LS-PrePost Scripting Command Language, Python

Language and Data Center

Version Date Author Changes

Rev.1 July 29,2015 Philip Ho Base Version
Rev.2 Aug 8, 2016 Philip Ho
Rev.3 Sept 19, 2017 Philip Ho
Rev.4 Dec 6, 2018 Luo Liangfeng Component Name List
Update
Rev.5 Dec 18, 2018 Philip Ho Add Example description
Rev.6 June 10, 2019 Luo Liangfeng Component Name list
Update
Rev.7 June 26, 2020 Luo Liangfeng Add Element Deletion
array extraction
Rev.8 August 16, 2020 He Xi Add description about
Python scripting
Rev.9 July 7, 2022 Luo Liangfeng Add description of binout
reader.
Rev.10 Apr 19,2023 Luo Liangfeng Component Name List
Update
Rev.11 May 14, 2024 Kai Wang Python version and
parameter update

Introduction

The LS-PrePost Scripting Command Language (SCL) is designed to allow users

to write their own script to perform data manipulation for many different
purposes. The LS-PrePost SCL is a C like computer language that is executed
inside LS-PrePost. The user can execute LS-PrePost commands, retrieve LS-
DYNA results, apply LS-DYNA data center extraction functions, and extract
results from LS-DYNA d3plot files or model data from the keyword input file.
Also, perform additional operations to the extracted data that were not developed
within LS-PrePost. The resultant data can be output to the LS-PrePost message
file, or user created file, or send it back to LS-PrePost for fringing or plotting.
This document describes the application functions interface (API) and how to use
SCL along with some example scripts for various operations.

The SCL was first developed with a C-Like computer language. Since LS-PrePost
4.8, Python language was also used in SCL. The user can use Python scripting to

1
do somethings as same as above mentioned. The Python modules in LS-PrePost
include DataCenter (provides get_data) and LsPrePost (provides tools of LS-
PrePost, like fring_dc_to_model, execute_command, save_dc_to_file, etc.…).
The user can take advantage of Python’s rich third-party libraries to accomplish
their own special tasks.

SCL API Functions

void ExecuteCommand(char *cmd)

Purpose: Execute a LS-PrePost command
Input: cmd - a string contains the LS-PrePost command
Return: none
…...............................................................................................................................

void Echo(char *string)

Purpose: Display the text in the LS-PrePost message dialog and in the
lspost.msg file
Input: string - text string
Output: none
Return: none
…...............................................................................................................................

Int SCLSwitchStateTo(Int ist)

Purpose: Switch the current state to a specified state
Input: ist - state number, 0 < ist <= largest state
Output: none
Return: flag, 1=success, 0=fail
…...............................................................................................................................

Int SCLGetDataCenterInt(char *parameter_name)

Purpose : Get an integer scalar value from the model. See user parameter name
list below for the available scalar values that can be retrieved.
Input: parameter name
Output: none
Return: integer value
…...............................................................................................................................

Float SCLGetDataCenterFloat(char *parameter_name, Int typecode, Int index,

Int ipt)
Purpose : Get a floating point value from the model. See Data Center

2
 Parameter Name List below for the available floating point value that
can be retrieved.
Input: parameter name
Typecode - Element or node type, constants such as "SOLID",
"SHELL", "BEAM", "TSHELL", "NODE","SPHNODE" can be
used. Not used for the parameter_name, enter as zero.
Index - Index to element.
Ipt - Integration points or layer. Valid for getting component values
from element shell, beam and tshell, such as "MID", "INNER",
"OUTER", 1, 2, etc, can be used. Also valid for solid fully integrated,
base-1,such as "1","2"..."8" can be used.
Output: none
Return: float value
…...............................................................................................................................

void SCLGetDataCenterVector(char *parameter_name, Int externalid,

NDCOOR *result)
Purpose: Get a vector from the model data, a vector such as nodal coordinate,
displacement vector, velocity vector, acceleration vector, and so on.
typedef ndcoor {
Float xyz[3];
} NDCOOR;
Input: parameter_name
Externalid - Index in the component value array.
Output: result: vector
Return: none
…...............................................................................................................................

void SCLGetDataCenterTensor(char *parameter_name, Int Typecode, Int

externalid, Int ipt, TENSOR *result)
Purpose: Get stress/strain tensor from the model data.
typedef tensor{
Float xyz[6];
} TENSOR;
Input: parameter_name- "global_stress" and "global_strain" can be used.
Typecode - Element type or node type, constant such as "SOLID",
"SHELL", "BEAM", "TSHELL", "NODE","SPHNODE" can be
used. If it parameter is not needed, please give it zero.
Ipt - Integration points or layer. Valid for getting component values
from element shell, beam and tshell, such as "MID", "INNER",

3
 "OUTER", 1, 2, etc, can be used. Also valid for solid fully integrated,
base-1,such as "1","2"..."8" can be used.
Output: result - tensor
Return: none
…...............................................................................................................................

Int SCLGetDataCenterIntArray(char *parameter_name, Int **results,Int type,

Int id)
Purpose: Get an integer array from the model data
Input: parameter_name
type - element type(SHELL, SOLID, TSHELL, etc). If the
parameter_name “elemofpart_ids” is used, type=0 and type>0(1,2,etc)
mean to get the internal and external element id array, respectively.
id - element/part/nodeset/elementset id.
Output: results - integer array
Return: array size
…...............................................................................................................................

Int SCLGetDataCenterFloatArray(char *parameter_name, Int typecode, Int ipt,

Float **results)
Purpose: Get a floating point array from the model data
Input: parameter_name
Typecode - Element type or node type, constant such as "SOLID",
"SHELL", "BEAM", "TSHELL", "NODE","SPHNODE" can be
used. Not used for the parameter_name, enter zero.
Ipt - Integration points or layer. Valid for getting component values
from element shell, beam and tshell, such as "MID", "INNER",
"OUTER", 1, 2, etc, can be used. Also valid for solid fully integrated,
base-1,such as "1","2"..."8" can be used.
Output: results - float array
Return: array size
…...............................................................................................................................

Int SCLGetDataCenterVectorArray(char *parameter_name, NDCOOR

**results)
Purpose: Get a vector array from the model data
Input: parameter_name
Output: results: vector array
Return: array size
…...............................................................................................................................

4
Int SCLGetDataCenterTensorArray(char *parameter_name, Int typecode,
Int ipt, TENSOR **results)
Purpose: Get a stress or strain tensor array from the model data
Input: parameter_name- "global_stress" and "global_strain" can be used.
Typecode - Element type or node type, constant such as "SOLID",
"SHELL", "BEAM", "TSHELL", "NODE","SPHNODE" can be
used. If it parameter is not needed, please give it zero.
Ipt - Integration points or layer. Valid for getting component values
from element shell, beam and tshell, such as "MID", "INNER",
"OUTER", 1, 2, etc, can be used. Also valid for solid fully integrated,
base-1,such as "1","2"..."8" can be used.
Output: results: tensor array
Return: array size
…...............................................................................................................................

void SCLFringeDCToModel(Int typecode, Int avg_opt, Int num, Float* data, Int
ist, char *label)
Purpose: Fringe the data center array to current model.
Input: typecode - Node or element type, constant such as "NODE",
"0","SOLID","BEAM","SHELL","TSHELL","SPHNODE" can be
used.
avg_opt – nodal averaging option, 0=none, 1=nodal
num - array size
data - Float array
ist - State number which data will be assigned
Label - Name of the fringing data to be shown on fringe plot
Output: none
Return: none
…...............................................................................................................................

void SCLSaveDCToFile(char *filename, Int num, Float *data)

Purpose: Save the data center array to file.
Input: filename - name of output file.
Num - array size
Data - Float array
Output: none
Return: none
…...............................................................................................................................

5
Int SCLCmdResultGetValueCount(void)
Purpose: Get number of results from a LS-PrePost command.
Input: none
Output: none
Return: Number of command results.
…...............................................................................................................................

Int SCLCmdResultGetValue(Int i, Int *type, Int *iv, Float *v)

Purpose: Get value of command results.
Input: i - Index of command results. (starting from 0)
Output: type - Type of command results. 0=integer, 1=float
depends on the data type, one of the following will be used
iv - the integer result
v - the floating point result in double word.
Return: status flag, 1=success, 0=fail
…...............................................................................................................................

Int SCLGetUserId(Int iid, Int dtype)

Purpose: Get the user defined id given an internal id.
Input: iid - Internal id, starting with 0
Dtype - Data type, constant such as NODE, PART, SHELL, SOLID,
TSHELL, BEAM, DISCRETE, SEATBELT, SPHNODE can be
used.
Output: none
Return: user id
…...............................................................................................................................

Int SCLGetInternalID(Int uid, Int dtype)

purpose: Get internal id given an user id.
Input: uid - User id.
Dtype - Data type, constant such as NODE, PART, SHELL, SOLID,
TSHELL, BEAM, DISCRETE, SEATBELT, SPHNODE can be
used.
Output: none
Return: Internal id, starting with 0
…...............................................................................................................................

Int SCLGetUserPartIDFromUserElementID(Int uid, Int dtype)

purpose: Get user part id given an user element id.

6
Input: uid - User id.
Dtype - Data type, constant such as SHELL, SOLID, TSHELL,
BEAM and SPHNODE can be used.
Output: none
Return: User part id.
…...............................................................................................................................

Int SCLCheckIfPartIsActiveU(Int uid)

Purpose: Check if a part is active (visible) given a user defined part id
Input: uid - User id.
Output: none
Return: visibility flag, 1 is visible, 0 is invisible.
…...............................................................................................................................

Int SCLCheckIfPartIsActiveI(Int iid)

Purpose: Check if a part is active (visible) given an internal part id.
Input: iid - internal id.
Output: none
Return: visibility flag, 1 is visible, 0 is invisible.
…...............................................................................................................................

Int SCLCheckIfElementIsActiveU(Int uid, Int dtype)

Purpose: Check if an element part is active (visible) given an users element id.
Input: uid - User id.
Dtype - Data type, constant such as SHELL, SOLID, TSHELL,
BEAM, SPHNODE can be used.
Output: none
Return: visibility flag, 1 is visible, 0 is invisible
…...............................................................................................................................

Int SCLCheckIfElementisActiveI(Int iid, Int dtype)

Purpose: Check if an element is active (visible) given an internal id.
Input: iid - Internal id.
Dtype - Data type, constant such as SHELL, SOLID, TSHELL,
BEAM, SPHNODE can be used.
Output: none
Return: visibility flag, 1 is visible, 0 is invisible.
…...............................................................................................................................

