BlockSim Simulation RBD Plot ptSystemUpDown: Difference between revisions

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Uptime,  <math>{{T}_{UP}}</math>
{{bs system up/down}}
 
This is the average time the system was up and operating.  This is obtained by taking the sum of the uptimes for each simulation and dividing it by the number of simulations.  For this example, the uptime is 260.386.  To compute the Operational Availability,  <math>{{A}_{o}},</math>  for this system, then:
 
<math>{{A}_{o}}=\frac{{{T}_{UP}}}{{{T}_{S}}}</math>
 
CM Downtime,  <math>{{T}_{C{{M}_{Down}}}}</math>
 
This is the average time the system was down for corrective maintenance actions (CM) only.  This is obtained by taking the sum of the CM downtimes for each simulation and dividing it by the number of simulations.  For this example, this is 39.614.
To compute the Inherent Availability,  <math>{{A}_{I}},</math>  for this system over the observed time (which may or may not be steady state, depending on the length of the simulation), then:
 
<math>{{A}_{I}}=\frac{{{T}_{S}}-{{T}_{C{{M}_{Down}}}}}{{{T}_{S}}}</math>


Example:  
Example:  

Revision as of 20:26, 23 January 2012

Reliability Web Notes

Diagram Simulation System Up/Down
BlockSim

Reliability Web Notes

Diagram Simulation System Up/Down
BlockSim

Template loop detected: Template:Bs system up/down

Example:

A system up/down plot illustrating a probabilistic failure time and repair duration for component B.
System Uptime/Downtime



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Example:

A system up/down plot illustrating a probabilistic failure time and repair duration for component B.
System Uptime/Downtime



Docedit.png