Closed biosimulators-daemon closed 3 years ago
Thank you @biosimulators-daemon for your submission to the BioSimulators simulator validation/submission system!
The BioSimulators validator bot is validating the specifications of your simulator, validating your Docker image, and committing your simulator to the BioSimulators registry.
We will discuss any concerns with your submission in this issue.
A complete log of your simulator submission job will be available for 90 days here. The results of the validation of your tool will also be saved as a JSON file. A link to this file will be available for 90 days from the "Artifacts" section at the bottom of this page.
The specifications of your simulator is valid!
Executed 72 test cases
Passed 47 test cases:
cli.CliDescribesSupportedEnvironmentVariablesInline
cli.CliDisplaysHelpInline
cli.CliDisplaysVersionInformationInline
combine_archive.CombineArchiveHasSedDocumentsInNestedDirectories
combine_archive.CombineArchiveHasSedDocumentsWithSameNamesInDifferentInNestedDirectories
combine_archive.WhenACombineArchiveHasAMasterFileSimulatorOnlyExecutesThisFile
combine_archive.WhenACombineArchiveHasNoMasterFileSimulatorExecutesAllSedDocuments
docker_image.DeclaresSupportedEnvironmentVariables
docker_image.DefaultUserIsRoot
docker_image.HasBioContainersLabels
docker_image.HasOciLabels
docker_image.SingularityImageExecutesSimulationsSuccessfully
published_project.SimulatorCanExecutePublishedProject:sbml-core/Caravagna-J-Theor-Biol-2010-tumor-suppressive-oscillations
published_project.SimulatorCanExecutePublishedProject:sbml-core/Ciliberto-J-Cell-Biol-2003-morphogenesis-checkpoint-Fehlberg
published_project.SimulatorCanExecutePublishedProject:sbml-core/Ciliberto-J-Cell-Biol-2003-morphogenesis-checkpoint-continuous
published_project.SimulatorCanExecutePublishedProject:sbml-core/Elowitz-Nature-2000-Repressilator
published_project.SimulatorCanExecutePublishedProject:sbml-core/Vilar-PNAS-2002-minimal-circardian-clock-continuous
published_project.SimulatorCanExecutePublishedProject:sbml-core/Vilar-PNAS-2002-minimal-circardian-clock-discrete-SSA
results_report.SimulatorGeneratesReportsOfSimulationResults
sedml.SimulatorCanResolveModelSourcesDefinedByUriFragments
sedml.SimulatorCanResolveModelSourcesDefinedByUriFragmentsAndInheritChanges
sedml.SimulatorProducesLinear2DPlots
sedml.SimulatorProducesLogarithmic2DPlots
sedml.SimulatorProducesMultiplePlots
sedml.SimulatorProducesReportsWithCuratedNumberOfDimensions
sedml.SimulatorSupportsAddReplaceRemoveModelElementChanges
sedml.SimulatorSupportsAlgorithmParameters
sedml.SimulatorSupportsComputeModelChanges
sedml.SimulatorSupportsDataGeneratorsWithDifferentShapes
sedml.SimulatorSupportsDataSetsWithDifferentShapes
sedml.SimulatorSupportsModelAttributeChanges
sedml.SimulatorSupportsModelsSimulationsTasksDataGeneratorsAndReports
sedml.SimulatorSupportsMultipleReportsPerSedDocument
sedml.SimulatorSupportsMultipleTasksPerSedDocument
sedml.SimulatorSupportsRepeatedTasksWithChanges
sedml.SimulatorSupportsRepeatedTasksWithFunctionalRangeVariables
sedml.SimulatorSupportsRepeatedTasksWithFunctionalRanges
sedml.SimulatorSupportsRepeatedTasksWithLinearUniformRanges
sedml.SimulatorSupportsRepeatedTasksWithLogarithmicUniformRanges
sedml.SimulatorSupportsRepeatedTasksWithMultipleSubTasks
sedml.SimulatorSupportsRepeatedTasksWithNestedFunctionalRanges
sedml.SimulatorSupportsRepeatedTasksWithNestedRepeatedTasks
sedml.SimulatorSupportsRepeatedTasksWithSubTasksOfMixedTypes
