No compatibility mode selected! Circuit: * voltage divider instantiation Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 No. of Data Rows : 1 n1 = 1.000000e+00 n2 = 6.666667e-01 v1#branch = -3.33333e-04 ngspice-36 done No compatibility mode selected! Circuit: * voltage divider instantiation Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 No. of Data Rows : 1 n1 = 1.000000e+00 n2 = 6.666667e-01 v1#branch = -3.33333e-04 ngspice ngspice-36 done No compatibility mode selected! Circuit: * voltage divider instantiation ngspice-36 done No compatibility mode selected! Circuit: * voltage divider instantiation Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 No. of Data Rows : 1 n1 = 1.000000e+00 n2 = 6.666667e-01 v1#branch = -1.66667e-04 ngspice-36 done No compatibility mode selected! Circuit: * voltage divider instantiation Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 No. of Data Rows : 1 n1 = 1.000000e+00 n2 = 6.666667e-01 v1#branch = -1.66667e-04 ngspice-36 done No compatibility mode selected! Circuit: * voltage divider instantiation Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 No. of Data Rows : 1 n1 = 1.000000e+00 n2 = 8.000000e-01 v1#branch = -1.00000e-04 ngspice-36 done No compatibility mode selected! Circuit: * weighted summer op test Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 No. of Data Rows : 1 n1 = 1.000000e+00 n2 = 5.000000e+00 nout = -5.99976e+00 ngspice-36 done No compatibility mode selected! Circuit: * exercise 5 simulation Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 No. of Data Rows : 1 n1 = 1.000000e+00 n2 = 5.000000e+00 nout = -5.99976e+00 Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 No. of Data Rows : 6 * exercise 5 simulation DC transfer characteristic Fri Apr 28 10:20:01 2023 -------------------------------------------------------------------------------- Index v-sweep n1 n2 nout -------------------------------------------------------------------------------- 0 0.000000e+00 0.000000e+00 0.000000e+00 1.375159e-04 1 1.000000e+00 1.000000e+00 0.000000e+00 -9.99845e-01 2 2.000000e+00 2.000000e+00 0.000000e+00 -1.99983e+00 3 3.000000e+00 3.000000e+00 0.000000e+00 -2.99981e+00 4 4.000000e+00 4.000000e+00 0.000000e+00 -3.99979e+00 5 5.000000e+00 5.000000e+00 0.000000e+00 -4.99978e+00 * exercise 5 simulation DC transfer characteristic Fri Apr 28 10:20:01 2023 -------------------------------------------------------------------------------- Index v-sweep deriv(nout) -------------------------------------------------------------------------------- 0 0.000000e+00 -9.99983e-01 1 1.000000e+00 -9.99983e-01 2 2.000000e+00 -9.99983e-01 3 3.000000e+00 -9.99983e-01 4 4.000000e+00 -9.99983e-01 5 5.000000e+00 -9.99983e-01 The file "plots/dc_output.svg" has the Scalable Vector Graphics format. The file "plots/dc_error.svg" has the Scalable Vector Graphics format. ngspice-36 done No compatibility mode selected! Circuit: * high-pass summer transient testbench Copies=50 Evals=82 Placeholders=5 Symbols=4 Errors=4 Numparam expansion errors: Run Spice anyway? y/n ? No compatibility mode selected! Circuit: * high-pass summer transient testbench Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 0 n2 0 nn 1.92515e-05 nc 1.92515e-05 nout 0.000118265 x1.11 14.9603 x1.12 14.9603 x1.6 -1.2889e-08 x1.7 0.000123215 x1.53 14 x1.54 -14 x1.90 9.90133e-05 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607679 x1.13 -0.593801 x1.14 -0.593807 x1.9 0 x1.8 0.000123215 h.x1.hlim#branch -1.9807e-16 v.x1.vlim#branch 9.90133e-08 v.x1.vln#branch -4.00037e-11 v.x1.vlp#branch -4.00007e-11 v.x1.ve#branch 1.40014e-11 v.x1.vc#branch 1.40007e-11 v.x1.vb#branch -1.2889e-13 v2#branch 0 v1#branch 1.92515e-08 vss#branch 0.00166714 vdd#branch -0.00166694 a$poly$e.x1.egnd#branch_1_0 -1.45084e-07 No. of Data Rows : 229 vopp = 1.995600e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999262e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 1.513641e-02 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_0.