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Core Wait for Event

WFE is a feature of the Arm®v8‑A architecture. It uses a locking mechanism based on events, to put the core in a low-power state by disabling most of the clocks in the core, while keeping the core powered up.

There is a small dynamic power overhead from the logic that is required to wake up the core from WFE low-power state. Other than this, the power that is drawn is reduced to static leakage current only.

A core enters into WFE low-power state by executing the WFE instruction. When the WFE instruction executes, the core waits for all instructions in the core to complete before it enters the idle or low-power state.

If the event register is set, execution of WFE does not cause entry into standby state, but clears the event register.

While the core is in WFE low-power state, the clocks in the core are temporarily enabled without causing the core to exit WFE low-power state when any of the following events are detected:

  • An external snoop request that must be serviced by the core data caches.
  • A cache or TLB maintenance operation that must be serviced by the core L1 instruction cache, data cache, TLB, or L2 cache.
  • An APB access to the debug or trace registers residing in the core power domain.
  • A GIC CPU access through the AXI4 stream channel.

Exit from WFE low-power state occurs when one of the following occurs:

  • The core detects one of the WFE wake-up events.
  • The EVENTI input signal is asserted.
  • The core detects a reset.

For more information, see the Arm® Architecture Reference Manual Armv8, for Armv8-A architecture profile.

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