LM3S5P36 Datasheet, PDF(91/1050 Page) Texas Instruments – Stellaris® LM3S5P36 Microcontroller

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LM3S5P36 Datasheet, PDF (91/1050 Pages) Texas Instruments – Stellaris® LM3S5P36 Microcontroller

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StellarisÂ® LM3S5P36 Microcontroller

1. Use a Load-Exclusive instruction to read the value of the location.

2. Modify the value, as required.

3. Use a Store-Exclusive instruction to attempt to write the new value back to the memory location.

4. Test the returned status bit.

If the status bit is clear, the read-modify-write completed successfully. If the status bit is set, no

write was performed, which indicates that the value returned at step 1 might be out of date. The

software must retry the entire read-modify-write sequence.

Software can use the synchronization primitives to implement a semaphore as follows:

1. Use a Load-Exclusive instruction to read from the semaphore address to check whether the

semaphore is free.

2. If the semaphore is free, use a Store-Exclusive to write the claim value to the semaphore

address.

3. If the returned status bit from step 2 indicates that the Store-Exclusive succeeded, then the

software has claimed the semaphore. However, if the Store-Exclusive failed, another process

might have claimed the semaphore after the software performed step 1.

The Cortex-M3 includes an exclusive access monitor that tags the fact that the processor has

executed a Load-Exclusive instruction. The processor removes its exclusive access tag if:

â It executes a CLREX instruction.

â It executes a Store-Exclusive instruction, regardless of whether the write succeeds.

â An exception occurs, which means the processor can resolve semaphore conflicts between

different threads.

For more information about the synchronization primitive instructions, see the Cortexâ¢-M3/M4

Instruction Set Technical User's Manual.

2.5 Exception Model

The ARM Cortex-M3 processor and the Nested Vectored Interrupt Controller (NVIC) prioritize and

handle all exceptions in Handler Mode. The processor state is automatically stored to the stack on

an exception and automatically restored from the stack at the end of the Interrupt Service Routine

(ISR). The vector is fetched in parallel to the state saving, enabling efficient interrupt entry. The

processor supports tail-chaining, which enables back-to-back interrupts to be performed without the

overhead of state saving and restoration.

Table 2-8 on page 94 lists all exception types. Software can set eight priority levels on seven of

these exceptions (system handlers) as well as on 41 interrupts (listed in Table 2-9 on page 94).

Priorities on the system handlers are set with the NVIC System Handler Priority n (SYSPRIn)

registers. Interrupts are enabled through the NVIC Interrupt Set Enable n (ENn) register and

prioritized with the NVIC Interrupt Priority n (PRIn) registers. Priorities can be grouped by splitting

priority levels into preemption priorities and subpriorities. All the interrupt registers are described in

âNested Vectored Interrupt Controller (NVIC)â on page 107.

January 21, 2012

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Texas Instruments-Production Data

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