Ejemplo n.º 1
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def run_initial_bias(use_circuit_bias, net_doping=1e16):
    '''
    use_circuit for topbias
  '''
    test_common.SetupResistorConstants(device, region)
    test_common.SetupInitialResistorSystem(device, region, net_doping)
    test_common.SetupInitialResistorContact(device=device,
                                            contact='top',
                                            use_circuit_bias=use_circuit_bias)
    test_common.SetupInitialResistorContact(device=device, contact='bot')

    #####
    ##### Initial DC Solution
    #####
    devsim.solve(type='dc',
                 absolute_error=1.0,
                 relative_error=1e-10,
                 maximum_iterations=30)

    for name in ("Potential", "IntrinsicElectrons"):
        devsim.print_node_values(device=device, region=region, name=name)

    test_common.SetupCarrierResistorSystem(device, region)
    test_common.SetupCarrierResistorContact(device=device,
                                            contact='top',
                                            use_circuit_bias=use_circuit_bias)
    test_common.SetupCarrierResistorContact(device, contact='bot')
Ejemplo n.º 2
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test_common.SetupContinuousPotentialAtInterface(device, interface)

#####
##### Initial DC Solution
#####
devsim.set_parameter(name="topbias", value=0.0)
devsim.set_parameter(name="botbias", value=0.0)
devsim.solve(type='dc',
             absolute_error=1.0,
             relative_error=1e-10,
             maximum_iterations=30)

for region in regions:
    for name in ("Potential", "IntrinsicElectrons"):
        devsim.print_node_values(device=device, region=region, name=name)

for region in regions:
    test_common.SetupCarrierResistorSystem(device, region)

for contact in contacts:
    test_common.SetupCarrierResistorContact(device, contact=contact)

test_common.SetupContinuousElectronsAtInterface(device, interface)

for v in (0.0, 0.01, 0.02, 0.03, 0.04, 0.05, 0.06, 0.07, 0.08, 0.09, 0.10):
    devsim.set_parameter(name="topbias", value=v)
    devsim.solve(type="dc",
                 absolute_error=1.0,
                 relative_error=1e-10,
                 maximum_iterations=30)
Ejemplo n.º 3
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#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

import devsim

device="MyDevice"
region="MyRegion"

devsim.load_devices(file="trimesh2.msh")
devsim.print_node_values(device="MyDevice", region="MyRegion", name="NodeVolume")
devsim.print_edge_values(device="MyDevice", region="MyRegion", name="EdgeCouple")

devsim.set_parameter(device=device, region=region, name="Permittivity",   value=3.9*8.85e-14)
devsim.set_parameter(device=device, region=region, name="ElectricCharge", value=1.6e-19)

devsim.node_solution(device=device, region=region, name="Potential")
devsim.edge_from_node_model(device=device, region=region, node_model="Potential")

devsim.edge_model(device=device, region=region, name="ElectricField", equation="(Potential@n0 - Potential@n1)*EdgeInverseLength")
devsim.edge_model(device=device, region=region, name="ElectricField:Potential@n0", equation="EdgeInverseLength")
devsim.edge_model(device=device, region=region, name="ElectricField:Potential@n1", equation="-EdgeInverseLength")

devsim.set_parameter(device=device, region=region, name="topbias", value=1.0e-0)
devsim.set_parameter(device=device, region=region, name="botbias", value=0.0)
Ejemplo n.º 4
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                                        contact="top",
                                        use_circuit_bias=True,
                                        circuit_node="cnode1")
test_common.SetupInitialResistorContact(device="MyDevice2",
                                        contact="bot",
                                        use_circuit_bias=False)

devsim.solve(type="dc",
             absolute_error=1.0,
             relative_error=1e-14,
             maximum_iterations=30)

for device in devices:
    print(device)
    for name in ("Potential", "IntrinsicElectrons"):
        devsim.print_node_values(device=device, region=region, name=name)

for device in devices:
    test_common.SetupCarrierResistorSystem(device=device, region=region)

test_common.SetupCarrierResistorContact(device="MyDevice1",
                                        contact="top",
                                        use_circuit_bias=True,
                                        circuit_node="cnode1")
test_common.SetupCarrierResistorContact(device="MyDevice1",
                                        contact="bot",
                                        use_circuit_bias=False,
                                        circuit_node="topbias")

test_common.SetupCarrierResistorContact(device="MyDevice2",
                                        contact="top",
Ejemplo n.º 5
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devsim.set_parameter( device=device, region=region, name="botbias", value=0.0)

devsim.edge_model( device=device, region=region, name="PotentialEdgeFlux", equation="Permittivity*ElectricField")
devsim.edge_model( device=device, region=region, name="PotentialEdgeFlux:Potential@n0", equation="diff(Permittivity*ElectricField, Potential@n0)")
devsim.edge_model( device=device, region=region, name="PotentialEdgeFlux:Potential@n1", equation="-PotentialEdgeFlux:Potential@n0")

devsim.equation( device=device, region=region, name="PotentialEquation", variable_name="Potential", edge_model="PotentialEdgeFlux", variable_update="default")

devsim.node_model( device=device, region=region, name="topnode_model"          , equation="Potential - topbias")
devsim.node_model( device=device, region=region, name="topnode_model:Potential", equation="1")

