Lines Matching refs:all
49 TESTS=runtime-instrumentation all
64 ENABLE_RUNTIME_INSTRUMENTATION=1 fiptool all fip
228 ``CPU_OFF`` on all non-lead CPUs
231 ``CPU_OFF`` on all non-lead CPUs in sequence then, ``CPU_SUSPEND`` on the lead
234 .. table:: ``CPU_OFF`` latencies (µs) on all non-lead CPUs (v2.9)
252 .. table:: ``CPU_OFF`` latencies (µs) on all non-lead CPUs (v2.10)
275 .. table:: ``CPU_VERSION`` latency (µs) in parallel on all cores (2.9)
293 .. table:: ``CPU_VERSION`` latency (µs) in parallel on all cores (2.10)
319 CPUs 4-5 refer to CPUs in the big cluster (A57). In all cases CPU 4 is the lead
325 ``CPU_SUSPEND`` to deepest power level on all CPUs in parallel
357 ``CPU_SUSPEND`` to power level 0 on all CPUs in parallel
381 effectively serializes the SCP power down commands from all CPUs.
386 The ``PSCI_EXIT`` times are consistent across all CPUs because TF does not
389 The ``CFLUSH_OVERHEAD`` times for all CPUs are small and consistent since only
392 ``CPU_SUSPEND`` to deepest power level on all CPUs in sequence
411 The ``CFLUSH_OVERHEAD`` times for lead CPU 4 and all CPUs in the non-lead cluster
412 are large because all other CPUs in the cluster are powered down during the
424 ``CPU_SUSPEND`` to power level 0 on all CPUs in sequence
454 ``CPU_OFF`` on all non-lead CPUs in sequence then ``CPU_SUSPEND`` on lead CPU to deepest power level
481 The ``CFLUSH_OVERHEAD`` times for all little CPUs are large because all other
499 ``PSCI_VERSION`` on all CPUs in parallel