sedml.SimulatorSupportsRepeatedTasksWithVectorRanges
sedml.SimulatorSupportsSubstitutingAlgorithms
sedml.SimulatorSupportsUniformTimeCoursesWithNonZeroInitialTimes
sedml.SimulatorSupportsUniformTimeCoursesWithNonZeroOutputStartTimes
Failed 0 test cases
Skipped 25 test cases:
log.SimulatorReportsTheStatusOfTheExecutionOfCombineArchives
log.SimulatorReportsTheStatusOfTheExecutionOfSedDocuments
log.SimulatorReportsTheStatusOfTheExecutionOfSedOutputs
log.SimulatorReportsTheStatusOfTheExecutionOfSedTasks
published_project.SimulatorCanExecutePublishedProject:bngl/Dolan-PLoS-Comput-Biol-2015-NHEJ
published_project.SimulatorCanExecutePublishedProject:bngl/test-bngl
published_project.SimulatorCanExecutePublishedProject:cellml/Elowitz-Nature-2000-Repressilator
published_project.SimulatorCanExecutePublishedProject:cellml/Lorenz-system
published_project.SimulatorCanExecutePublishedProject:mass/Bordbar-Cell-Syst-2015-RBC-metabolism
published_project.SimulatorCanExecutePublishedProject:neuroml-lems/Hodgkin-Huxley-cell-CVODE
published_project.SimulatorCanExecutePublishedProject:neuroml-lems/Hodgkin-Huxley-cell-Euler
published_project.SimulatorCanExecutePublishedProject:sbml-core/Edelstein-Biol-Cybern-1996-Nicotinic-excitation
published_project.SimulatorCanExecutePublishedProject:sbml-core/Parmar-BMC-Syst-Biol-2017-iron-distribution
published_project.SimulatorCanExecutePublishedProject:sbml-core/Szymanska-J-Theor-Biol-2009-HSP-synthesis
published_project.SimulatorCanExecutePublishedProject:sbml-core/Tomida-EMBO-J-2003-NFAT-translocation
published_project.SimulatorCanExecutePublishedProject:sbml-core/Varusai-Sci-Rep-2018-mTOR-signaling-LSODA-LSODAR-SBML
published_project.SimulatorCanExecutePublishedProject:sbml-core/Vilar-PNAS-2002-minimal-circardian-clock
published_project.SimulatorCanExecutePublishedProject:sbml-core/Vilar-PNAS-2002-minimal-circardian-clock-discrete-NRM
published_project.SimulatorCanExecutePublishedProject:sbml-fbc/Escherichia-coli-core-metabolism
published_project.SimulatorCanExecutePublishedProject:sbml-qual/Chaouiya-BMC-Syst-Biol-2013-EGF-TNFa-signaling
published_project.SimulatorCanExecutePublishedProject:sbml-qual/Irons-J-Theor-Biol-2009-yeast-cell-cycle
published_project.SimulatorCanExecutePublishedProject:smoldyn/Lotka-Volterra
published_project.SimulatorCanExecutePublishedProject:xpp/Wu-Biochem-Pharmacol-2006-pituitary-GH3-cells
sedml.SimulatorProducesLinear3DPlots
sedml.SimulatorProducesLogarithmic3DPlots
cli.CliDescribesSupportedEnvironmentVariablesInline
(5.4 s)Test that the inline help for a command-line interface describes the environment variables that the simulator supports.
Warnings:
The inline help for a command-line interface for a simulation tool should describe the environment variables that the simulation tool supports.
The command-line interface does not describe the following standard environment variables recognized by BioSimulators:
- 'ALGORITHM_SUBSTITUTION_POLICY'
- 'BUNDLE_OUTPUTS'
- 'DEBUG'
- 'H5_REPORTS_PATH'
- 'KEEP_INDIVIDUAL_OUTPUTS'
- 'LOG_PATH'
- 'PLOTS_PATH'
- 'REPORTS_PATH'
- 'REPORT_FORMATS'
- 'SAVE_PLOT_DATA'
- 'VALIDATE_IMAGES'
- 'VALIDATE_OMEX_MANIFESTS'
- 'VALIDATE_OMEX_METADATA'
- 'VALIDATE_SEDML'
- 'VALIDATE_SEDML_MODELS'
- 'VERBOSE'
- 'VIZ_FORMATS'
If the simulation tool implements these variables, they should be described in the inline help for its command-line interface.
Note, support for these environment variables is optional. Simulation tools are not required to support these variables.
