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Linus Torvalds1da177e2005-04-16 15:20:36 -07001 CPU frequency and voltage scaling code in the Linux(TM) kernel
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3
4 L i n u x C P U F r e q
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6 C P U F r e q G o v e r n o r s
7
8 - information for users and developers -
9
10
11 Dominik Brodowski <linux@brodo.de>
Nico Golde594dd2c2005-06-25 14:58:33 -070012 some additions and corrections by Nico Golde <nico@ngolde.de>
Linus Torvalds1da177e2005-04-16 15:20:36 -070013
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15
16 Clock scaling allows you to change the clock speed of the CPUs on the
17 fly. This is a nice method to save battery power, because the lower
18 the clock speed, the less power the CPU consumes.
19
20
21Contents:
22---------
231. What is a CPUFreq Governor?
24
252. Governors In the Linux Kernel
262.1 Performance
272.2 Powersave
282.3 Userspace
Nico Golde594dd2c2005-06-25 14:58:33 -0700292.4 Ondemand
Alexander Clouter537208c2005-12-01 01:09:23 -0800302.5 Conservative
Mike Chan9d49b702010-06-22 11:26:45 -0700312.6 Interactive
Linus Torvalds1da177e2005-04-16 15:20:36 -070032
333. The Governor Interface in the CPUfreq Core
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35
36
371. What Is A CPUFreq Governor?
38==============================
39
40Most cpufreq drivers (in fact, all except one, longrun) or even most
41cpu frequency scaling algorithms only offer the CPU to be set to one
42frequency. In order to offer dynamic frequency scaling, the cpufreq
43core must be able to tell these drivers of a "target frequency". So
44these specific drivers will be transformed to offer a "->target"
45call instead of the existing "->setpolicy" call. For "longrun", all
46stays the same, though.
47
48How to decide what frequency within the CPUfreq policy should be used?
49That's done using "cpufreq governors". Two are already in this patch
50-- they're the already existing "powersave" and "performance" which
51set the frequency statically to the lowest or highest frequency,
52respectively. At least two more such governors will be ready for
53addition in the near future, but likely many more as there are various
54different theories and models about dynamic frequency scaling
55around. Using such a generic interface as cpufreq offers to scaling
56governors, these can be tested extensively, and the best one can be
57selected for each specific use.
58
59Basically, it's the following flow graph:
60
Matt LaPlante2fe0ae72006-10-03 22:50:39 +020061CPU can be set to switch independently | CPU can only be set
Linus Torvalds1da177e2005-04-16 15:20:36 -070062 within specific "limits" | to specific frequencies
63
64 "CPUfreq policy"
65 consists of frequency limits (policy->{min,max})
66 and CPUfreq governor to be used
67 / \
68 / \
69 / the cpufreq governor decides
70 / (dynamically or statically)
71 / what target_freq to set within
72 / the limits of policy->{min,max}
73 / \
74 / \
75 Using the ->setpolicy call, Using the ->target call,
76 the limits and the the frequency closest
77 "policy" is set. to target_freq is set.
78 It is assured that it
79 is within policy->{min,max}
80
81
822. Governors In the Linux Kernel
83================================
84
852.1 Performance
86---------------
87
88The CPUfreq governor "performance" sets the CPU statically to the
89highest frequency within the borders of scaling_min_freq and
90scaling_max_freq.
91
92
Nico Golde594dd2c2005-06-25 14:58:33 -0700932.2 Powersave
Linus Torvalds1da177e2005-04-16 15:20:36 -070094-------------
95
96The CPUfreq governor "powersave" sets the CPU statically to the
97lowest frequency within the borders of scaling_min_freq and
98scaling_max_freq.
99
100
Nico Golde594dd2c2005-06-25 14:58:33 -07001012.3 Userspace
Linus Torvalds1da177e2005-04-16 15:20:36 -0700102-------------
103
104The CPUfreq governor "userspace" allows the user, or any userspace
105program running with UID "root", to set the CPU to a specific frequency
106by making a sysfs file "scaling_setspeed" available in the CPU-device
107directory.
