User:Jcreer/SRH-2D Error Messages Tables: Difference between revisions

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__NOINDEX__
__NOINDEX__
===SRH-2D Simulation Errors===
This table lists errors that can occur during the SRH-2D simulation run.
{| class="wikitable sortable" style="border:1px solid black;"
{| class="wikitable sortable" style="border:1px solid black;"
|+SRH-2D Simulation Errors
|+SRH-2D Simulation Errors
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! style="width:5%;" | Error Code
! style="width:5%;" | Error Code
! style="width:25%;" | Error Text from Model
! style="width:25%;" | Error Text from Model
! ! style="width:5%;" | Affected Model Component
! style="width:25%;" class="unsortable" | Description
! style="width:25%;" class="unsortable" | Description
! style="width:40%;" class="unsortable" | Potential Solution
! style="width:35%;" class="unsortable" | Potential Solution
<!-- Use the following as a template to add new entries
<!-- Use the following as a template to add new entries
|-
|-
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| code
| code
| text
| text
| component
| description
| description
| solution
| solution
Line 20: Line 25:
| 1
| 1
| Stopped in spline.f90 H
| Stopped in spline.f90 H
| BC Coverage
| Time series data used to define inflows/outflows or time varying water surface elevations has issues with how it is defined, such as duplicate times.  
| Time series data used to define inflows/outflows or time varying water surface elevations has issues with how it is defined, such as duplicate times.  
| The time series data should only have one data value per defined time. Review the ''XY Series Editor'' where the time series data is defined for the boundary conditions and remove any duplicate time entries.
| The time series data should only have one data value per defined time. Review the ''XY Series Editor'' where the time series data is defined for the boundary conditions and remove any duplicate time entries.
Line 25: Line 31:
| SRH-2D
| SRH-2D
| 1
| 1
| Stopped in uti_qwin_xyplot.f90 TIME_SIMU  
| Stopped in uti_qwin_xyplot.f90 TIME_SIMU
| Model Control
| Inconsistent time control settings.
| Inconsistent time control settings.
| The end time is prior to the start time in the model control. Adjust so the end time is later than the start time.
| The end time is prior to the start time in the model control. Adjust so the end time is later than the start time.
Line 32: Line 39:
|  
|  
| No cells cover an obstruction in structure_obstruction.f90
| No cells cover an obstruction in structure_obstruction.f90
| Obstruction Coverage
| Obstruction feature area of influence does not cover the centroid of at least one element.
| Obstruction feature area of influence does not cover the centroid of at least one element.
| The "Obstruction Width/Diameter:" value in the ''Obstructions Properties'' dialog is set to "0" and/or an obstruction arc is positioned just beyond half the width/diameter defined in the properties from the centroid of a mesh element.  
| The "Obstruction Width/Diameter:" value in the ''Obstructions Properties'' dialog is set to "0" and/or an obstruction arc is positioned just beyond half the width/diameter defined in the properties from the centroid of a mesh element.  
Line 38: Line 46:
| 5
| 5
| Stopped in structure_culvert.f90 ICELL error#5
| Stopped in structure_culvert.f90 ICELL error#5
| Material Coverage
| Boundary condition arc mesh snapping does not match inactive material zone snapping.
| Boundary condition arc mesh snapping does not match inactive material zone snapping.
| <!--In SMS v12.1, some paired arc 1D structures require an "unassigned" material zone between the structure arcs. If the material zone snapping does not match the BC arc snapping, there will be element inactivity problems at the face of the structure. Modify the placement of the structure arcs in the boundary condition coverage or unassigned material polygon edges so that the snap preview of the material polygon matches the snap preview of the structure arc. In SMS 12.2 or later, it is not necessary to create the unassigned material polygon to disable the area between the structure arcs because SRH-2D has been modified to do this internally. If encountering this error using 12.2 or later, one possible solution would be to delete the unassigned material polygon, rebuild polygons and double check all polygons to make sure valid material types have been assigned.-->Review the material polygon snapping and review material assignment.
| <!--In SMS v12.1, some paired arc 1D structures require an "unassigned" material zone between the structure arcs. If the material zone snapping does not match the BC arc snapping, there will be element inactivity problems at the face of the structure. Modify the placement of the structure arcs in the boundary condition coverage or unassigned material polygon edges so that the snap preview of the material polygon matches the snap preview of the structure arc. In SMS 12.2 or later, it is not necessary to create the unassigned material polygon to disable the area between the structure arcs because SRH-2D has been modified to do this internally. If encountering this error using 12.2 or later, one possible solution would be to delete the unassigned material polygon, rebuild polygons and double check all polygons to make sure valid material types have been assigned.-->Review the material polygon snapping and review material assignment.
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|  
|  
| None
| None
| More than 99 obstructions exist
| Obstruction Coverage
| More than 99 obstructions exist in the project.
| SRH-2D has a built in limit to how many obstructions can be included in a model. Currently this limit is 99. Reduce the number of obstructions to 99 or fewer.
| SRH-2D has a built in limit to how many obstructions can be included in a model. Currently this limit is 99. Reduce the number of obstructions to 99 or fewer.
<!--|-
<!--|-
Line 56: Line 66:
| 2
| 2
| ALL INLET cells are dry from bc_mdot2.f90! Code may have blow up due to input errors or too-large time step.
| ALL INLET cells are dry from bc_mdot2.f90! Code may have blow up due to input errors or too-large time step.
| Material Coverage
| Material polygons near inflow are unassigned. This occurs when the material coverage has not been linked to the simulation. Also occurs when all material polygons covering the inflow BC have an "unassigned" material type. This can also occur if no boundary conditions providing an inflow source have been included in the simulation.