7
Int SCLInquiryPartTypeU(Int uid)
Purpose: Check the type of element for a given user defined part id.
Input: uid – user defined external ID for part
Output: none
Return: element type code:
1 – BEAM, 2 – SHELL, 3 – SOLID, 4 – TSHELL
5 – NRBODY, 6 – MASS, 7 – DISCRETE, 8 – SEATBELT
9 – INERTIA, 10 – RGSURF, 11 – SPHNODE,
12 – FLUID, 13 – NURBSPATCH, 14 - PARTICLE

…...............................................................................................................................

Int SCLInquiryPartTypeI(Int iid)

Purpose: Check the type of element for a given internal part id.
Input: iid – internal ID for part
Output: none
Return: element type code:
1 – BEAM, 2 – SHELL, 3 – SOLID, 4 – TSHELL
5 – NRBODY, 6 – MASS, 7 – DISCRETE, 8 – SEATBELT
9 – INERTIA, 10 – RGSURF, 11 – SPHNODE,
12 – FLUID, 13 – NURBSPATCH, 14 - PARTICLE
…...............................................................................................................................

void SCLGetModelDirectory(char *dir)

Purpose: Get model directory.
Input: dir– the directory where model is put
Output: none
…...............................................................................................................................

Int SCLGetDataCenterString(char *parameter_name, Int iid, char *result)

Purpose: Get string from model data.
Input: parameter_name(like “part_name”, “time”).
iid - internal id(zero-based), not used if the
parameter_name is time.
Output: result - the string to be obtained.
Return: 0 is valid, 1 invalid.
…...............................................................................................................................

Binout reader data type and structure

8
struct BINOUT_Parameter_
{
Int id;
Int ipt;
Int nqt;
Int npl;
Int freq_mode;
Int cid;
Int idtype;
Int datatype_option;
};
1. id: the entity id, default is 0
2. ipt: the number through thickness integration point, default is 1
3. nqt: the node id of element, for the eloutdet branch only, default is 0
4. npl: the number of in-plane integration point, default is 1
5. freq_mode: the nth order frequency, default is 1
6. cid: the contact id, default is 0
7. nodeset: the nodeset id for rwforc, and default is -1
8. rigidwall: the rigidwall id for rwforc, and default is -1
9. idtype: the type of entity id, value from BINOUT_IdType
10. datatype_option: the option value from BINOUT_DataTypeoption
struct _BINOUT_String
{
chat string[64];

9
}
enum BINOUT_IdType
{
/* initial value for idtype*/
BINOUT_IDTYPE_NONE,

/* ID type in Elout branch*/

BINOUT_ELOUT_ID_BEAM,
BINOUT_ELOUT_ID_SHELL,
BINOUT_ELOUT_ID_SOLID,
BINOUT_ELOUT_ID_TSHELL,
/* ID type in Swforc branch*/
BINOUT_SWFORC_ID_CONSTRAINT,
BINOUT_SWFORC_ID_WELD,
BINOUT_SWFORC_ID_BEAM,
BINOUT_SWFORC_ID_SOLID,
BINOUT_SWFORC_ID_NONNODAL_CONSTRAINT,
BINOUT_SWFORC_ID_SOLID_ASSEMBLY,

/* ID type in Abstat branch*/

BINOUT_ABSTAT_ID_AIRBAG,
BINOUT_ABSTAT_ID_MATERIAL,

/* ID type in Abstat_pbm branch*/

BINOUT_ABSTAT_PBM_ID_PBLAST,
BINOUT_ABSTAT_PBM_ID_PART,

/* ID type in Nodfor branch*/

BINOUT_NODFOR_ID_NODE,
BINOUT_NODFOR_ID_GROUP,

/* ID type in rcforc branch*/

BINOUT_RCFORC_ID_MASTER,
BINOUT_RCFORC_ID_SLAVE,

/* ID type in sbtout branch*/

BINOUT_SBTOUT_ID_BELT,
BINOUT_SBTOUT_ID_RETRACTOR,
BINOUT_SBTOUT_ID_SLIPRING,

10
/*ID type in bndout branch*/
BINOUT_BNDOUT_ID_DISCRETENODES,
BINOUT_BNDOUT_ID_DISCRETERIGIDBODIES,
BINOUT_BNDOUT_ID_PRESSURE,
BINOUT_BNDOUT_ID_VELOCITYNODES,
BINOUT_BNDOUT_ID_VELOCITYRIGIDBODIES,
BINOUT_BNDOUT_ID_ORIENTATIONRIGIDBODIES,

/*ID type in nbndout branch*/

BINOUT_NBNDOUT_ID_DISCRETENODES,
BINOUT_NBNDOUT_ID_DISCRETERIGIDBODIES,
BINOUT_NBNDOUT_ID_PRESSURE,
BINOUT_NBNDOUT_ID_VELOCITYNODES,
BINOUT_NBNDOUT_ID_VELOCITYRIGIDBODIES,
BINOUT_NBNDOUT_ID_ORIENTATIONRIGIDBODIES,

/*ID type in jntforc branch*/

BINOUT_JNTFORC_ID_JOINTS,
BINOUT_JNTFORC_ID_STIFFNESS_TRANSLATIONAL,
BINOUT_JNTFORC_ID_STIFFNESS_GENERALIZED,

/*ID type in spcforc*/

BINOUT_SPCFORC_SETID,
BINOUT_SPCFORC_ID,

/*ID type in rwforc*/

BINOUT_RWFORC_ID_FORCES,
BINOUT_RWFORC_ID_TRANSDUCER,
BINOUT_RWFORC_ID_WALL,

/*ID type in nodfor_ssd */

BINOUT_NODFOR_SSD_ID_NODE,
BINOUT_NODFOR_SSD_ID_GROUP,

/*ID type in elout_ssd*/

BINOUT_ELOUT_SSD_ID_BEAM,
BINOUT_ELOUT_SSD_ID_SOLID,
BINOUT_ELOUT_SSD_ID_TSHELL,
BINOUT_ELOUT_SSD_ID_SHELL,

11
 /*ID type in eloutdet*/
BINOUT_ELOUTDET_ID_SOLID,
BINOUT_ELOUTDET_ID_SHELL,
BINOUT_ELOUTDET_ID_TSHELL,
BINOUT_ELOUTDET_ID_NODAVG,

/*ID type in abstat_cpm*/

BINOUT_ABSTATCPM_ID_BAG,
BINOUT_ABSTATCPM_ID_PART,
BINOUT_ABSTATCPM_ID_SPECIES,
BINOUT_ABSTATCPM_ID_CHAMBER,

/*ID type in elout_psd*/

BINOUT_ELOUT_PSD_ID_BEAM,
BINOUT_ELOUT_PSD_ID_SOLID,
BINOUT_ELOUT_PSD_ID_TSHELL,
BINOUT_ELOUT_PSD_ID_SHELL,

/*ID type in elout_spcm*/

BINOUT_ELOUT_SPCM_ID_BEAM,
BINOUT_ELOUT_SPCM_ID_SOLID,
BINOUT_ELOUT_SPCM_ID_TSHELL,
BINOUT_ELOUT_SPCM_ID_SHELL,
};
enum BINOUT_DataTypeOption
{
/* initial value for option*/
BINOUT_DATATYPE_GENERAL,

/* values for nodout_ssd,nodfor_ssd,elout_ssd files */

BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY,
BINOUT_DATATYPE_MODALCONTRIBUTION,

/*eloutdet ipt or nqt*/

BINOUT_DATATYPE_ELOUTDET_INTEGRATION_POINTS,
BINOUT_DATATYPE_ELOUTDET_NODAL_POINTS,

12
 /*elout lower or upper*/
BINOUT_DATATYPE_ELOUT_LOWER,
BINOUT_DATATYPE_ELOUT_UPPER,
};

Binout reader related Functions

…...............................................................................................................................
char * SCLBinoutOpen(char * filename)

purpose: Open a binout file.

Input: filename – file full name.
Output: none
Return: file handle.
…...............................................................................................................................
void SCLBinoutClose(char * handle)

purpose: Close the binout file.

Input: handle – file handle.
Output: none
Return: void.
…...............................................................................................................................
void SCLBinoutInit(BINOUT_Parameter * pBinoutParameter)

purpose: Initialize the binout parameter.

Input: pBinoutParameter – Advanced option settings are in binout
parameter.
Output: none
Return: void.
…...............................................................................................................................
Int SCLBinoutReadInt(char * handle, Int type, Int *value, _BINOUT_Parameter
*param)

purpose: Get integer type data from binout file.

Input: handle – file handle.
type – BINOUT_Datatype enumeration. See the “Binout_Datatype
Enumeration List” in below.

13
 param – Adcanved options for getting binout data.
Output: value – int type
Return: Int. 0 error, 1 correct.
…...............................................................................................................................
Int SCLBinoutReadStringArray(char * handle, Int type, _BINOUT_String
** value, _BINOUT_Parameter *param)

purpose: Get string type data from binout file.

Input: handle – file handle.
type – BINOUT_Datatype enumeration. See the “Binout_Datatype
Enumeration List” in below.
param – Adcanved options for getting binout data.
Output: value – _BINOUT_String array.
Return: Int. 0 error, 1 correct.
…...............................................................................................................................
Int SCLBinoutReadFloatArray(char * handle, Int type, Float **value,
_BINOUT_Parameter *param)

purpose: Get float array type data from binout file.

Input: handle – file handle.
type – BINOUT_Datatype enumeration. See the “Binout_Datatype
Enumeration List” in below.
param – Adcanved options for getting binout data.
Output: value – Float array.
Return: Int. 0 error, 1 correct.
…...............................................................................................................................
Int SCLBinoutReadIntArray(char * handle, Int type, Int **value,
_BINOUT_Parameter *param)

purpose: Get int array type data from binout file.

Input: handle – file handle.
type – BINOUT_Datatype enumeration. See the “Binout_Datatype
Enumeration List” in below.
param – Adcanved options for getting binout data.
Output: value – Int array.
Return: Int. 0 error, 1 correct.
…...............................................................................................................................

