Template:SirTune size requirement for SIRTUNED: Difference between revisions
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It is recommended that you do not spend a lot of time trying to size | It is recommended that you do not spend a lot of time trying to size | ||
SIRTUNED, because the consequences of under- or | SIRTUNED, because the consequences of under- or over-estimating the SIRTUNED space requirements are relatively benign. | ||
over-estimating the SIRTUNED space requirements | However, if you do want to size SIRTUNED, this section provides some basic | ||
are relatively benign. | |||
However, if | |||
you want to size SIRTUNED, this | |||
rules of thumb for estimating the correct size. | rules of thumb for estimating the correct size. | ||
< | ===<b id="formula"></b>A formula for the estimate=== | ||
The size of SIRTUNED is mainly determined by these factors: | The size of SIRTUNED is mainly determined by these factors: | ||
<ul> | <ul> | ||
<li>The number of lines of compilations saved. | <li>The number of lines of compilations saved. | ||
This is the number of lines | This is the number of lines in precompiled APSY procedures compiled in the run, or if the [[SirTune data collection statements#allcomp|ALLCOMP]] statement is specified for <var class="product">SirTune</var>, the number of lines of all compiled procedures. | ||
in | In any case, a line counts as 1 each time it is compiled. </li> | ||
is specified for <var class="product">SirTune</var>, the number of lines of all compiled procedures. | |||
In any case, a line counts as 1 each time it is compiled. | <li>The number of samples collected. </li> | ||
<li>The number of samples collected. | |||
<li>The average number of users for which data is collected per sample. | <li>The average number of users for which data is collected per sample. </li> | ||
</ul> | </ul> | ||
To estimate the number of lines of compilations saved when the ALLCOMP statement | To estimate the number of lines of compilations saved when the ALLCOMP statement has not been specified, and when subsystems are not START'ed and STOP'ed multiple times in a run, simply total the number of lines in all precompiled procedures in START'ed subsystems. | ||
has not been specified, and when subsystems are not START'ed and STOP'ed | |||
multiple times in a run, simply total the number of lines in all | |||
To get an estimate of this: | To get an estimate of this: | ||
<ol> | <ol> | ||
<li>Count the total number of | <li>Count the total number of precompiled procedures. </li> | ||
<li>Estimate the average number of lines per | |||
procedure by entering the editor for a representative sample of them. | <li>Estimate the average number of lines per precompiled | ||
<li>Multiply these two values. | procedure by entering the editor for a representative sample of them. </li> | ||
<li>Multiply these two values. </li> | |||
</ol> | </ol> | ||
Call the number of compiled lines <code>COMP_LINES</code>. | Call the number of compiled lines <code>COMP_LINES</code>. | ||
To estimate the number of samples, divide the number of seconds over which data | To estimate the number of samples, divide the number of seconds over which data is to be collected, by the sample interval length (1 or whatever was specified on the [[SirTune data collection statements#INTerval num_sec|INTERVAL]] statement). | ||
is to be collected, by the sample interval length (1 or whatever was specified | |||
on the INTERVAL statement). | |||
Call this value <code>NUM_SAMP</code>. | Call this value <code>NUM_SAMP</code>. | ||
The best guide to estimating the number of users for which data is collected | The best guide to estimating the number of users for which data is collected per sample is the <var class="product">Model 204</var> performance monitor. There are certain worst-case | ||
per sample is the <var class="product">Model 204</var> performance monitor. | |||
There are certain worst case | |||
values that one can assume, however: | values that one can assume, however: | ||
<ul> | <ul> | ||
<li>If only state RUNG is being collected, at most | <li>If only state RUNG is being collected, at most | ||
1 user will have data collected per sample, unless MP/204 is installed (in which | 1 user will have data collected per sample, unless MP/204 is installed (in which case, the upper limit is 1 plus the number of subtasks). </li> | ||