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 0 n2 0 nn 1.92515e-05 nc 1.92515e-05 nout 0.000118265 x1.11 14.9603 x1.12 14.9603 x1.6 -1.2889e-08 x1.7 0.000123215 x1.53 14 x1.54 -14 x1.90 9.90133e-05 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607679 x1.13 -0.593801 x1.14 -0.593807 x1.9 0 x1.8 0.000123215 h.x1.hlim#branch -1.9807e-16 v.x1.vlim#branch 9.90133e-08 v.x1.vln#branch -4.00037e-11 v.x1.vlp#branch -4.00007e-11 v.x1.ve#branch 1.40014e-11 v.x1.vc#branch 1.40007e-11 v.x1.vb#branch -1.2889e-13 v2#branch 0 v1#branch 1.92515e-08 vss#branch 0.00166714 vdd#branch -0.00166694 a$poly$e.x1.egnd#branch_1_0 -1.45084e-07 No. of Data Rows : 229 vopp = 1.995600e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999262e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 1.513641e-02 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_1.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 0 n2 0 nn 1.92515e-05 nc 1.92515e-05 nout 0.000118265 x1.11 14.9603 x1.12 14.9603 x1.6 -1.2889e-08 x1.7 0.000123215 x1.53 14 x1.54 -14 x1.90 9.90133e-05 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607679 x1.13 -0.593801 x1.14 -0.593807 x1.9 0 x1.8 0.000123215 h.x1.hlim#branch -1.9807e-16 v.x1.vlim#branch 9.90133e-08 v.x1.vln#branch -4.00037e-11 v.x1.vlp#branch -4.00007e-11 v.x1.ve#branch 1.40014e-11 v.x1.vc#branch 1.40007e-11 v.x1.vb#branch -1.2889e-13 v2#branch 0 v1#branch 1.92515e-08 vss#branch 0.00166714 vdd#branch -0.00166694 a$poly$e.x1.egnd#branch_1_0 -1.45084e-07 No. of Data Rows : 229 vopp = 1.995600e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999262e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 1.513641e-02 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_2.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 1 n2 0 nn 2.5032e-05 nc 2.5032e-05 nout -0.99987 x1.11 14.9603 x1.12 14.9603 x1.6 0.000108751 x1.7 -1.04986 x1.53 14 x1.54 -14 x1.90 -0.999895 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607676 x1.13 -0.593797 x1.14 -0.593806 x1.9 0 x1.8 -1.04986 h.x1.hlim#branch 1.99996e-12 v.x1.vlim#branch -0.000999895 v.x1.vln#branch -3.90037e-11 v.x1.vlp#branch -4.10007e-11 v.x1.ve#branch 1.30014e-11 v.x1.vc#branch 1.50007e-11 v.x1.vb#branch 1.08751e-09 v2#branch 0 v1#branch -0.000999975 vss#branch 0.00166714 vdd#branch -0.00166694 a$poly$e.x1.egnd#branch_1_0 0.000999849 No. of Data Rows : 209 vopp = 1.997457e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999937e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = -9.847850e-01 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_3.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 -1 n2 0 nn 1.3471e-05 nc 1.3471e-05 nout 1.00011 x1.11 14.9603 x1.12 14.9603 x1.6 -0.000108777 x1.7 1.05011 x1.53 14 x1.54 -14 x1.90 1.00009 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607682 x1.13 -0.593805 x1.14 -0.593809 x1.9 0 x1.8 1.05011 h.x1.hlim#branch -2.00018e-12 v.x1.vlim#branch 0.00100009 v.x1.vln#branch -4.10036e-11 v.x1.vlp#branch -3.90007e-11 v.x1.ve#branch 1.50014e-11 v.x1.vc#branch 1.30007e-11 v.x1.vb#branch -1.08777e-09 v2#branch 0 v1#branch 0.00100001 vss#branch 0.00166714 vdd#branch -0.00166694 a$poly$e.x1.egnd#branch_1_0 -0.00100014 No. of Data Rows : 208 vopp = 1.998141e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999870e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 1.015029e+00 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_4.