Difference between revisions of "Diels-Alder Reaction Experimental Design (VPLAN)"
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+ | [[Category: VPLAN]] |
Latest revision as of 14:13, 2 February 2016
This is a VPLAN implementation for the Diels-Alder Reaction Experimental Design problem.
Differential equations:
c RHS of the differential equations subroutine ffcn( t, x, f, p, q, rwh, iwh, iflag ) implicit none real*8 x(*), f(*), p(*), q(*), rwh(*), t integer*4 iwh(*), iflag real*8 n1, n2, n3, n4 real*8 na1, na2, na4 real*8 fg, Temp, E , Rg , T1, Tc real*8 r1, mR real*8 kr1, kkat, Ckat, Ekat real*8 k1, lambda real*8 M1, M2, M3, M4 real*8 dm c State variables n1 = x(1) n2 = x(2) n3 = x(3) n4 = x(4) c Control variables na1 = q(1) na2 = q(2) na4 = q(3) Ckat = q(4) c Control function c DISCRETIZE1( Tc, rwh, iwh ) c Parameters kr1 = p(1) * 1.0d-2 E = p(2) * 60000.0d+0 k1 = p(3) * 0.10d+0 Ekat = p(4) * 40000.0d0 lambda = p(5) * 0.25d+0 c Molar masses (in kg/mol) M1 = 0.1362d+0 M2 = 0.09806d+0 M3 = M1 + M2 M4 = 0.236d+0 Temp = Tc + 273.0d+0 Rg = 8.314d+0 T1 = 293.0d+0 c Reaction rates mR = n1*M1 + n2*M2 +n3*M3 + n4*M4 kkat = kr1 * dexp( -E/Rg * ( 1.0d+0/Temp - 1.0d+0/T1 ) ) & + k1 * dexp( -Ekat/Rg *( 1.0d+0/Temp - 1.0d+0/T1 ) ) & * Ckat * dexp( -lambda * t ) r1 = kkat * n1 * n2 / mR f(1) = -r1 f(2) = -r1 f(3) = r1 f(4) = 0.0d0 end
Algebraic equations:
c Dummyfunction for RHS of algebraic equations subroutine gfcn( t, x, g, p, q, rwh, iwh, iflag ) implicit none real*8 x(*), g(*), p(*), q(*), rwh(*), t integer*4 iwh(*), iflag iflag=0 end
Measurement function:
c Messfunktion subroutine mess3( t, x, h, p, q, rwh, iwh, iflag ) implicit none real*8 t, x(*), h, p(*), q(*), rwh(*) integer*4 iwh(*), iflag real*8 M1, M2, M3, M4, mR c Berechnung der Reaktormasse M1 = 0.1362d+0 M2 = 0.09806d+0 M3 = M1 + M2 M4 = 0.236d+0 mR = M1*x(1) + M2*x(2) + M3*x(3) + M4*x(4) c Messwert: Massenprozent h = M3*x(3) * 100.0d+0/mR iflag = 0 end
Standard deviation of measurement function:
c Standardabweichung der Messfunktion subroutine sigma3( t, x, s, p, q, rwh, iwh, iflag ) implicit none real*8 rwh(*) integer*4 iwh(*), iflag real*8 t, x(*), p(*), q(*) real*8 s real*8 h s = 1.0d+0 iflag = 0 end
VPLAN specific experimental setup:
Experiment 1
