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@ -0,0 +1,49 @@ |
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Perform Monte Carlo simulation in ngspice |
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V1 N001 0 AC 1 DC 0 |
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R1 N002 N001 141 |
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* |
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C1 OUT 0 1e-09 |
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L1 OUT 0 10e-06 |
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C2 N002 0 1e-09 |
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L2 N002 0 10e-06 |
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L3 N003 N002 40e-06 |
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C3 OUT N003 250e-12 |
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* |
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R2 0 OUT 141 |
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* |
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.control |
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let mc_runs = 100 |
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let run = 1 |
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set curplot = new $ create a new plot |
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set scratch = $curplot $ store its name to 'scratch' |
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* |
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define unif(nom, var) (nom + (nom*var) * sunif(0)) |
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define aunif(nom, avar) (nom + avar * sunif(0)) |
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define gauss(nom, var, sig) (nom + (nom*var)/sig * sgauss(0)) |
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define agauss(nom, avar, sig) (nom + avar/sig * sgauss(0)) |
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* |
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dowhile run <= mc_runs |
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* alter c1 = unif(1e-09, 0.1) |
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* alter l1 = aunif(10e-06, 2e-06) |
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* alter c2 = aunif(1e-09, 100e-12) |
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* alter l2 = unif(10e-06, 0.2) |
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* alter l3 = aunif(40e-06, 8e-06) |
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* alter c3 = unif(250e-12, 0.15) |
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alter c1 = gauss(1e-09, 0.1, 3) |
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alter l1 = agauss(10e-06, 2e-06, 3) |
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alter c2 = agauss(1e-09, 100e-12, 3) |
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alter l2 = gauss(10e-06, 0.2, 3) |
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alter l3 = agauss(40e-06, 8e-06, 3) |
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alter c3 = gauss(250e-12, 0.15, 3) |
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ac oct 100 250K 10Meg |
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set run ="$&run" $ create a variable from the vector |
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set dt = $curplot $ store the current plot to dt |
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setplot $scratch $ make 'scratch' the active plot |
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let vout{$run}={$dt}.v(out) $ store the output vector to plot 'scratch' |
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setplot $dt $ go back to the previous plot |
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let run = run + 1 |
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end |
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plot db({$scratch}.all) |
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.endc |
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.end |
dwarning
16 years ago