= Multi-size apps =

The difference in throughput between a slow processor
(e.g. an Android device that runs infrequently)
and a fast processor (e.g. a GPU that's always on)
can be a factor of 1,000 or more.
Having a single job size can therefore present problems:

 * If the size is small, hosts with GPUs get huge numbers of jobs.
   This causes performance problems on the client
   and a high DB load on the server.
 * If the size is large, slow hosts can't get jobs,
   or they get jobs that take weeks to finish.

To address this, BOINC provides a mechanism
that tries to match large jobs to fast devices.

== How it works ==

A '''multi-size application''' has a set of N '''size classes''', 0 ... N-1.
Each job belongs to a size class.
Jobs of size class i are smaller than those of size class i+1.
You decide how many size classes to have,
and how large the jobs of a given size class are.

The BOINC scheduler maintains statistics about the "effective speed" of devices for each multi-size app,
where effective speed is the device speed times host availability.
In particular, it computes and maintains the boundaries of the N quantiles.

When a host requests for a particular device,
the scheduler computes its quantile for each multi-size application.
It preferentially sends it jobs of the corresponding size class.
If it must send jobs of a different size class, it prefers smaller classes.

== Set up the application ==

To make an app multi-size, set the '''n_size_classes''' field of its database entry.
Currently this must be done manually, e.g.
{{{
update app set n_size_classes=3 where id=14;
}}}

== Job creation ==

Set the size class of jobs as you create them.
From C++:
{{{
...
wu.size_class = 2;
ret = create_work(wu, ...);
}}}
From scripts or command line:
{{{
create_work ... --size_class 2
}}}

Don't forget to set wu.rsc_fpops_est and wu.rsc_fpops_bound appropriately as well.

You may want your work generator to maintain a supply of
jobs of each size class.
To find the number of unsent jobs of a given size class, use
{{{
int count_unsent_results(int&, int appid, int size_class);
}}}

== Daemon configuration ==

Arrange to periodically run '''size_census.php''',
which computes effective speed statistics:
{{{
    <task>
      <cmd>run_in_ops size_census.php</cmd>
      <output>size_census.out</output>
      <period>24 hour</period>
    </task>
}}}

For each multi-size app, you must run a daemon '''size_regulator'''
that regulates the flow of jobs into the shared-memory job cache,
making sure that cache doesn't get clogged with jobs of a single size
{{{
    <daemon>
      <cmd>size_regulator --app_name uppercase --lo 10 --hi 30 --sleep_time 10</cmd>
      <output>size_regulator_uppercase.out</output>
      <pid_file>size_regulator_uppercase.pid</pid_file>
      <disabled>1</disabled>
    </daemon>
}}}

The command-line options of size_regulator are

 --app_name :: name of the application
 --lo :: keep at least this many jobs of each size class in cache
 --hi :: keep at most this many jobs of each size class in cache
 --sleep_time :: sleep this long if nothing to do

The follow options correspond to those for '''feeder'''; use the same one.

 --random_order ::
 --priority_asc ::
 --priority_order ::
 --priority_order_create_time ::

== Scheduler config ==

You use this feature you must use include the following in your config.xml:

{{{
<matchmaker>1</matchmaker>
}}}