14
Binout_Datatype Enumeration List:

BINOUT_NUM_BRANCH int 1 ignore

BINOUT_BRANCHES BinoutS BINOUT_NUM_BRAN ignore

tringAr CH
ray

BINOUT_ABSTAT_NUM_TIMESTE int 1 ignore

P

BINOUT_ABSTAT_X double BINOUT_ABSTAT_N ignore

UM_TIMESTEP

BINOUT_ABSTAT_NUM_ID int 1 ignore

BINOUT_ABSTAT_IDS unsigne BINOUT_ABSTAT_N ignore

d int UM_ID

BINOUT_ABSTAT_NUM_COMPONE int 1 ignore

NT

BINOUT_ABSTAT_COMPONENTS BinoutS BINOUT_ABSTAT_N ignore

tringAr UM_COMPONENT
ray

BINOUT_ABSTAT_NUM_MATID int 1 ignore

BINOUT_ABSTAT_MAT_IDS unsigne BINOUT_ABSTAT_N ignore

d int UM_MATID

15
BINOUT_ABSTAT_AREA_BLOCKE double BINOUT_ABSTAT_N id, idtype:
D UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_AREA_UNBLOC double BINOUT_ABSTAT_N id, idtype:

KED UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_LEAKAGE double BINOUT_ABSTAT_N id, idtype:

UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_DENSITY double BINOUT_ABSTAT_N id, idtype:

UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_DM_DT_IN double BINOUT_ABSTAT_N id, idtype:

UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_DM_DT_OUT double BINOUT_ABSTAT_N id, idtype:

UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_DM_DT_OUTP double BINOUT_ABSTAT_N id, idtype:

UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_DM_DT_OUTV double BINOUT_ABSTAT_N id, idtype:

UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_DM_IN double BINOUT_ABSTAT_N id, idtype:

UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

16
BINOUT_ABSTAT_DM_OUT double BINOUT_ABSTAT_N id, idtype:
UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_DM_OUTP double BINOUT_ABSTAT_N id, idtype:

UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_DM_OUTV double BINOUT_ABSTAT_N id, idtype:

UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_GAS_TEMP double BINOUT_ABSTAT_N id, idtype:

UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_INTERNAL_EN double BINOUT_ABSTAT_N id, idtype:

ERGY UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_PRESSURE double BINOUT_ABSTAT_N id, idtype:

UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_REACTION double BINOUT_ABSTAT_N id, idtype:

UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_AREA_SURFAC double BINOUT_ABSTAT_N id, idtype:

E UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_TOTAL_MASS double BINOUT_ABSTAT_N id, idtype:

UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

17
BINOUT_ABSTAT_VOLUME double BINOUT_ABSTAT_N id, idtype:
UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_ABSTAT_PBM_NUM_TIM int 1 ignore

ESTEP

BINOUT_ABSTAT_PBM_X double BINOUT_ABSTAT_P ignore

BM_NUM_TIMESTEP

BINOUT_ABSTAT_PBM_NUM_ID int 1 ignore

BINOUT_ABSTAT_PBM_IDS unsigne BINOUT_ABSTAT_P ignore

d int BM_NUM_ID

BINOUT_ABSTAT_PBM_NUM_COM int 1 ignore

PONENT

BINOUT_ABSTAT_PBM_COMPONE BinoutS BINOUT_ABSTAT_P ignore

NTS tringAr BM_NUM_COMPONEN
ray T

BINOUT_ABSTAT_PBM_NUM_PAR int 1 ignore

TID

BINOUT_ABSTAT_PBM_PART_ID unsigne BINOUT_ABSTAT_P ignore

S d int BM_NUM_PARTID

BINOUT_ABSTAT_PBM_AIR_INT double BINOUT_ABSTAT_P id, idtype:

ER_E BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_AIR_TRA double BINOUT_ABSTAT_P id, idtype:

BINOUT_ABSTAT_PBM_ID_PBLAST or

18
NS_E BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_DETONAT double BINOUT_ABSTAT_P id, idtype:

ION_PRODUCT_INTER_E BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_DETONAT double BINOUT_ABSTAT_P id, idtype:

ION_PRODUCT_TRANS_E BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_OUTSIDE double BINOUT_ABSTAT_P id, idtype:

_DOMAIN_INTER_E BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_OUTSIDE double BINOUT_ABSTAT_P id, idtype:

_DOMAIN_TRANS_E BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_PRESSUR double BINOUT_ABSTAT_P id, idtype:

E_AIR BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_PRESSUR double BINOUT_ABSTAT_P id, idtype:

E_DET_PRODUCTS BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_PRESSUR double BINOUT_ABSTAT_P id, idtype:

E_RESULTANT BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_SURFACE double BINOUT_ABSTAT_P id, idtype:

_AREA BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_X_FORCE double BINOUT_ABSTAT_P id, idtype:

BINOUT_ABSTAT_PBM_ID_PBLAST or

19
_AIR BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_X_FORCE double BINOUT_ABSTAT_P id, idtype:

_DET_PRODUCTS BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_X_FORCE double BINOUT_ABSTAT_P id, idtype:

_RESULTANT BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_Y_FORCE double BINOUT_ABSTAT_P id, idtype:

_AIR BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_Y_FORCE double BINOUT_ABSTAT_P id, idtype:

_DET_PRODUCTS BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_Y_FORCE double BINOUT_ABSTAT_P id, idtype:

_RESULTANT BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_Z_FORCE double BINOUT_ABSTAT_P id, idtype:

_AIR BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_Z_FORCE double BINOUT_ABSTAT_P id, idtype:

_DET_PRODUCTS BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTAT_PBM_Z_FORCE double BINOUT_ABSTAT_P id, idtype:

_RESULTANT BM_NUM_TIMESTEP BINOUT_ABSTAT_PBM_ID_PBLAST or
BINOUT_ABSTAT_PBM_ID_PART

BINOUT_ABSTATCPM_NUM_TIME int 1 ignore

20
STEP

BINOUT_ABSTATCPM_X double BINOUT_ABSTATCP ignore

M_NUM_TIMESTEP

BINOUT_ABSTATCPM_NUM_ID int 1 idtype

BINOUT_ABSTATCPM_IDS unsigne BINOUT_ABSTATCP idtype

d int M_NUM_ID

BINOUT_ABSTATCPM_NUM_COMP int 1 idtype

ONENT

BINOUT_ABSTATCPM_COMPONEN BinoutS BINOUT_ABSTATCP idtype

TS tringAr M_NUM_COMPONENT
ray

BINOUT_ABSTATCPM_VOLUME double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_BAG,

M_NUM_TIMESTEP BINOUT_ABSTATCPM_ID_CHAMBER

BINOUT_ABSTATCPM_PRESSURE double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_BAG,

M_NUM_TIMESTEP BINOUT_ABSTATCPM_ID_CHAMBER

BINOUT_ABSTATCPM_INTERNAL double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_BAG,

_ENERGY M_NUM_TIMESTEP BINOUT_ABSTATCPM_ID_CHAMBER

BINOUT_ABSTATCPM_DM_DT_IN double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_BAG,

M_NUM_TIMESTEP BINOUT_ABSTATCPM_ID_CHAMBER

BINOUT_ABSTATCPM_DENSITY double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_BAG,

M_NUM_TIMESTEP BINOUT_ABSTATCPM_ID_CHAMBER

21
BINOUT_ABSTATCPM_DM_DT_OU double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_BAG,
T M_NUM_TIMESTEP BINOUT_ABSTATCPM_ID_CHAMBER

BINOUT_ABSTATCPM_TOTAL_MA double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_BAG,

SS M_NUM_TIMESTEP BINOUT_ABSTATCPM_ID_CHAMBER

BINOUT_ABSTATCPM_GAS_TEMP double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_BAG,

M_NUM_TIMESTEP BINOUT_ABSTATCPM_ID_CHAMBER

BINOUT_ABSTATCPM_SURFACE_ double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_BAG,

AREA M_NUM_TIMESTEP BINOUT_ABSTATCPM_ID_CHAMBER

BINOUT_ABSTATCPM_REACTION double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_BAG,

M_NUM_TIMESTEP BINOUT_ABSTATCPM_ID_CHAMBER

BINOUT_ABSTATCPM_INFLACTO double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_BAG,

R_E M_NUM_TIMESTEP BINOUT_ABSTATCPM_ID_CHAMBER

BINOUT_ABSTATCPM_TRANS_KE double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_BAG,

M_NUM_TIMESTEP BINOUT_ABSTATCPM_ID_CHAMBER

BINOUT_ABSTATCPM_POR_LEAK double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_PART

M_NUM_TIMESTEP

BINOUT_ABSTATCPM_VENT_LEA double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_PART

K M_NUM_TIMESTEP

BINOUT_ABSTATCPM_AREA_TOT double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_PART

AL M_NUM_TIMESTEP

BINOUT_ABSTATCPM_AREA_UNB double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_PART

LOCKED M_NUM_TIMESTEP

22
BINOUT_ABSTATCPM_TEMPERAT double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_PART
URE M_NUM_TIMESTEP

BINOUT_ABSTATCPM_PRESP double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_PART

