Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

As we know, for X86 architecture: After we press the power button, machine starts to execute code at 0xFFFFFFF0, then it starts to execute code in BIOS in order to do hardware initialization. After BIOS execution, it use bootloader to load the OS image into memory. At the end, OS code starts to run. For ARM architecture, what is the booting process after use press the power button? Thanks!

share|improve this question
ARM processors are used in many different applications and boards. The specific board with the processor is free to wake that processor any way it wants. Did you have specific hardware in mind? –  Chris H May 26 '11 at 14:13
Hi Chris, Thanks for your comments. I am going to play with A8 or A9 development boards. From arm.com, development board for A8 is Beagle Board, for A9 is Panda Board. My purpose is to do trust zone testing. I would appreciate if you could give me some suggestions? Which board I should buy(personally, I perfer A9 because it is newer)? what is the booting sequence for A9/A8? Does Booting process involve trust zone operation? –  Fengwei Zhang Jun 1 '11 at 15:30

2 Answers 2

up vote 27 down vote accepted

Currently, there are two exception models in the ARM architecture (reset is considered a kind of exception):

The classic model, used in pre-Cortex chip and current Cortex-A/R chips. In it, the memory at 0 contains several exception handlers:

 Offset  Handler
 00      Reset 
 04      Undefined Instruction
 08      Supervisor Call (SVC)
 0C      Prefetch Abort
 10      Data Abort
 14      (Reserved)
 18      Interrupt (IRQ)
 1C      Fast Interrupt (FIQ)

When the exception happens, the processor just starts execution from a specific offset, so usually this table contains single-instruction branches to the complete handlers further in the code. A typical classic vector table looks like following:

00000000   LDR   PC, =Reset
00000004   LDR   PC, =Undef
00000008   LDR   PC, =SVC
0000000C   LDR   PC, =PrefAbort
00000010   LDR   PC, =DataAbort
00000014   NOP
00000018   LDR   PC, =IRQ
0000001C   LDR   PC, =FIQ

At runtime, the vector table can be relocated to 0xFFFF0000, which is often implemented as a tightly-coupled memory range for the fastest exception handling. However, the power-on reset usually begins at 0x00000000 (but in some chips can be set to 0xFFFF0000 by a processor pin).

The new microcontroller model is used in the Cortex-M line of chips. There, the vector table at 0 is actually a table of vectors (pointers), not instructions. The first entry contains the start-up value for the SP register, the second is the reset vector. This allows writing the reset handler directly in C, since the processor sets up the stack. Again, the table can be relocated at runtime. The typical vector table for Cortex-M begins like this:

__Vectors       DCD     __initial_sp              ; Top of Stack
                DCD     Reset_Handler             ; Reset Handler
                DCD     NMI_Handler               ; NMI Handler
                DCD     HardFault_Handler         ; Hard Fault Handler
                DCD     MemManage_Handler         ; MPU Fault Handler
                DCD     BusFault_Handler          ; Bus Fault Handler
                DCD     UsageFault_Handler        ; Usage Fault Handler
                [...more vectors...]

Note that in the modern complex chips such as OMAP3 or Apple's A4 the first piece of code which is executed is usually not user code but the on-chip Boot ROM. It might check various conditions to determine where to load the user code from and whether to load it at all (e.g. it could require a valid digital signature). In such cases, the user code might have to conform to different start-up conventions.

share|improve this answer
This is a good and comprehensive answer, but there is one incorrect statement: on ARM processors supporting "high vectors" (effectively ARM11 onwards), the power-on reset (and subsequent exceptions until changed by software) uses a vector table located either at 0x00000000 or 0xffff0000. The decision is made through a configuration input signal, and hence can vary between different SoCs. See for example infocenter.arm.com/help/topic/com.arm.doc.ddi0301h/… –  unixsmurf May 31 '11 at 23:04
@unixsmurf: you're right, I forgot about that. I will amend my answer, thanks! –  Igor Skochinsky Jun 1 '11 at 13:23

After Power is ON The cpu will start executing exception mode 1st one is reset ,As Reset must run as superviser mode since CPU doesn't know the status of the register at this time of execution it cant go into the superviser mode .To achieve this small code need to be written (See at end). after this other exceptions can be handled by loading the address into PC .

.globl _start
 _start: b       reset
    ldr     pc, _undefined_instruction
    ldr     pc, _software_interrupt
    ldr     pc, _prefetch_abort
    ldr     pc, _data_abort
    ldr     pc, _not_used
    ldr     pc, _irq
    ldr     pc, _fiq

    mrs     r0,cpsr                 /* set the cpu to SVC32 mode        */
    bic     r0,r0,#0x1f             /* (superviser mode, M=10011)       */
    orr     r0,r0,#0x13
    msr     cpsr,r0
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.