108
109
Nico Golde594dd2c2005-06-25 14:58:33 -07001102.4 Ondemand
111------------
112
Matt LaPlantea2ffd272006-10-03 22:49:15 +0200113The CPUfreq governor "ondemand" sets the CPU depending on the
Nico Golde594dd2c2005-06-25 14:58:33 -0700114current usage. To do this the CPU must have the capability to
Alexander Clouter537208c2005-12-01 01:09:23 -0800115switch the frequency very quickly. There are a number of sysfs file
116accessible parameters:
117
118sampling_rate: measured in uS (10^-6 seconds), this is how often you
119want the kernel to look at the CPU usage and to make decisions on
120what to do about the frequency. Typically this is set to values of
Thomas Renninger112124a2009-02-04 11:55:12 +0100121around '10000' or more. It's default value is (cmp. with users-guide.txt):
122transition_latency * 1000
Thomas Renninger112124a2009-02-04 11:55:12 +0100123Be aware that transition latency is in ns and sampling_rate is in us, so you
124get the same sysfs value by default.
125Sampling rate should always get adjusted considering the transition latency
126To set the sampling rate 750 times as high as the transition latency
127in the bash (as said, 1000 is default), do:
128echo `$(($(cat cpuinfo_transition_latency) * 750 / 1000)) \
129 >ondemand/sampling_rate
Alexander Clouter537208c2005-12-01 01:09:23 -0800130
Paul Bollee7cbb5b2011-11-08 10:16:03 +0100131sampling_rate_min:
Thomas Renninger4f4d1ad2009-04-22 13:48:31 +0200132The sampling rate is limited by the HW transition latency:
133transition_latency * 100
134Or by kernel restrictions:
135If CONFIG_NO_HZ is set, the limit is 10ms fixed.
Paul Bollebd74b322011-08-06 14:33:43 +0200136If CONFIG_NO_HZ is not set or nohz=off boot parameter is used, the
Thomas Renninger4f4d1ad2009-04-22 13:48:31 +0200137limits depend on the CONFIG_HZ option:
138HZ=1000: min=20000us (20ms)
139HZ=250: min=80000us (80ms)
140HZ=100: min=200000us (200ms)
141The highest value of kernel and HW latency restrictions is shown and
142used as the minimum sampling rate.
143
Matt LaPlanted9195882008-07-25 19:45:33 -0700144up_threshold: defines what the average CPU usage between the samplings
Alexander Clouter537208c2005-12-01 01:09:23 -0800145of 'sampling_rate' needs to be for the kernel to make a decision on
146whether it should increase the frequency. For example when it is set
Mike Frysinger292e0042009-12-09 06:56:40 -0500147to its default value of '95' it means that between the checking
148intervals the CPU needs to be on average more than 95% in use to then
Alexander Clouter537208c2005-12-01 01:09:23 -0800149decide that the CPU frequency needs to be increased.
150
Matt LaPlante992caac2006-10-03 22:52:05 +0200151ignore_nice_load: this parameter takes a value of '0' or '1'. When
152set to '0' (its default), all processes are counted towards the
153'cpu utilisation' value. When set to '1', the processes that are
Alexander Clouter537208c2005-12-01 01:09:23 -0800154run with a 'nice' value will not count (and thus be ignored) in the
Matt LaPlante992caac2006-10-03 22:52:05 +0200155overall usage calculation. This is useful if you are running a CPU
Alexander Clouter537208c2005-12-01 01:09:23 -0800156intensive calculation on your laptop that you do not care how long it
157takes to complete as you can 'nice' it and prevent it from taking part
158in the deciding process of whether to increase your CPU frequency.
Nico Golde594dd2c2005-06-25 14:58:33 -0700159
Vishwanath BS5b953642011-01-25 20:12:41 +0530160sampling_down_factor: this parameter controls the rate at which the
161kernel makes a decision on when to decrease the frequency while running
162at top speed. When set to 1 (the default) decisions to reevaluate load
163are made at the same interval regardless of current clock speed. But
164when set to greater than 1 (e.g. 100) it acts as a multiplier for the
165scheduling interval for reevaluating load when the CPU is at its top
166speed due to high load. This improves performance by reducing the overhead
167of load evaluation and helping the CPU stay at its top speed when truly
168busy, rather than shifting back and forth in speed. This tunable has no
169effect on behavior at lower speeds/lower CPU loads.