M_NUM_TIMESTEP

BINOUT_ABSTATCPM_PRESM double BINOUT_ABSTATCP idtype = BINOUT_ABSTATCPM_ID_PART

M_NUM_TIMESTEP

BINOUT_ABSTATCPM_NT_SPECI double BINOUT_ABSTATCP idtype =

ES M_NUM_TIMESTEP BINOUT_ABSTATCPM_ID_SPECIES

BINOUT_ABSTATCPM_TRANSE double BINOUT_ABSTATCP idtype =

M_NUM_TIMESTEP BINOUT_ABSTATCPM_ID_CHAMBER

BINOUT_CPMSENSOR_NUM_TIME int 1 ignore

STEP

BINOUT_CPMSENSOR_X double BINOUT_CPMSENSO ignore

R_NUM_TIMESTEP

BINOUT_CPMSENSOR_NUM_ID int 1 ignore

BINOUT_CPMSENSOR_IDS unsigne BINOUT_CPMSENSO ignore

d int R_NUM_ID

BINOUT_CPMSENSOR_NUM_COMP int 1 ignore

ONENT

BINOUT_CPMSENSOR_COMPONEN BinoutS BINOUT_CPMSENSO ignore

TS tringAr R_NUM_COMPONENT

23
 ray

BINOUT_CPMSENSOR_AVE_VELX double BINOUT_CPMSENSO ignore

R_NUM_TIMESTEP

BINOUT_CPMSENSOR_AVE_VELY double BINOUT_CPMSENSO ignore

R_NUM_TIMESTEP

BINOUT_CPMSENSOR_AVE_VELZ double BINOUT_CPMSENSO ignore

R_NUM_TIMESTEP

BINOUT_CPMSENSOR_AVE_VELR double BINOUT_CPMSENSO ignore

R_NUM_TIMESTEP

BINOUT_CPMSENSOR_TEMP double BINOUT_CPMSENSO ignore

R_NUM_TIMESTEP

BINOUT_CPMSENSOR_RHO double BINOUT_CPMSENSO ignore

R_NUM_TIMESTEP

BINOUT_CPMSENSOR_PRESSURE double BINOUT_CPMSENSO ignore

R_NUM_TIMESTEP

BINOUT_CPMSENSOR_SENSOR_X double BINOUT_CPMSENSO ignore

R_NUM_TIMESTEP

BINOUT_CPMSENSOR_SENSOR_Y double BINOUT_CPMSENSO ignore

R_NUM_TIMESTEP

BINOUT_CPMSENSOR_SENSOR_Z double BINOUT_CPMSENSO ignore

R_NUM_TIMESTEP

24
BINOUT_CPMSENSOR_NPART double BINOUT_CPMSENSO ignore
R_NUM_TIMESTEP

BINOUT_PGSENSOR_NUM_TIMES int 1 ignore

TEP

BINOUT_PGSENSOR_X double BINOUT_PGSENSOR ignore

_NUM_TIMESTEP

BINOUT_PGSENSOR_NUM_ID int 1 ignore

BINOUT_PGSENSOR_IDS unsigne BINOUT_PGSENSOR ignore

d int _NUM_ID

BINOUT_PGSENSOR_NUM_COMPO int 1 ignore

NENT

BINOUT_PGSENSOR_COMPONENT BinoutS BINOUT_PGSENSOR ignore

S tringAr _NUM_COMPONENT
ray

BINOUT_PGSENSOR_AVE_VELX double BINOUT_PGSENSOR ignore

_NUM_TIMESTEP

BINOUT_PGSENSOR_AVE_VELY double BINOUT_PGSENSOR ignore

_NUM_TIMESTEP

BINOUT_PGSENSOR_AVE_VELZ double BINOUT_PGSENSOR ignore

_NUM_TIMESTEP

BINOUT_PGSENSOR_AVE_VELR double BINOUT_PGSENSOR ignore

_NUM_TIMESTEP

25
BINOUT_PGSENSOR_TEMP double BINOUT_PGSENSOR ignore
_NUM_TIMESTEP

BINOUT_PGSENSOR_RHO double BINOUT_PGSENSOR ignore

_NUM_TIMESTEP

BINOUT_PGSENSOR_PRESSURE double BINOUT_PGSENSOR ignore

_NUM_TIMESTEP

BINOUT_PGSENSOR_SENSOR_X double BINOUT_PGSENSOR ignore

_NUM_TIMESTEP

BINOUT_PGSENSOR_SENSOR_Y double BINOUT_PGSENSOR ignore

_NUM_TIMESTEP

BINOUT_PGSENSOR_SENSOR_Z double BINOUT_PGSENSOR ignore

_NUM_TIMESTEP

BINOUT_PGSENSOR_NPART double BINOUT_PGSENSOR ignore

_NUM_TIMESTEP

BINOUT_PGSTAT_NUM_TIMESTE int 1 ignore

P

BINOUT_PGSTAT_X double BINOUT_PGSTAT_N ignore

UM_TIMESTEP

BINOUT_PGSTAT_NUM_BAG_ID int 1 ignore

BINOUT_PGSTAT_BAG_IDS unsigne BINOUT_PGSTAT_N ignore

d int UM_BAG_ID

26
BINOUT_PGSTAT_NUM_PART_ID int 1 ignore

BINOUT_PGSTAT_PART_IDS unsigne BINOUT_PGSTAT_N ignore

d int UM_PART_ID

BINOUT_PGSTAT_NUM_CHAMBER double BINOUT_PGSTAT_N ignore

_ID UM_TIMESTEP

BINOUT_PGSTAT_CHAMBER_IDS unsigne BINOUT_PGSTAT_N ignore

d int UM_CHAMBER_ID

BINOUT_PGSTAT_NUM_BAG_COM double BINOUT_PGSTAT_N id, idtype:

