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SENG 421 Reliability Demonstration Chart

SENG 421 Reliability Demonstration Chart. Department of Electrical & Computer Engineering, University of Calgary B.H. Far ( far@ucalgary.ca ) http://www.enel.ucalgary.ca/People/far/Lectures/SENG421/. Reliability Demo Chart /1.

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SENG 421 Reliability Demonstration Chart

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  1. SENG 421Reliability Demonstration Chart Department of Electrical & Computer Engineering, University of Calgary B.H. Far (far@ucalgary.ca) http://www.enel.ucalgary.ca/People/far/Lectures/SENG421/

  2. Reliability Demo Chart /1 • An efficient way of checking whether the FIO (F) is met or not. • It is based on collecting failure data at time points. • Vertical axis: failure number (n) • Horizontal axis: normalized failure data (Tn), i.e., failure time F Figure from Musa’s Book far@ucalgary.ca

  3. Parameters Involved /1 • Discrimination ratio (): Acceptable error in estimating failure intensity. • Customer risk () : Probability that the developer is willing to accept of falsely saying the failure intensity objective is met (i.e., acceptance) when it is not. • Developer risk () : Probability that the developer is willing to accept of falsely saying the failure intensity objective is not met (i.e., rejection) when it is. far@ucalgary.ca

  4. Parameters Involved /2 For  =10% and = 10% and  =2 • There is 10% risk () of wrongly accepting the software when its failure intensity objective is actually equal or greater than twice ( =2) the failure intensity objective. • There is 10% risk () of wrongly rejecting the software when its failure intensity objective is actually equal or less than half ( =2) the failure intensity objective. far@ucalgary.ca

  5. Reliability Demo Chart /2 • A changes rapidly with customer risk but very slightly with developer risk and it determines the intercept of acceptboundary with the horizontal line n=0 • B changes rapidly with developer risk but very slightly with customer risk and it determines the intercept of rejectboundary with the vertical line Tn=0 far@ucalgary.ca

  6. Reliability Demo Chart /3 • Boundary between acceptand continue regions (is the discrimination ratio) • Boundary between reject and continue regions (is the discrimination ratio) far@ucalgary.ca

  7. Reliability Demo Chart /4 Values of intercepts of boundaries with various horizontal and vertical axes far@ucalgary.ca

  8. Reliability Demo Chart /5 Values of A and B for various consumer and supplier risk levels Table from Musa’s Book far@ucalgary.ca

  9. Reliability Demo Chart /6 • When risk levels ( and ) decrease, the system will require more test before reaching the accept or reject regions, i.e., the continue region becomes wider. • When discrimination ratio () decreases, the system will require more test before reaching the accept or reject regions, i.e., the continue region becomes wider. far@ucalgary.ca

  10. RDC: Example /1 • Consumer risk  = 5% • Supplier risk  = 5% • Discrimination ratio  = 2 Figure from Musa’s Book far@ucalgary.ca

  11. RDC: Example /2 • Consumer risk  = 1% • Supplier risk  = 1% • Discrimination ratio  = 2 Figure from Musa’s Book far@ucalgary.ca

  12. RDC: Example /3 • Consumer risk  = 0.1% • Supplier risk  = 0.1% • Discrimination ratio  = 2 Figure from Musa’s Book far@ucalgary.ca

  13. RDC: Example /4 • Consumer risk  = 10% • Supplier risk  = 10% • Discrimination ratio  = 1.2 far@ucalgary.ca Figure from Musa’s Book

  14. Example 1 far@ucalgary.ca

  15. Example 2 far@ucalgary.ca

  16. Example 3 • We are going to buy a new colour laser printer for our department. We have borrowed the printer for the test run and we are going to conduct certification test on it. Maker’s data shows that we need to change the toner every 10,000 pages. We would like to have the system running without any failure between the two consecutive toner changes and in the worst case having only one failure during the period. a) What shall be our failure intensity objective for the system? F = 1/10000 pages far@ucalgary.ca

  17. Example 3 (contd.) b) We observe that failures occur at 4,000 pages, 6,000 pages, 10,000 pages, 11,000 pages, 12,000 pages and 15,000 pages of output. Using the reliability demonstration chart, what can we conclude about this printer? far@ucalgary.ca

  18. Example 3 (contd.) • Because of failing the certification test we will reject the printer. far@ucalgary.ca

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