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 -2 n2 0 nn 7.69048e-06 nc 7.69048e-06 nout 2.0001 x1.11 14.9603 x1.12 14.9603 x1.6 -0.000217541 x1.7 2.1001 x1.53 14 x1.54 -14 x1.90 2.00009 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607684 x1.13 -0.593809 x1.14 -0.593811 x1.9 0 x1.8 2.1001 h.x1.hlim#branch -4.00036e-12 v.x1.vlim#branch 0.00200009 v.x1.vln#branch -4.20036e-11 v.x1.vlp#branch -3.80007e-11 v.x1.ve#branch 1.60013e-11 v.x1.vc#branch 1.20007e-11 v.x1.vb#branch -2.17541e-09 v2#branch 0 v1#branch 0.00200001 vss#branch 0.00166714 vdd#branch -0.00166694 a$poly$e.x1.egnd#branch_1_0 -0.00200013 No. of Data Rows : 202 vopp = 1.998764e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999943e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 2.015062e+00 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_5.svg" has the Scalable Vector Graphics format. Constant values constants Sat Jan 1 18:54:42 UTC 2022 -------------------------------------------------------------------------------- Index v1dc v2ofs outofs gain -------------------------------------------------------------------------------- 0 0.000000e+00 0.000000e+00 1.513641e-02 9.981683e-01 1 0.000000e+00 1.000000e+00 1.513641e-02 9.981683e-01 2 0.000000e+00 2.000000e+00 1.513641e-02 9.981683e-01 3 1.000000e+00 0.000000e+00 -9.84785e-01 9.987600e-01 4 -1.00000e+00 0.000000e+00 1.015029e+00 9.991354e-01 5 -2.00000e+00 0.000000e+00 2.015062e+00 9.994105e-01 ngspice-36 done No compatibility mode selected! Circuit: * high-pass summer transient testbench Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 0 n2 0 nn 1.9242e-05 nc 1.9242e-05 nout 0.00199932 x1.11 14.9603 x1.12 14.9603 x1.6 -1.90534e-07 x1.7 0.00200427 x1.53 14 x1.54 -14 x1.90 9.90039e-05 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607679 x1.13 -0.593801 x1.14 -0.593807 x1.9 0 x1.8 0.00200427 h.x1.hlim#branch -1.98043e-16 v.x1.vlim#branch 9.90039e-08 v.x1.vln#branch -4.00037e-11 v.x1.vlp#branch -4.00007e-11 v.x1.ve#branch 1.40032e-11 v.x1.vc#branch 1.39988e-11 v.x1.vb#branch -1.90534e-12 v2#branch 0 v1#branch 1.9242e-08 vss#branch 0.00166714 vdd#branch -0.00166694 a$poly$e.x1.egnd#branch_1_0 -1.45075e-07 No. of Data Rows : 222 vopp = 1.392013e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999879e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 2.964009e-03 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_0.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 0 n2 0 nn 1.9242e-05 nc 1.9242e-05 nout 0.00199932 x1.11 14.9603 x1.12 14.9603 x1.6 -1.90534e-07 x1.7 0.00200427 x1.53 14 x1.54 -14 x1.90 9.90039e-05 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607679 x1.13 -0.593801 x1.14 -0.593807 x1.9 0 x1.8 0.00200427 h.x1.hlim#branch -1.98043e-16 v.x1.vlim#branch 9.90039e-08 v.x1.vln#branch -4.00037e-11 v.x1.vlp#branch -4.00007e-11 v.x1.ve#branch 1.40032e-11 v.x1.vc#branch 1.39988e-11 v.x1.vb#branch -1.90534e-12 v2#branch 0 v1#branch 1.9242e-08 vss#branch 0.00166714 vdd#branch -0.00166694 a$poly$e.x1.egnd#branch_1_0 -1.45075e-07 No. of Data Rows : 222 vopp = 1.392013e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999879e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 2.964009e-03 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_1.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 0 n2 0 nn 1.9242e-05 nc 1.9242e-05 nout 0.00199932 x1.11 14.9603 x1.12 14.9603 x1.6 -1.90534e-07 x1.7 0.00200427 x1.53 14 x1.54 -14 x1.90 9.90039e-05 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607679 x1.13 -0.593801 x1.14 -0.593807 x1.9 0 x1.8 0.00200427 h.x1.hlim#branch -1.98043e-16 v.x1.vlim#branch 9.90039e-08 v.x1.vln#branch -4.00037e-11 v.x1.vlp#branch -4.00007e-11 v.x1.ve#branch 1.40032e-11 v.x1.vc#branch 1.39988e-11 v.x1.vb#branch -1.90534e-12 v2#branch 0 v1#branch 1.9242e-08 vss#branch 0.00166714 vdd#branch -0.00166694 a$poly$e.x1.egnd#branch_1_0 -1.45075e-07 No. of Data Rows : 222 vopp = 1.392013e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999879e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 2.964009e-03 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_2.