| Material polygons near inflow are unassigned. This occurs when the material coverage has not been linked to the simulation. Also occurs when all material polygons covering the inflow BC have an "unassigned" material type. This can also occur if no boundary conditions providing an inflow source have been included in the simulation.
| Review the simulation to make certain materials have been assigned and that materials and BC coverages have been added to the simulation.
| Review the simulation to make certain materials have been assigned and that materials and BC coverages have been added to the simulation.
Line 62: Line 73:
|  
|  
| FATAL ERROR The code diverged; further reduction of time step would help the convergence!
| FATAL ERROR The code diverged; further reduction of time step would help the convergence!
| Model Control
| Too large of a time step.
| Too large of a time step.
| Reduce the size of the computational time step in the model control.
| Reduce the size of the computational time step in the model control.
Line 68: Line 80:
| 3
| 3
| bad mesh ! Stopped in indx_conn.f
| bad mesh ! Stopped in indx_conn.f
| 2D Mesh
| Problem in mesh, often due to overlapping elements.  
| Problem in mesh, often due to overlapping elements.  
| Check if problem cell (element) id is listed. Otherwise, examine mesh quality in SMS.
| Check if problem cell (element) id is listed. Otherwise, examine mesh quality in SMS.
Line 74: Line 87:
| 0
| 0
| Exit code 0
| Exit code 0
| Varies
| The SRH-2D simulation has stopped or finished whether successfully executed or not.
| The SRH-2D simulation has stopped or finished whether successfully executed or not.
| Review the simulation results, if any. Further troubleshooting may be required if there are no solutions data or the data is incomplete.
| Review the simulation results, if any. Further troubleshooting may be required if there are no solutions data or the data is incomplete.
Line 80: Line 94:
| 8
| 8
| Inconsistent cell ID in mesh_connectivity: maybe due to wrong nodestring
| Inconsistent cell ID in mesh_connectivity: maybe due to wrong nodestring
| 2D Mesh, BC Coverage
| There is an issue with how the BC arcs are being assigned to the mesh elements.
| There is an issue with how the BC arcs are being assigned to the mesh elements.
| Review mesh for overlapping elements. Also, check snapping of BC arcs.
| Review mesh for overlapping elements. Also, check snapping of BC arcs.
Line 99: Line 114:
in casename.GRD file are: 15459 8277 23735 47225<br>
in casename.GRD file are: 15459 8277 23735 47225<br>
Mesh topology has to be the same for irest>=1 or init_method=3
Mesh topology has to be the same for irest>=1 or init_method=3
| Model Control
| Using a restart file that was created with another mesh. Restart files can only be used with simulations using the exact same mesh.
| Using a restart file that was created with another mesh. Restart files can only be used with simulations using the exact same mesh.
| Review the restart file and use a restart that matches the mesh. Regenerate the restart file if needed or select a different initial condition option.
| Review the restart file and use a restart that matches the mesh. Regenerate the restart file if needed or select a different initial condition option.
Line 105: Line 121:
| 6940
| 6940
| None
| None
| Material Coverage
| The assigned material types for the areas upstream or downstream of the culvert location are not valid.
| The assigned material types for the areas upstream or downstream of the culvert location are not valid.
| Ensure that areas upstream of the upstream culvert location and areas downstream of the downstream culvert location have a valid material type assigned.
| Ensure that areas upstream of the upstream culvert location and areas downstream of the downstream culvert location have a valid material type assigned.
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| 1
| 1
| Stopped in structure_pressure_flow.f90 PARA DISTANCE
| Stopped in structure_pressure_flow.f90 PARA DISTANCE
| 2D Mesh, BC Coverage
| Shape of pressure zone is not acceptable for a parabolic type bridge ceiling.
| Shape of pressure zone is not acceptable for a parabolic type bridge ceiling.
| Ensure that the pressure zone, between the pressure flow arcs, is rectangular in shape.
| Ensure that the pressure zone, between the pressure flow arcs, is rectangular in shape.
Line 119: Line 137:
Wrong IFACE matching occurred in structure_internal.f90 #4
Wrong IFACE matching occurred in structure_internal.f90 #4
Error Code is:    9669
Error Code is:    9669
| 2D Mesh, BC Coverage
| The area between the pressure zone arcs with overtopping turned on is not rectangular in shape and/or that the elements in-between the arcs are not rectangular.
| The area between the pressure zone arcs with overtopping turned on is not rectangular in shape and/or that the elements in-between the arcs are not rectangular.
| Ensure that the area between the pressure zone arcs with overtopping turned on is rectangular in shape and that the elements in between the arcs are quads (rectangles). If necessary, create a new mesh with a rectangle between pressure flow arcs and which has quads in this area using the patch mesh generation method.
| Ensure that the area between the pressure zone arcs with overtopping turned on is rectangular in shape and that the elements in between the arcs are quads (rectangles). If necessary, create a new mesh with a rectangle between pressure flow arcs and which has quads in this area using the patch mesh generation method.
Line 128: Line 147:
Wrong IFACE matching occurred in structure_internal.f90 #4
Wrong IFACE matching occurred in structure_internal.f90 #4
Error Code is:    46631
Error Code is:    46631
| 2D Mesh
| Ensure that the area between the pressure zone arcs with overtopping turned on is rectangular in shape and that the elements in between the arcs are quads (rectangles).
| Ensure that the area between the pressure zone arcs with overtopping turned on is rectangular in shape and that the elements in between the arcs are quads (rectangles).
| Create a new mesh with a rectangle between pressure flow arcs and which has quads in this area using the patch mesh generation method.
| Create a new mesh with a rectangle between pressure flow arcs and which has quads in this area using the patch mesh generation method.
Line 137: Line 157:
Wrong IFACE matching occurred in structure_internal.f90 #4
Wrong IFACE matching occurred in structure_internal.f90 #4
Error Code is:    0