PONENT UM_TIMESTEP BINOUT_ABSTAT_ID_AIRBAG or
BINOUT_ABSTAT_ID_MATERIAL

BINOUT_PGSTAT_BAG_COMPONE BinoutS BINOUT_PGSTAT_N ignore

NTS tringAr UM_BAG_COMPONEN
ray T

BINOUT_PGSTAT_NUM_PART_CO int 1 ignore

MPONENT

BINOUT_PGSTAT_PART_COMPON BinoutS BINOUT_PGSTAT_N ignore

ENTS tringAr UM_PART_COMPONE
ray NT

BINOUT_PGSTAT_NUM_CHAMBER int 1 ignore

_COMPONENT

BINOUT_PGSTAT_CHAMBER_COM BinoutS BINOUT_PGSTAT_N ignore

PONENTS tringAr UM_CHAMBER_COMP
ray ONENT

27
BINOUT_PGSTAT_PART_PRESSU double BINOUT_PGSTAT_N id
RE UM_TIMESTEP

BINOUT_PGSTAT_PART_POR_LE double BINOUT_PGSTAT_N id

AK UM_TIMESTEP

BINOUT_PGSTAT_PART_VENT_L double BINOUT_PGSTAT_N id

EAK UM_TIMESTEP

BINOUT_PGSTAT_PART_AREA_T double BINOUT_PGSTAT_N id

OT UM_TIMESTEP

BINOUT_PGSTAT_PART_AREA_U double BINOUT_PGSTAT_N id

NBLOCKED UM_TIMESTEP

BINOUT_PGSTAT_PART_TEMPER double BINOUT_PGSTAT_N id

ATURE UM_TIMESTEP

BINOUT_PGSTAT_PART_PRES_P double BINOUT_PGSTAT_N id

LUS UM_TIMESTEP

BINOUT_PGSTAT_PART_PRES_M double BINOUT_PGSTAT_N id

INUS UM_TIMESTEP

BINOUT_PGSTAT_BAG_VOLUME double BINOUT_PGSTAT_N id

UM_TIMESTEP

BINOUT_PGSTAT_BAG_PRESSUR double BINOUT_PGSTAT_N id

E UM_TIMESTEP

BINOUT_PGSTAT_BAG_INTERNA double BINOUT_PGSTAT_N id

28
L_ENERGY UM_TIMESTEP

BINOUT_PGSTAT_BAG_DM_DT_I double BINOUT_PGSTAT_N id

N UM_TIMESTEP

BINOUT_PGSTAT_BAG_DENSITY double BINOUT_PGSTAT_N id

UM_TIMESTEP

BINOUT_PGSTAT_BAG_DM_DT_O double BINOUT_PGSTAT_N id

UT UM_TIMESTEP

BINOUT_PGSTAT_BAG_TOTAL_M double BINOUT_PGSTAT_N id

ASS UM_TIMESTEP

BINOUT_PGSTAT_BAG_GAS_TEM double BINOUT_PGSTAT_N id

P UM_TIMESTEP

BINOUT_PGSTAT_BAG_SURFACE double BINOUT_PGSTAT_N id

_AREA UM_TIMESTEP

BINOUT_PGSTAT_BAG_REACTIO double BINOUT_PGSTAT_N id

N UM_TIMESTEP

BINOUT_PGSTAT_CHAMBER_VOL double BINOUT_PGSTAT_N id

UME UM_TIMESTEP

BINOUT_PGSTAT_CHAMBER_PRE double BINOUT_PGSTAT_N id

SSURE UM_TIMESTEP

BINOUT_PGSTAT_CHAMBER_INT double BINOUT_PGSTAT_N id

ERNAL_ENERGY UM_TIMESTEP

29
BINOUT_PGSTAT_CHAMBER_DM_ double BINOUT_PGSTAT_N id
DT_IN UM_TIMESTEP

BINOUT_PGSTAT_CHAMBER_DEN double BINOUT_PGSTAT_N id

SITY UM_TIMESTEP

BINOUT_PGSTAT_CHAMBER_DM_ double BINOUT_PGSTAT_N id

DT_OUT UM_TIMESTEP

BINOUT_PGSTAT_CHAMBER_TOT double BINOUT_PGSTAT_N id

AL_MASS UM_TIMESTEP

BINOUT_PGSTAT_CHAMBER_GAS double BINOUT_PGSTAT_N id

_TEMP UM_TIMESTEP

BINOUT_PGSTAT_CHAMBER_SUR double BINOUT_PGSTAT_N id

FACE_AREA UM_TIMESTEP

BINOUT_PGSTAT_CHAMBER_REA double BINOUT_PGSTAT_N id

CTION UM_TIMESTEP

BINOUT_PGSTAT_CHAMBER_TRA double BINOUT_PGSTAT_N id

NSE UM_TIMESTEP

BINOUT_DISBOUT_NUM_TIMEST int 1 ignore

EP

BINOUT_DISBOUT_X double BINOUT_DISBOUT_ ignore

NUM_TIMESTEP

BINOUT_DISBOUT_NUM_ID int 1 ignore

30
BINOUT_DISBOUT_IDS unsigne BINOUT_DISBOUT_ ignore
d int NUM_ID

BINOUT_DISBOUT_NUM_COMPON int 1 ignore

ENT

BINOUT_DISBOUT_COMPONENTS BinoutS BINOUT_DISBOUT_ ignore

tringAr NUM_COMPONENT
ray

BINOUT_DISBOUT_RELATIVE_D double BINOUT_DISBOUT_ id

ISPLACEMENT_AXIS NUM_TIMESTEP

BINOUT_DISBOUT_RELATIVE_D double BINOUT_DISBOUT_ id

ISPLACEMENT_S NUM_TIMESTEP

BINOUT_DISBOUT_RELATIVE_D double BINOUT_DISBOUT_ id

ISPLACEMENT_T NUM_TIMESTEP

BINOUT_DISBOUT_RELATIVE_R double BINOUT_DISBOUT_ id

OTATION_AXIS NUM_TIMESTEP

BINOUT_DISBOUT_RELATIVE_R double BINOUT_DISBOUT_ id

OTATION_S NUM_TIMESTEP

BINOUT_DISBOUT_RELATIVE_R double BINOUT_DISBOUT_ id

OTATION_T NUM_TIMESTEP

BINOUT_DISBOUT_FORCE_AXIS double BINOUT_DISBOUT_ id

NUM_TIMESTEP

BINOUT_DISBOUT_FORCE_S double BINOUT_DISBOUT_ id

NUM_TIMESTEP

31
BINOUT_DISBOUT_FORCE_T double BINOUT_DISBOUT_ id
NUM_TIMESTEP

BINOUT_DISBOUT_MOMENET_AX double BINOUT_DISBOUT_ id

IS NUM_TIMESTEP

BINOUT_DISBOUT_MOMENET_S double BINOUT_DISBOUT_ id

NUM_TIMESTEP

BINOUT_DISBOUT_MOMENET_T double BINOUT_DISBOUT_ id

NUM_TIMESTEP

BINOUT_DISBOUT_DIRECTION_ double BINOUT_DISBOUT_ id

AXIS_X NUM_TIMESTEP

BINOUT_DISBOUT_DIRECTION_ double BINOUT_DISBOUT_ id

AXIS_Y NUM_TIMESTEP

BINOUT_DISBOUT_DIRECTION_ double BINOUT_DISBOUT_ id

AXIS_Z NUM_TIMESTEP

BINOUT_DISBOUT_DIRECTION_ double BINOUT_DISBOUT_ id

S_X NUM_TIMESTEP

BINOUT_DISBOUT_DIRECTION_ double BINOUT_DISBOUT_ id

S_Y NUM_TIMESTEP

BINOUT_DISBOUT_DIRECTION_ double BINOUT_DISBOUT_ id

S_Z NUM_TIMESTEP

BINOUT_DISBOUT_DIRECTION_ double BINOUT_DISBOUT_ id

32
T_X NUM_TIMESTEP

BINOUT_DISBOUT_DIRECTION_ double BINOUT_DISBOUT_ id

T_Y NUM_TIMESTEP

BINOUT_DISBOUT_DIRECTION_ double BINOUT_DISBOUT_ id

T_Z NUM_TIMESTEP

BINOUT_DEMFLOW_NUM_TIMEST int 1 ignore

EP

BINOUT_DEMFLOW_X double BINOUT_DEMFLOW_ ignore

NUM_TIMESTEP

BINOUT_DEMFLOW_NUM_ID int 1 ignore

BINOUT_DEMFLOW_IDS unsigne BINOUT_DEMFLOW_ ignore

d int NUM_ID

BINOUT_DEMFLOW_NUM_COMPON int 1 ignore

ENT

BINOUT_DEMFLOW_COMPONENTS BinoutS BINOUT_DEMFLOW_ ignore

tringAr NUM_COMPONENT
ray

BINOUT_DEMFLOW_MFLOW_PLUS double BINOUT_DEMFLOW_ id, idtype

NUM_TIMESTEP

BINOUT_DEMFLOW_MFLOW_MINU double BINOUT_DEMFLOW_ id, idtype

S NUM_TIMESTEP

33
BINOUT_DEMFLOW_MFLOW_RESU double BINOUT_DEMFLOW_ id, idtype
LTANT NUM_TIMESTEP

BINOUT_DEMTRH_NUM_TIMESTE int 1 ignore

P

BINOUT_DEMTRH_X double BINOUT_DEMTRH_N ignore

UM_TIMESTEP

BINOUT_DEMTRH_NUM_ID int 1 ignore

BINOUT_DEMTRH_IDS unsigne BINOUT_DEMTRH_N ignore

d int UM_ID

BINOUT_DEMTRH_NUM_COMPONE int 1 ignore

NT

BINOUT_DEMTRH_COMPONENTS BinoutS BINOUT_DEMTRH_N ignore

tringAr UM_COMPONENT
ray

BINOUT_DEMTRH_POSITION_X double BINOUT_DEMTRH_N id, idtype

UM_TIMESTEP

BINOUT_DEMTRH_POSITION_Y double BINOUT_DEMTRH_N id, idtype

UM_TIMESTEP

BINOUT_DEMTRH_POSITION_Z double BINOUT_DEMTRH_N id, idtype

UM_TIMESTEP

BINOUT_DEMTRH_VELOCITY_X double BINOUT_DEMTRH_N id, idtype

UM_TIMESTEP

34
BINOUT_DEMTRH_VELOCITY_Y double BINOUT_DEMTRH_N id, idtype
UM_TIMESTEP

BINOUT_DEMTRH_VELOCITY_Z double BINOUT_DEMTRH_N id, idtype

UM_TIMESTEP

BINOUT_DEMTRH_STRESS_X double BINOUT_DEMTRH_N id, idtype

UM_TIMESTEP

BINOUT_DEMTRH_STRESS_Y double BINOUT_DEMTRH_N id, idtype

UM_TIMESTEP

BINOUT_DEMTRH_STRESS_Z double BINOUT_DEMTRH_N id, idtype

UM_TIMESTEP

BINOUT_DEMTRH_STRESS_XY double BINOUT_DEMTRH_N id, idtype

UM_TIMESTEP

BINOUT_DEMTRH_STRESS_YZ double BINOUT_DEMTRH_N id, idtype

UM_TIMESTEP

BINOUT_DEMTRH_STRESS_ZX double BINOUT_DEMTRH_N id, idtype

UM_TIMESTEP

BINOUT_DEMTRH_POROSITY double BINOUT_DEMTRH_N id, idtype

UM_TIMESTEP

BINOUT_DEMTRH_VOID_RATIO double BINOUT_DEMTRH_N id, idtype

UM_TIMESTEP

BINOUT_DEMTRH_COORD_NUMBE double BINOUT_DEMTRH_N id, idtype

35
R UM_TIMESTEP

BINOUT_DEMTRH_PRESSURE double BINOUT_DEMTRH_N id, idtype

UM_TIMESTEP

BINOUT_PBLAST_SENSOR_NUM_ int 1 ignore

TIMESTEP