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 1 n2 0 nn 0.256358 nc 0.256358 nout -14.6133 x1.11 14.9206 x1.12 15 x1.6 1.49645 x1.7 -14.6512 x1.53 14 x1.54 -14 x1.90 -0.759345 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.383185 x1.13 -0.355409 x1.14 -0.383181 x1.9 0 x1.8 -14.6512 h.x1.hlim#branch 1.51879e-12 v.x1.vlim#branch -0.000759345 v.x1.vln#branch -3.92442e-11 v.x1.vlp#branch -4.07601e-11 v.x1.ve#branch -1.58626e-05 v.x1.vc#branch 2.86141e-11 v.x1.vb#branch 1.49645e-05 v2#branch 0 v1#branch -0.000743642 vss#branch 0.00165128 vdd#branch -0.00166695 a$poly$e.x1.egnd#branch_1_0 0.000759316 No. of Data Rows : 108 vopp = 3.239885e-05 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.980923e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = -1.461328e+01 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_3.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 -1 n2 0 nn -0.256511 nc -0.256511 nout 14.6133 x1.11 15 x1.12 14.9207 x1.6 -1.49514 x1.7 14.6512 x1.53 14 x1.54 -14 x1.90 0.759337 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.639475 x1.13 -0.639471 x1.14 -0.611734 x1.9 0 x1.8 14.6512 h.x1.hlim#branch -1.51879e-12 v.x1.vlim#branch 0.000759337 v.x1.vln#branch -4.07629e-11 v.x1.vlp#branch -3.92415e-11 v.x1.ve#branch 2.86145e-11 v.x1.vc#branch -1.58487e-05 v.x1.vb#branch -1.49514e-05 v2#branch 0 v1#branch 0.000743489 vss#branch 0.00166714 vdd#branch -0.00165109 a$poly$e.x1.egnd#branch_1_0 -0.000759386 No. of Data Rows : 108 vopp = 2.299015e-05 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.980923e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 1.461326e+01 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_4.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 -2 n2 0 nn -1.20889 nc -1.20889 nout 14.6133 x1.11 15 x1.12 14.9207 x1.6 -1.49557 x1.7 14.6536 x1.53 14 x1.54 -14 x1.90 0.806961 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.639483 x1.13 -0.639483 x1.14 -0.611738 x1.9 0 x1.8 14.6536 h.x1.hlim#branch -1.61404e-12 v.x1.vlim#branch 0.000806961 v.x1.vln#branch -4.08105e-11 v.x1.vlp#branch -3.91938e-11 v.x1.ve#branch 2.86145e-11 v.x1.vc#branch -1.58533e-05 v.x1.vb#branch -1.49557e-05 v2#branch 0 v1#branch 0.000791108 vss#branch 0.00166714 vdd#branch -0.00165108 a$poly$e.x1.egnd#branch_1_0 -0.00080701 No. of Data Rows : 108 vopp = 2.737119e-06 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.980923e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 1.461327e+01 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_5.svg" has the Scalable Vector Graphics format. Constant values constants Sat Jan 1 18:54:42 UTC 2022 -------------------------------------------------------------------------------- Index v1dc v2ofs outofs gain -------------------------------------------------------------------------------- 0 0.000000e+00 0.000000e+00 2.964009e-03 6.960486e-01 1 0.000000e+00 1.000000e+00 2.964009e-03 6.960486e-01 2 0.000000e+00 2.000000e+00 2.964009e-03 6.960486e-01 3 1.000000e+00 0.000000e+00 -1.46133e+01 1.635543e-05 4 -1.00000e+00 0.000000e+00 1.461326e+01 1.160578e-05 5 -2.00000e+00 0.000000e+00 1.461327e+01 1.381739e-06 ngspice-36 done No compatibility mode selected! Circuit: * high-pass summer transient testbench Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 0 n2 0 nn 1.92439e-05 nc 1.92439e-05 nout 0.00163372 x1.11 14.9603 x1.12 14.9603 x1.6 -1.55746e-07 x1.7 0.00163776 x1.53 14 x1.54 -14 x1.90 8.0724e-05 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607679 