[Flags] switch=1 [Kosten] costs=0 -1e+10 1e+10 [Integrationsintervall] t0=0 tend=10 [Modellfunktionen] ffcn=ffcn gfcn=gfcn [Zustandsvariablen] yAnzahl=4 y1=n1 na1 -1e+10 1e+10 y2=n2 na2 -1e+10 1e+10 y3=n3 0 -1e+10 1e+10 y4=n4 na4 -1e+10 1e+10 zAnzahl=0 [Mehrzielknoten] tAnzahl=0 t1=0 t2=0.33 t3=0.66 t4=1 t5=1.33 t6=1.66 t7=2 t8=2.33 t9=2.66 t10=3 t11=3.33 t12=3.66 t13=4 t14=4.33 t15=4.66 t16=5 t17=6 t18=7 t19=9 t20=10 [DynamischeNebenbedingungen] bAnzahl=0 [GitterUeberpruefungNebenbedingungen] tAnzahl=0 [Steuergroessen] qAnzahl=4 q1=na1 1.0 0 10 0 -1 q2=na2 1.0 0 10 0 -1 q3=na4 2.0 0.4 9 0 -1 q4=Ckat 0.0 0 6 0 -1 [Steuerfunktionen] uAnzahl=1 u1=Tc 3 20 100 u1tAnzahl=3 u1t0=t0 u1t1q=20 20 100 0 0 0 u1t1=2 u1t2q=20 20 100 0.0 -1e+10 1e+10 u1t2=8 u1t3q=20 20 100 0 0 0 u1t3=tend [NebenbedingungenSteuergroessen] cAnzahl=2 c1=cfcn1 1 c1bnd1=0.1 0.7 c2=cfcn2 1 c2bnd1=0.1 10 [Messverfahren] mAnzahl=1 m1=mfcn1 1 0 1e+10 0 m1f1=mess3 sigma3 1 mminmaxges=0 6 [Messungen] tAnzahl=20 t1=0.33 t1Anzahl=1 t1m1=mfcn1 0.3 1e-06 1 t1minmax=0 1e+10 t2=0.66 t2Anzahl=1 t2m1=mfcn1 0.3 1e-06 1 t2minmax=0 1e+10 t3=1 t3Anzahl=1 t3m1=mfcn1 0.3 1e-06 1 t3minmax=0 1e+10 t4=1.33 t4Anzahl=1 t4m1=mfcn1 0.3 1e-06 1 t4minmax=0 1e+10 t5=1.66 t5Anzahl=1 t5m1=mfcn1 0.3 1e-06 1 t5minmax=0 1e+10 t6=2 t6Anzahl=1 t6m1=mfcn1 0.3 1e-06 1 t6minmax=0 1e+10 t7=2.33 t7Anzahl=1 t7m1=mfcn1 0.3 1e-06 1 t7minmax=0 1e+10 t8=2.66 t8Anzahl=1 t8m1=mfcn1 0.3 1e-06 1 t8minmax=0 1e+10 t9=3 t9Anzahl=1 t9m1=mfcn1 0.3 1e-06 1 t9minmax=0 1e+10 t10=3.33 t10Anzahl=1 t10m1=mfcn1 0.3 1e-06 1 t10minmax=0 1e+10 t11=3.66 t11Anzahl=1 t11m1=mfcn1 0.3 1e-06 1 t11minmax=0 1e+10 t12=4 t12Anzahl=1 t12m1=mfcn1 0.3 1e-06 1 t12minmax=0 1e+10 t13=4.33 t13Anzahl=1 t13m1=mfcn1 0.3 1e-06 1 t13minmax=0 1e+10 t14=4.66 t14Anzahl=1 t14m1=mfcn1 0.3 1e-06 1 t14minmax=0 1e+10 t15=5 t15Anzahl=1 t15m1=mfcn1 0.3 1e-06 1 t15minmax=0 1e+10 t16=6 t16Anzahl=1 t16m1=mfcn1 0.3 1e-06 1 t16minmax=0 1e+10 t17=7 t17Anzahl=1 t17m1=mfcn1 0.3 1e-06 1 t17minmax=0 1e+10 t18=8 t18Anzahl=1 t18m1=mfcn1 0.3 1e-06 1 t18minmax=0 1e+10 t19=9 t19Anzahl=1 t19m1=mfcn1 0.3 1e-06 1 t19minmax=0 1e+10 t20=10 t20Anzahl=1 t20m1=mfcn1 0.3 1e-06 1 t20minmax=0 1e+10 [OptionenIntegration] teps=1e-08 rtol=1e-08 atol=1e-07 stepsize=0.0001 maxorder=6 maxstepnumber=4000 minstepsize=-1 maxstepsize=-1 maxitNewton=3 noerrorcontrol=0 realworkspace=170000 integerworkspace=500 printlevel=0 mcnonlinearflag=0 mcDAEflag=0 mctol=1e-07 mcmaxit=50 mclinesearch=1 mcalpha0=1 rndmethod=-1 rndeps=1e-05 rndverbose=0