Error Code is:    0
| BC Coverage
| There is an issue with one or more boundary condition arc definitions.
| There is an issue with one or more boundary condition arc definitions.
| Review snap preview of boundary condition arcs.
| Review snap preview of boundary condition arcs.
Line 145: Line 166:
A downstream Structure nodestring has not set right; structure_culvert.f90 ICELL error#2
A downstream Structure nodestring has not set right; structure_culvert.f90 ICELL error#2
Error Code is:    16026
Error Code is:    16026
| 2D Mesh
| The 2D mesh around and through the structure is not optimal.
| The 2D mesh around and through the structure is not optimal.
| Examine the areas around the structure. Suggestions to optimize the mesh around the structure include creating patched (quadrilateral) elements through the structure from one face to the other. <!--SRH-2D inactivates elements between the structure faces where the 1D flow is computed. Creating quadrilateral elements in the zone between the faces facilitates the process SRH uses to locate and inactivate the flow computations for those elements in the mesh. Configure the mesh such that the structure faces can be created alone a series of element edges that are oriented in the same direction (along a flat and straight line of element edges).-->
| Examine the areas around the structure. Suggestions to optimize the mesh around the structure include creating patched (quadrilateral) elements through the structure from one face to the other. <!--SRH-2D inactivates elements between the structure faces where the 1D flow is computed. Creating quadrilateral elements in the zone between the faces facilitates the process SRH uses to locate and inactivate the flow computations for those elements in the mesh. Configure the mesh such that the structure faces can be created alone a series of element edges that are oriented in the same direction (along a flat and straight line of element edges).-->
Line 153: Line 175:
Tailwater WSE exceeded the maximum TW in the Reverse HY8 Table structure_hy8.f90
Tailwater WSE exceeded the maximum TW in the Reverse HY8 Table structure_hy8.f90
Error Code is: 79
Error Code is: 79
| 2D Mesh, Model Control
| Computed water surface elevations near the culvert became extremely high. This could be from too large of a time step, poor mesh quality near the culvert faces, or parts of the mesh were the culvert is applied have higher elevations than what are defined as the inverts defined in the HY-8 culvert definition
| Computed water surface elevations near the culvert became extremely high. This could be from too large of a time step, poor mesh quality near the culvert faces, or parts of the mesh were the culvert is applied have higher elevations than what are defined as the inverts defined in the HY-8 culvert definition
| Review mesh quality near the culvert face. Check to ensure that mesh node elevations where culvert faces are applied do not exceed invert elevations as defined in the HY-8 culvert definition. Lowering the time step to improve stability around the culvert could also help.
| Review mesh quality near the culvert face. Check to ensure that mesh node elevations where culvert faces are applied do not exceed invert elevations as defined in the HY-8 culvert definition. Lowering the time step to improve stability around the culvert could also help.
Line 159: Line 182:
| N/A
| N/A
| forrtl: severe (24): end-of-file during read, unit n, file {your filepath.dat} Image PC Routine Line Source srh2d_3.2_quickwi...Unknown...
| forrtl: severe (24): end-of-file during read, unit n, file {your filepath.dat} Image PC Routine Line Source srh2d_3.2_quickwi...Unknown...
| Varies
| This is usually a generic error indicating something is wrong with the SRH-2D simulation casename.DAT file created by SRH pre. It typically signifies that SRH-Pre did not terminate normally and generate a valid simulation file. The cause of the error could be any number of issues.
| This is usually a generic error indicating something is wrong with the SRH-2D simulation casename.DAT file created by SRH pre. It typically signifies that SRH-Pre did not terminate normally and generate a valid simulation file. The cause of the error could be any number of issues.
| Check for any error messages reported by SRH-pre by going to the SMS model wrapper and clicking on the "PreSRH-2D" line and reviewing the on screen output messages.
| Check for any error messages reported by SRH-pre by going to the SMS model wrapper and clicking on the "PreSRH-2D" line and reviewing the on screen output messages.
Line 165: Line 189:
| 1
| 1
| Program stopped due to the following: Stopped in read_input2: Mismatch in HY8 ID
| Program stopped due to the following: Stopped in read_input2: Mismatch in HY8 ID
|
| This is a bug in SRH caused by having two culvert crossings defined in the *.hy8 crossing file with certain similarities in their names.
| This is a bug in SRH caused by having two culvert crossings defined in the *.hy8 crossing file with certain similarities in their names.
| The temporary workaround until this is fixed is to make all crossing names as different as possible, including the first character of the names. For example, "My Culvert" and "My Culvert1" could cause this error. Change one of the crossings to make it different, something like "My Culvert" and "Two Barrel Wingwall" would resolve the issue.-->
| The temporary workaround until this is fixed is to make all crossing names as different as possible, including the first character of the names. For example, "My Culvert" and "My Culvert1" could cause this error. Change one of the crossings to make it different, something like "My Culvert" and "Two Barrel Wingwall" would resolve the issue.-->
Line 171: Line 196:
| N/A
| N/A
| Failed to find a mesh cell which contains the following (x y) points: (X,Y)=
| Failed to find a mesh cell which contains the following (x y) points: (X,Y)=
| 2D Mesh
| This is caused when there is a void added to the mesh by deleting a mesh element from the mesh after the mesh has been generated. Creating void by deleting mesh elements may not actually remove the element data from the mesh in SRH-2D.  
| This is caused when there is a void added to the mesh by deleting a mesh element from the mesh after the mesh has been generated. Creating void by deleting mesh elements may not actually remove the element data from the mesh in SRH-2D.  
|If a void is needed in the mesh, it should be created as a polygon in the Mesh Generator coverage and given a mesh type of "None". When a mesh is generated using polygons with the "None" type, a void will be created in the mesh that can be recognized by SRH-2D.