devsim.node_model( device=device, region=region, name="botnode_model"          , equation="Potential - botbias")
devsim.node_model( device=device, region=region, name="botnode_model:Potential", equation="1")

devsim.contact_equation( device=device, contact="top", name="PotentialEquation", variable_name="Potential", node_model="topnode_model",
  edge_charge_model="PotentialEdgeFlux")

devsim.contact_equation( device=device, contact="bot", name="PotentialEquation", variable_name="Potential", node_model="botnode_model",
  edge_charge_model="PotentialEdgeFlux")

devsim.solve(type="dc", absolute_error=1.0, relative_error=1e-10, maximum_iterations=30)

print(devsim.get_contact_charge(device=device, contact="top", equation="PotentialEquation"))
print(devsim.get_contact_charge(device=device, contact="bot", equation="PotentialEquation"))

devsim.print_node_values(device=device, region=region, name="NodeVolume")
devsim.print_edge_values(device=device, region=region, name="ElectricField")
devsim.print_edge_values(device=device, region=region, name="EdgeCouple")


Ejemplo n.º 6
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region="MyRegion"

# basic linear circuit solved by itself
devsim.circuit_element(name="V1", n1=1,        n2=0,        value=1.0)
devsim.circuit_element(name="R1", n1=1,        n2="cnode1", value=5.0)
devsim.circuit_element(name="R2", n1="cnode1", n2=0,        value=5.0)

devsim.solve(type="dc", absolute_error=1.0, relative_error=1e-14, maximum_iterations=3)

devsim.circuit_alter(name="V1", value=2.0)
devsim.solve(type="dc", absolute_error=1.0, relative_error=1e-14, maximum_iterations=30)

test_common.CreateSimpleMesh(device, region)

devsim.node_model(device=device, region=region, name="erf", equation="erf(x);")
devsim.print_node_values(device=device, region=region, name="erf")
devsim.node_model(device=device, region=region, name="d_erf_dx", equation="diff(erf(x),x);")
devsim.print_node_values(device=device, region=region, name="d_erf_dx")
devsim.node_model(device=device, region=region, name="erfc", equation="erfc(x);")
devsim.print_node_values(device=device, region=region, name="erfc")
devsim.node_model(device=device, region=region, name="d_erfc_dx", equation="diff(erfc(x),x);")
devsim.print_node_values(device=device, region=region, name="d_erfc_dx")

devsim.node_model(device=device, region=region, name="d_abs_dx", equation="diff(abs(x),x);")
devsim.print_node_values(device=device, region=region, name="d_abs_dx")

devsim.set_parameter(name="param", value=-1.0)
devsim.node_model(device=device, region=region, name="deptest", equation="param;")
devsim.print_node_values(device=device, region=region, name="deptest")
devsim.set_parameter(name="param", value=1.0)
devsim.print_node_values(device=device, region=region, name="deptest")
Ejemplo n.º 7
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print_flux()

set_permittivities(si=1.0, ox=1.0)
devsim.solve(type="dc",
             absolute_error=1.0,
             relative_error=1e-10,
             maximum_iterations=30)
print_charge()
print_flux()

# makes sure this global scope does not interfere
devsim.set_parameter(device=device, name="Permittivity", value=11.1 * 8.85e-14)

set_permittivities(si=11.1, ox=3.9)
devsim.solve(type="dc",
             absolute_error=1.0,
             relative_error=1e-10,
             maximum_iterations=30)
print_charge()
print_flux()

devsim.print_edge_values(device=device,
                         region="MySiRegion",
                         name="ElectricField")
devsim.print_edge_values(device=device,
                         region="MyOxRegion",
                         name="ElectricField")

devsim.print_node_values(device=device, region="MySiRegion", name="Potential")
devsim.print_node_values(device=device, region="MyOxRegion", name="Potential")
Ejemplo n.º 8
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                  name="Eta:r",
                  equation="diff(InvFermi(r),r);")
devsim.node_model(device=device,
                  region=region,
                  name="r2:Eta",
                  equation="diff(Fermi(Eta),Eta);")
devsim.node_model(device=device,
                  region=region,
                  name="r3:Eta",
                  equation="dFermidx(Eta);")
devsim.node_model(device=device,
                  region=region,
                  name="r4:Eta",
                  equation="1.0/dInvFermidx(r2);")

devsim.print_node_values(device=device, region=region, name="Electrons")
devsim.print_node_values(device=device, region=region, name="r")
devsim.print_node_values(device=device, region=region, name="Eta")
devsim.print_node_values(device=device, region=region, name="r2")
devsim.print_node_values(device=device, region=region, name="Eta:r")
devsim.print_node_values(device=device, region=region, name="r2:Eta")
devsim.print_node_values(device=device, region=region, name="r3:Eta")
devsim.print_node_values(device=device, region=region, name="r4:Eta")

devsim.set_parameter(name="Nc", value=3.23e19)
devsim.set_parameter(name="Nv", value=1.83e19)
devsim.set_parameter(name="Eg", value=1.12)
devsim.set_parameter(name="Vt", value=0.0259)
devsim.node_model(device=device,
                  region=region,
                  name="ni_f",