| /linux-6.14.4/Documentation/translations/zh_CN/core-api/ |
| D | workqueue.rst | 236 15 w0 wakes up and burns CPU
240 35 w1 wakes up and finishes
243 50 w2 wakes up and finishes
254 15 w0 wakes up and burns CPU
256 20 w1 wakes up and finishes
257 25 w2 wakes up and finishes
266 15 w0 wakes up and burns CPU
268 20 w1 wakes up and finishes
271 35 w2 wakes up and finishes
282 15 w0 wakes up and burns CPU
[all …]
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| /linux-6.14.4/rust/kernel/sync/ |
| D | condvar.rs | 34 /// atomically release the given lock and go to sleep. It reacquires the lock when it wakes up. And
35 /// it wakes up when notified by another thread (via [`CondVar::notify_one`] or
143 /// thread to sleep, reacquiring the lock on wake up. It wakes up when notified by
165 /// thread to sleep. It wakes up when notified by [`CondVar::notify_one`] or
206 /// Wakes a single waiter up, if any.
214 /// Wakes all waiters up, if any.
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| /linux-6.14.4/Documentation/ABI/testing/ |
| D | sysfs-devices-platform-ACPI-TAD | 16 BIT(5): The AC timer wakes up from S4 if set
17 BIT(6): The AC timer wakes up from S5 if set
18 BIT(7): The DC timer wakes up from S4 if set
19 BIT(8): The DC timer wakes up from S5 if set
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| D | sysfs-bus-i2c-devices-hm6352 | 13 sleep mode, 1 wakes it up.
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| D | sysfs-class-typec | 12 wakes up. Change on the role will also generate uevent
27 wakes up. Change on the role will also generate uevent
61 poll(2) on the attribute wakes up. Change on VCONN source also
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| D | sysfs-bus-typec | 10 entered/exited so poll(2) on the attribute wakes up.
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| /linux-6.14.4/Documentation/core-api/ |
| D | workqueue.rst | 125 whenever an active worker wakes up or sleeps and keeps track of the
284 15 w0 wakes up and burns CPU
288 35 w1 wakes up and finishes
291 50 w2 wakes up and finishes
302 15 w0 wakes up and burns CPU
304 20 w1 wakes up and finishes
305 25 w2 wakes up and finishes
314 15 w0 wakes up and burns CPU
316 20 w1 wakes up and finishes
319 35 w2 wakes up and finishes
[all …]
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| /linux-6.14.4/arch/arm/mach-omap2/ |
| D | clockdomain.c | 183 * @clkdm2: when this struct clockdomain * wakes up (source)
185 * When the clockdomain represented by @clkdm2 wakes up, wake up
209 pr_debug("clockdomain: hardware cannot set/clear wake up of %s when %s wakes up\n", in _clkdm_add_wkdep()
216 pr_debug("clockdomain: hardware will wake up %s when %s wakes up\n", in _clkdm_add_wkdep()
228 * @clkdm2: when this struct clockdomain * wakes up (source)
231 * wakes up. Returns -EINVAL if presented with invalid clockdomain
252 pr_debug("clockdomain: hardware cannot set/clear wake up of %s when %s wakes up\n", in _clkdm_del_wkdep()
259 pr_debug("clockdomain: hardware will no longer wake up %s after %s wakes up\n", in _clkdm_del_wkdep()
584 * @clkdm2: when this struct clockdomain * wakes up (source)
586 * When the clockdomain represented by @clkdm2 wakes up, wake up
[all …]
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| /linux-6.14.4/tools/virtio/virtio-trace/ |
| D | trace-agent-ctl.c | 63 /* Wakes rw-threads when they are sleeping */ in wait_order()
115 * this controller wakes all read/write threads. in rw_ctl_loop()
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| /linux-6.14.4/Documentation/scheduler/ |
| D | sched-util-clamp.rst | 110 when an RT task wakes up. This cost is unchanged by using uclamp. Uclamp only
127 they are intact. Clamping happens only when needed, e.g: when a task wakes up
136 When a task wakes up on an rq, the utilization signal of the rq will be
167 When a task wakes up, the scheduler will look at the current effective uclamp
547 wakes up. However, it requires to finish its work within a specific time window
648 wakes up on an idle CPU, then it will run at min frequency (Fmin) this
685 If task p1 wakes up on this CPU, which have:
728 performance point when it wakes up and starts running, then all these
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| D | sched-deadline.rst | 57 every time the task wakes up, the scheduler computes a "scheduling deadline"
82 - When a SCHED_DEADLINE task wakes up (becomes ready for execution),
180 (b) If the task wakes up before the inactive timer fires, the task re-enters
182 In addition, if the task wakes up on a different runqueue, then
189 "inactive timer" fires or when the task wakes up).