x1.13 -0.593801 x1.14 -0.593807 x1.9 0 x1.8 0.00163776 h.x1.hlim#branch -1.61478e-16 v.x1.vlim#branch 8.0724e-08 v.x1.vln#branch -4.00036e-11 v.x1.vlp#branch -4.00007e-11 v.x1.ve#branch 1.40029e-11 v.x1.vc#branch 1.39992e-11 v.x1.vb#branch -1.55746e-12 v2#branch 0 v1#branch 9.62194e-10 vss#branch 0.00166714 vdd#branch -0.00166694 a$poly$e.x1.egnd#branch_1_0 -1.26795e-07 No. of Data Rows : 330 vopp = 3.937028e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999993e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 2.277231e-02 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_0.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 0 n2 0 nn 1.92439e-05 nc 1.92439e-05 nout 0.00163372 x1.11 14.9603 x1.12 14.9603 x1.6 -1.55746e-07 x1.7 0.00163776 x1.53 14 x1.54 -14 x1.90 8.0724e-05 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607679 x1.13 -0.593801 x1.14 -0.593807 x1.9 0 x1.8 0.00163776 h.x1.hlim#branch -1.61478e-16 v.x1.vlim#branch 8.0724e-08 v.x1.vln#branch -4.00036e-11 v.x1.vlp#branch -4.00007e-11 v.x1.ve#branch 1.40029e-11 v.x1.vc#branch 1.39992e-11 v.x1.vb#branch -1.55746e-12 v2#branch 0 v1#branch 9.62194e-10 vss#branch 0.00166714 vdd#branch -0.00166694 a$poly$e.x1.egnd#branch_1_0 -1.26795e-07 No. of Data Rows : 330 vopp = 3.937028e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999993e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 2.277231e-02 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_1.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 0 n2 0 nn 1.92439e-05 nc 1.92439e-05 nout 0.00163372 x1.11 14.9603 x1.12 14.9603 x1.6 -1.55746e-07 x1.7 0.00163776 x1.53 14 x1.54 -14 x1.90 8.0724e-05 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607679 x1.13 -0.593801 x1.14 -0.593807 x1.9 0 x1.8 0.00163776 h.x1.hlim#branch -1.61478e-16 v.x1.vlim#branch 8.0724e-08 v.x1.vln#branch -4.00036e-11 v.x1.vlp#branch -4.00007e-11 v.x1.ve#branch 1.40029e-11 v.x1.vc#branch 1.39992e-11 v.x1.vb#branch -1.55746e-12 v2#branch 0 v1#branch 9.62194e-10 vss#branch 0.00166714 vdd#branch -0.00166694 a$poly$e.x1.egnd#branch_1_0 -1.26795e-07 No. of Data Rows : 330 vopp = 3.937028e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999993e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 2.277231e-02 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_2.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 1 n2 0 nn 2.43011e-05 nc 2.43011e-05 nout -0.998356 x1.11 14.9603 x1.12 14.9603 x1.6 9.49988e-05 x1.7 -1.00085 x1.53 14 x1.54 -14 x1.90 -0.049919 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607676 x1.13 -0.593797 x1.14 -0.593806 x1.9 0 x1.8 -1.00085 h.x1.hlim#branch 9.98507e-14 v.x1.vlim#branch -4.9919e-05 v.x1.vln#branch -3.99536e-11 v.x1.vlp#branch -4.00507e-11 v.x1.ve#branch 1.30029e-11 v.x1.vc#branch 1.49992e-11 v.x1.vb#branch 9.49988e-10 v2#branch 0 v1#branch -4.99988e-05 vss#branch 0.00166714 vdd#branch -0.00166694 a$poly$e.x1.egnd#branch_1_0 4.98729e-05 No. of Data Rows : 332 vopp = 3.938230e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999991e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = -9.779031e-01 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_3.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 -1 n2 0 nn 1.41867e-05 nc 1.41867e-05 nout 1.00162 x1.11 14.9603 x1.12 14.9603 x1.6 -9.53103e-05 x1.7 1.00413 x1.53 14 x1.54 -14 x1.90 0.0500805 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607681 x1.13 -0.593804 x1.14 -0.593809 x1.9 0 x1.8 1.00413 h.x1.hlim#branch -1.0017e-13 v.x1.vlim#branch 5.00805e-05 v.x1.vln#branch -4.00536e-11 v.x1.vlp#branch -3.99507e-11 v.x1.ve#branch 1.50029e-11 v.x1.vc#branch 1.29992e-11 v.x1.vb#branch -9.53103e-10 v2#branch 0 v1#branch 5.00007e-05 vss#branch 0.00166714 vdd#branch -0.00166694 a$poly$e.x1.egnd#branch_1_0 -5.01265e-05 No. of Data Rows : 338 vopp = 3.938127e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999994e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 1.023439e+00 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_4.