BINOUT_PBLAST_SENSOR_X double BINOUT_PBLAST_S ignore

ENSOR_NUM_TIMES
TEP

BINOUT_PBLAST_SENSOR_NUM_ int 1 ignore

ID

BINOUT_PBLAST_SENSOR_IDS unsigne BINOUT_PBLAST_S ignore

d int ENSOR_NUM_ID

BINOUT_PBLAST_SENSOR_NUM_ int 1 ignore

COMPONENT

BINOUT_PBLAST_SENSOR_COMP BinoutS BINOUT_PBLAST_S ignore

ONENTS tringAr ENSOR_NUM_COMPO
ray NENT

BINOUT_PBLAST_SENSOR_COUN int BINOUT_PBLAST_S id, idtype

TS ENSOR_NUM_TIMES
TEP

BINOUT_PBLAST_SENSOR_COOR double BINOUT_PBLAST_S id, idtype

D_X ENSOR_NUM_TIMES
TEP

BINOUT_PBLAST_SENSOR_COOR BINOUT_PBLAST_S

36
D_Y double ENSOR_NUM_TIMES id, idtype
TEP

BINOUT_PBLAST_SENSOR_COOR double BINOUT_PBLAST_S id, idtype

D_Z ENSOR_NUM_TIMES
TEP

BINOUT_PBLAST_SENSOR_TEMP double BINOUT_PBLAST_S id, idtype

ERATURE ENSOR_NUM_TIMES
TEP

BINOUT_PBLAST_SENSOR_DENS double BINOUT_PBLAST_S id, idtype

ITY ENSOR_NUM_TIMES
TEP

BINOUT_PBLAST_SENSOR_PRES double BINOUT_PBLAST_S id, idtype

SURE ENSOR_NUM_TIMES
TEP

BINOUT_PLLYOUT_NUM_TIMEST int 1 ignore

EP

BINOUT_PLLYOUT_X double BINOUT_PLLYOUT_ ignore

NUM_TIMESTEP

BINOUT_PLLYOUT_NUM_ID int 1 ignore

BINOUT_PLLYOUT_IDS unsigne BINOUT_PLLYOUT_ ignore

d int NUM_ID

BINOUT_PLLYOUT_NUM_COMPON int 1 ignore

ENT

BinoutS BINOUT_PLLYOUT_

37
BINOUT_PLLYOUT_COMPONENTS tringAr NUM_COMPONENT ignore
ray

BINOUT_PLLYOUT_SLIP double BINOUT_PLLYOUT_ id

NUM_TIMESTEP

BINOUT_PLLYOUT_SLIP_RATE double BINOUT_PLLYOUT_ id

NUM_TIMESTEP

BINOUT_PLLYOUT_RESULTANT_ double BINOUT_PLLYOUT_ id

FORCE NUM_TIMESTEP

BINOUT_PLLYOUT_WRAP_ANGLE double BINOUT_PLLYOUT_ id

NUM_TIMESTEP

BINOUT_SPHFLOW_NUM_TIMEST int 1 ignore

EP

BINOUT_SPHFLOW_X double BINOUT_SPHFLOW_ ignore

NUM_TIMESTEP

BINOUT_SPHFLOW_NUM_ID int 1 ignore

BINOUT_SPHFLOW_IDS unsigne BINOUT_SPHFLOW_ ignore

d int NUM_ID

BINOUT_SPHFLOW_NUM_COMPON int 1 ignore

ENT

BINOUT_SPHFLOW_COMPONENTS BinoutS BINOUT_SPHFLOW_ ignore

tringAr NUM_COMPONENT
ray

38
BINOUT_SPHFLOW_MFLOW_PLUS double BINOUT_SPHFLOW_ id
NUM_TIMESTEP

BINOUT_SPHFLOW_MFLOW_MINU double BINOUT_SPHFLOW_ id

S NUM_TIMESTEP

BINOUT_SPHFLOW_MFLOW_RESU double BINOUT_SPHFLOW_ id

LTANT NUM_TIMESTEP

BINOUT_SPHOUT_NUM_TIMESTE int 1 ignore

P

BINOUT_SPHOUT_X double BINOUT_SPHOUT_N ignore

UM_TIMESTEP

BINOUT_SPHOUT_NUM_ID int 1 ignore

BINOUT_SPHOUT_IDS unsigne BINOUT_SPHOUT_N ignore

d int UM_ID

BINOUT_SPHOUT_NUM_COMPONE int 1 ignore

NT

BINOUT_SPHOUT_COMPONENTS BinoutS BINOUT_SPHOUT_N ignore

tringAr UM_COMPONENT
ray

BINOUT_SPHOUT_STRESS_X double BINOUT_SPHOUT_N id

UM_TIMESTEP

BINOUT_SPHOUT_STRESS_Y double BINOUT_SPHOUT_N id

39
 UM_TIMESTEP

BINOUT_SPHOUT_STRESS_Z double BINOUT_SPHOUT_N id

UM_TIMESTEP

BINOUT_SPHOUT_STRESS_XY double BINOUT_SPHOUT_N id

UM_TIMESTEP

BINOUT_SPHOUT_STRESS_YZ double BINOUT_SPHOUT_N id

UM_TIMESTEP

BINOUT_SPHOUT_STRESS_ZX double BINOUT_SPHOUT_N id

UM_TIMESTEP

BINOUT_SPHOUT_STRAIN_X double BINOUT_SPHOUT_N id

UM_TIMESTEP

BINOUT_SPHOUT_STRAIN_Y double BINOUT_SPHOUT_N id

UM_TIMESTEP

BINOUT_SPHOUT_STRAIN_Z double BINOUT_SPHOUT_N id

UM_TIMESTEP

BINOUT_SPHOUT_STRAIN_XY double BINOUT_SPHOUT_N id

UM_TIMESTEP

BINOUT_SPHOUT_STRAIN_YZ double BINOUT_SPHOUT_N id

UM_TIMESTEP

BINOUT_SPHOUT_STRAIN_ZX double BINOUT_SPHOUT_N id

UM_TIMESTEP

40
BINOUT_SPHOUT_DENSITY double BINOUT_SPHOUT_N id
UM_TIMESTEP

BINOUT_SPHOUT_RADIUS_OF_I double BINOUT_SPHOUT_N id

NFLUNCE UM_TIMESTEP

BINOUT_SPHOUT_YIELD double BINOUT_SPHOUT_N id

UM_TIMESTEP

BINOUT_SPHOUT_EFFECTIVE_S double BINOUT_SPHOUT_N id

TRESS UM_TIMESTEP

BINOUT_SPHOUT_TEMPERATURE double BINOUT_SPHOUT_N id

UM_TIMESTEP

BINOUT_SPHOUT_NUMBER_OF_N int BINOUT_SPHOUT_N id

EIGHBORS UM_TIMESTEP

BINOUT_SPHOUT_ACT int BINOUT_SPHOUT_N id

UM_TIMESTEP

BINOUT_TRALEH_NUM_TIMESTE int 1 ignore

P

BINOUT_TRALEH_X double BINOUT_TRALEH_N ignore

UM_TIMESTEP

BINOUT_TRALEH_NUM_ID int 1 ignore

BINOUT_TRALEH_IDS unsigne BINOUT_TRALEH_N ignore

d int UM_ID

41
BINOUT_TRALEH_NUM_COMPONE int 1 ignore
NT

BINOUT_TRALEH_COMPONENTS BinoutS BINOUT_TRALEH_N ignore

tringAr UM_COMPONENT
ray

BINOUT_TRALEH_POSITION_X double BINOUT_TRALEH_N id

UM_TIMESTEP

BINOUT_TRALEH_POSITION_Y double BINOUT_TRALEH_N id

UM_TIMESTEP

BINOUT_TRALEH_POSITION_Z double BINOUT_TRALEH_N id

UM_TIMESTEP

BINOUT_TRALEH_VELOCITY_X double BINOUT_TRALEH_N id

UM_TIMESTEP

BINOUT_TRALEH_VELOCITY_Y double BINOUT_TRALEH_N id

UM_TIMESTEP

BINOUT_TRALEH_VELOCITY_Z double BINOUT_TRALEH_N id

UM_TIMESTEP

BINOUT_TRALEH_STRESS_X double BINOUT_TRALEH_N id

UM_TIMESTEP

BINOUT_TRALEH_STRESS_Y double BINOUT_TRALEH_N id

UM_TIMESTEP

BINOUT_TRALEH_STRESS_Z double BINOUT_TRALEH_N id

UM_TIMESTEP

42
BINOUT_TRALEH_STRESS_XY double BINOUT_TRALEH_N id
UM_TIMESTEP

BINOUT_TRALEH_STRESS_YZ double BINOUT_TRALEH_N id

UM_TIMESTEP

BINOUT_TRALEH_STRESS_ZX double BINOUT_TRALEH_N id

UM_TIMESTEP

BINOUT_TRALEH_EFFECTIVE_P double BINOUT_TRALEH_N id

LASTIC_STRAIN UM_TIMESTEP

BINOUT_TRALEH_DENSITY double BINOUT_TRALEH_N id

UM_TIMESTEP

BINOUT_TRALEH_VOLUME_FRAC double BINOUT_TRALEH_N id

TION UM_TIMESTEP

BINOUT_TRALEH_HISTORY_VAR double BINOUT_TRALEH_N id

UM_TIMESTEP

BINOUT_NODFOR_NUM_TIMESTE int 1 ignore

P

BINOUT_NODFOR_X double BINOUT_NODFOR_N ignore

UM_TIMESTEP

BINOUT_NODFOR_NUM_ID int 1 ignore

BINOUT_NODFOR_IDS unsigne BINOUT_NODFOR_N ignore

d int UM_ID

43
BINOUT_NODFOR_NUM_GROUPID int 1 ignore

BINOUT_NODFOR_GROUP_IDS unsigne BINOUT_NODFOR_N ignore

d int UM_GROUPID

BINOUT_NODFOR_NUM_COMPONE int 1 ignore

NT

BINOUT_NODFOR_COMPONENTS BinoutS BINOUT_NODFOR_N ignore

tringAr UM_COMPONENT
ray

BINOUT_NODFOR_ENERGY double BINOUT_NODFOR_N id, idtype=BINOUT_NODFOR_ID_NODE

UM_TIMESTEP

BINOUT_NODFOR_FORCE_X double BINOUT_NODFOR_N id, idtype=BINOUT_NODFOR_ID_NODE

UM_TIMESTEP

BINOUT_NODFOR_FORCE_Y double BINOUT_NODFOR_N id, idtype=BINOUT_NODFOR_ID_NODE

UM_TIMESTEP

BINOUT_NODFOR_FORCE_Z double BINOUT_NODFOR_N id, idtype=BINOUT_NODFOR_ID_NODE

UM_TIMESTEP

BINOUT_NODFOR_TOTAL_ENERG double BINOUT_NODFOR_N id, idtype= BINOUT_NODFOR_ID_GROUP

Y UM_TIMESTEP

BINOUT_NODFOR_TOTAL_FORCE double BINOUT_NODFOR_N id, idtype= BINOUT_NODFOR_ID_GROUP

_X UM_TIMESTEP

BINOUT_NODFOR_TOTAL_FORCE double BINOUT_NODFOR_N id, idtype= BINOUT_NODFOR_ID_GROUP

44
_Y UM_TIMESTEP

BINOUT_NODFOR_TOTAL_FORCE double BINOUT_NODFOR_N id, idtype= BINOUT_NODFOR_ID_GROUP

_Z UM_TIMESTEP

BINOUT_NODFOR_LOCAL_FORCE double BINOUT_NODFOR_N id, idtype= BINOUT_NODFOR_ID_GROUP

_X UM_TIMESTEP

BINOUT_NODFOR_LOCAL_FORCE double BINOUT_NODFOR_N id, idtype= BINOUT_NODFOR_ID_GROUP

_Y UM_TIMESTEP

BINOUT_NODFOR_LOCAL_FORCE double BINOUT_NODFOR_N id, idtype= BINOUT_NODFOR_ID_GROUP

