128 lines
21 KiB
C++
128 lines
21 KiB
C++
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/*
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* This program source code file is part of KiCad, a free EDA CAD application.
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*
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* Copyright (C) 2022 Mikolaj Wielgus
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* Copyright (C) 2023 KiCad Developers, see AUTHORS.TXT for contributors.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, you may find one here:
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* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
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* or you may search the http://www.gnu.org website for the version 2 license,
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* or you may write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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#include <sim/sim_model_ngspice.h>
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void NGSPICE_MODEL_INFO_MAP::addBSIM1()
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{
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modelInfos[MODEL_TYPE::BSIM1] = { "BSIM1", "NMOS", "PMOS", { "D", "G", "S", "B" }, "Berkeley Short Channel IGFET Model", {}, {} };
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// Model parameters
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "vfb", 101, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "V", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Flat band voltage" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lvfb", 102, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of vfb" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wvfb", 103, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of vfb" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "phi", 104, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "V", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Strong inversion surface potential" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lphi", 105, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of phi" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wphi", 106, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of phi" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "k1", 107, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "sqrt V", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Bulk effect coefficient 1" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lk1", 108, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of k1" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wk1", 109, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of k1" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "k2", 110, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Bulk effect coefficient 2" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lk2", 111, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of k2" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wk2", 112, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of k2" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "eta", 113, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "V", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "VDS dependence of threshold voltage" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "leta", 114, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of eta" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "weta", 115, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of eta" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "x2e", 116, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "VBS dependence of eta" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lx2e", 117, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of x2e" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wx2e", 118, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of x2e" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "x3e", 119, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "VDS dependence of eta" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lx3e", 120, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of x3e" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wx3e", 121, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of x3e" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "dl", 122, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "um", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Channel length reduction in um" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "dw", 123, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "um", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Channel width reduction in um" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "muz", 124, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "cm²/V s", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Zero field mobility at VDS=0 VGS=VTH" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "x2mz", 125, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "VBS dependence of muz" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lx2mz", 126, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of x2mz" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wx2mz", 127, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of x2mz" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "mus", 128, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "1/V", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Mobility at VDS=VDD VGS=VTH, channel length modulation" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lmus", 129, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of mus" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wmus", 130, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of mus" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "x2ms", 131, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "VBS dependence of mus" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lx2ms", 132, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of x2ms" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wx2ms", 133, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of x2ms" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "x3ms", 134, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "VDS dependence of mus" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lx3ms", 135, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of x3ms" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wx3ms", 136, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of x3ms" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "u0", 137, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "VGS dependence of mobility" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lu0", 138, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of u0" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wu0", 139, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of u0" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "x2u0", 140, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "VBS dependence of u0" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lx2u0", 141, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of x2u0" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wx2u0", 142, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of x2u0" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "u1", 143, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m/s", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "VDS depence of mobility, velocity saturation" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lu1", 144, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of u1" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wu1", 145, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of u1" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "x2u1", 146, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "VBS depence of u1" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lx2u1", 147, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length depence of x2u1" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wx2u1", 148, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width depence of x2u1" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "x3u1", 149, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "um/V²", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "VDS depence of u1" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lx3u1", 150, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of x3u1" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wx3u1", 151, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width depence of x3u1" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "n0", 152, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Subthreshold slope" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "ln0", 153, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of