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Verification of Mixed-Signal Systems with Range Based Signal Representations Michael Kärgel, Markus Olbrich, Erich Barke.

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Presentation on theme: "Verification of Mixed-Signal Systems with Range Based Signal Representations Michael Kärgel, Markus Olbrich, Erich Barke."— Presentation transcript:

1 Verification of Mixed-Signal Systems with Range Based Signal Representations Michael Kärgel, Markus Olbrich, Erich Barke

2 Seite 2 Contents  Motivation  Mixed-Signal Simulation  Affine Arithmetic  Analog Circuit Simulation using Affine Arithmetic  Delay Modeling  SystemC Integration  Results  Conclusion Michael Kärgel, Markus Olbrich, Erich Barke, FAC2013, 14.02.2013

3 Seite 3 Verification of Mixed-Signal Systems  Problems  Slow  Rarely used  Fast enough only on system-level  Too abstract for analog systems  Missing variation due to degradation or manufacturing  Gain  Find design errors  Is every error really critical for the function of a system?  Reduce overdesign of modules  Smaller design Michael Kärgel, Markus Olbrich, Erich Barke, FAC2013, 14.02.2013

4 Seite 4 Mixed-Signal Systems: Parameter Variations Analog SystemsDigital Systems Monte Carlo / Corner CaseMonte Carlo, e.g. using Spice Sensitivity analysisBit errors Interval / range / distribution arithmetic Delay errors Symbolic analysisStatistical gate-level simulation (S)STA Integration in electric modelIntegration in LUTs of libraries Resulting wave formsResulting values, slew or clock rates Michael Kärgel, Markus Olbrich, Erich Barke, FAC2013, 14.02.2013

5 Seite 5 Affine Forms  Mathematical model for error tracking  Origin in numerical applications, first used by Stolfi et al.  Guaranteed save inclusion of the result  One unique symbol for each parameter deviation  Exact affine operations  Linear operations: +,−  Multiplication with constant Deviation symbol Central value Linear partial deviations Michael Kärgel, Markus Olbrich, Erich Barke, FAC2013, 14.02.2013

6 Seite 6 Non-affine Operations  Approximations of the result of each operation  Linear correlation preserved  One new deviation generated for each operation  Guaranteed safe inclusion  Conversion to interval arithmetic using radius-function  C++-Library licensed under GPL  http://aaflib.sourceforge.net/ Michael Kärgel, Markus Olbrich, Erich Barke, FAC2013, 14.02.2013

7 Seite 7 Affine Circuit Simulation  DC/AC/Transient simulation methods implemented  SPICE-like approach  Newton-Raphson based solving  Include all deviation in a single simulation run  Speed up verification  Tracing of deviations from output back to inputs and parameter Monte- Carlo Corner- Case Affine Michael Kärgel, Markus Olbrich, Erich Barke, FAC2013, 14.02.2013

8 Seite 8 Delay Modeling in Digital Circuits (I) Michael Kärgel, Markus Olbrich, Erich Barke, FAC2013, 14.02.2013

9 Seite 9 Delay Modeling in Digital Circuits (II)  Delay models consider  Signal variations (Slew rate)  Process parameter variations (Capacitance,...)  Delay models do not represent  Permanent bit errors  Logic value errors on system level  Delay values  Fast and slow corners (inter die variation)  SSTA (intra die variation)  Stored in device library Michael Kärgel, Markus Olbrich, Erich Barke, FAC2013, 14.02.2013

10 Seite 10 Conversion between Affine and Delay Signals Michael Kärgel, Markus Olbrich, Erich Barke, FAC2013, 14.02.2013

11 Seite 11 Event Driven SystemC Interface  Analog simulator using affine arithmetic  Integration of events between SystemC and the simulator  Reduce interpolation errors  Analog sampling as fallback solution Simulation kernel(C++) Event system DE-MOC Analog sampling Michael Kärgel, Markus Olbrich, Erich Barke, FAC2013, 14.02.2013

12 Seite 12 Example: SystemC PWM brightness control PWMTestbench clock enable brightness analog Michael Kärgel, Markus Olbrich, Erich Barke, FAC2013, 14.02.2013

13 Seite 13 Example: 3 Bit Flash ADC Michael Kärgel, Markus Olbrich, Erich Barke, FAC2013, 14.02.2013  Reference voltage + resistor ladder  Deviation in OPA parameters as well as in reference  Digital models with delays  Functional modeling

14 Seite 14 Future Work  Preserve correlation in both domains  Requires transformation between values and time of deviation symbols and delays  Enables more complex examples, e.g. Sigma Delta Converter  Special comparator models or converter units  Modeling of memories and registers  Modeling of functionality changing errors Michael Kärgel, Markus Olbrich, Erich Barke, FAC2013, 14.02.2013

15 Seite 15 Conclusion Michael Kärgel, Markus Olbrich, Erich Barke, FAC2013, 14.02.2013  Modeling of variation effects in mixed signal circuits  Affine arithmetic  Analog circuit simulation using affine arithmetic  Delay model for digital circuits  Mixed signal simulation with variation

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