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 -2 n2 0 nn 9.12951e-06 nc 9.12951e-06 nout 2.00161 x1.11 14.9603 x1.12 14.9603 x1.6 -0.000190465 x1.7 2.00662 x1.53 14 x1.54 -14 x1.90 0.10008 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607684 x1.13 -0.593808 x1.14 -0.593811 x1.9 0 x1.8 2.00662 h.x1.hlim#branch -2.00187e-13 v.x1.vlim#branch 0.00010008 v.x1.vln#branch -4.01036e-11 v.x1.vlp#branch -3.99007e-11 v.x1.ve#branch 1.60029e-11 v.x1.vc#branch 1.19992e-11 v.x1.vb#branch -1.90465e-09 v2#branch 0 v1#branch 0.0001 vss#branch 0.00166714 vdd#branch -0.00166694 a$poly$e.x1.egnd#branch_1_0 -0.000100126 No. of Data Rows : 337 vopp = 3.937167e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999972e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 2.023173e+00 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc2a_5.svg" has the Scalable Vector Graphics format. Constant values constants Sat Jan 1 18:54:42 UTC 2022 -------------------------------------------------------------------------------- Index v1dc v2ofs outofs gain -------------------------------------------------------------------------------- 0 0.000000e+00 0.000000e+00 2.277231e-02 1.968521e+00 1 0.000000e+00 1.000000e+00 2.277231e-02 1.968521e+00 2 0.000000e+00 2.000000e+00 2.277231e-02 1.968521e+00 3 1.000000e+00 0.000000e+00 -9.77903e-01 1.969124e+00 4 -1.00000e+00 0.000000e+00 1.023439e+00 1.969069e+00 5 -2.00000e+00 0.000000e+00 2.023173e+00 1.968611e+00 ngspice-36 done No compatibility mode selected! Circuit: * high-pass summer ac testbench Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 No. of Data Rows : 37 The file "plots/proc2b_db.svg" has the Scalable Vector Graphics format. The file "plots/proc2b.svg" has the Scalable Vector Graphics format. max_db = 6.000492e+00 at= 1.995262e+04 f_low = 1.583378e+03 f_high = 2.891629e+05 Frequency range from 1583.38 to 289163 with total bandwidth 287580 ngspice-36 done No compatibility mode selected! Circuit: * high-pass summer ac testbench Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 No. of Data Rows : 67 The file "plots/proc3b_db.svg" has the Scalable Vector Graphics format. The file "plots/proc3b.svg" has the Scalable Vector Graphics format. max_db = 6.019914e+00 at= 6.309573e+02 f_low = 1.606698e+00 f_high = 2.895636e+05 Frequency range from 1.6067 to 289564 with total bandwidth 289562 ngspice-36 done No compatibility mode selected! Circuit: * high-pass summer transient testbench Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 0 n2 0 nn 1.12159e-05 nc -0.793708 nout 1.58905 ncc -0.793756 x1.11 14.9603 x1.12 14.9603 x1.6 -0.000151208 x1.7 1.59303 x1.53 14 x1.54 -14 x1.90 0.0794522 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607683 x1.13 -0.593806 x1.14 -0.59381 x1.9 0 x1.8 1.59303 x2.11 14.9605 x2.12 14.9605 x2.6 7.60928e-05 x2.7 -0.797672 x2.53 14 x2.54 -14 x2.90 -0.0792924 x2.91 40 x2.92 -40 x2.99 0 x2.10 -1.40126 x2.13 -1.38743 x2.14 -1.38745 x2.9 0 x2.8 -0.797672 h.x2.hlim#branch 1.58595e-13 v.x2.vlim#branch -7.92924e-05 h.x1.hlim#branch -1.58942e-13 v.x1.vlim#branch 7.94522e-05 v.x2.vln#branch -3.99243e-11 v.x2.vlp#branch -4.00801e-11 v.x2.ve#branch 1.32075e-11 v.x2.vc#branch 1.47945e-11 v.x2.vb#branch 7.60928e-10 v.x1.vln#branch -4.0083e-11 v.x1.vlp#branch -3.99213e-11 v.x1.ve#branch 1.55903e-11 v.x1.vc#branch 1.24117e-11 v.x1.vb#branch -1.51208e-09 v2#branch 0 v1#branch 5.60796e-10 vss#branch 0.00333428 vdd#branch -0.00333381 a$poly$e.x2.egnd#branch_1_0 7.91862e-05 a$poly$e.x1.egnd#branch_1_0 -7.94983e-05 No. of Data Rows : 344 vopp = 3.898802e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999895e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 1.581930e+00 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc3a_0.