170
Nico Golde594dd2c2005-06-25 14:58:33 -0700171
Alexander Clouter537208c2005-12-01 01:09:23 -08001722.5 Conservative
173----------------
174
175The CPUfreq governor "conservative", much like the "ondemand"
176governor, sets the CPU depending on the current usage. It differs in
177behaviour in that it gracefully increases and decreases the CPU speed
178rather than jumping to max speed the moment there is any load on the
179CPU. This behaviour more suitable in a battery powered environment.
180The governor is tweaked in the same manner as the "ondemand" governor
181through sysfs with the addition of:
182
183freq_step: this describes what percentage steps the cpu freq should be
184increased and decreased smoothly by. By default the cpu frequency will
185increase in 5% chunks of your maximum cpu frequency. You can change this
186value to anywhere between 0 and 100 where '0' will effectively lock your
187CPU at a speed regardless of its load whilst '100' will, in theory, make
188it behave identically to the "ondemand" governor.
189
190down_threshold: same as the 'up_threshold' found for the "ondemand"
191governor but for the opposite direction. For example when set to its
192default value of '20' it means that if the CPU usage needs to be below
19320% between samples to have the frequency decreased.
Linus Torvalds1da177e2005-04-16 15:20:36 -0700194
Mike Chan9d49b702010-06-22 11:26:45 -0700195
1962.6 Interactive
197---------------
198
199The CPUfreq governor "interactive" is designed for latency-sensitive,
200interactive workloads. This governor sets the CPU speed depending on
Todd Poynor8b2ace62012-12-21 15:13:01 -0800201usage, similar to "ondemand" and "conservative" governors, but with a
202different set of configurable behaviors.
Mike Chan9d49b702010-06-22 11:26:45 -0700203
204The tuneable values for this governor are:
205
Todd Poynor2fbf5e12012-11-14 11:41:21 -0800206target_loads: CPU load values used to adjust speed to influence the
207current CPU load toward that value. In general, the lower the target
208load, the more often the governor will raise CPU speeds to bring load
209below the target. The format is a single target load, optionally
210followed by pairs of CPU speeds and CPU loads to target at or above
211those speeds. Colons can be used between the speeds and associated
212target loads for readability. For example:
213
214 85 1000000:90 1700000:99
215
216targets CPU load 85% below speed 1GHz, 90% at or above 1GHz, until
2171.7GHz and above, at which load 99% is targeted. If speeds are
218specified these must appear in ascending order. Higher target load
219values are typically specified for higher speeds, that is, target load
220values also usually appear in an ascending order. The default is
221target load 90% for all speeds.
222
Mike Chan9d49b702010-06-22 11:26:45 -0700223min_sample_time: The minimum amount of time to spend at the current
Todd Poynor8b2ace62012-12-21 15:13:01 -0800224frequency before ramping down. Default is 80000 uS.
Mike Chan9d49b702010-06-22 11:26:45 -0700225
Todd Poynora0ec4362012-04-17 17:39:34 -0700226hispeed_freq: An intermediate "hi speed" at which to initially ramp
227when CPU load hits the value specified in go_hispeed_load. If load
228stays high for the amount of time specified in above_hispeed_delay,
Todd Poynor8b2ace62012-12-21 15:13:01 -0800229then speed may be bumped higher. Default is the maximum speed
230allowed by the policy at governor initialization time.
Todd Poynora0ec4362012-04-17 17:39:34 -0700231
Todd Poynor8b2ace62012-12-21 15:13:01 -0800232go_hispeed_load: The CPU load at which to ramp to hispeed_freq.
233Default is 99%.
Todd Poynora0ec4362012-04-17 17:39:34 -0700234
Todd Poynor8b2ace62012-12-21 15:13:01 -0800235above_hispeed_delay: When speed is at or above hispeed_freq, wait for
236this long before raising speed in response to continued high load.
Minsung Kim4d438df2013-02-25 23:48:04 +0900237The format is a single delay value, optionally followed by pairs of
238CPU speeds and the delay to use at or above those speeds. Colons can
239be used between the speeds and associated delays for readability. For
240example:
241
242 80000 1300000:200000 1500000:40000
243
244uses delay 80000 uS until CPU speed 1.3 GHz, at which speed delay
245200000 uS is used until speed 1.5 GHz, at which speed (and above)
246delay 40000 uS is used. If speeds are specified these must appear in
247ascending order. Default is 20000 uS.