case, the upper limit is 1 plus the number of subtasks). | |||
<li>If only REDY, RUNG, BLKIN, | <li>If only REDY, RUNG, BLKIN, BLKIU, SWPGI, SWPGOW, SWPGOBN, and/or SWPGOBU states are being collected, the upper limit is the number of servers. </li> | ||
BLKIU, SWPGI, SWPGOW, SWPGOBN, and/or SWPGOBU states are being collected, the | |||
upper limit is the number of servers. | <li>Otherwise, a crude upper limit is the number of users. </li> | ||
<li>Otherwise, a crude upper limit is the number of | |||
users. | |||
</ul> | </ul> | ||
Call whatever value one comes up with <code>AVG_USERS</code>. | Call whatever value one comes up with <code>AVG_USERS</code>. | ||
The total number of bytes required for SIRTUNED can be estimated by this: | The total number of bytes required for SIRTUNED can be estimated by this: | ||
<p class="code" | <p class="code">100,000 + ( 12 * COMP_LINES ) + ( NUM_SAMP * 64 * ( 1 + AVG_USERS ) ) | ||
</p> | |||
This estimator provides a fairly generous estimate without being | This estimator provides a fairly generous estimate without being | ||
excessive. | excessive. To determine the number of disk tracks required, divide | ||
To determine the number of disk tracks required, divide | |||
the number of bytes produced by this estimator by the number of bytes | the number of bytes produced by this estimator by the number of bytes | ||
per track at the block size for SIRTUNED (46,952 is the default bytes | per track at the block size for SIRTUNED (46,952 is the default bytes | ||
per track on a 3380, and 55,996 is the default on a 3390). | per track on a 3380, and 55,996 is the default on a 3390). | ||
==An example estimate== | ===An example estimate=== | ||
<p> | <p> | ||
Suppose a shop has 100,000 lines of pre-compiled | Suppose a shop has 100,000 lines of pre-compiled | ||
User Language code, expects to collect samples over 8 hours at 1 per | User Language code, expects to collect samples over 8 hours at 1 per | ||
second, is collecting data for states RUNG, REDY, and BLKIN, and has | second, is collecting data for states RUNG, REDY, and BLKIN, and has | ||
30 servers defined in the | 30 servers defined in the Online. | ||
These factors are clear:</p> | These factors are clear:</p> | ||
<p class="code" | <p class="code">COMP_LINES = 100,000 | ||
NUM_SAMP = 8 * 60 * 60 / 1 = 28,800 | NUM_SAMP = 8 * 60 * 60 / 1 = 28,800 | ||
</p> | |||
Since all the users in a collected state must be in a server, | Since all the users in a collected state must be in a server, | ||
use the number of servers as a gross estimator for AVG_USERS, that is: | use the number of servers as a gross estimator for AVG_USERS, that is: | ||
<p class="code" | <p class="code">AVG_USERS = 30 | ||
</p> | |||
This means that the estimated space requirements in this case is: | This means that the estimated space requirements in this case is: | ||
<p class="code" | <p class="code">100,000 + ( 12 * 100,000 ) + | ||
28,800 * 64 * ( 1 + 30 ) = 58,439,200 | 28,800 * 64 * ( 1 + 30 ) = 58,439,200 | ||
</p> | |||
If the sample data was going to a 3380 with the <var class="product">SirTune</var> default block | If the sample data was going to a 3380 with the <var class="product">SirTune</var> default block | ||
| Line 100: | Line 80: | ||
If sampling is limited to some key hours to restrict | If sampling is limited to some key hours to restrict | ||
the number of samples collected to 10,000, the estimator becomes: | the number of samples collected to 10,000, the estimator becomes: | ||
<p class="code" | <p class="code">100,000 + ( 12 * 100,000 ) + | ||
10,000 * 64 * ( 1 + 30 ) = 21,140,000 | 10,000 * 64 * ( 1 + 30 ) = 21,140,000 | ||
</p> | |||
If the sample data in this case was going to a 3380 with the <var class="product">SirTune</var> default | If the sample data in this case was going to a 3380 with the <var class="product">SirTune</var> default | ||
block size, it would require 451 tracks or 31 cylinders. | block size, it would require 451 tracks or 31 cylinders. | ||
Latest revision as of 00:26, 9 August 2017
It is recommended that you do not spend a lot of time trying to size SIRTUNED, because the consequences of under- or over-estimating the SIRTUNED space requirements are relatively benign. However, if you do want to size SIRTUNED, this section provides some basic rules of thumb for estimating the correct size.