|If a void is needed in the mesh, it should be created as a polygon in the Mesh Generator coverage and given a mesh type of "None". When a mesh is generated using polygons with the "None" type, a void will be created in the mesh that can be recognized by SRH-2D.
Line 177: Line 203:
| 0
| 0
| Program stopped due to the following: IFACE match does not found in structure_culvert.f90 #''n''
| Program stopped due to the following: IFACE match does not found in structure_culvert.f90 #''n''
| 2d Mesh
| Element configuration around the structure face is causing a mismatch in the transition into or out of the structure.
| Element configuration around the structure face is causing a mismatch in the transition into or out of the structure.
| It may help to ensure all elements within the two structures are quadrilateral elements. It may also help to ensure that the first row of elements downstream of the downstream structure face and upstream of the upstream structure face are also quadrilateral elements that are "well formed" ("Well formed" elements as in having interior corners as close to 90 degrees as possible).
| It may help to ensure all elements within the two structures are quadrilateral elements. It may also help to ensure that the first row of elements downstream of the downstream structure face and upstream of the upstream structure face are also quadrilateral elements that are "well formed" ("Well formed" elements as in having interior corners as close to 90 degrees as possible).
Line 183: Line 210:
| 1
| 1
| Program stopped due to the following: Stopped in read_input2.f90 HY8 Forward_TABLE Line Error
| Program stopped due to the following: Stopped in read_input2.f90 HY8 Forward_TABLE Line Error
| Files
| There is a problem reading the culvert table file. One of the causes of this is that the HY-8 file containing the culvert definition does not include a file extension.
| There is a problem reading the culvert table file. One of the causes of this is that the HY-8 file containing the culvert definition does not include a file extension.
| Add a ".hy8" file extension to the culvert definition filename.
| Add a ".hy8" file extension to the culvert definition file name.
|-
|-
|SRH-2D
|SRH-2D
|N/A
|N/A
|forrtl: severe (170): Program Exception - stack overflow
|forrtl: severe (170): Program Exception - stack overflow
| 2D Mesh
|The simulation is too large for SRH-2D to process. Typically this occurs when running a simulation using sediment transport and a 2D mesh that contains more than 50,000 elements.
|The simulation is too large for SRH-2D to process. Typically this occurs when running a simulation using sediment transport and a 2D mesh that contains more than 50,000 elements.
|Reduce the number of elements in the 2D mesh and try running the simulation again.
|Reduce the number of elements in the 2D mesh and try running the simulation again.
Line 195: Line 224:
| 3
| 3
| Not ready in solve.f90 SEDIMENT MODULE
| Not ready in solve.f90 SEDIMENT MODULE
| Model Control, BC Coverage
| This errors occurs when sediment transport is being modeled in a project containing 1D hydraulic structures (culverts, weirs, pressure bridges, etc.). SRH-2D cannot model sediment transport in models containing 1D hydraulic structures.
| This errors occurs when sediment transport is being modeled in a project containing 1D hydraulic structures (culverts, weirs, pressure bridges, etc.). SRH-2D cannot model sediment transport in models containing 1D hydraulic structures.
| Either do not use the sediment transport in the model run, or remove the 1D hydraulic structures from the model.
| Either do not use the sediment transport in the model run, or remove the 1D hydraulic structures from the model.
Line 201: Line 231:
| 1
| 1
| Program stopped due to the following: Wrong Boundary ID;may due to some boundary mesh points are not in NODESTRING lists in SMS
| Program stopped due to the following: Wrong Boundary ID;may due to some boundary mesh points are not in NODESTRING lists in SMS
| 2D Mesh
| This error seems to be related to issues with mesh quality.  
| This error seems to be related to issues with mesh quality.  
| Review mesh quality. Check for elements with very small or very large interior angles (angles less than 10 degrees or greater than 180 degrees. If any are present, make adjustments in the conceptual model (mesh generator coverage) and re-generate the mesh.
| Review mesh quality. Check for elements with very small or very large interior angles (angles less than 10 degrees or greater than 180 degrees. If any are present, make adjustments in the conceptual model (mesh generator coverage) and re-generate the mesh.
Line 207: Line 238:
| 67
| 67
| Input statement requires too much data, unit 1
| Input statement requires too much data, unit 1
| Model Control
| This error appears related to using a restart file that doesn't match the project geometry.
| This error appears related to using a restart file that doesn't match the project geometry.
| Review the restart file. Common issues appear to be using a restart file that came from a different project or uses a different projection. Check that all major aspects of the project geometry (mesh, nodes, units, coordinate system) match what is used in the project in order to use a restart file. The other solution is to not use a restart file with the simulation and select another option for the initial condition.
| Review the restart file. Common issues appear to be using a restart file that came from a different project or uses a different projection. Check that all major aspects of the project geometry (mesh, nodes, units, coordinate system) match what is used in the project in order to use a restart file. The other solution is to not use a restart file with the simulation and select another option for the initial condition.
Line 212: Line 244:
|SRH-2D
|SRH-2D
| 7
| 7
| Inconsistant cell ID in mesh_connectivity.f90: maybe wrong nodestring
| Inconsistent cell ID in mesh_connectivity.f90: maybe wrong nodestring
| BC Coverage
| This error is caused when two arcs in the boundary condition coverage snap to the same nodes but have different boundary condition types.
| This error is caused when two arcs in the boundary condition coverage snap to the same nodes but have different boundary condition types.
| Review the boundary condition arcs and use the snap preview.
| Review the boundary condition arcs and use the snap preview.
|}
|}