194 (d) When an inactive task wakes up, it enters the ActiveContending state and
285 Task T1 wakes up. It enters the ActiveContending state again, and the
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| /linux-6.14.4/drivers/platform/goldfish/ |
| D | goldfish_pipe.c | 549 struct goldfish_pipe_dev *dev, int *wakes) in signalled_pipes_pop_front() argument
558 *wakes = pipe->signalled_flags; in signalled_pipes_pop_front()
581 int wakes; in goldfish_interrupt_task() local
583 while ((pipe = signalled_pipes_pop_front(dev, &wakes)) != NULL) { in goldfish_interrupt_task()
584 if (wakes & PIPE_WAKE_CLOSED) { in goldfish_interrupt_task()
587 if (wakes & PIPE_WAKE_READ) in goldfish_interrupt_task()
589 if (wakes & PIPE_WAKE_WRITE) in goldfish_interrupt_task()
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| /linux-6.14.4/drivers/nvmem/ |
| D | lpc18xx_eeprom.c | 109 /* Wait 100 us while the EEPROM wakes up */ in lpc18xx_eeprom_gather_write()
137 /* Wait 100 us while the EEPROM wakes up */ in lpc18xx_eeprom_read()
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| /linux-6.14.4/Documentation/devicetree/bindings/rtc/ |
| D | brcm,brcmstb-waketimer.yaml | 33 The TIMER interrupt wakes the system from low-power suspend/standby modes.
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| /linux-6.14.4/kernel/sched/ |
| D | wait.c | 120 * If this function wakes up a task, it executes a full memory barrier
164 * If this function wakes up a task, it executes a full memory barrier before
190 * If this function wakes up a task, it executes a full memory barrier before
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| D | completion.c | 42 * If this function wakes up a task, it executes a full memory barrier before
57 * If this function wakes up a task, it executes a full memory barrier before
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| /linux-6.14.4/Documentation/devicetree/bindings/net/bluetooth/ |
| D | nxp,88w8987-bt.yaml | 15 state. De-asserting break wakes up the BT chip.
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| /linux-6.14.4/Documentation/driver-api/usb/ |
| D | persist.rst | 28 wakes up all the devices attached to that controller are treated as
65 suspended -- but it will crash as soon as it wakes up, which isn't
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| /linux-6.14.4/drivers/gpu/drm/i915/gt/ |
| D | intel_breadcrumbs_types.h | 25 * or wakes up all the completed clients in parallel, before then
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| /linux-6.14.4/Documentation/mhi/ |
| D | mhi.rst | 211 * Device wakes up to process the TD.
215 * Host wakes up and checks the event ring for completion event.
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| /linux-6.14.4/arch/arm/mach-pxa/ |
| D | smemc.c | 45 /* CSMSADRCFG wakes up in its default state (0), so we need to set it */ in pxa3xx_smemc_resume()
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| /linux-6.14.4/Documentation/ABI/obsolete/ |
| D | sysfs-class-typec | 45 entered/exited so poll(2) on the attribute wakes up.
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| /linux-6.14.4/Documentation/locking/ |
| D | robust-futexes.rst | 102 this thread with the FUTEX_OWNER_DIED bit, and wakes up one waiter (if
196 and wakes up the next futex waiter (if any). User-space does the rest of
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| /linux-6.14.4/Documentation/scsi/ |
| D | scsi_eh.rst | 138 4. Wakes up SCSI EH thread if shost->host_busy == shost->host_failed
148 shost->host_failed. This wakes up SCSI EH thread. So, once woken up,
188 3. Wakes up waiters on shost->host_wait. This occurs if someone
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| /linux-6.14.4/Documentation/devicetree/bindings/interrupt-controller/ |
| D | qcom,mpm.yaml | 16 monitors the interrupts when the system is asleep, wakes up the APSS when
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