Mike Chan9d49b702010-06-22 11:26:45 -0700248
Todd Poynor8b2ace62012-12-21 15:13:01 -0800249timer_rate: Sample rate for reevaluating CPU load when the CPU is not
250idle. A deferrable timer is used, such that the CPU will not be woken
251from idle to service this timer until something else needs to run.
252(The maximum time to allow deferring this timer when not running at
253minimum speed is configurable via timer_slack.) Default is 20000 uS.
Todd Poynora0ec4362012-04-17 17:39:34 -0700254
Todd Poynor8b2ace62012-12-21 15:13:01 -0800255timer_slack: Maximum additional time to defer handling the governor
256sampling timer beyond timer_rate when running at speeds above the
257minimum. For platforms that consume additional power at idle when
258CPUs are running at speeds greater than minimum, this places an upper
259bound on how long the timer will be deferred prior to re-evaluating
260load and dropping speed. For example, if timer_rate is 20000uS and
261timer_slack is 10000uS then timers will be deferred for up to 30msec
262when not at lowest speed. A value of -1 means defer timers
263indefinitely at all speeds. Default is 80000 uS.
Todd Poynor7820a652012-04-02 17:17:14 -0700264
Todd Poynor2e739a02012-05-03 00:16:55 -0700265boost: If non-zero, immediately boost speed of all CPUs to at least
266hispeed_freq until zero is written to this attribute. If zero, allow
267CPU speeds to drop below hispeed_freq according to load as usual.
Todd Poynor8b2ace62012-12-21 15:13:01 -0800268Default is zero.
Todd Poynor2e739a02012-05-03 00:16:55 -0700269
Todd Poynor8b2ace62012-12-21 15:13:01 -0800270boostpulse: On each write, immediately boost speed of all CPUs to
271hispeed_freq for at least the period of time specified by
272boostpulse_duration, after which speeds are allowed to drop below
Todd Poynor2e739a02012-05-03 00:16:55 -0700273hispeed_freq according to load as usual.
Todd Poynor9fb15312012-04-23 20:42:41 -0700274
Todd Poynor8b2ace62012-12-21 15:13:01 -0800275boostpulse_duration: Length of time to hold CPU speed at hispeed_freq
276on a write to boostpulse, before allowing speed to drop according to
277load as usual. Default is 80000 uS.
278
Mike Chan9d49b702010-06-22 11:26:45 -0700279
Linus Torvalds1da177e2005-04-16 15:20:36 -07002803. The Governor Interface in the CPUfreq Core
281=============================================
282
283A new governor must register itself with the CPUfreq core using
284"cpufreq_register_governor". The struct cpufreq_governor, which has to
285be passed to that function, must contain the following values:
286
287governor->name - A unique name for this governor
288governor->governor - The governor callback function
289governor->owner - .THIS_MODULE for the governor module (if
290 appropriate)
291
292The governor->governor callback is called with the current (or to-be-set)
293cpufreq_policy struct for that CPU, and an unsigned int event. The
294following events are currently defined:
295
296CPUFREQ_GOV_START: This governor shall start its duty for the CPU
297 policy->cpu
298CPUFREQ_GOV_STOP: This governor shall end its duty for the CPU
299 policy->cpu
300CPUFREQ_GOV_LIMITS: The limits for CPU policy->cpu have changed to
301 policy->min and policy->max.
302
303If you need other "events" externally of your driver, _only_ use the
304cpufreq_governor_l(unsigned int cpu, unsigned int event) call to the
305CPUfreq core to ensure proper locking.
306
307
308The CPUfreq governor may call the CPU processor driver using one of
309these two functions:
310
311int cpufreq_driver_target(struct cpufreq_policy *policy,
312 unsigned int target_freq,
313 unsigned int relation);
314
315int __cpufreq_driver_target(struct cpufreq_policy *policy,
316 unsigned int target_freq,
317 unsigned int relation);
318
319target_freq must be within policy->min and policy->max, of course.
320What's the difference between these two functions? When your governor
321still is in a direct code path of a call to governor->governor, the
322per-CPU cpufreq lock is still held in the cpufreq core, and there's
323no need to lock it again (in fact, this would cause a deadlock). So
324use __cpufreq_driver_target only in these cases. In all other cases
325(for example, when there's a "daemonized" function that wakes up
326every second), use cpufreq_driver_target to lock the cpufreq per-CPU
327lock before the command is passed to the cpufreq processor driver.
328