Intel does only recommend using the
PAUSE instructions when the spin-loop is very short.
As I understood from your questions, the waits in your case are very long. In this case, spin-loops are not recommended.
You wrote that you have a "thread which keeps scanning some places (e.g. a queue) to retrieve new nodes".
In such a case, Intel recommends using synchronization API functions of your operating system. For example, you can create an event when a new node appears in a queue, and just wait for this event using the
WaitForSingleObject(Handle, INFINITE). The queue will trigger this event whenever a new node will appear.
According to the Intel Optimization Manual, the
PAUSE instruction is typically used with software threads executing on two logical processors located in the same processor core, waiting for a lock to be released. Such short wait loops tend to last between tens and a few hundreds of cycles (i.e. 20-500 CPU cycles), so performance-wise it is more beneficial to wait while occupying the CPU than yielding to the OS.
500 CPU cycles on a 4500 MHz Core i7 7700K processor is 0.0000001 seconds, i.e. 1/10000000th of a second: the CPU can make 10 million times per second this 500 CPU cycles loop.
As you see, this
PAUSE instruction is for really short periods of time.
On the other hand, each call to an API function like Sleep() experiences the expensive cost of a context switch, which can be 10000+ cycles; it also suffers the cost of ring 3 to ring 0 transitions, which can be 1000+ cycles.
If there are more threads then the processor cores (multiplied to hyperthreading feature, if present) are available, and a thread will get switched to another one in the middle of a critical section, waiting for the critical section from another thread may really take looong, at least 10000+ cycles, so the
PAUSE instruction will be futile.
Please see this articles for more information:
When the wait loop is expected to last for thousands of cycles or more, it is
preferable to yield to the operating system by calling one of the OS synchronization API functions, such as WaitForSingleObject on Windows OS.
As a conclusion: in your scenario, the
PAUSE instruction won't be the best choice, since your waiting time is long while the
PAUSE is intended for very short loops. PAUSE is just 131 cycles SkyWell or later processors. For example, it is just or 31.19ns on Intel Core i7-7700K CPU @ 4.20GHz Kaby Lake.
On earlier processors, like Haswell, i has about 9 cycles. It is 2.81ns on Intel Core i5-4430 @ 3GHz. So, for the long loops, it's better to relinquish control to other threads using the OS synchronization API functions than to occupy CPU with the