Log:
docker_image.DeclaresSupportedEnvironmentVariables
(1.9 s)Test if a Docker image declares the environment variables that is supports
Warnings:
Docker images for simulation tools should declare the environment variables that they support.
The Docker image does not declare the following standard environment variables recognized by BioSimulators:
- 'ALGORITHM_SUBSTITUTION_POLICY'
- 'BUNDLE_OUTPUTS'
- 'DEBUG'
- 'H5_REPORTS_PATH'
- 'KEEP_INDIVIDUAL_OUTPUTS'
- 'LOG_PATH'
- 'PLOTS_PATH'
- 'REPORTS_PATH'
- 'REPORT_FORMATS'
- 'SAVE_PLOT_DATA'
- 'VALIDATE_IMAGES'
- 'VALIDATE_OMEX_MANIFESTS'
- 'VALIDATE_OMEX_METADATA'
- 'VALIDATE_SEDML'
- 'VALIDATE_SEDML_MODELS'
- 'VIZ_FORMATS'
If the simulation tool implements these variables, they should be declared in the Dockerfile for the Docker image for the simulator.
Note, support for these environment variables is optional. Simulation tools are not required to support these variables.
Log:
docker_image.HasBioContainersLabels
(0.3 s)Test that a Docker image has BioContainers labels with metadata about the image
Warnings:
The Docker image should have the following BioContainers labels:
extra.identifiers.biotools
Log:
published_project.SimulatorCanExecutePublishedProject:sbml-core/Caravagna-J-Theor-Biol-2010-tumor-suppressive-oscillations
(5.8 s)Required model formats and simulation algorithms for SED tasks:
Format: format_2585
Algorithm: KISAO_0000019
Warnings:
Unexpected reports were produced:
BIOMD0000000912_sim.sedml/Figure_1_bottom_left
Plots were not produced:
BIOMD0000000912_sim.sedml/plot_1
Extra plots were produced:
BIOMD0000000912_sim.sedml/Figure_1_bottom_left
Log:
/usr/local/lib/python3.9/site-packages/biosimulators_utils/warnings.py:31: BioSimulatorsWarning:
[33mThe SED document is potentially incorrect.
- Model `BIOMD0000000912` may be invalid.
- The model file `Caravagna2010.xml` may be invalid.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_induction_of_tumor(r2, T, b, V)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_removal_of_the_tumor(a, T, g2, V, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_and_transfer_of_effector_cells_to_the_tumor_site(p1, I, g1, E, c, T, V, s1)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_and_removal_of_effector_cells_from_the_site_of_tumor(mu2, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_of_interleukin_2(p2, V, T, E, g3, s2)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_of_interleukin_2(mu3, I)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'r2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'b' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'a' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'c' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'V' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's2' does not have a 'units' attribute.
[0m
/usr/local/lib/python3.9/site-packages/biosimulators_utils/warnings.py:31: BioSimulatorsWarning:
[33mThe COMBINE/OMEX archive may be invalid.
- The SED-ML file at location `./BIOMD0000000912_sim.sedml` may be invalid.
- Model `BIOMD0000000912` may be invalid.
- The model file `Caravagna2010.xml` may be invalid.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_induction_of_tumor(r2, T, b, V)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_removal_of_the_tumor(a, T, g2, V, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_and_transfer_of_effector_cells_to_the_tumor_site(p1, I, g1, E, c, T, V, s1)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_and_removal_of_effector_cells_from_the_site_of_tumor(mu2, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_of_interleukin_2(p2, V, T, E, g3, s2)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_of_interleukin_2(mu3, I)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'r2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'b' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'a' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'c' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'V' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's2' does not have a 'units' attribute.
[0m
Archive contains 1 SED-ML documents with 1 models, 1 simulations, 1 tasks, 1 reports, and 1 plots:
BIOMD0000000912_sim.sedml:
Tasks (1):
BIOMD0000000912_task
Reports (1):
report: 4 data sets
Plots (1):
Figure_1_bottom_left: 3 curves
Executing SED-ML file 0: BIOMD0000000912_sim.sedml ...
Bundling outputs ...
Cleaning up ...