===Pre-SRH-2D Errors===
This table contains errors that can occur during the PreSRH-2D, or pre-processor, run for the simulation.
{| class="wikitable sortable" style="border:1px solid black;"
{| class="wikitable sortable" style="border:1px solid black;"
|+ Pre-SRH-2D Simulation Errors
|+ Pre-SRH-2D Simulation Errors
Line 270: Line 305:
| Issue with the boundary conditions arcs.
| Issue with the boundary conditions arcs.
| In this case, this issue was from a bug where SMS was exporting the nodestring in the SRHGEOM file incorrectly for two HY8 culvert arcs. SMS was essentially writing the same string of nodes for both the upstream and downstream culvert arcs.-->
| In this case, this issue was from a bug where SMS was exporting the nodestring in the SRHGEOM file incorrectly for two HY8 culvert arcs. SMS was essentially writing the same string of nodes for both the upstream and downstream culvert arcs.-->
<!--|-
|-
|-
| PreSRH-2D
| PreSRH-2D
Line 283: Line 317:
| This errors occurs when sediment transport is on and there are more than the maximum number of allowed sediment layers (9) for one or more sediment materials.
| This errors occurs when sediment transport is on and there are more than the maximum number of allowed sediment layers (9) for one or more sediment materials.
| Reduce the number of sediment layers to 9 or less for each sediment material.
| Reduce the number of sediment layers to 9 or less for each sediment material.
|}
===Other Errors===
This table contains additional errors that can occur with an SRH-2D simulation in SMS.
{| class="wikitable sortable" style="border:1px solid black;"
! style="width:5%;" | Location
! style="width:5%;" | Error Code
! style="width:25%;" | Error Text from Model
! style="width:25%;" class="unsortable" | Description
! style="width:40%;" class="unsortable" | Potential Solution
<!-- Use the following as a template to add new entries
|-
| location
| code
| text
| description
| solution
-->
|-
| SMS
|
| No mesh that matches the scalar set.
| No mesh that matches the scalar set. The solution file does not correspond to the mesh in the project, or node numbering of the mesh has been changed, invalidating the solution.
| Take care when making edits to the mesh and renumbering the nodes. Any previous results will be invalidated when nodes are renumbered.
|-
|
| None
| None
| WSE error directly under the bridge in the form of waves oscillating through the channel.
| Use larger, quadrilateral elements in the deepest areas of flow. Lowering the time step may also help.
|-
|-
|
| None
| None
| SRH-2D is not recognizing a 1D structure or 2D pressure flow structure. When reviewing the 2D results or output files it does not appear that SRH-2D is using a structure such as a culvert, pressure flow bridge structure, weir, or gate.
| Make sure the pair of arcs in the SRH-2D boundary condition coverage representing the faces of the structure were created in the same topologic direction (i.e. both were created left to right looking downstream or both were created right to left downstream). The direction does not matter, only that both arcs are consistent. Turn on the display of arc "Direction" in the display options for the map arcs. This will add an arrow to the map arcs in the display denoting their topologic direction.
|-
| SMS
|
| The following coverage(s) have an unsupported type and will be converted to area property: ''(Name of Coverage(s) Listed)''
| When opening the SRh-2D map file without the accompanying project file, the SRH-2D map coverages were not recognized.
| If the coverage type is under Model (which the *.map file provided indicated it was) then the type is stored in the project file so that error will appear when opening the *.map file. Locate and open the project file instead of the *.map file.
|-
| SMS
| 1
| Error code 1
| *.srhmat file does not exist.
| File didn't export successfully. Make sure materials are assigned in the materials coverage.
|}
|}

