IBM Z9, Руководство по планированию

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You can choose to set the runtime value yourself. However, when event-driven
dispatching is enabled, it is generally recommended that the processor running time
be dynamically determined. If event-driven dispatching is disabled, you should
consider setting runtime values of 2 to 8 milliseconds. The recommended procedure
is to start by using the default processor running time. That value should be
acceptable when all sharing LPs have similar proportions of interactive work; for
example, two LPs each running 40%–70% of interactive work.
Adjustments to the runtime value might be necessary when one sharing LP
contains a large proportion of CP-bound work and the other sharing LPs contain
only short, interactive transactions. Degraded response time in one LP can indicate
that the runtime value should be reduced to decrease the length of continuous time
given to CP-bound work. The run-time value should be decreased by approximately
10% several times over several days while monitoring performance carefully. The
processing weights should also be adjusted to favor the interactive LP. See
“Processing Weights” on page 3-37.
Use the Customize/Delete Activation Profiles task available from the CPC
Operational Customization tasks list to open a reset profile to define processor
running time. Select either Dynamically determined by the system or
Determined by the user on the Options page for the LP. See Figure 3-16 on page
3-57.
Wait Completion
Shared CP resources can be divided on either an event-driven basis or a
time-driven basis. The RMF Partition Data Report refers to these two forms of
dispatching as Wait Completion=No (event-driven dispatching) and Wait
Completion=Yes (time-driven dispatching). When the resource is divided on an
event-driven basis, switching between users is done as the result of some event,
such as a wait or an interruption. When the resource is divided on a time-driven
basis, switching is done after a predetermined interval of time. The resource is
given to a user for a fixed interval and then given to another user for a subsequent
fixed interval. Either of these methods can divide CP resources between sharing
LPs.
You can select either of these methods by using the Customize/Delete Activation
Profiles task available from the CPC Operational Customization tasks list to open
the reset profile for the CPC. On the Options page, you can select Do not end the
time slice if a partition enters a wait state to turn off event-driven dispatching
and cause shared CP resources to be distributed on the basis of time intervals and
according to the weights specified. Not selecting it (the default) requests
event-driven dispatching. Event-driven dispatching also has an element of
time-driven dispatching because the processor running time limits the time a logical
CP can be continuously dispatched. This setting does not affect LPs that use
dedicated CPs.
Event-driven dispatching has two advantages that are of special interest. The first
advantage is a flexibility that allows the system to better meet the peak transaction
rates of an LP. The event-driven dispatcher has the flexibility to manage CP
resources to compensate for fluctuations in demand among the LPs instead of
distributing CP resources in a rigid, predetermined manner.
The second advantage is improved responsiveness over time-driven scheduling
through I/O interruption and wait detection. With event-driven dispatching, the time
that one logical CP spends in a wait state can be made available to other logical
CPs.
3-44
PR/SM Planning Guide