Experiment 2
[Flags] switch=1 [Kosten] costs=0 -1e+10 1e+10 [Integrationsintervall] t0=0 tend=10 [Modellfunktionen] ffcn=ffcn gfcn=gfcn [Zustandsvariablen] yAnzahl=4 y1=n1 na1 -1e+10 1e+10 y2=n2 na2 -1e+10 1e+10 y3=n3 0 -1e+10 1e+10 y4=n4 na4 -1e+10 1e+10 zAnzahl=0 [Mehrzielknoten] tAnzahl=0 t1=0 t2=0.33 t3=0.66 t4=1 t5=1.33 t6=1.66 t7=2 t8=2.33 t9=2.66 t10=3 t11=3.33 t12=3.66 t13=4 t14=4.33 t15=4.66 t16=5 t17=6 t18=7 t19=9 t20=10 [DynamischeNebenbedingungen] bAnzahl=0 [GitterUeberpruefungNebenbedingungen] tAnzahl=0 [Steuergroessen] qAnzahl=4 q1=na1 1.0 0 10 0 -1 q2=na2 1.0 0 10 0 -1 q3=na4 2.0 0.4 9 0 -1 q4=Ckat 1.0 0 6 0 -1 [Steuerfunktionen] uAnzahl=1 u1=Tc 3 20 100 u1tAnzahl=3 u1t0=t0 u1t1q=60 20 100 0 0 0 0 u1t1=2 u1t2q=60 20 100 0.0 -1e+10 1e+10 u1t2=8 u1t3q=60 20 100 0 0 0 u1t3=tend [NebenbedingungenSteuergroessen] cAnzahl=2 c1=cfcn1 1 c1bnd1=0.1 0.7 c2=cfcn2 1 c2bnd1=0.1 10 [Messverfahren] mAnzahl=1 m1=mfcn1 1 0 1e+10 0 m1f1=mess3 sigma3 1 mminmaxges=0 6 [Messungen] tAnzahl=20 t1=0.33 t1Anzahl=1 t1m1=mfcn1 0.3 1e-06 1 t1minmax=0 1e+10 t2=0.66 t2Anzahl=1 t2m1=mfcn1 0.3 1e-06 1 t2minmax=0 1e+10 t3=1 t3Anzahl=1 t3m1=mfcn1 0.3 1e-06 1 t3minmax=0 1e+10 t4=1.33 t4Anzahl=1 t4m1=mfcn1 0.3 1e-06 1 t4minmax=0 1e+10 t5=1.66 t5Anzahl=1 t5m1=mfcn1 0.3 1e-06 1 t5minmax=0 1e+10 t6=2 t6Anzahl=1 t6m1=mfcn1 0.3 1e-06 1 t6minmax=0 1e+10 t7=2.33 t7Anzahl=1 t7m1=mfcn1 0.3 1e-06 1 t7minmax=0 1e+10 t8=2.66 t8Anzahl=1 t8m1=mfcn1 0.3 1e-06 1 t8minmax=0 1e+10 t9=3 t9Anzahl=1 t9m1=mfcn1 0.3 1e-06 1 t9minmax=0 1e+10 t10=3.33 t10Anzahl=1 t10m1=mfcn1 0.3 1e-06 1 t10minmax=0 1e+10 t11=3.66 t11Anzahl=1 t11m1=mfcn1 0.3 1e-06 1 t11minmax=0 1e+10 t12=4 t12Anzahl=1 t12m1=mfcn1 0.3 1e-06 1 t12minmax=0 1e+10 t13=4.33 t13Anzahl=1 t13m1=mfcn1 0.3 1e-06 1 t13minmax=0 1e+10 t14=4.66 t14Anzahl=1 t14m1=mfcn1 0.3 1e-06 1 t14minmax=0 1e+10 t15=5 t15Anzahl=1 t15m1=mfcn1 0.3 1e-06 1 t15minmax=0 1e+10 t16=6 t16Anzahl=1 t16m1=mfcn1 0.3 1e-06 1 t16minmax=0 1e+10 t17=7 t17Anzahl=1 t17m1=mfcn1 0.3 1e-06 1 t17minmax=0 1e+10 t18=8 t18Anzahl=1 t18m1=mfcn1 0.3 1e-06 1 t18minmax=0 1e+10 t19=9 t19Anzahl=1 t19m1=mfcn1 0.3 1e-06 1 t19minmax=0 1e+10 t20=10 t20Anzahl=1 t20m1=mfcn1 0.3 1e-06 1 t20minmax=0 1e+10 [OptionenIntegration] teps=1e-08 rtol=1e-08 atol=1e-07 stepsize=0.0001 maxorder=6 maxstepnumber=4000 minstepsize=-1 maxstepsize=-1 maxitNewton=3 noerrorcontrol=0 realworkspace=170000 integerworkspace=500 printlevel=0 mcnonlinearflag=0 mcDAEflag=0 mctol=1e-07 mcmaxit=50 mclinesearch=1 mcalpha0=1 rndmethod=-1 rndeps=1e-05 rndverbose=0
