NeuroMLCoreDimensions#
Original ComponentType definitions: NeuroMLCoreDimensions.xml. Schema against which NeuroML based on these should be valid: NeuroML_v2.3.xsd. Generated on 14/08/24 from this commit. Please file any issues or questions at the issue tracker here.
Dimensions#
area#
capacitance#
charge#
charge_per_mole#
T1 I1 N-1
Defined unit: C_per_mol
Defined unit: nA_ms_per_amol
Defined unit: pC_per_umol
concentration#
L-3 N1
Defined unit: M
Defined unit: mM
Defined unit: mol_per_cm3
Defined unit: mol_per_m3
<xs:simpleType name="Nml2Quantity_concentration">
<xs:restriction base="xs:string">
<xs:pattern value="-?([0-9]*(\.[0-9]+)?)([eE]-?[0-9]+)?[\s]*(mol_per_m3|mol_per_cm3|M|mM)"/>
</xs:restriction>
</xs:simpleType>
conductance#
M-1 L-2 T3 I2
<xs:simpleType name="Nml2Quantity_conductance">
<xs:restriction base="xs:string">
<xs:pattern value="-?([0-9]*(\.[0-9]+)?)([eE]-?[0-9]+)?[\s]*(S|mS|uS|nS|pS)"/>
</xs:restriction>
</xs:simpleType>
conductanceDensity#
M-1 L-4 T3 I2
Defined unit: S_per_cm2
Defined unit: S_per_m2
Defined unit: mS_per_cm2
Defined unit: uS_per_cm2
conductance_per_voltage#
current#
currentDensity#
L-2 I1
Defined unit: A_per_m2
Defined unit: mA_per_cm2
Defined unit: uA_per_cm2
idealGasConstantDims#
M1 L2 T-2 K-1 N-1
Defined unit: J_per_K_per_mol
Defined unit: fJ_per_K_per_umol
length#
per_time#
T-1
<xs:simpleType name="Nml2Quantity_pertime">
<xs:restriction base="xs:string">
<xs:pattern value="-?([0-9]*(\.[0-9]+)?)([eE]-?[0-9]+)?[\s]*(per_s|per_ms|Hz)"/>
</xs:restriction>
</xs:simpleType>
per_voltage#
permeability#
L1 T-1
<xs:simpleType name="Nml2Quantity_permeability">
<xs:restriction base="xs:string">
<xs:pattern value="-?([0-9]*(\.[0-9]+)?)([eE]-?[0-9]+)?[\s]*(m_per_s|um_per_ms|cm_per_s|cm_per_ms)"/>
</xs:restriction>
</xs:simpleType>
resistance#
resistivity#
M2 L2 T-3 I-2
<xs:complexType name="Resistivity">
<xs:complexContent>
<xs:extension base="BaseWithoutId">
<xs:attribute name="value" type="Nml2Quantity_resistivity" use="required"/>
<xs:attribute name="segmentGroup" type="NmlId" use="optional" default="all"/>
</xs:extension>
</xs:complexContent>
</xs:complexType>
rho_factor#
L-1 T-1 I-1 N1
Defined unit: mol_per_cm_per_uA_per_ms
Defined unit: mol_per_m_per_A_per_s
Defined unit: umol_per_cm_per_nA_per_ms
<xs:simpleType name="Nml2Quantity_rhoFactor">
<xs:restriction base="xs:string">
<xs:pattern value="-?([0-9]*(\.[0-9]+)?)([eE]-?[0-9]+)?[\s]*(mol_per_m_per_A_per_s|mol_per_cm_per_uA_per_ms)"/>
</xs:restriction>
</xs:simpleType>
specificCapacitance#
M-1 L-4 T4 I2
Defined unit: F_per_m2
Defined unit: uF_per_cm2
substance#
N1
Defined unit: mol
temperature#
time#
voltage#
volume#
Units#
A#
A_per_m2#
Dimension: currentDensity
Power of 10: 0
1 A_per_m2 = 0.1 mA_per_cm2
1 A_per_m2 = 100 uA_per_cm2
C#
C_per_mol#
Dimension: charge_per_mole
Power of 10: 0
1 C_per_mol = 1e-06 nA_ms_per_amol
1 C_per_mol = 1.00e+06 pC_per_umol
F#
Dimension: capacitance
Power of 10: 0
F_per_m2#
Dimension: specificCapacitance
Power of 10: 0
1 F_per_m2 = 100 uF_per_cm2
Hz#
J_per_K_per_mol#
Dimension: idealGasConstantDims
Power of 10: 0
1 J_per_K_per_mol = 1.00e+09 fJ_per_K_per_umol
K#
Dimension: temperature
Power of 10: 0
1 K = -272.15 degC
M#
Dimension: concentration
Power of 10: 3
1 M = 1000 mM
1 M = 0.001 mol_per_cm3
1 M = 1000 mol_per_m3
Mohm#
Dimension: resistance
Power of 10: 6
S#
Dimension: conductance
Power of 10: 0
S_per_V#
Dimension: conductance_per_voltage
