A statistically enabled photodetector model. The statistical parameters are responsivity, electro-optic bandwidth and dark current.
For an example of how to extract nominal parameters in INTERCONNECT, see Vertical Photodetector. For information on statistical CMLs, see Statistical CMLs.
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Photodetector (Statistical) - Lumfoundry Template (Legacy)
Template: pd_stat_c
Photonic Model: photodetector_simple
Quality Assurance Test: photodetector_simple QA
Parameters: None
Statistically Enabled Parameters: responsivity, bandwidth, dark current
Virtuoso/Verilog-A Support: Yes
Required Data
Parameter Script File
[[snippet||6546687230867]]
QA Variables
[[snippet||6546760836243]]
Statistical QA Variables (statistical compact models only)
[[snippet||6548000138131]]
Data File
Nominal
[[snippet||6547647982739]]
Statistical Data (optional)
This data is required for CML Compiler to enable statistical modeling. Note that to allow CML Compiler to build statistically enabled models, the statistical_parameter_status has to be defined in the XML file . For more information, see Statistical CMLs .
Variable | Type | Description |
---|---|---|
stat_parameters |
Cell |
A cell of length N containing the statistical data for the photodetector where N is the number of statistical parameters. Each entry in the cell is a struct with the following fields. |
stat_parameters{i}.name |
String |
Name of the i-th statistical parameter. |
stat_parameters{i}.mean |
Number |
Mean value of the i-th statistical parameter. |
stat_parameters{i}.corners |
Matrix |
Corner values for the i-th statistical parameter provides as an Cx1 matrix where C is the number of process corners defined in the XML file . Note: The values for the process corners should follow the same order as in the XML file . |
stat_parameters{i}.slope_Resp |
Number |
The sensitivity of the responsivity of the photodetector with respect to the i-th statistical parameter defined as d_Resp / d_stat_parameters{i}. Note: Only provide this field if the statistical parameter affects the responsivity (see pd_stat_c). |
stat_parameters{i}.slope_BW |
Number |
The sensitivity of the electro-optic bandwidth of the photoetector with respect to the i-th statistical parameter defined as d_BW / d_stat_parameters{i}. Note: Only provide this field if the statistical parameter affects the bandwidth (see pd_stat_c). |
stat_parameters{i}.slope_Idark |
Number |
The sensitivity of the dark current of the photoetector with respect to the i-th statistical parameter defined as d_Idark / d_stat_parameters{i}. This perturbation will be applied uniformly for all bias voltages; hence the slope should be provided for the default/typical operating bias of the photodetector.
Note: Only provide this field if the statistical parameter affects the dark current (see pd_stat_c). |
stat_parameters{i}.LOCAL |
Number |
A struct describing the LOCAL level variation of the i-th statistical parameter with the following fields: distribution = Defines the type of the PDF used to describe the LOCAL level variation. Currently the options are 'normal' (Gaussian) or 'pearson4' (Non-Gaussian). sigma = The standard deviation of the LOCAL level variation. gamma1: The skewness of the LOCAL level variation (for pearson4 distribution only) beta2: The kurtosis of the LOCAL level variation (for pearson4 distribution only) |
stat_parameters{i}.GLOBAL |
Number |
A struct containing the GLOBAL level variation of the i-th statistical parameter with the following fields: distribution = Defines the type of the PDF used to describe the GLOBAL level variation. Currently the options are 'normal' (Gaussian) or 'pearson4' (Non-Gaussian). sigma = The standard deviation of the GLOBAL level variation. gamma1: The skewness of the GLOBAL level variation (for pearson4 distribution only) beta2: The kurtosis of the GLOBAL level variation (for pearson4 distribution only) GLOBALGROUP : Name of the GLOBALGROUP defined in the top level XML file. (if a GLOBALGROUP is provided then the description in the XML file takes priority over the data file) NOTE: Providing a GLOBAL level variation for statistical parameters is optional. |