Experiment 3
[Flags] switch=1 [Kosten] costs=0 -1e+10 1e+10 [Integrationsintervall] t0=0 tend=10 [Modellfunktionen] ffcn=ffcn gfcn=gfcn [Zustandsvariablen] yAnzahl=4 y1=n1 na1 -1e+10 1e+10 y2=n2 na2 -1e+10 1e+10 y3=n3 0 -1e+10 1e+10 y4=n4 na4 -1e+10 1e+10 zAnzahl=0 [Mehrzielknoten] tAnzahl=0 t1=0 t2=0.33 t3=0.66 t4=1 t5=1.33 t6=1.66 t7=2 t8=2.33 t9=2.66 t10=3 t11=3.33 t12=3.66 t13=4 t14=4.33 t15=4.66 t16=5 t17=6 t18=7 t19=9 t20=10 [DynamischeNebenbedingungen] bAnzahl=0 [GitterUeberpruefungNebenbedingungen] tAnzahl=0 [Steuergroessen] qAnzahl=4 q1=na1 1.0 0 10 0 -1 q2=na2 1.0 0 10 0 -1 q3=na4 2.0 0.4 9 0 -1 q4=Ckat 2.0 0 6 0 -1 [Steuerfunktionen] uAnzahl=1 u1=Tc 3 20 100 u1tAnzahl=3 u1t0=t0 u1t1q=40 20 100 0 0 0 0 u1t1=2 u1t2q=40 20 100 0.0 -1e+10 1e+10 u1t2=8 u1t3q=40 20 100 0 0 0 u1t3=tend [NebenbedingungenSteuergroessen] cAnzahl=2 c1=cfcn1 1 c1bnd1=0.1 0.7 c2=cfcn2 1 c2bnd1=0.1 10 [Messverfahren] mAnzahl=1 m1=mfcn1 1 0 1e+10 0 m1f1=mess3 sigma3 1 mminmaxges=0 6 [Messungen] tAnzahl=20 t1=0.33 t1Anzahl=1 t1m1=mfcn1 0.3 1e-06 1 t1minmax=0 1e+10 t2=0.66 t2Anzahl=1 t2m1=mfcn1 0.3 1e-06 1 t2minmax=0 1e+10 t3=1 t3Anzahl=1 t3m1=mfcn1 0.3 1e-06 1 t3minmax=0 1e+10 t4=1.33 t4Anzahl=1 t4m1=mfcn1 0.3 1e-06 1 t4minmax=0 1e+10 t5=1.66 t5Anzahl=1 t5m1=mfcn1 0.3 1e-06 1 t5minmax=0 1e+10 t6=2 t6Anzahl=1 t6m1=mfcn1 0.3 1e-06 1 t6minmax=0 1e+10 t7=2.33 t7Anzahl=1 t7m1=mfcn1 0.3 1e-06 1 t7minmax=0 1e+10 t8=2.66 t8Anzahl=1 t8m1=mfcn1 0.3 1e-06 1 t8minmax=0 1e+10 t9=3 t9Anzahl=1 t9m1=mfcn1 0.3 1e-06 1 t9minmax=0 1e+10 t10=3.33 t10Anzahl=1 t10m1=mfcn1 0.3 1e-06 1 t10minmax=0 1e+10 t11=3.66 t11Anzahl=1 t11m1=mfcn1 0.3 1e-06 1 t11minmax=0 1e+10 t12=4 t12Anzahl=1 t12m1=mfcn1 0.3 1e-06 1 t12minmax=0 1e+10 t13=4.33 t13Anzahl=1 t13m1=mfcn1 0.3 1e-06 1 t13minmax=0 1e+10 t14=4.66 t14Anzahl=1 t14m1=mfcn1 0.3 1e-06 1 t14minmax=0 1e+10 t15=5 t15Anzahl=1 t15m1=mfcn1 0.3 1e-06 1 t15minmax=0 1e+10 t16=6 t16Anzahl=1 t16m1=mfcn1 0.3 1e-06 1 t16minmax=0 1e+10 t17=7 t17Anzahl=1 t17m1=mfcn1 0.3 1e-06 1 t17minmax=0 1e+10 t18=8 t18Anzahl=1 t18m1=mfcn1 0.3 1e-06 1 t18minmax=0 1e+10 t19=9 t19Anzahl=1 t19m1=mfcn1 0.3 1e-06 1 t19minmax=0 1e+10 t20=10 t20Anzahl=1 t20m1=mfcn1 0.3 1e-06 1 t20minmax=0 1e+10 [OptionenIntegration] teps=1e-08 rtol=1e-08 atol=1e-07 stepsize=0.0001 maxorder=6 maxstepnumber=4000 minstepsize=-1 maxstepsize=-1 maxitNewton=3 noerrorcontrol=0 realworkspace=170000 integerworkspace=500 printlevel=0 mcnonlinearflag=0 mcDAEflag=0 mctol=1e-07 mcmaxit=50 mclinesearch=1 mcalpha0=1 rndmethod=-1 rndeps=1e-05 rndverbose=0
