• DocumentCode
    3756081
  • Title

    Improved Methods for Accurate Safety Analysis of Real-Life Systems

  • Author

    V Prasanth;Rubin Parekhji;Bharadwaj Amrutur

  • Author_Institution
    Texas Instrum. (India) Pvt. Ltd., Bangalore, India
  • fYear
    2015
  • Firstpage
    175
  • Lastpage
    180
  • Abstract
    Integrated circuits are being used in different applications which are not always known at the time of specification and design creation. Safety standards specify that certain design processes be followed to guarantee safety of the applications in which these circuits are being used. As a result, the design phase is followed (often mandated) by an evaluation phase, wherein the safety worthiness of the circuit must be ascertained. In this paper, we perform a detailed study of such an evaluation as practised in the industry, understand the limitations, and propose techniques to improve the existing methodology. The improvements proposed are: (i) Capturing workload diversity as input constraints (values and sequence). (ii) Modelling application specific performance tolerance. (iii) Illustrating how physical system can be included into this analysis using a suitable representation. (iv) Budgeting of tolerance across various interacting modules to reduce computational complexity of safety analysis. Experimental results to illustrate suitability of the proposed methods are presented using a set of ITC benchmark circuits and two representative industrial circuits.
  • Keywords
    "Safety","Circuit faults","Flip-flops","Hardware","Measurement","Actuators","Integrated circuit modeling"
  • Publisher
    ieee
  • Conference_Titel
    Test Symposium (ATS), 2015 IEEE 24th Asian
  • Electronic_ISBN
    2377-5386
  • Type

    conf

  • DOI
    10.1109/ATS.2015.37
  • Filename
    7422255