============= SUMMARY =============
Executed 1 SED documents:
SED documents (1):
Succeeded: 1
Skipped: 0
Failed: 0
Outputs (2):
Succeeded: 0
Skipped: 2
Failed: 0
published_project.SimulatorCanExecutePublishedProject:sbml-core/Ciliberto-J-Cell-Biol-2003-morphogenesis-checkpoint-Fehlberg
(6.4 s)Required model formats and simulation algorithms for SED tasks:
Format: format_2585
Algorithm: KISAO_0000086
Warnings:
Unexpected reports were produced:
simulation_1.sedml/Figure_3a
simulation_1.sedml/Figure_3b
simulation_1.sedml/Figure_3c
simulation_1.sedml/Figure_3d
Plots were not produced:
simulation.sedml/Figure_3a
simulation.sedml/Figure_3b
simulation.sedml/Figure_3c
simulation.sedml/Figure_3d
Extra plots were produced:
simulation_1.sedml/Figure_3a
simulation_1.sedml/Figure_3b
simulation_1.sedml/Figure_3c
simulation_1.sedml/Figure_3d
Log:
/usr/local/lib/python3.9/site-packages/biosimulators_utils/warnings.py:31: BioSimulatorsWarning:
[33mThe SED document is potentially incorrect.
- Model `Ciliberto2003_Morphogenesis` may be invalid.
- The model file `BIOMD0000000297_url.xml` may be invalid.
- The value of the 'sboTerm' attribute on a <species> is expected to be an SBO identifier (http://www.biomodels.net/SBO/). In SBML Level 2 prior to Version 4 it is expected to refer to a participant physical type (i.e., terms derived from SBO:0000236, "participant physical type"); in Versions 4 and above it is expected to refer to a material entity (i.e., terms derived from SBO:0000240, "material entity").
Reference: L2V4 Section 5
SBO term 'SBO:0000014' on the <species> is not in the appropriate branch.
- The value of the 'sboTerm' attribute on a <species> is expected to be an SBO identifier (http://www.biomodels.net/SBO/). In SBML Level 2 prior to Version 4 it is expected to refer to a participant physical type (i.e., terms derived from SBO:0000236, "participant physical type"); in Versions 4 and above it is expected to refer to a material entity (i.e., terms derived from SBO:0000240, "material entity").
Reference: L2V4 Section 5
SBO term 'SBO:0000236' on the <species> is not in the appropriate branch.
- The value of the 'sboTerm' attribute on a <species> is expected to be an SBO identifier (http://www.biomodels.net/SBO/). In SBML Level 2 prior to Version 4 it is expected to refer to a participant physical type (i.e., terms derived from SBO:0000236, "participant physical type"); in Versions 4 and above it is expected to refer to a material entity (i.e., terms derived from SBO:0000240, "material entity").
Reference: L2V4 Section 5
SBO term 'SBO:0000236' on the <species> is not in the appropriate branch.
- The value of the 'sboTerm' attribute on a <parameter> is expected to be an SBO identifier (http://www.biomodels.net/SBO/) referring to a quantitative parameter defined in SBO (i.e., terms derived from SBO:0000002, "quantitative systems description parameter").
Reference: L2V4 Sections 4.9.5 and 5
SBO term 'SBO:0000336' on the <parameter> is not in the appropriate branch.
- The value of the 'sboTerm' attribute on a <parameter> is expected to be an SBO identifier (http://www.biomodels.net/SBO/) referring to a quantitative parameter defined in SBO (i.e., terms derived from SBO:0000002, "quantitative systems description parameter").
Reference: L2V4 Sections 4.9.5 and 5
SBO term 'SBO:0000336' on the <parameter> is not in the appropriate branch.
- The value of the 'sboTerm' attribute on a <parameter> is expected to be an SBO identifier (http://www.biomodels.net/SBO/) referring to a quantitative parameter defined in SBO (i.e., terms derived from SBO:0000002, "quantitative systems description parameter").
Reference: L2V4 Sections 4.9.5 and 5
SBO term 'SBO:0000393' on the <parameter> is not in the appropriate branch.
- The value of the 'sboTerm' attribute on a <parameter> is expected to be an SBO identifier (http://www.biomodels.net/SBO/) referring to a quantitative parameter defined in SBO (i.e., terms derived from SBO:0000002, "quantitative systems description parameter").
Reference: L2V4 Sections 4.9.5 and 5
SBO term 'SBO:0000393' on the <parameter> is not in the appropriate branch.