Experiment 4
[Flags] switch=1 [Kosten] costs=0 -1e+10 1e+10 [Integrationsintervall] t0=0 tend=10 [Modellfunktionen] ffcn=ffcn gfcn=gfcn [Zustandsvariablen] yAnzahl=4 y1=n1 na1 -1e+10 1e+10 y2=n2 na2 -1e+10 1e+10 y3=n3 0 -1e+10 1e+10 y4=n4 na4 -1e+10 1e+10 zAnzahl=0 [Mehrzielknoten] tAnzahl=0 t1=0 t2=0.33 t3=0.66 t4=1 t5=1.33 t6=1.66 t7=2 t8=2.33 t9=2.66 t10=3 t11=3.33 t12=3.66 t13=4 t14=4.33 t15=4.66 t16=5 t17=6 t18=7 t19=9 t20=10 [DynamischeNebenbedingungen] bAnzahl=0 [GitterUeberpruefungNebenbedingungen] tAnzahl=0 [Steuergroessen] qAnzahl=4 q1=na1 1.0 0 10 0 -1 q2=na2 1.0 0 10 0 -1 q3=na4 2.0 0.4 9 0 -1 q4=Ckat 3.0 0 6 0 -1 [Steuerfunktionen] uAnzahl=1 u1=Tc 3 20 100 u1tAnzahl=3 u1t0=t0 u1t1q=20 20 100 0 0 0 0 u1t1=2 u1t2q=20 20 100 0.0 -1e+10 1e+10 u1t2=8 u1t3q=20 20 100 0 0 0 u1t3=tend [NebenbedingungenSteuergroessen] cAnzahl=2 c1=cfcn1 1 c1bnd1=0.1 0.7 c2=cfcn2 1 c2bnd1=0.1 10 [Messverfahren] mAnzahl=1 m1=mfcn1 1 0 1e+10 0 m1f1=mess3 sigma3 1 mminmaxges=0 6 [Messungen] tAnzahl=20 t1=0.33 t1Anzahl=1 t1m1=mfcn1 0.3 1e-06 1 t1minmax=0 1e+10 t2=0.66 t2Anzahl=1 t2m1=mfcn1 0.3 1e-06 1 t2minmax=0 1e+10 t3=1 t3Anzahl=1 t3m1=mfcn1 0.3 1e-06 1 t3minmax=0 1e+10 t4=1.33 t4Anzahl=1 t4m1=mfcn1 0.3 1e-06 1 t4minmax=0 1e+10 t5=1.66 t5Anzahl=1 t5m1=mfcn1 0.3 1e-06 1 t5minmax=0 1e+10 t6=2 t6Anzahl=1 t6m1=mfcn1 0.3 1e-06 1 t6minmax=0 1e+10 t7=2.33 t7Anzahl=1 t7m1=mfcn1 0.3 1e-06 1 t7minmax=0 1e+10 t8=2.66 t8Anzahl=1 t8m1=mfcn1 0.3 1e-06 1 t8minmax=0 1e+10 t9=3 t9Anzahl=1 t9m1=mfcn1 0.3 1e-06 1 t9minmax=0 1e+10 t10=3.33 t10Anzahl=1 t10m1=mfcn1 0.3 1e-06 1 t10minmax=0 1e+10 t11=3.66 t11Anzahl=1 t11m1=mfcn1 0.3 1e-06 1 t11minmax=0 1e+10 t12=4 t12Anzahl=1 t12m1=mfcn1 0.3 1e-06 1 t12minmax=0 1e+10 t13=4.33 t13Anzahl=1 t13m1=mfcn1 0.3 1e-06 1 t13minmax=0 1e+10 t14=4.66 t14Anzahl=1 t14m1=mfcn1 0.3 1e-06 1 t14minmax=0 1e+10 t15=5 t15Anzahl=1 t15m1=mfcn1 0.3 1e-06 1 t15minmax=0 1e+10 t16=6 t16Anzahl=1 t16m1=mfcn1 0.3 1e-06 1 t16minmax=0 1e+10 t17=7 t17Anzahl=1 t17m1=mfcn1 0.3 1e-06 1 t17minmax=0 1e+10 t18=8 t18Anzahl=1 t18m1=mfcn1 0.3 1e-06 1 t18minmax=0 