Latest revision as of 21:45, 8 March 2022


SRH-2D Simulation Errors

This table lists errors that can occur during the SRH-2D simulation run.

SRH-2D Simulation Errors
Location Error Code Error Text from Model Affected Model Component Description Potential Solution
SRH-2D 1 Stopped in spline.f90 H BC Coverage Time series data used to define inflows/outflows or time varying water surface elevations has issues with how it is defined, such as duplicate times. The time series data should only have one data value per defined time. Review the XY Series Editor where the time series data is defined for the boundary conditions and remove any duplicate time entries.
SRH-2D 1 Stopped in uti_qwin_xyplot.f90 TIME_SIMU Model Control Inconsistent time control settings. The end time is prior to the start time in the model control. Adjust so the end time is later than the start time.
SRH-2D No cells cover an obstruction in structure_obstruction.f90 Obstruction Coverage Obstruction feature area of influence does not cover the centroid of at least one element. The "Obstruction Width/Diameter:" value in the Obstructions Properties dialog is set to "0" and/or an obstruction arc is positioned just beyond half the width/diameter defined in the properties from the centroid of a mesh element.
SRH-2D 5 Stopped in structure_culvert.f90 ICELL error#5 Material Coverage Boundary condition arc mesh snapping does not match inactive material zone snapping. Review the material polygon snapping and review material assignment.
SRH-2D None Obstruction Coverage More than 99 obstructions exist in the project. SRH-2D has a built in limit to how many obstructions can be included in a model. Currently this limit is 99. Reduce the number of obstructions to 99 or fewer.
SRH-2D 2 ALL INLET cells are dry from bc_mdot2.f90! Code may have blow up due to input errors or too-large time step. Material Coverage Material polygons near inflow are unassigned. This occurs when the material coverage has not been linked to the simulation. Also occurs when all material polygons covering the inflow BC have an "unassigned" material type. This can also occur if no boundary conditions providing an inflow source have been included in the simulation. Review the simulation to make certain materials have been assigned and that materials and BC coverages have been added to the simulation.
SRH-2D FATAL ERROR The code diverged; further reduction of time step would help the convergence! Model Control Too large of a time step. Reduce the size of the computational time step in the model control.
SRH-2D 3 bad mesh ! Stopped in indx_conn.f 2D Mesh Problem in mesh, often due to overlapping elements. Check if problem cell (element) id is listed. Otherwise, examine mesh quality in SMS.
SRH-2D 0 Exit code 0 Varies The SRH-2D simulation has stopped or finished whether successfully executed or not. Review the simulation results, if any. Further troubleshooting may be required if there are no solutions data or the data is incomplete.
SRH-2D 8 Inconsistent cell ID in mesh_connectivity: maybe due to wrong nodestring 2D Mesh, BC Coverage There is an issue with how the BC arcs are being assigned to the mesh elements. Review mesh for overlapping elements. Also, check snapping of BC arcs.
SRH-2D Program Stopped as Mesh is different in RST file

One of the following is different:
Ncell Nvert Nface Nclfc Nclvt in RESTART file
do not match those in the input file
Ncell Nvert Nface Nclfc Nclvt
in restart file are: 13604 7374 20977 41693 41693
in casename.GRD file are: 15459 8277 23735 47225
Mesh topology has to be the same for irest>=1 or init_method=3

