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Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)1 Basic test concepts J. M. Martins Ferreira FEUP / DEEC - Rua Dr.

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Presentation on theme: "Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)1 Basic test concepts J. M. Martins Ferreira FEUP / DEEC - Rua Dr."— Presentation transcript:

1 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)1 Basic test concepts J. M. Martins Ferreira FEUP / DEEC - Rua Dr. Roberto Frias 4200-537 Porto - PORTUGAL Tel. 351 225 081 748 / Fax: 351 225 081 443 (jmf@fe.up.pt / http://www.fe.up.pt/~jmf)

2 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)2 Objectives To emphasise the importance of testing in the overall product development cycle To introduce the basic concepts in testing and test vector generation

3 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)3 Outline Fault modeling and ss@ faults Controllability, observability and testability Test vector generation for combinational circuits Redundancy and undetectable faults

4 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)4 The importance of testing No testing, no manufacturing Cost of testing is very high, but the cost of defective testing strategies is even higher Available test standards A brief historical perspective

5 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)5 Why fault models? Possible physical defects are too many and defect spectrum too wide Effective test strategies require that the complexity of malfunction models is reduced to an acceptable level Fault models are an abstract representation of defective circuit conditions (a fault is at logic level, a defect is at physical level)

6 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)6 Attributes of a good fault model Simplicity, to allow efficient test vector generation procedures Defect coverage, to guarantee that the percentage of defective components escaping detection is acceptably low

7 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)7 The single stuck-at fault model A structural fault model assuming that –Only one node at a time is faulty –Only two types of faults: s@0 and s@1 Experience has shown that the ss@ fault model has excellent characteristics concerning those attributes that were previously referred

8 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)8 Controllability of a node

9 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)9 Problems due to low controllability Low controllability leads to difficult test vector generation, since: –Our first step to detect a given s@ fault in a node consists of driving it to the opposite logic value (1 if s@0 or 0 if s@1) –In an IC, the value at any node can only be controlled from the input pins (the primary inputs of the circuit) Low observability, as we shall see, has a similar effect

10 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)10 Observability of a node

11 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)11 Testability Testability is a combined measure of controllability and observability High testability facilitates test vector generation and leads to better test effectiveness So, why aren’t all circuits highly testable?

12 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)12 The D-notation Introduced by Paul Roth in the mid-60s for the (test vector generation) D-algorithm D is a composite logic value that results from driving a s@0 node to 1 (and /D its dual)

13 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)13 The D-algorithm Drive the node to the opposite logic value (0 if s@1 and 1 if s@0) Propagate the error signal (D or /D) to a primary output Justify (backwards) the values that enable the propagation path, until a necessary combination at the primary inputs (a test vector) is found

14 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)14 A test generation example

15 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)15 The case of undetectable faults

16 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)16 Backtracking

17 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)17 Redundancy and undetectable faults Redundant product terms degrade testability for the same reason that they may introduce fault tolerance features (ability to mask faults)

18 Leonardo da Vinci ALLEGRO © J. M. Martins Ferreira - University of Porto (FEUP / DEEC)18 But are those faults really undetectable? Redundancy may be used to avoid glitches (correct transient behaviour), which may be visible again if faults are present

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