_Z UM_TIMESTEP

BINOUT_NODOUT_NUM_TIMESTE int 1 ignore

P

BINOUT_NODOUT_X double BINOUT_NODOUT_N ignore

UM_TIMESTEP

BINOUT_NODOUT_NUM_ID int 1 ignore

BINOUT_NODOUT_IDS unsigne BINOUT_NODOUT_N ignore

d int UM_ID

BINOUT_NODOUT_NUM_COMPONE int 1 ignore

NT

BINOUT_NODOUT_COMPONENTS BinoutS BINOUT_NODOUT_N ignore

tringAr UM_COMPONENT
ray

45
BINOUT_NODOUT_ACCELERATIO double BINOUT_NODOUT_N id
N_RX UM_TIMESTEP

BINOUT_NODOUT_DISPLACEMEN double BINOUT_NODOUT_N id

T_RX UM_TIMESTEP

BINOUT_NODOUT_VELOCITY_RX double BINOUT_NODOUT_N id

UM_TIMESTEP

BINOUT_NODOUT_ACCELERATIO double BINOUT_NODOUT_N id

N_RY UM_TIMESTEP

BINOUT_NODOUT_DISPLACEMEN double BINOUT_NODOUT_N id

T_RY UM_TIMESTEP

BINOUT_NODOUT_VELOCITY_RY double BINOUT_NODOUT_N id

UM_TIMESTEP

BINOUT_NODOUT_ACCELERATIO double BINOUT_NODOUT_N id

N_RZ UM_TIMESTEP

BINOUT_NODOUT_DISPLACEMEN double BINOUT_NODOUT_N id

T_RZ UM_TIMESTEP

BINOUT_NODOUT_VELOCITY_RZ double BINOUT_NODOUT_N id

UM_TIMESTEP

BINOUT_NODOUT_ACCELERATIO double BINOUT_NODOUT_N id

N_X UM_TIMESTEP

BINOUT_NODOUT_COORDINATE_ double BINOUT_NODOUT_N id

X UM_TIMESTEP

46
BINOUT_NODOUT_DISPLACEMEN double BINOUT_NODOUT_N id
T_X UM_TIMESTEP

BINOUT_NODOUT_VELOCITY_X double BINOUT_NODOUT_N id

UM_TIMESTEP

BINOUT_NODOUT_ACCELERATIO double BINOUT_NODOUT_N id

N_Y UM_TIMESTEP

BINOUT_NODOUT_COORDINATE_ double BINOUT_NODOUT_N id

Y UM_TIMESTEP

BINOUT_NODOUT_DISPLACEMEN double BINOUT_NODOUT_N id

T_Y UM_TIMESTEP

BINOUT_NODOUT_VELOCITY_Y double BINOUT_NODOUT_N id

UM_TIMESTEP

BINOUT_NODOUT_ACCELERATIO double BINOUT_NODOUT_N id

N_Z UM_TIMESTEP

BINOUT_NODOUT_COORDINATE_ double BINOUT_NODOUT_N id

Z UM_TIMESTEP

BINOUT_NODOUT_DISPLACEMEN double BINOUT_NODOUT_N id

T_Z UM_TIMESTEP

BINOUT_NODOUT_VELOCITY_Z double BINOUT_NODOUT_N id

UM_TIMESTEP

BINOUT_NODOUTHF_NUM_TIMES int 1 ignore

47
TEP

BINOUT_NODOUTHF_X double BINOUT_NODOUTHF ignore

_NUM_TIMESTEP

BINOUT_NODOUTHF_NUM_ID int 1 ignore

BINOUT_NODOUTHF_IDS unsigne BINOUT_NODOUTHF ignore

d int _NUM_ID

BINOUT_NODOUTHF_NUM_COMPO int 1 ignore

NENT

BINOUT_NODOUTHF_COMPONENT BinoutS BINOUT_NODOUTHF ignore

S tringAr _NUM_COMPONENT
ray

BINOUT_NODOUTHF_ACCELERAT double BINOUT_NODOUTHF id

ION_RX _NUM_TIMESTEP

BINOUT_NODOUTHF_DISPLACEM double BINOUT_NODOUTHF id

ENT_RX _NUM_TIMESTEP

BINOUT_NODOUTHF_VELOCITY_ double BINOUT_NODOUTHF id

RX _NUM_TIMESTEP

BINOUT_NODOUTHF_ACCELERAT double BINOUT_NODOUTHF id

ION_RY _NUM_TIMESTEP

BINOUT_NODOUTHF_DISPLACEM double BINOUT_NODOUTHF id

ENT_RY _NUM_TIMESTEP

48
BINOUT_NODOUTHF_VELOCITY_ double BINOUT_NODOUTHF id
RY _NUM_TIMESTEP

BINOUT_NODOUTHF_ACCELERAT double BINOUT_NODOUTHF id

ION_RZ _NUM_TIMESTEP

BINOUT_NODOUTHF_DISPLACEM double BINOUT_NODOUTHF id

ENT_RZ _NUM_TIMESTEP

BINOUT_NODOUTHF_VELOCITY_ double BINOUT_NODOUTHF id

RZ _NUM_TIMESTEP

BINOUT_NODOUTHF_ACCELERAT double BINOUT_NODOUTHF id

ION_X _NUM_TIMESTEP

BINOUT_NODOUTHF_COORDINAT double BINOUT_NODOUTHF id

E_X _NUM_TIMESTEP

BINOUT_NODOUTHF_DISPLACEM double BINOUT_NODOUTHF id

ENT_X _NUM_TIMESTEP

BINOUT_NODOUTHF_VELOCITY_ double BINOUT_NODOUTHF id

X _NUM_TIMESTEP

BINOUT_NODOUTHF_ACCELERAT double BINOUT_NODOUTHF id

ION_Y _NUM_TIMESTEP

BINOUT_NODOUTHF_COORDINAT double BINOUT_NODOUTHF id

E_Y _NUM_TIMESTEP

BINOUT_NODOUTHF_DISPLACEM double BINOUT_NODOUTHF id

ENT_Y _NUM_TIMESTEP

49
BINOUT_NODOUTHF_VELOCITY_ double BINOUT_NODOUTHF id
Y _NUM_TIMESTEP

BINOUT_NODOUTHF_ACCELERAT double BINOUT_NODOUTHF id

ION_Z _NUM_TIMESTEP

BINOUT_NODOUTHF_COORDINAT double BINOUT_NODOUTHF id

E_Z _NUM_TIMESTEP

BINOUT_NODOUTHF_DISPLACEM double BINOUT_NODOUTHF id

ENT_Z _NUM_TIMESTEP

BINOUT_NODOUTHF_VELOCITY_ double BINOUT_NODOUTHF id

Z _NUM_TIMESTEP

BINOUT_ELOUT_NUM_TIMESTEP int 1 idtype =

BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,

BINOUT_ELOUT_X double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,

BINOUT_ELOUT_NUM_ID int 1 idtype =

BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,

BINOUT_ELOUT_IDS unsigne BINOUT_ELOUT_NU idtype =

d int M_ID BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,

50
BINOUT_ELOUT_NUM_COMPONEN int 1 idtype =
T BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,

BINOUT_ELOUT_COMPONENTS BinoutS BINOUT_ELOUT_NU idtype =

tringAr M_COMPONENT BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ray ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,

BINOUT_ELOUT_NUM_IPT int 1 idtype =

BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,

BINOUT_ELOUT_IPTS unsigne BINOUT_ELOUT_NU idtype =

d int M_IPT BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,

BINOUT_ELOUT_NUM_NPL int 1 idtype =

BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,

BINOUT_ELOUT_NPLS unsigne BINOUT_ELOUT_NU idtype =

d int M_NPL BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,

BINOUT_ELOUT_STRESS_XX double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_NU idtype =

51
BINOUT_ELOUT_STRESS_YY double M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_STRESS_ZZ double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_STRESS_XY double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_STRESS_YZ double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_STRESS_ZX double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_YIELD double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_EFFSG double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

52
BINOUT_ELOUT_PLASTIC_STRA double BINOUT_ELOUT_NU idtype =
IN M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_STRAIN_XX double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_STRAIN_YY double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_STRAIN_ZZ double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_STRAIN_XY double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_STRAIN_YZ double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_STRAIN_ZX double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or

53
 BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_AXIAL double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_SHEAR_S double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_SHEAR_T double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_MOMENT_S double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_MOMENT_T double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_TORSION double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

54
BINOUT_ELOUT_COEF_LENGTH double BINOUT_ELOUT_NU idtype =
M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_VISC_FORCE double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_SIGMA_11 double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_SIGMA_12 double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_SIGMA_31 double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_PLASTIC_EPS double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,
npl