Model Control Using a restart file that was created with another mesh. Restart files can only be used with simulations using the exact same mesh. Review the restart file and use a restart that matches the mesh. Regenerate the restart file if needed or select a different initial condition option.
SRH-2D 6940 None Material Coverage The assigned material types for the areas upstream or downstream of the culvert location are not valid. Ensure that areas upstream of the upstream culvert location and areas downstream of the downstream culvert location have a valid material type assigned.
SRH-2D 1 Stopped in structure_pressure_flow.f90 PARA DISTANCE 2D Mesh, BC Coverage Shape of pressure zone is not acceptable for a parabolic type bridge ceiling. Ensure that the pressure zone, between the pressure flow arcs, is rectangular in shape.
SRH-2D 9669 Program stopped due to the following:

Wrong IFACE matching occurred in structure_internal.f90 #4 Error Code is: 9669

2D Mesh, BC Coverage The area between the pressure zone arcs with overtopping turned on is not rectangular in shape and/or that the elements in-between the arcs are not rectangular. Ensure that the area between the pressure zone arcs with overtopping turned on is rectangular in shape and that the elements in between the arcs are quads (rectangles). If necessary, create a new mesh with a rectangle between pressure flow arcs and which has quads in this area using the patch mesh generation method.
SRH-2D 46631 Program stopped due to the following:

Wrong IFACE matching occurred in structure_internal.f90 #4 Error Code is: 46631

2D Mesh Ensure that the area between the pressure zone arcs with overtopping turned on is rectangular in shape and that the elements in between the arcs are quads (rectangles). Create a new mesh with a rectangle between pressure flow arcs and which has quads in this area using the patch mesh generation method.
SRH-2D 0 Program stopped due to the following:

Wrong IFACE matching occurred in structure_internal.f90 #4 Error Code is: 0

BC Coverage There is an issue with one or more boundary condition arc definitions. Review snap preview of boundary condition arcs.
SRH-2D 16026 Program stopped due to the following:

A downstream Structure nodestring has not set right; structure_culvert.f90 ICELL error#2 Error Code is: 16026

2D Mesh The 2D mesh around and through the structure is not optimal. Examine the areas around the structure. Suggestions to optimize the mesh around the structure include creating patched (quadrilateral) elements through the structure from one face to the other.
SRH-2D 79 Program stopped due to the following:

Tailwater WSE exceeded the maximum TW in the Reverse HY8 Table structure_hy8.f90 Error Code is: 79

2D Mesh, Model Control Computed water surface elevations near the culvert became extremely high. This could be from too large of a time step, poor mesh quality near the culvert faces, or parts of the mesh were the culvert is applied have higher elevations than what are defined as the inverts defined in the HY-8 culvert definition Review mesh quality near the culvert face. Check to ensure that mesh node elevations where culvert faces are applied do not exceed invert elevations as defined in the HY-8 culvert definition. Lowering the time step to improve stability around the culvert could also help.
SRH-2D N/A forrtl: severe (24): end-of-file during read, unit n, file {your filepath.dat} Image PC Routine Line Source srh2d_3.2_quickwi...Unknown... Varies This is usually a generic error indicating something is wrong with the SRH-2D simulation casename.DAT file created by SRH pre. It typically signifies that SRH-Pre did not terminate normally and generate a valid simulation file. The cause of the error could be any number of issues. Check for any error messages reported by SRH-pre by going to the SMS model wrapper and clicking on the "PreSRH-2D" line and reviewing the on screen output messages.
SRH-2D N/A Failed to find a mesh cell which contains the following (x y) points: (X,Y)= 2D Mesh This is caused when there is a void added to the mesh by deleting a mesh element from the mesh after the mesh has been generated. Creating void by deleting mesh elements may not actually remove the element data from the mesh in SRH-2D. If a void is needed in the mesh, it should be created as a polygon in the Mesh Generator coverage and given a mesh type of "None". When a mesh is generated using polygons with the "None" type, a void will be created in the mesh that can be recognized by SRH-2D.
SRH-2D 0 Program stopped due to the following: IFACE match does not found in structure_culvert.f90 #n 2d Mesh Element configuration around the structure face is causing a mismatch in the transition into or out of the structure. It may help to ensure all elements within the two structures are quadrilateral elements. It may also help to ensure that the first row of elements downstream of the downstream structure face and upstream of the upstream structure face are also quadrilateral elements that are "well formed" ("Well formed" elements as in having interior corners as close to 90 degrees as possible).
SRH-2D 1 Program stopped due to the following: Stopped in read_input2.f90 HY8 Forward_TABLE Line Error Files There is a problem reading the culvert table file. One of the causes of this is that the HY-8 file containing the culvert definition does not include a file extension. Add a ".hy8" file extension to the culvert definition file name.
SRH-2D N/A forrtl: severe (170): Program Exception - stack overflow 2D Mesh The simulation is too large for SRH-2D to process. Typically this occurs when running a simulation using sediment transport and a 2D mesh that contains more than 50,000 elements. Reduce the number of elements in the 2D mesh and try running the simulation again.
SRH-2D 3 Not ready in solve.f90 SEDIMENT MODULE Model Control, BC Coverage This errors occurs when sediment transport is being modeled in a project containing 1D hydraulic structures (culverts, weirs, pressure bridges, etc.). SRH-2D cannot model sediment transport in models containing 1D hydraulic structures. Either do not use the sediment transport in the model run, or remove the 1D hydraulic structures from the model.
SRH-2D 1 Program stopped due to the following: Wrong Boundary ID;may due to some boundary mesh points are not in NODESTRING lists in SMS 2D Mesh This error seems to be related to issues with mesh quality. Review mesh quality. Check for elements with very small or very large interior angles (angles less than 10 degrees or greater than 180 degrees. If any are present, make adjustments in the conceptual model (mesh generator coverage) and re-generate the mesh.
SRH-2D 67 Input statement requires too much data, unit 1 Model Control This error appears related to using a restart file that doesn't match the project geometry. Review the restart file. Common issues appear to be using a restart file that came from a different project or uses a different projection. Check that all major aspects of the project geometry (mesh, nodes, units, coordinate system) match what is used in the project in order to use a restart file. The other solution is to not use a restart file with the simulation and select another option for the initial condition.
SRH-2D 7 Inconsistent cell ID in mesh_connectivity.f90: maybe wrong nodestring BC Coverage This error is caused when two arcs in the boundary condition coverage snap to the same nodes but have different boundary condition types. Review the boundary condition arcs and use the snap preview.