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 0 n2 0 nn 1.12159e-05 nc -0.793708 nout 1.58905 ncc -0.793756 x1.11 14.9603 x1.12 14.9603 x1.6 -0.000151208 x1.7 1.59303 x1.53 14 x1.54 -14 x1.90 0.0794522 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607683 x1.13 -0.593806 x1.14 -0.59381 x1.9 0 x1.8 1.59303 x2.11 14.9605 x2.12 14.9605 x2.6 7.60928e-05 x2.7 -0.797672 x2.53 14 x2.54 -14 x2.90 -0.0792924 x2.91 40 x2.92 -40 x2.99 0 x2.10 -1.40126 x2.13 -1.38743 x2.14 -1.38745 x2.9 0 x2.8 -0.797672 h.x2.hlim#branch 1.58595e-13 v.x2.vlim#branch -7.92924e-05 h.x1.hlim#branch -1.58942e-13 v.x1.vlim#branch 7.94522e-05 v.x2.vln#branch -3.99243e-11 v.x2.vlp#branch -4.00801e-11 v.x2.ve#branch 1.32075e-11 v.x2.vc#branch 1.47945e-11 v.x2.vb#branch 7.60928e-10 v.x1.vln#branch -4.0083e-11 v.x1.vlp#branch -3.99213e-11 v.x1.ve#branch 1.55903e-11 v.x1.vc#branch 1.24117e-11 v.x1.vb#branch -1.51208e-09 v2#branch 0 v1#branch 5.60796e-10 vss#branch 0.00333428 vdd#branch -0.00333381 a$poly$e.x2.egnd#branch_1_0 7.91862e-05 a$poly$e.x1.egnd#branch_1_0 -7.94983e-05 No. of Data Rows : 344 vopp = 3.898802e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999895e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 1.581930e+00 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc3a_1.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 0 n2 0 nn 1.12159e-05 nc -0.793708 nout 1.58905 ncc -0.793756 x1.11 14.9603 x1.12 14.9603 x1.6 -0.000151208 x1.7 1.59303 x1.53 14 x1.54 -14 x1.90 0.0794522 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607683 x1.13 -0.593806 x1.14 -0.59381 x1.9 0 x1.8 1.59303 x2.11 14.9605 x2.12 14.9605 x2.6 7.60928e-05 x2.7 -0.797672 x2.53 14 x2.54 -14 x2.90 -0.0792924 x2.91 40 x2.92 -40 x2.99 0 x2.10 -1.40126 x2.13 -1.38743 x2.14 -1.38745 x2.9 0 x2.8 -0.797672 h.x2.hlim#branch 1.58595e-13 v.x2.vlim#branch -7.92924e-05 h.x1.hlim#branch -1.58942e-13 v.x1.vlim#branch 7.94522e-05 v.x2.vln#branch -3.99243e-11 v.x2.vlp#branch -4.00801e-11 v.x2.ve#branch 1.32075e-11 v.x2.vc#branch 1.47945e-11 v.x2.vb#branch 7.60928e-10 v.x1.vln#branch -4.0083e-11 v.x1.vlp#branch -3.99213e-11 v.x1.ve#branch 1.55903e-11 v.x1.vc#branch 1.24117e-11 v.x1.vb#branch -1.51208e-09 v2#branch 0 v1#branch 5.60796e-10 vss#branch 0.00333428 vdd#branch -0.00333381 a$poly$e.x2.egnd#branch_1_0 7.91862e-05 a$poly$e.x1.egnd#branch_1_0 -7.94983e-05 No. of Data Rows : 344 vopp = 3.898802e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999895e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 1.581930e+00 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc3a_2.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 1 n2 0 nn 1.6273e-05 nc -0.793708 nout 0.589075 ncc -0.793756 x1.11 14.9603 x1.12 14.9603 x1.6 -5.60541e-05 x1.7 0.590548 x1.53 14 x1.54 -14 x1.90 0.029453 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.60768 x1.13 -0.593803 x1.14 -0.593808 x1.9 0 x1.8 0.590548 x2.11 14.9605 x2.12 14.9605 x2.6 7.60928e-05 x2.7 -0.797672 x2.53 14 x2.54 -14 x2.90 -0.0792929 x2.91 40 x2.92 -40 x2.99 0 x2.10 -1.40126 x2.13 -1.38743 x2.14 -1.38745 x2.9 0 x2.8 -0.797672 h.x2.hlim#branch 1.58595e-13 v.x2.vlim#branch -7.92929e-05 h.x1.hlim#branch -5.89112e-14 v.x1.vlim#branch 2.9453e-05 v.x2.vln#branch -3.99243e-11 v.x2.vlp#branch -4.00801e-11 v.x2.ve#branch 1.32075e-11 v.x2.vc#branch 1.47945e-11 v.x2.vb#branch 7.60928e-10 v.x1.vln#branch -4.0033e-11 v.x1.vlp#branch -3.99713e-11 v.x1.ve#branch 1.45903e-11 v.x1.vc#branch 1.34117e-11 v.x1.vb#branch -5.60541e-10 v2#branch 0 v1#branch -4.99992e-05 vss#branch 0.00333428 vdd#branch -0.00333381 a$poly$e.x2.egnd#branch_1_0 7.91867e-05 a$poly$e.x1.egnd#branch_1_0 -2.9499e-05 No. of Data Rows : 338 vopp = 3.896636e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999836e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 5.814126e-01 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc3a_3.