- The value of the 'sboTerm' attribute on a <parameter> is expected to be an SBO identifier (http://www.biomodels.net/SBO/) referring to a quantitative parameter defined in SBO (i.e., terms derived from SBO:0000002, "quantitative systems description parameter").
Reference: L2V4 Sections 4.9.5 and 5
SBO term 'SBO:0000393' on the <parameter> is not in the appropriate branch.
- The value of the 'sboTerm' attribute on a <parameter> is expected to be an SBO identifier (http://www.biomodels.net/SBO/) referring to a quantitative parameter defined in SBO (i.e., terms derived from SBO:0000002, "quantitative systems description parameter").
Reference: L2V4 Sections 4.9.5 and 5
SBO term 'SBO:0000393' on the <parameter> is not in the appropriate branch.
- The value of the 'sboTerm' attribute on a <parameter> is expected to be an SBO identifier (http://www.biomodels.net/SBO/) referring to a quantitative parameter defined in SBO (i.e., terms derived from SBO:0000002, "quantitative systems description parameter").
Reference: L2V4 Sections 4.9.5 and 5
SBO term 'SBO:0000393' on the <parameter> is not in the appropriate branch.
- The value of the 'sboTerm' attribute on a <parameter> is expected to be an SBO identifier (http://www.biomodels.net/SBO/) referring to a quantitative parameter defined in SBO (i.e., terms derived from SBO:0000002, "quantitative systems description parameter").
Reference: L2V4 Sections 4.9.5 and 5
SBO term 'SBO:0000393' on the <parameter> is not in the appropriate branch.
- The value of the 'sboTerm' attribute on a <parameter> is expected to be an SBO identifier (http://www.biomodels.net/SBO/) referring to a quantitative parameter defined in SBO (i.e., terms derived from SBO:0000002, "quantitative systems description parameter").
Reference: L2V4 Sections 4.9.5 and 5
SBO term 'SBO:0000393' on the <parameter> is not in the appropriate branch.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <assignmentRule> <math> expression 'kswe_prime * Swe1 + kswe_doubleprime * Swe1M + kswe_tripleprime * PSwe1' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <assignmentRule> <math> expression 'kmih_prime * Mih_ast + kmih_doubleprime * Mih' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <assignmentRule> <math> expression 'IEtot - IE' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <assignmentRule> <math> expression 'Cdh1tot - Cdh1' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <assignmentRule> <math> expression 'Mih1tot - Mih1a' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <assignmentRule> <math> expression 'Mcmtot - Mcm' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <assignmentRule> <math> expression 'SBFtot - SBF' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kdiss * Trim' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'Trim * (kdsic_prime * Cln + kdsic_doubleprime * Clb + kdsic)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'Trim * (kdclb_doubleprime * Cdh1 + kdclb_tripleprime * Cdc20a + kdclb_prime)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'Trim * kswe' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kass * Sic * Clb' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'PTrim * kmih' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'Clb * (kdclb_doubleprime * Cdh1 + kdclb_tripleprime * Cdc20a + kdclb_prime)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kswe * Clb' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'ksclb * mass * Jm * (eps + Mcm) / (mass + Jm)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kmih * PClb' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'SBF * (kisbf_prime + kisbf_doubleprime * Clb) / (jisbf + SBF)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'SBFin * (kasbf_prime * mass + kasbf_doubleprime * Cln) / (jasbf + SBFin)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'IE * kiie / (jiie + IE)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kaie * IEin * Clb / (jaie + IEin)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'Cdc20a * kicdc20 / (jicdc20 + Cdc20a)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kdcdc20 * Cdc20a' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kacdc20 * Cdc20 * IE / (jacdc20 + Cdc20)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'Cdh1 * (kicdh * Clb + kicdh_prime * Cln) / (jicdh + Cdh1)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'Cdh1in * (Kacdh_prime + Kacdh_doubleprime * Cdc20a) / (jacdh + Cdh1in)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'khsl1 * BUD * Swe1' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'khsl1 * BUD * PSwe1' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'Viwee * Swe1 * Clb / (Jiwee + Swe1)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'Viwee * Swe1M * Clb / (Jiwee + Swe1M)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kdswe_prime * Swe1' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'khsl1r * Swe1M' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'khsl1r * PSwe1M' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'PSwe1 * Vawee / (Jawee + PSwe1)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'PSwe1M * Vawee / (Jawee + PSwe1M)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'ksswe * SBF' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kssweC' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kdswe_prime * PSwe1' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kdiss * PTrim' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'PTrim * (kdclb_doubleprime * Cdh1 + kdclb_tripleprime * Cdc20a + kdclb_prime)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'PTrim * (kdsic_prime * Cln + kdsic_doubleprime * Clb + kdsic)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kass * PClb * Sic' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'Mih1a * Vimih / (jimih + Mih1a)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'Vamih * Mih1 * Clb / (Jamih + Mih1)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'Mcm * kimcm / (jimcm + Mcm)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'Mcmin * Clb * kamcm / (jamcm + Mcmin)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kdbud * BE' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'ksbud * Cln' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'Sic * (kdsic_prime * Cln + kdsic_doubleprime * Clb + kdsic)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kssic' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kdcln * Cln' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kscln * SBF' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kdswe_prime * Swe1M' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kdcdc20 * Cdc20' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kscdc20_prime + kscdc20_doubleprime * pow(Clb, 4) / (pow(jscdc20, 4) + pow(Clb, 4))' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'kdswe_doubleprime * PSwe1M' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'PClb * (kdclb_doubleprime * Cdh1 + kdclb_tripleprime * Cdc20a + kdclb_prime)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'mu * mass' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <event> <trigger> expression 'gt(Clb, 0.2)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <eventAssignment> <math> expression '1' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <event> <trigger> expression 'and(lt(Clb, 0.2), gt(flag, 0))' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <eventAssignment> <math> expression '0' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <eventAssignment> <math> expression '0.5 * mass' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <event> <trigger> expression 'or(geq(Clb, 0.2), geq(BE, 0.6))' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <eventAssignment> <math> expression '1' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <event> <trigger> expression 'and(lt(Clb, 0.2), lt(BE, 0.6))' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <eventAssignment> <math> expression '0' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'kswe' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'kswe_prime' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'kswe_doubleprime' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'kswe_tripleprime' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'kmih' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'kmih_prime' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'Mih_ast' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'kmih_doubleprime' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'Mih' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'IEin' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'IEtot' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'Cdh1in' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'Cdh1tot' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'Mih1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'Mih1tot' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'Mcmin' does not have a 'units' attribute.
...
log.SimulatorReportsTheStatusOfTheExecutionOfCombineArchives
(4.9 s)Test that simulator logs the execution of COMBINE/OMEX archives
Reason for skip:
The execution status report produced by the simulator is not valid:
'Outputs must have one of the keys `dataSets`, `curves` or `surfaces`'
Log:
/usr/local/lib/python3.9/site-packages/biosimulators_utils/warnings.py:31: BioSimulatorsWarning:
[33mThe SED document is potentially incorrect.
- Model `BIOMD0000000912` may be invalid.
- The model file `Caravagna2010.xml` may be invalid.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_induction_of_tumor(r2, T, b, V)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_removal_of_the_tumor(a, T, g2, V, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_and_transfer_of_effector_cells_to_the_tumor_site(p1, I, g1, E, c, T, V, s1)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_and_removal_of_effector_cells_from_the_site_of_tumor(mu2, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_of_interleukin_2(p2, V, T, E, g3, s2)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_of_interleukin_2(mu3, I)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'r2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'b' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'a' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'c' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'V' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's2' does not have a 'units' attribute.
[0m
/usr/local/lib/python3.9/site-packages/biosimulators_utils/warnings.py:31: BioSimulatorsWarning:
[33mThe COMBINE/OMEX archive may be invalid.
- The SED-ML file at location `./BIOMD0000000912_sim.sedml` may be invalid.
- Model `BIOMD0000000912` may be invalid.
- The model file `Caravagna2010.xml` may be invalid.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_induction_of_tumor(r2, T, b, V)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_removal_of_the_tumor(a, T, g2, V, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_and_transfer_of_effector_cells_to_the_tumor_site(p1, I, g1, E, c, T, V, s1)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_and_removal_of_effector_cells_from_the_site_of_tumor(mu2, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_of_interleukin_2(p2, V, T, E, g3, s2)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_of_interleukin_2(mu3, I)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'r2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'b' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'a' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'c' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'V' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's2' does not have a 'units' attribute.