1e+10 t19=9 t19Anzahl=1 t19m1=mfcn1 0.3 1e-06 1 t19minmax=0 1e+10 t20=10 t20Anzahl=1 t20m1=mfcn1 0.3 1e-06 1 t20minmax=0 1e+10 [OptionenIntegration] teps=1e-08 rtol=1e-08 atol=1e-07 stepsize=0.0001 maxorder=6 maxstepnumber=4000 minstepsize=-1 maxstepsize=-1 maxitNewton=3 noerrorcontrol=0 realworkspace=170000 integerworkspace=500 printlevel=0 mcnonlinearflag=0 mcDAEflag=0 mctol=1e-07 mcmaxit=50 mclinesearch=1 mcalpha0=1 rndmethod=-1 rndeps=1e-05 rndverbose=0
ini-file for running VPLAN:
[Aktion] ;aktion=Integration ;aktion=Simulationsumgebung ;aktion=Parameterschaetzung ;aktion=Versuchsplanung ;aktion=ObjectiveTest ;aktion=DerivativeTest ;aktion={CS} aktion={CSVCS} [Pfade] problempath=vpbimolkat_origin inpath=in outpath=out messpath=mess plotpath=plot fortranpath=fortran [Parameter] pAnzahl=5 p1=kr1 1 -1e+10 1e+10 0 p2=e 1 -1e+10 1e+10 0 p3=k1 1 -1e+10 1e+10 0 p4=ekat 1 -1e+10 1e+10 0 p5=lambda 1 -1e+10 1e+10 0 [Versuchsplan] expAnzahl=4 exp1=exp1.ini exp1.ini exp2=exp2.ini exp2.ini exp3=exp3.ini exp3.ini exp4=exp4.ini exp4.ini [Guetekriterium] Optimierungskriterium=A AKriterium=-1 DKriterium=-1 EKriterium=-1 MKriterium=-1 covmat=covmat.m jacmat=jacmat.m status=undefiniert [Residuum] res=0 [Kosten] costs=0 -1e+10 1e+10 [Messdatenfiles] mess1=mess1.dat mess2=mess2.dat mess3=mess3.dat mess4=mess4.dat [Outputfiles] out1=plot 0.05 integ.plt.1 out2=plot 0.05 integ.plt.2 out3=plot 0.05 integ.plt.3 out4=plot 0.05 integ.plt.4 [Residuenfiles] rsd1=res1.txt rsd2=res2.txt rsd3=res3.txt rsd4=res4.txt [ExtensionFlags] experimenttype=0 integrator=0 dmode=0 pdeFlag=0 [OptionenAllgemein] visflag=0 messfileflag=0 seed=-1 numberofthreads=1 robustflag=0 epsmach=0 infinity=1e+10 epsilon=1e-08 conflevel=0.95 hrobust=1e-05 computesigma=0 exitonFPE=1 iniprecision=6 clipboardflag=0 printxi=0 printconstr=0 printcolorful=-1 [OptionenParameterschaetzung] eps=0.001 itmax=50 cond=10000 condflag=1 boundcheck=0 startflag=0 index1=1e-08 fashort=0.8 fa0=0.01 farel=0.1 famax=1.0 realworkspace=10000 integerworkspace=1000 printlevel=2 method=3 [OptionenVersuchsplanung] maxit=300 opttol=1e-06 funcprec=1e-07 linfeas=1e-07 nlinfeas=0.01 maxitQP=300 maxitgesQP=10000 opttolQP=1e-06 pivottolQP=3.7e-11 steplimitLS=2 tolLS=0.9 crashtol=0.0001 elasticweight=100 superbasics=1 scaling=1 sconstraints=0 realworkspace=300000 integerworkspace=300000 charworkspace=500 printlevel=10 method=1