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 -1 n2 0 nn 6.15878e-06 nc -0.793708 nout 2.58903 ncc -0.793756 x1.11 14.9603 x1.12 14.9603 x1.6 -0.000246361 x1.7 2.59551 x1.53 14 x1.54 -14 x1.90 0.129451 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607685 x1.13 -0.59381 x1.14 -0.593812 x1.9 0 x1.8 2.59551 x2.11 14.9605 x2.12 14.9605 x2.6 7.60928e-05 x2.7 -0.797672 x2.53 14 x2.54 -14 x2.90 -0.0792919 x2.91 40 x2.92 -40 x2.99 0 x2.10 -1.40126 x2.13 -1.38743 x2.14 -1.38745 x2.9 0 x2.8 -0.797672 h.x2.hlim#branch 1.58595e-13 v.x2.vlim#branch -7.92919e-05 h.x1.hlim#branch -2.58904e-13 v.x1.vlim#branch 0.000129451 v.x2.vln#branch -3.99243e-11 v.x2.vlp#branch -4.00801e-11 v.x2.ve#branch 1.32075e-11 v.x2.vc#branch 1.47945e-11 v.x2.vb#branch 7.60928e-10 v.x1.vln#branch -4.0133e-11 v.x1.vlp#branch -3.98713e-11 v.x1.ve#branch 1.65903e-11 v.x1.vc#branch 1.14118e-11 v.x1.vb#branch -2.46361e-09 v2#branch 0 v1#branch 5.00003e-05 vss#branch 0.00333428 vdd#branch -0.00333381 a$poly$e.x2.egnd#branch_1_0 7.91857e-05 a$poly$e.x1.egnd#branch_1_0 -0.000129498 No. of Data Rows : 338 vopp = 3.898154e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999916e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 2.581250e+00 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc3a_4.svg" has the Scalable Vector Graphics format. Reducing trtol to 1 for xspice 'A' devices Doing analysis at TEMP = 27.000000 and TNOM = 27.000000 Initial Transient Solution -------------------------- Node Voltage ---- ------- ndd 15 nss -15 n1 -2 n2 0 nn 1.10164e-06 nc -0.793708 nout 3.58901 ncc -0.793756 x1.11 14.9603 x1.12 14.9603 x1.6 -0.000341515 x1.7 3.59799 x1.53 14 x1.54 -14 x1.90 0.179451 x1.91 40 x1.92 -40 x1.99 0 x1.10 -0.607688 x1.13 -0.593813 x1.14 -0.593813 x1.9 0 x1.8 3.59799 x2.11 14.9605 x2.12 14.9605 x2.6 7.60927e-05 x2.7 -0.797672 x2.53 14 x2.54 -14 x2.90 -0.0792914 x2.91 40 x2.92 -40 x2.99 0 x2.10 -1.40126 x2.13 -1.38743 x2.14 -1.38745 x2.9 0 x2.8 -0.797672 h.x2.hlim#branch 1.58595e-13 v.x2.vlim#branch -7.92914e-05 h.x1.hlim#branch -3.58935e-13 v.x1.vlim#branch 0.000179451 v.x2.vln#branch -3.99243e-11 v.x2.vlp#branch -4.00801e-11 v.x2.ve#branch 1.32075e-11 v.x2.vc#branch 1.47945e-11 v.x2.vb#branch 7.60927e-10 v.x1.vln#branch -4.0183e-11 v.x1.vlp#branch -3.98213e-11 v.x1.ve#branch 1.75903e-11 v.x1.vc#branch 1.04118e-11 v.x1.vb#branch -3.41515e-09 v2#branch 0 v1#branch 0.0001 vss#branch 0.00333428 vdd#branch -0.00333381 a$poly$e.x2.egnd#branch_1_0 7.91852e-05 a$poly$e.x1.egnd#branch_1_0 -0.000179497 No. of Data Rows : 335 vopp = 3.898274e+00 from= 0.000000e+00 to= 2.000000e-04 vipp = 1.999934e+00 from= 0.000000e+00 to= 2.000000e-04 voavg = 3.580657e+00 from= 0.000000e+00 to= 2.000000e-04 The file "plots/proc3a_5.svg" has the Scalable Vector Graphics format. Constant values constants Sat Jan 1 18:54:42 UTC 2022 -------------------------------------------------------------------------------- Index v1dc v2ofs outofs gain -------------------------------------------------------------------------------- 0 0.000000e+00 0.000000e+00 1.581930e+00 1.949503e+00 1 0.000000e+00 1.000000e+00 1.581930e+00 1.949503e+00 2 0.000000e+00 2.000000e+00 1.581930e+00 1.949503e+00 3 1.000000e+00 0.000000e+00 5.814126e-01 1.948478e+00 4 -1.00000e+00 0.000000e+00 2.581250e+00 1.949159e+00 5 -2.00000e+00 0.000000e+00 3.580657e+00 1.949201e+00 ngspice-36 done