Case Studies

11. Case Study #1 – Point of Sale I want to develop a platform that works from signature pads through automated checkouts: And they need to be able to reuse software from the signature pad to the full checkout system Stellaris’ HMI reference designs provide the perfect platform for touch-screen signature pad development Sitara’ HMI development platform provide the perfect platform for touch-screen display and control for the Self Checkout Stellaris’ Ethernet and CAN peripherals enable networked connection to the Sitara MPU running the checkout Reuse compatible software between ARM platforms Develop a platform from signature pad…. to … Self checkout

12. Case Study #2 – Industrial Control • I am designing and building triple redundant, industrial Programmable Logic Controllers. I am looking for floating-point performance and ECC for external DRAM. • Built-in redundancy would be attractive • Safety features are likely to be preferred • Preference for a native floating-point architecture • The TMS570 is: • Fully-redundant dual-core  • Designed to meet SIL3 certification  • Floating-point architecture  • For Non-safety and Non-redundant PLC or industrial control applications, Stellaris MCU and Sitara MPU with integrated Ethernet and CAN are great options.

13. Case Study #3 – Industrial HMI • I am designing and Industrial Control Panel (Human Machine Interface or HMI) for industrial machinery and I need the ability to support WVGA to XGA resolution on 7-15” displays running Linux OS with Qt User interface framework • Lower power for vent less enclosure is a must • Integrated LCD controller is a must • 2D and 3D Graphics acceleration would be a plus • The Sitara MPU provides: • Cortex-A8 MPU with less than 1 W active power  • Supports displays upto XGA @ 60 fps referesh rate  • Open source and Commercial Linux with Qt framework  • If your system requires screen sizes smaller than 5” with VGA or QVGA resolution and graphics menus, then Stellaris MCUs would be a great option

14. Case Study #4 – Software Radio • I am designing and building public safety portable radio for police, fire and other emergency personnel. This is a software radio as it needs to be programmable for different emergency services and needs to support multiple protocols in different frequency bands • Programmable modem capability • Low power for battery operation • MPU for control and display • The Integra processor provides: • C6000 fixed or floating point DSP for modem processing  • ARM926 or ARM Cortex-A8 MPU for control and display  • High speed interface for connection to data converters 

15. Case Study #5 – Video Surveillance • I am designing a multiple camera surveillance system that will be connected over an IP network to a digital video recorder for small and medium businesses. I need ability to process upto 16 channels of video on the recorder and get to market fast with the full solution • Reference designs would be a deal closer • Added software for enabling smart features would be a big plus • The DaVinci processor provides: • VGA to HD encoding and decoding  • Reference designs for IP netcam and DVR are available  • Partner eco-system with advanced object recognition software 

16. TI offers the complete signal chain for your system designs Analog Signal Conversion to Digital WirelessConnectivity The Real World including Signal Conditioning Temperature Pressure Position Speed Flow Humidity Sound Light Power Management Embedded Processor Digital Signal Conversion to Analog Signal Conditioning Display/ Interface Clocks & Timers TI provides software ranging from drivers, codecs, operating systems and more 16

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