A formula for the estimate
The size of SIRTUNED is mainly determined by these factors:
- The number of lines of compilations saved. This is the number of lines in precompiled APSY procedures compiled in the run, or if the ALLCOMP statement is specified for SirTune, the number of lines of all compiled procedures. In any case, a line counts as 1 each time it is compiled.
- The number of samples collected.
- The average number of users for which data is collected per sample.
To estimate the number of lines of compilations saved when the ALLCOMP statement has not been specified, and when subsystems are not START'ed and STOP'ed multiple times in a run, simply total the number of lines in all precompiled procedures in START'ed subsystems. To get an estimate of this:
- Count the total number of precompiled procedures.
- Estimate the average number of lines per precompiled procedure by entering the editor for a representative sample of them.
- Multiply these two values.
Call the number of compiled lines COMP_LINES.
To estimate the number of samples, divide the number of seconds over which data is to be collected, by the sample interval length (1 or whatever was specified on the INTERVAL statement).
Call this value NUM_SAMP.
The best guide to estimating the number of users for which data is collected per sample is the Model 204 performance monitor. There are certain worst-case values that one can assume, however:
- If only state RUNG is being collected, at most 1 user will have data collected per sample, unless MP/204 is installed (in which case, the upper limit is 1 plus the number of subtasks).
- If only REDY, RUNG, BLKIN, BLKIU, SWPGI, SWPGOW, SWPGOBN, and/or SWPGOBU states are being collected, the upper limit is the number of servers.
- Otherwise, a crude upper limit is the number of users.
Call whatever value one comes up with AVG_USERS.
The total number of bytes required for SIRTUNED can be estimated by this:
100,000 + ( 12 * COMP_LINES ) + ( NUM_SAMP * 64 * ( 1 + AVG_USERS ) )
This estimator provides a fairly generous estimate without being excessive. To determine the number of disk tracks required, divide the number of bytes produced by this estimator by the number of bytes per track at the block size for SIRTUNED (46,952 is the default bytes per track on a 3380, and 55,996 is the default on a 3390).
An example estimate
Suppose a shop has 100,000 lines of pre-compiled User Language code, expects to collect samples over 8 hours at 1 per second, is collecting data for states RUNG, REDY, and BLKIN, and has 30 servers defined in the Online. These factors are clear:
COMP_LINES = 100,000 NUM_SAMP = 8 * 60 * 60 / 1 = 28,800
Since all the users in a collected state must be in a server, use the number of servers as a gross estimator for AVG_USERS, that is:
AVG_USERS = 30
This means that the estimated space requirements in this case is:
100,000 + ( 12 * 100,000 ) + 28,800 * 64 * ( 1 + 30 ) = 58,439,200
If the sample data was going to a 3380 with the SirTune default block size, it would require 1245 tracks or 83 cylinders.
The number of samples collected in this example is fairly extreme: generally there is not much benefit to collecting more than 10,000 samples. If sampling is limited to some key hours to restrict the number of samples collected to 10,000, the estimator becomes:
100,000 + ( 12 * 100,000 ) + 10,000 * 64 * ( 1 + 30 ) = 21,140,000
If the sample data in this case was going to a 3380 with the SirTune default block size, it would require 451 tracks or 31 cylinders.