First lets understand what is a
tickless kernel (
CONFIG_NO_HZ set ) and what was the motivation of introducing it into the Linux Kernel from
Traditionally, the Linux kernel used a periodic timer for each CPU.
This timer did a variety of things, such as process accounting,
scheduler load balancing, and maintaining per-CPU timer events. Older
Linux kernels used a timer with a frequency of 100Hz (100 timer events
per second or one event every 10ms), while newer kernels use 250Hz
(250 events per second or one event every 4ms) or 1000Hz (1000 events
per second or one event every 1ms).
This periodic timer event is often called "the timer tick". The timer
tick is simple in its design, but has a significant drawback: the
timer tick happens periodically, irrespective of the processor state,
whether it's idle or busy. If the processor is idle, it has to wake up
from its power saving sleep state every 1, 4, or 10 milliseconds. This
costs quite a bit of energy, consuming battery life in laptops and
causing unnecessary power consumption in servers.
With "tickless idle", the Linux kernel has eliminated this periodic
timer tick when the CPU is idle. This allows the CPU to remain in
power saving states for a longer period of time, reducing the overall
system power consumption.
So reducing power consumption was one of the main motivations of the tickless kernel. But as it goes, most of the times, Performance takes a hit with decreased power consumption. For desktop computers, performance is of utmost concern and hence you see that for most of them
NOHZ=OFF works pretty well.
In Ingo Molnar's own words
The tickless kernel feature (CONFIG_NO_HZ) enables 'on-demand' timer
interrupts: if there is no timer to be expired for say 1.5 seconds
when the system goes idle, then the system will stay totally idle for
1.5 seconds. This should bring cooler CPUs and power savings: on our (x86) testboxes we have measured the effective IRQ rate to go from HZ
to 1-2 timer interrupts per second.
Now, lets try to answer your queries-
What I am unable to understand is how can hi-res timers affect the
If a system supports high-res timers, timer interrupts can occur more frequently than the usual
10ms on most systems. i.e these timers try to make the system more responsive by leveraging the system capabilities and by firing timer interrupts even faster, say every
100us. So with
NOHZ option, these timers are cooled down and hence the lower execution of
Even if hi-res hardware is in sleep state the persistent clock is more
than capable to execute do_timer every 10ms
Yes it is capable. But the intention of
NOHZ is exactly the opposite. To prevent frequent timer interrupts!
Secondly if do_timer is not executing when it should that means some
processes are not getting their timeshare when they should ideally be
As caf noted in the comments,
NOHZ does not cause processes to get scheduled less often, because it only kicks in when the CPU is idle - in other words, when no processes are schedulable. Only the process accounting stuff will be done at a delayed time.
Why does do_timer miss it's deadlines ?
As elaborated, it is the intended design of
I suggest you go through the tick-sched.c kernel sources as a starting point. Search for
CONFIG_NO_HZ and try understanding the new functionality added for the
Here is one test performed to measure the Impact of a Tickless Kernel