ARM1176 SoC Design
Standard Level - 5 daysview dates and locations
ARM processors are the de facto standard for 32 bit microcontroller applications. ARM provides a wide range of cores, from the very low cost ARM7TDMI processor to the high performance and feature-rich ARM1176TZ-S processor.
Doulos has been an ARM Approved Training Partner for many years, and in addition to standard ARM training offers a wide range of ARM based training modules for team-based training.
ARM1176 SoC Design is a single program to fulfil team-based training requirements. It introduces the ARM architecture and instruction sets for ARM7 to ARM11 processor families, including the handling of exceptions, before providing indepth tuition on ARM11 based system-on-chip (SoC) design. It covers the AMBA3.0 (AXI) interface and the connection of new IP blocks into an existing ARM system and includes an introduction to the ARM RealView software tools.
As a vendor-independent training company, Doulos can provide workshops in the context of your own choice of synthesis and simulation tools. Please contact Doulos to discuss your specific tool requirements.
Who should attend?System design engineers, software design engineers and hardware design engineers who wish to develop systems and applications based on ARM processors.
What will you learn?
- Introduction to ARM processor architecture and pipelining
- RealView Development Suite (RVDS)
- ARM1176 processor
- ARM and Thumb instruction sets
- Exception handling
- ARM processor integration
- Hands-on use of development systems
- AMBA AHB, AXI and APB Protocol
- ARM1176 Memory Subsystem
- ARM1176 Memory Management
- ARMv6 Memory Types
- ARM1176 L1 and L2 Memory interface
- ARM1176 L2 Caches
- PrimeCell VIC interrupt controller
- ARM1136/1176 Interrupts
- Introduction to TrustZone
- Introduction to IEM
- ARM1176 clocks, resets and power management
- ARM1176 initialisation and bootstrap
- ARM processor simulation models
- ARM11 embedded core debug
- ARM1176 integration
Pre-requisitesAll participants must be computer literate and have a basic understanding of the C programming language and a hardware description language such as VHDL or Verilog. An in-depth knowledge of microprocessors is not essential, but would be advantageous.
Training materialsThis class uses training materials developed by ARM®. In addition, Doulos has developed dedicated workbooks for delegates who wish to use MDK, rather than RVDS, in the workshops.
Structure and Content
The ARM ArchitectureARM architecture • Overview of ARM • ARM based applications • ARM instruction set overview • ARM programmer's model • supporting technologies
ARM Processor CoreARM7TDMI and ARM9TDMI processor pipelines • ARM7 processor family • ARM9 processor family • ARM10E processor family • ARM11 processor family • StrongARM and XScale • Datapaths and instruction decoding
Real View Developer Suite (RVDS) OverviewCompilers • Assembler • Linker • Codewarrior • Debuggers
Real View Introductory WorkbookPractical work using RVDS
Exception HandlingOverview of how to handle the different exceptions of an ARM core. Includes detailed examples.
ARM1176 CPU ArchitecturesARM7TDMI and ARM9TDMI processor pipelines • ARM7 processor family • ARM9 processor family • ARM10E processor family • ARM11 processor family • StrongARM and XScale • Datapaths and instruction decoding
AMBA 3 InterfaceDetailed description of the new AMBA 3 interconnect methodology • AXI, AHB and APB interconnect standards • PL300 bus matrix IP
ARM1176 L1 InterfaceIntroduction to the Level1 Sub-System • System Control Coprocessor (CP15) features • Cache organisation • Tightly Coupled Memory (TCM) • DMA Interface • Cache timing • Write buffer
ARM1176 L2 InterfaceIntroduction to the Level2 interface and memory system • Clock domains • L2 interface clocking, cache line fills • Non-cacheable fetches • Data interface • Peripheral interface • DMA interface
ARM1176 L2 CachesInner and outer caches • Caching policies • TEX Remap • Communicating cache policy • Example system with L2 cache
ARM Processor Simulation ModelsThe different ARM models and their use in the SoC design process • The new ARM RealView SoC Designer (SystemC based) design tool
ARM1136/76 InterruptsAn overview of the ARM11 interrupt features, the factors contributing to low interrupt latency and an understanding of the ARMv6 re-startable instructions
Introduction to TrustZoneIntroduction to ARM TrustZone technology and its features• The new ARM secure mode and its functionality
Introduction to IEMPrinciples of the Intelligent Energy Manager (IEM) • Understanding the IEM software and its functions
ARM1176 Clocks, Resets and Power ManagementOverview of clock and reset behaviour and requirements • The different power management modes
ARM1176 Memory ManagementIntroduction to the ARMv6 memory system • Caching policy and ARM1176 memory management
ARM1176 BootingNecessary steps for booting an ARM1176 processor •Sample bootstrap code.
ARM11 Embedded Core DebugIntegrated debug features of the ARM11 processor family
ARM1176 IntegrationKey system design considerations • Summary of steps for the integration of an ARM1176 processor
Price on request
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