n0" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wn0", 154, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of n0" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "nb", 155, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "VBS dependence of subthreshold slope" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lnb", 156, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of nb" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wnb", 157, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of nb" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "nd", 158, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "VDS dependence of subthreshold slope" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "lnd", 159, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length dependence of nd" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wnd", 160, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Width dependence of nd" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "tox", 161, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "um", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Gate oxide thickness in um" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "temp", 162, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "°C", SIM_MODEL::PARAM::CATEGORY::PRINCIPAL, "0", "0", "Temperature in degree Celcius" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "vdd", 163, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "V", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Supply voltage to specify mus" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "cgso", 164, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "F/m", SIM_MODEL::PARAM::CATEGORY::CAPACITANCE, "0", "0", "Gate source overlap capacitance per unit channel width(m)" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "cgdo", 165, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "F/m", SIM_MODEL::PARAM::CATEGORY::CAPACITANCE, "0", "0", "Gate drain overlap capacitance per unit channel width(m)" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "cgbo", 166, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "F/m", SIM_MODEL::PARAM::CATEGORY::CAPACITANCE, "0", "0", "Gate bulk overlap capacitance per unit channel length(m)" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "xpart", 167, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_BOOL, "", SIM_MODEL::PARAM::CATEGORY::FLAGS, "0", "0", "Flag for channel charge partitioning" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "rsh", 168, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "Ω/m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Source drain diffusion sheet resistance in ohm per square" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "js", 169, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "A", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Source drain junction saturation current per unit area" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "pb", 170, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "V", SIM_MODEL::PARAM::CATEGORY::DC, "0.1", "0.1", "Source drain junction built in potential" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "mj", 171, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "F", SIM_MODEL::PARAM::CATEGORY::CAPACITANCE, "0", "0", "Source drain bottom junction capacitance grading coefficient" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "pbsw", 172, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "F", SIM_MODEL::PARAM::CATEGORY::CAPACITANCE, "0.1", "0.1", "Source drain side junction capacitance built in potential" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "mjsw", 173, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "F", SIM_MODEL::PARAM::CATEGORY::CAPACITANCE, "0", "0", "Source drain side junction capacitance grading coefficient" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "cj", 174, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "F", SIM_MODEL::PARAM::CATEGORY::CAPACITANCE, "0", "0", "Source drain bottom junction capacitance per unit area" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "cjsw", 175, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "F", SIM_MODEL::PARAM::CATEGORY::CAPACITANCE, "0", "0", "Source drain side junction capacitance per unit area" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "wdf", 176, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "um", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Default width of source drain diffusion in um" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "dell", 177, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::DC, "0", "0", "Length reduction of source drain diffusion" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "kf", 180, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::NOISE, "0", "0", "Flicker noise coefficient" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "af", 181, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::NOISE, "1", "1", "Flicker noise exponent" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "nmos", 178, SIM_MODEL::PARAM::DIR_IN, SIM_VALUE::TYPE_BOOL, "", SIM_MODEL::PARAM::CATEGORY::SUPERFLUOUS, "", "", "Flag to indicate NMOS" );
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modelInfos[MODEL_TYPE::BSIM1].modelParams.emplace_back( "pmos", 179, SIM_MODEL::PARAM::DIR_IN, SIM_VALUE::TYPE_BOOL, "", SIM_MODEL::PARAM::CATEGORY::SUPERFLUOUS, "", "", "Flag to indicate PMOS" );
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// Instance parameters
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modelInfos[MODEL_TYPE::BSIM1].instanceParams.emplace_back( "l", 2, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::GEOMETRY, "", "", "Length", true );
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modelInfos[MODEL_TYPE::BSIM1].instanceParams.emplace_back( "w", 1, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "m", SIM_MODEL::PARAM::CATEGORY::GEOMETRY, "", "", "Width", true );
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modelInfos[MODEL_TYPE::BSIM1].instanceParams.emplace_back( "m", 14, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::GEOMETRY, "", "", "Parallel Multiplier", true );
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modelInfos[MODEL_TYPE::BSIM1].instanceParams.emplace_back( "ad", 4, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::GEOMETRY, "", "", "Drain area", true );
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modelInfos[MODEL_TYPE::BSIM1].instanceParams.emplace_back( "as", 3, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::GEOMETRY, "", "", "Source area", true );
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modelInfos[MODEL_TYPE::BSIM1].instanceParams.emplace_back( "pd", 6, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::GEOMETRY, "", "", "Drain perimeter", true );
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modelInfos[MODEL_TYPE::BSIM1].instanceParams.emplace_back( "ps", 5, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::GEOMETRY, "", "", "Source perimeter", true );
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modelInfos[MODEL_TYPE::BSIM1].instanceParams.emplace_back( "nrd", 8, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::GEOMETRY, "", "", "Number of squares in drain", true );
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modelInfos[MODEL_TYPE::BSIM1].instanceParams.emplace_back( "nrs", 7, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "", SIM_MODEL::PARAM::CATEGORY::GEOMETRY, "", "", "Number of squares in source", true );
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modelInfos[MODEL_TYPE::BSIM1].instanceParams.emplace_back( "off", 9, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_BOOL, "", SIM_MODEL::PARAM::CATEGORY::SUPERFLUOUS, "", "", "Device is initially off", true );
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modelInfos[MODEL_TYPE::BSIM1].instanceParams.emplace_back( "vds", 11, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "V", SIM_MODEL::PARAM::CATEGORY::SUPERFLUOUS, "", "", "Initial D-S voltage", true );
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modelInfos[MODEL_TYPE::BSIM1].instanceParams.emplace_back( "vgs", 12, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "V", SIM_MODEL::PARAM::CATEGORY::SUPERFLUOUS, "", "", "Initial G-S voltage", true );
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modelInfos[MODEL_TYPE::BSIM1].instanceParams.emplace_back( "vbs", 10, SIM_MODEL::PARAM::DIR_INOUT, SIM_VALUE::TYPE_FLOAT, "V", SIM_MODEL::PARAM::CATEGORY::SUPERFLUOUS, "", "", "Initial B-S voltage", true );
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modelInfos[MODEL_TYPE::BSIM1].instanceParams.emplace_back( "ic", 13, SIM_MODEL::PARAM::DIR_IN, SIM_VALUE::TYPE_FLOAT_VECTOR /*SIM_VALUE::TYPE::VECTOR*/, "", SIM_MODEL::PARAM::CATEGORY::SUPERFLUOUS, "", "", "Vector of DS,GS,BS initial voltages", true );
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}
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