[0m
Archive contains 1 SED-ML documents with 1 models, 1 simulations, 1 tasks, 1 reports, and 0 plots:
BIOMD0000000912_sim.sedml:
Tasks (1):
BIOMD0000000912_task
Reports (1):
report: 4 data sets
Executing SED-ML file 0: BIOMD0000000912_sim.sedml ...
Bundling outputs ...
Cleaning up ...
============= SUMMARY =============
Executed 1 SED documents:
SED documents (1):
Succeeded: 1
Skipped: 0
Failed: 0
Outputs (1):
Succeeded: 0
Skipped: 1
Failed: 0
log.SimulatorReportsTheStatusOfTheExecutionOfSedDocuments
(4.9 s)Test that simulator logs the execution of individual SED document in COMBINE/OMEX archives
Reason for skip:
The execution status report produced by the simulator is not valid:
'Outputs must have one of the keys `dataSets`, `curves` or `surfaces`'
Log:
/usr/local/lib/python3.9/site-packages/biosimulators_utils/warnings.py:31: BioSimulatorsWarning:
[33mThe SED document is potentially incorrect.
- Model `BIOMD0000000912` may be invalid.
- The model file `Caravagna2010.xml` may be invalid.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_induction_of_tumor(r2, T, b, V)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_removal_of_the_tumor(a, T, g2, V, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_and_transfer_of_effector_cells_to_the_tumor_site(p1, I, g1, E, c, T, V, s1)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_and_removal_of_effector_cells_from_the_site_of_tumor(mu2, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_of_interleukin_2(p2, V, T, E, g3, s2)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_of_interleukin_2(mu3, I)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'r2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'b' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'a' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'c' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'V' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's2' does not have a 'units' attribute.
[0m
/usr/local/lib/python3.9/site-packages/biosimulators_utils/warnings.py:31: BioSimulatorsWarning:
[33mThe COMBINE/OMEX archive may be invalid.
- The SED-ML file at location `./BIOMD0000000912_sim.sedml` may be invalid.
- Model `BIOMD0000000912` may be invalid.
- The model file `Caravagna2010.xml` may be invalid.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_induction_of_tumor(r2, T, b, V)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_removal_of_the_tumor(a, T, g2, V, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_and_transfer_of_effector_cells_to_the_tumor_site(p1, I, g1, E, c, T, V, s1)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_and_removal_of_effector_cells_from_the_site_of_tumor(mu2, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_of_interleukin_2(p2, V, T, E, g3, s2)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_of_interleukin_2(mu3, I)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'r2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'b' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'a' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'c' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'V' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's2' does not have a 'units' attribute.
[0m
Archive contains 1 SED-ML documents with 1 models, 1 simulations, 1 tasks, 1 reports, and 0 plots:
BIOMD0000000912_sim.sedml:
Tasks (1):
BIOMD0000000912_task
Reports (1):
report: 4 data sets
Executing SED-ML file 0: BIOMD0000000912_sim.sedml ...
Bundling outputs ...
Cleaning up ...
============= SUMMARY =============
Executed 1 SED documents:
SED documents (1):
Succeeded: 1
Skipped: 0
Failed: 0
Outputs (1):
Succeeded: 0
Skipped: 1
Failed: 0
log.SimulatorReportsTheStatusOfTheExecutionOfSedOutputs
(4.9 s)Test that simulator logs the execution of individual SED outputs in COMBINE/OMEX archives
Reason for skip:
The execution status report produced by the simulator is not valid:
'Outputs must have one of the keys `dataSets`, `curves` or `surfaces`'
Log:
/usr/local/lib/python3.9/site-packages/biosimulators_utils/warnings.py:31: BioSimulatorsWarning:
[33mThe SED document is potentially incorrect.
- Model `BIOMD0000000912` may be invalid.
- The model file `Caravagna2010.xml` may be invalid.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_induction_of_tumor(r2, T, b, V)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_removal_of_the_tumor(a, T, g2, V, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_and_transfer_of_effector_cells_to_the_tumor_site(p1, I, g1, E, c, T, V, s1)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_and_removal_of_effector_cells_from_the_site_of_tumor(mu2, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_of_interleukin_2(p2, V, T, E, g3, s2)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_of_interleukin_2(mu3, I)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'r2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'b' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'a' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'c' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'V' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's2' does not have a 'units' attribute.
[0m
/usr/local/lib/python3.9/site-packages/biosimulators_utils/warnings.py:31: BioSimulatorsWarning:
[33mThe COMBINE/OMEX archive may be invalid.