Power of 10: 0
1 S_per_V = 1.00e+06 nS_per_mV
S_per_cm2#
Dimension: conductanceDensity
Power of 10: 4
1 S_per_cm2 = 10000 S_per_m2
1 S_per_cm2 = 1000 mS_per_cm2
1 S_per_cm2 = 1.00e+06 uS_per_cm2
S_per_m2#
Dimension: conductanceDensity
Power of 10: 0
1 S_per_m2 = 0.0001 S_per_cm2
1 S_per_m2 = 0.1 mS_per_cm2
1 S_per_m2 = 100 uS_per_cm2
V#
cm#
cm2#
cm3#
cm_per_ms#
Dimension: permeability
Power of 10: 1
cm_per_s#
Dimension: permeability
Power of 10: -2
degC#
Dimension: temperature
Power of 10: 0
Offset: 273.15
1 degC = 274.15 K
e#
fJ_per_K_per_umol#
Dimension: idealGasConstantDims
Power of 10: -9
1 fJ_per_K_per_umol = 1e-09 J_per_K_per_mol
hour#
kohm#
Dimension: resistance
Power of 10: 3
kohm_cm#
Dimension: resistivity
Power of 10: 1
litre#
m#
m2#
m3#
mA_per_cm2#
Dimension: currentDensity
Power of 10: 1
1 mA_per_cm2 = 10 A_per_m2
1 mA_per_cm2 = 1000 uA_per_cm2
mM#
Dimension: concentration
Power of 10: 0
1 mM = 0.001 M
1 mM = 1e-06 mol_per_cm3
1 mM = 1 mol_per_m3
mS#
Dimension: conductance
Power of 10: -3
mS_per_cm2#
Dimension: conductanceDensity
Power of 10: 1
1 mS_per_cm2 = 0.001 S_per_cm2
1 mS_per_cm2 = 10 S_per_m2
1 mS_per_cm2 = 1000 uS_per_cm2
mV#
m_per_s#
Dimension: permeability
Power of 10: 0
min#
mol#
Dimension: substance
Power of 10: 0
mol_per_cm3#
Dimension: concentration
Power of 10: 6
1 mol_per_cm3 = 1000 M
1 mol_per_cm3 = 1.00e+06 mM
1 mol_per_cm3 = 1.00e+06 mol_per_m3
mol_per_cm_per_uA_per_ms#
Dimension: rho_factor
Power of 10: 11
1 mol_per_cm_per_uA_per_ms = 1.00e+11 mol_per_m_per_A_per_s
1 mol_per_cm_per_uA_per_ms = 1000 umol_per_cm_per_nA_per_ms
mol_per_m3#
Dimension: concentration
Power of 10: 0
1 mol_per_m3 = 0.001 M
1 mol_per_m3 = 1 mM
1 mol_per_m3 = 1e-06 mol_per_cm3
mol_per_m_per_A_per_s#
Dimension: rho_factor
Power of 10: 0
1 mol_per_m_per_A_per_s = 1e-11 mol_per_cm_per_uA_per_ms
1 mol_per_m_per_A_per_s = 1e-08 umol_per_cm_per_nA_per_ms
ms#
nA#
nA_ms_per_amol#
Dimension: charge_per_mole
Power of 10: 6
1 nA_ms_per_amol = 1.00e+06 C_per_mol
1 nA_ms_per_amol = 1.00e+12 pC_per_umol
nF#
Dimension: capacitance
Power of 10: -9
nS#
Dimension: conductance
Power of 10: -9
nS_per_mV#
Dimension: conductance_per_voltage
Power of 10: -6
1 nS_per_mV = 1e-06 S_per_V
ohm#
Dimension: resistance
Power of 10: 0
ohm_cm#
Dimension: resistivity
Power of 10: -2
ohm_m#
Dimension: resistivity
Power of 10: 0
pA#
pC_per_umol#
Dimension: charge_per_mole
Power of 10: -6
1 pC_per_umol = 1e-06 C_per_mol
1 pC_per_umol = 1e-12 nA_ms_per_amol
pF#
Dimension: capacitance
Power of 10: -12
pS#
Dimension: conductance
Power of 10: -12
per_V#
Dimension: per_voltage
Power of 10: 0
1 per_V = 0.001 per_mV
per_hour#
per_mV#
Dimension: per_voltage
Power of 10: 3
1 per_mV = 1000 per_V
per_min#
per_ms#
per_s#
s#
uA#
uA_per_cm2#
Dimension: currentDensity
Power of 10: -2
1 uA_per_cm2 = 0.01 A_per_m2
1 uA_per_cm2 = 0.001 mA_per_cm2
uF#
Dimension: capacitance
Power of 10: -6
uF_per_cm2#
Dimension: specificCapacitance
Power of 10: -2
1 uF_per_cm2 = 0.01 F_per_m2
uS#
Dimension: conductance
Power of 10: -6
uS_per_cm2#
Dimension: conductanceDensity
Power of 10: -2
1 uS_per_cm2 = 1e-06 S_per_cm2
1 uS_per_cm2 = 0.01 S_per_m2
1 uS_per_cm2 = 0.001 mS_per_cm2
um#
um2#
um3#
um_per_ms#
Dimension: permeability
Power of 10: -3
umol_per_cm_per_nA_per_ms#
Dimension: rho_factor
Power of 10: 8
1 umol_per_cm_per_nA_per_ms = 0.001 mol_per_cm_per_uA_per_ms
1 umol_per_cm_per_nA_per_ms = 1.00e+08 mol_per_m_per_A_per_s