Pre-SRH-2D Errors

This table contains errors that can occur during the PreSRH-2D, or pre-processor, run for the simulation.

Pre-SRH-2D Simulation Errors
Location Error Code Error Text from Model Description Potential Solution
PreSRH-2D 1 unable to open srhhydro file! Unable to open the exported srhhydro file. The path length for the SMS project is too long. Therefore, the SRH-2D preprocessor could not read the exported files from SMS. Reduce the path length to less than 300 characters.
PreSRH-2D 1 Element ID is not consecutive The mesh element ID's have been mismatched since some mesh nodes were modified and not renumbered. Renumber the mesh nodes using the Renumber command under the Nodes menu in the Mesh module. Pre SRH-2D Errors from final_touch.f90 **** on MONITOR LINE#n
a face cannot be found given two mesh points

Two points are: xx xx
Check the mesh node list; do this using _SIF.dat file directly!

Monitor line spans a void or hole in the mesh. Reconfigure the monitor line. Monitor lines cannot span holes in the mesh.
PreSRH-2D 157 forrtl: severe (157): Program Exception - access violation SMS failed to locate the SRH-Pre executable. Review the file location in the Preferences dialog to ensure it is set to the correct location for SRH-Pre.
PreSRH-2D MESH-UNIT: Enter one of the following options for the unit of the mesh. There is an issue with the units set for the project. SRH requires that vertical and horizontal units be in either meters or U.S survey feet. Review the project and mesh project and units.
PreSRH-2D Could not find a mesh cell which contains the monitoring point! Check the input of (X Y) coordinates for a monitoring points A monitor point is outside of the mesh domain. Adjust the monitor point to be somewhere within a mesh element.
PreSRH-2D 4 Program stopped due to the following: Stopped in sec_blow NLAY Error Code is: 4 This errors occurs when sediment transport is on and there are more than the maximum number of allowed sediment layers (9) for one or more sediment materials. Reduce the number of sediment layers to 9 or less for each sediment material.

Other Errors

This table contains additional errors that can occur with an SRH-2D simulation in SMS.

Location Error Code Error Text from Model Description Potential Solution
SMS No mesh that matches the scalar set. No mesh that matches the scalar set. The solution file does not correspond to the mesh in the project, or node numbering of the mesh has been changed, invalidating the solution. Take care when making edits to the mesh and renumbering the nodes. Any previous results will be invalidated when nodes are renumbered.
None None WSE error directly under the bridge in the form of waves oscillating through the channel. Use larger, quadrilateral elements in the deepest areas of flow. Lowering the time step may also help.
None None SRH-2D is not recognizing a 1D structure or 2D pressure flow structure. When reviewing the 2D results or output files it does not appear that SRH-2D is using a structure such as a culvert, pressure flow bridge structure, weir, or gate. Make sure the pair of arcs in the SRH-2D boundary condition coverage representing the faces of the structure were created in the same topologic direction (i.e. both were created left to right looking downstream or both were created right to left downstream). The direction does not matter, only that both arcs are consistent. Turn on the display of arc "Direction" in the display options for the map arcs. This will add an arrow to the map arcs in the display denoting their topologic direction.
SMS The following coverage(s) have an unsupported type and will be converted to area property: (Name of Coverage(s) Listed) When opening the SRh-2D map file without the accompanying project file, the SRH-2D map coverages were not recognized. If the coverage type is under Model (which the *.map file provided indicated it was) then the type is stored in the project file so that error will appear when opening the *.map file. Locate and open the project file instead of the *.map file.
SMS 1 Error code 1 *.srhmat file does not exist. File didn't export successfully. Make sure materials are assigned in the materials coverage.