- The SED-ML file at location `./BIOMD0000000912_sim.sedml` may be invalid.
- Model `BIOMD0000000912` may be invalid.
- The model file `Caravagna2010.xml` may be invalid.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_induction_of_tumor(r2, T, b, V)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_removal_of_the_tumor(a, T, g2, V, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_and_transfer_of_effector_cells_to_the_tumor_site(p1, I, g1, E, c, T, V, s1)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_and_removal_of_effector_cells_from_the_site_of_tumor(mu2, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_of_interleukin_2(p2, V, T, E, g3, s2)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_of_interleukin_2(mu3, I)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'r2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'b' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'a' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'c' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'V' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's2' does not have a 'units' attribute.
[0m
Archive contains 1 SED-ML documents with 1 models, 1 simulations, 1 tasks, 1 reports, and 0 plots:
BIOMD0000000912_sim.sedml:
Tasks (1):
BIOMD0000000912_task
Reports (1):
report: 4 data sets
Executing SED-ML file 0: BIOMD0000000912_sim.sedml ...
Bundling outputs ...
Cleaning up ...
============= SUMMARY =============
Executed 1 SED documents:
SED documents (1):
Succeeded: 1
Skipped: 0
Failed: 0
Outputs (1):
Succeeded: 0
Skipped: 1
Failed: 0
log.SimulatorReportsTheStatusOfTheExecutionOfSedTasks
(4.8 s)Test that simulator logs the execution of individual SED tasks in COMBINE/OMEX archives
Reason for skip:
The execution status report produced by the simulator is not valid:
'NoneType' object is not iterable
Log:
/usr/local/lib/python3.9/site-packages/biosimulators_utils/warnings.py:31: BioSimulatorsWarning:
[33mThe SED document is potentially incorrect.
- Model `BIOMD0000000912` may be invalid.
- The model file `Caravagna2010.xml` may be invalid.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_induction_of_tumor(r2, T, b, V)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_removal_of_the_tumor(a, T, g2, V, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_and_transfer_of_effector_cells_to_the_tumor_site(p1, I, g1, E, c, T, V, s1)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_and_removal_of_effector_cells_from_the_site_of_tumor(mu2, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_of_interleukin_2(p2, V, T, E, g3, s2)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_deactivation_of_interleukin_2(mu3, I)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'r2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'b' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'a' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'c' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'p2' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'g3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'mu3' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 'V' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's1' does not have a 'units' attribute.
- As a principle of best modeling practice, the units of a <parameter> should be declared rather than be left undefined. Doing so improves the ability of software to check the consistency of units and helps make it easier to detect potential errors in models.
The <parameter> with the id 's2' does not have a 'units' attribute.
[0m
/usr/local/lib/python3.9/site-packages/biosimulators_utils/warnings.py:31: BioSimulatorsWarning:
[33mThe COMBINE/OMEX archive may be invalid.
- The SED-ML file at location `./BIOMD0000000912_sim.sedml` may be invalid.
- Model `BIOMD0000000912` may be invalid.
- The model file `Caravagna2010.xml` may be invalid.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_induction_of_tumor(r2, T, b, V)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_removal_of_the_tumor(a, T, g2, V, E)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In situations where a mathematical expression contains literal numbers or parameters whose units have not been declared, it is not possible to verify accurately the consistency of the units in the expression.
The units of the <kineticLaw> <math> expression 'compartment * Function_for_activation_and_transfer_of_effector_cells_to_the_tumor_site(p1, I, g1, E, c, T, V, s1)' cannot be fully checked. Unit consistency reported as either no errors or further unit errors related to this object may not be accurate.
- In ...
The image for your simulator is valid!
Your submission was committed to the BioSimulators registry. Thank you!
Future submissions of subsequent versions of tellurium to the BioSimulators registry will be automatically validated. These submissions will not require manual review by the BioSimulators Team.
id: tellurium version: 2.2.0 specificationsUrl: https://raw.githubusercontent.com/biosimulators/Biosimulators_tellurium/48d157b7c74a6cf9508a36e70aaa9efe0704df06/biosimulators.json specificationsPatch: version: 2.2.0 image: url: ghcr.io/biosimulators/biosimulators_tellurium/tellurium:2.2.0 validateImage: true commitSimulator: true