BINOUT_ELOUT_HISTORY_VAR double BINOUT_ELOUT_NU idtype =

M_TIMESTEP BINOUT_ELOUT_ID_BEAM,BINOUT_ELOUT_
ID_SHELL,BINOUT_ELOUT_ID_SOLID or
BINOUT_ELOUT_ID_TSHELL,id, ipt,

55
 npl

BINOUT_SSSTAT_NUM_TIMESTE int 1 ignore

P

BINOUT_SSSTAT_X double BINOUT_SSSTAT_N ignore

UM_TIMESTEP

BINOUT_SSSTAT_NUM_SYSTEMS int 1 ignore

BINOUT_SSSTAT_SYSTEM_IDS unsigne BINOUT_SSSTAT_N ignore

d int UM_SYSTEMS

BINOUT_SSSTAT_NUM_COMPONE int 1 ignore

NT

BINOUT_SSSTAT_COMPONENTS BinoutS BINOUT_SSSTAT_N ignore

tringAr UM_COMPONENT
ray

BINOUT_SSSTAT_TIME_STEP double BINOUT_SSSTAT_N ignore

UM_TIMESTEP

BINOUT_SSSTAT_KIN_ENERGY_ double BINOUT_SSSTAT_N ignore

G UM_TIMESTEP

BINOUT_SSSTAT_INT_ENERGY_ double BINOUT_SSSTAT_N ignore

G UM_TIMESTEP

BINOUT_SSSTAT_HGL_ENERGY_ double BINOUT_SSSTAT_N ignore

G UM_TIMESTEP

56
BINOUT_SSSTAT_KINETIC_ENE double BINOUT_SSSTAT_N systemid
RGY UM_TIMESTEP

BINOUT_SSSTAT_INTERNAL_EN double BINOUT_SSSTAT_N systemid

ERGY UM_TIMESTEP

BINOUT_SSSTAT_HOURGLASS_E double BINOUT_SSSTAT_N systemid

NERGY UM_TIMESTEP

BINOUT_SSSTAT_MOMENTUM_X double BINOUT_SSSTAT_N systemid

UM_TIMESTEP

BINOUT_SSSTAT_MOMENTUM_Y double BINOUT_SSSTAT_N systemid

UM_TIMESTEP

BINOUT_SSSTAT_MOMENTUM_Z double BINOUT_SSSTAT_N systemid

UM_TIMESTEP

BINOUT_SSSTAT_KINETIC_ENE double BINOUT_SSSTAT_N systemid

RGY_RATIOS UM_TIMESTEP

BINOUT_SSSTAT_INTERNAL_EN double BINOUT_SSSTAT_N systemid

ERGY_RATIOS UM_TIMESTEP

BINOUT_SSSTAT_TOTALMASS_S double BINOUT_SSSTAT_N systemid

UBSYSTEM UM_TIMESTEP

BINOUT_SSSTAT_MASSCENTER_ double BINOUT_SSSTAT_N systemid

COORDINATE_X UM_TIMESTEP

BINOUT_SSSTAT_MASSCENTER_ double BINOUT_SSSTAT_N systemid

COORDINATE_Y UM_TIMESTEP

57
BINOUT_SSSTAT_MASSCENTER_ double BINOUT_SSSTAT_N systemid
COORDINATE_Z UM_TIMESTEP

BINOUT_SSSTAT_INERTIA_TEN double BINOUT_SSSTAT_N systemid

SOR_XX UM_TIMESTEP

BINOUT_SSSTAT_INERTIA_TEN double BINOUT_SSSTAT_N systemid

SOR_XY UM_TIMESTEP

BINOUT_SSSTAT_INERTIA_TEN double BINOUT_SSSTAT_N systemid

SOR_XZ UM_TIMESTEP

BINOUT_SSSTAT_INERTIA_TEN double BINOUT_SSSTAT_N systemid

SOR_YY UM_TIMESTEP

BINOUT_SSSTAT_INERTIA_TEN double BINOUT_SSSTAT_N systemid

SOR_YZ UM_TIMESTEP

BINOUT_SSSTAT_INERTIA_TEN double BINOUT_SSSTAT_N systemid

SOR_ZZ UM_TIMESTEP

BINOUT_SSSTAT_PRINCIPAL_I double BINOUT_SSSTAT_N systemid

NERTIAS_1ST UM_TIMESTEP

BINOUT_SSSTAT_PRINCIPAL_I double BINOUT_SSSTAT_N systemid

NERTIAS_2ND UM_TIMESTEP

BINOUT_SSSTAT_PRINCIPAL_I double BINOUT_SSSTAT_N systemid

NERTIAS_3RD UM_TIMESTEP

BINOUT_SSSTAT_PRINCIPAL_I double BINOUT_SSSTAT_N systemid

58
NERTIAS_1ST_DIRECTIONS_X UM_TIMESTEP

BINOUT_SSSTAT_PRINCIPAL_I double BINOUT_SSSTAT_N systemid

NERTIAS_1ST_DIRECTIONS_Y UM_TIMESTEP

BINOUT_SSSTAT_PRINCIPAL_I double BINOUT_SSSTAT_N systemid

NERTIAS_1ST_DIRECTIONS_Z UM_TIMESTEP

BINOUT_SSSTAT_PRINCIPAL_I double BINOUT_SSSTAT_N systemid

NERTIAS_2ND_DIRECTIONS_X UM_TIMESTEP

BINOUT_SSSTAT_PRINCIPAL_I double BINOUT_SSSTAT_N systemid

NERTIAS_2ND_DIRECTIONS_Y UM_TIMESTEP

BINOUT_SSSTAT_PRINCIPAL_I double BINOUT_SSSTAT_N systemid

NERTIAS_2ND_DIRECTIONS_Z UM_TIMESTEP

BINOUT_SSSTAT_PRINCIPAL_I double BINOUT_SSSTAT_N systemid

NERTIAS_3RD_DIRECTIONS_X UM_TIMESTEP

BINOUT_SSSTAT_PRINCIPAL_I double BINOUT_SSSTAT_N systemid

NERTIAS_3RD_DIRECTIONS_Y UM_TIMESTEP

BINOUT_SSSTAT_PRINCIPAL_I double BINOUT_SSSTAT_N systemid

NERTIAS_3RD_DIRECTIONS_Z UM_TIMESTEP

BINOUT_GLSTAT_NUM_TIMESTE int 1 ignore

P

BINOUT_GLSTAT_X double BINOUT_GLSTAT_N ignore

UM_TIMESTEP

59
BINOUT_GLSTAT_NUM_COMPONE int 1 ignore
NT

BINOUT_GLSTAT_COMPONENTS BinoutS BINOUT_GLSTAT_N ignore

tringAr UM_COMPONENT
ray

BINOUT_GLSTAT_NUMBER_OF_N int BINOUT_GLSTAT_N ignore

ODES UM_TIMESTEP

BINOUT_GLSTAT_NUMBER_OF_E int BINOUT_GLSTAT_N ignore

LEMENTS UM_TIMESTEP

BINOUT_GLSTAT_NZC int BINOUT_GLSTAT_N ignore

UM_TIMESTEP

BINOUT_GLSTAT_NUMBER_OF_S int BINOUT_GLSTAT_N ignore

TONEWALL UM_TIMESTEP

BINOUT_GLSTAT_STONEWALL_I unsigne BINOUT_GLSTAT_N ignore

DS d int UMBER_OF_STONEW
ALL

BINOUT_GLSTAT_TIME_STEP double BINOUT_GLSTAT_T ignore

IME_STEP

BINOUT_GLSTAT_KINETIC_ENE double BINOUT_GLSTAT_T ignore

RGY IME_STEP

BINOUT_GLSTAT_INTERNAL_EN double BINOUT_GLSTAT_T ignore

ERGY IME_STEP

BINOUT_GLSTAT_RB_STOPPER_ double BINOUT_GLSTAT_T ignore

60
ENERGY IME_STEP

BINOUT_GLSTAT_SPRING_AND_ double BINOUT_GLSTAT_T ignore

DAMPER_ENERGY IME_STEP

BINOUT_GLSTAT_JOINT_INTER double BINOUT_GLSTAT_T ignore

NAL_ENERGY IME_STEP

BINOUT_GLSTAT_HOURGLASS_E double BINOUT_GLSTAT_T ignore

NERGY IME_STEP

BINOUT_GLSTAT_SYSTEM_DAMP double BINOUT_GLSTAT_T ignore

ING_ENERGY IME_STEP

BINOUT_GLSTAT_SLIDING_INT double BINOUT_GLSTAT_T ignore

ERFACE_ENERGY IME_STEP

BINOUT_GLSTAT_EXTERNAL_WO double BINOUT_GLSTAT_T ignore

RK IME_STEP

BINOUT_GLSTAT_ERODED_KINE double BINOUT_GLSTAT_T ignore

TIC_ENERGY IME_STEP

BINOUT_GLSTAT_ERODED_INTE double BINOUT_GLSTAT_T ignore

RNAL_ENERGY IME_STEP

BINOUT_GLSTAT_ERODED_HOUR double BINOUT_GLSTAT_T ignore

GLASS_ENERGY IME_STEP

BINOUT_GLSTAT_TOTAL_ENERG double BINOUT_GLSTAT_T ignore

Y IME_STEP

61
BINOUT_GLSTAT_ENERGY_RATI double BINOUT_GLSTAT_T ignore
O IME_STEP

BINOUT_GLSTAT_ENERGY_RATI double BINOUT_GLSTAT_T ignore

O_WO_ERODED IME_STEP

BINOUT_GLSTAT_GLOBAL_VELO double BINOUT_GLSTAT_T ignore

CITY_X IME_STEP

BINOUT_GLSTAT_GLOBAL_VELO double BINOUT_GLSTAT_T ignore

CITY_Y IME_STEP

BINOUT_GLSTAT_GLOBAL_VELO double BINOUT_GLSTAT_T ignore

CITY_Z IME_STEP

BINOUT_GLSTAT_ADDED_MASS double BINOUT_GLSTAT_T ignore

IME_STEP

BINOUT_GLSTAT_PERCENT_INC double BINOUT_GLSTAT_T ignore

REASE IME_STEP

BINOUT_GLSTAT_TOTAL_MASS double BINOUT_GLSTAT_T ignore

IME_STEP

BINOUT_GLSTAT_MASS_CENTER double BINOUT_GLSTAT_T ignore

_X IME_STEP

BINOUT_GLSTAT_MASS_CENTER double BINOUT_GLSTAT_T ignore

_Y IME_STEP

BINOUT_GLSTAT_MASS_CENTER double BINOUT_GLSTAT_T ignore

_Z IME_STEP

62
BINOUT_GLSTAT_STONEWALL_E double BINOUT_GLSTAT_T ignore
NERGY IME_STEP

BINOUT_DEFORC_NUM_TIMESTE int 1 ignore

P

BINOUT_DEFORC_X double BINOUT_DEFORC_N ignore

UM_TIMESTEP

BINOUT_DEFORC_NUM_TRANSLA int 1 ignore

TION_ID

BINOUT_DEFORC_TRANSLATION unsigne BINOUT_DEFORC_N ignore

_IDS d int UM_TRANSLATION_
ID

BINOUT_DEFORC_NUM_ROTATIO int 1 ignore

N_ID

BINOUT_DEFORC_ROTATION_ID unsigne BINOUT_DEFORC_N ignore

S d int UM_ROTATION_ID

BINOUT_DEFORC_NUM_COMPONE int 1 ignore

NT

BINOUT_DEFORC_COMPONENTS BinoutS BINOUT_DEFORC_N ignore

tringAr UM_COMPONENT
ray

BINOUT_DEFORC_DISPLACEMEN double BINOUT_DEFORC_N id = spring/damper number

T UM_TIMESTEP

63
BINOUT_DEFORC_RESULTANT_F double BINOUT_DEFORC_N id = spring/damper number
ORCE UM_TIMESTEP

BINOUT_DEFORC_FORCE_X double BINOUT_DEFORC_N id = spring/damper number

UM_TIMESTEP

BINOUT_DEFORC_FORCE_Y double BINOUT_DEFORC_N id = spring/damper number

UM_TIMESTEP

BINOUT_DEFORC_FORCE_Z double BINOUT_DEFORC_N id = spring/damper number

UM_TIMESTEP

BINOUT_DEFORC_RELATIVE_RO double BINOUT_DEFORC_N id = spring/damper number

TATION UM_TIMESTEP

BINOUT_DEFORC_RESULTANT_M double BINOUT_DEFORC_N id = spring/damper number

OMENT UM_TIMESTEP

BINOUT_DEFORC_MOMENT_X double BINOUT_DEFORC_N id = spring/damper number

UM_TIMESTEP

BINOUT_DEFORC_MOMENT_Y double BINOUT_DEFORC_N id = spring/damper number

UM_TIMESTEP

BINOUT_DEFORC_MOMENT_Z double BINOUT_DEFORC_N id = spring/damper number

UM_TIMESTEP

BINOUT_MATSUM_NUM_TIMESTE int 1 ignore

P

BINOUT_MATSUM_X double BINOUT_MATSUM_N ignore

UM_TIMESTEP

64
BINOUT_MATSUM_NUM_ID int 1 ignore

BINOUT_MATSUM_IDS unsigne BINOUT_MATSUM_N ignore

d int UM_ID

BINOUT_MATSUM_NUM_COMPONE int 1 ignore

NT

BINOUT_MATSUM_COMPONENTS BinoutS BINOUT_MATSUM_N ignore

tringAr UM_COMPONENT
ray

BINOUT_MATSUM_INTERNAL_EN double BINOUT_MATSUM_N id

ERGY UM_TIMESTEP

BINOUT_MATSUM_KINETIC_ENE double BINOUT_MATSUM_N id

RGY UM_TIMESTEP

BINOUT_MATSUM_ERODED_INTE double BINOUT_MATSUM_N id

RNAL_ENERGY UM_TIMESTEP

BINOUT_MATSUM_ERODED_KINE double BINOUT_MATSUM_N id

TIC_ENERGY UM_TIMESTEP

BINOUT_MATSUM_MASS double BINOUT_MATSUM_N id

UM_TIMESTEP

BINOUT_MATSUM_HOURGLASS_E double BINOUT_MATSUM_N id

NERGY UM_TIMESTEP

BINOUT_MATSUM_MOMENTUM_X double BINOUT_MATSUM_N id

65
 UM_TIMESTEP

BINOUT_MATSUM_MOMENTUM_Y double BINOUT_MATSUM_N id

UM_TIMESTEP

BINOUT_MATSUM_MOMENTUM_Z double BINOUT_MATSUM_N id

UM_TIMESTEP

BINOUT_MATSUM_RBVELOCITY_ double BINOUT_MATSUM_N id

X UM_TIMESTEP

BINOUT_MATSUM_RBVELOCITY_ double BINOUT_MATSUM_N id

Y UM_TIMESTEP

BINOUT_MATSUM_RBVELOCITY_ double BINOUT_MATSUM_N id

Z UM_TIMESTEP

BINOUT_TRHIST_NUM_TIMESTE int 1 ignore

P

BINOUT_TRHIST_X double BINOUT_TRHIST_N ignore

UM_TIMESTEP

BINOUT_TRHIST_NUM_ID int 1 ignore

BINOUT_TRHIST_IDS unsigne BINOUT_TRHIST_N ignore

d int UM_ID

BINOUT_TRHIST_NUM_COMPONE int 1 ignore

NT

BINOUT_TRHIST_COMPONENTS BinoutS BINOUT_TRHIST_N ignore

66
 tringAr UM_COMPONENT
ray

BINOUT_TRHIST_ELEMENT_ID double BINOUT_TRHIST_N id

UM_TIMESTEP

BINOUT_TRHIST_COORDINATE_ double BINOUT_TRHIST_N id

X UM_TIMESTEP

BINOUT_TRHIST_COORDINATE_ double BINOUT_TRHIST_N id

Y UM_TIMESTEP

BINOUT_TRHIST_COORDINATE_ double BINOUT_TRHIST_N id

Z UM_TIMESTEP

BINOUT_TRHIST_VELOCITY_X double BINOUT_TRHIST_N id

UM_TIMESTEP

BINOUT_TRHIST_VELOCITY_Y double BINOUT_TRHIST_N id

UM_TIMESTEP

BINOUT_TRHIST_VELOCITY_Z double BINOUT_TRHIST_N id

UM_TIMESTEP

BINOUT_TRHIST_STRESS_X double BINOUT_TRHIST_N id

UM_TIMESTEP

BINOUT_TRHIST_STRESS_Y double BINOUT_TRHIST_N id

UM_TIMESTEP

BINOUT_TRHIST_STRESS_Z double BINOUT_TRHIST_N id

UM_TIMESTEP

67
BINOUT_TRHIST_STRESS_XY double BINOUT_TRHIST_N id
UM_TIMESTEP

BINOUT_TRHIST_STRESS_YZ double BINOUT_TRHIST_N id

UM_TIMESTEP

BINOUT_TRHIST_STRESS_ZX double BINOUT_TRHIST_N id

UM_TIMESTEP

BINOUT_TRHIST_EFFECTIVE_P double BINOUT_TRHIST_N id

LASTIC_STRAIN UM_TIMESTEP

BINOUT_TRHIST_REL_VOL double BINOUT_TRHIST_N id

UM_TIMESTEP

BINOUT_TRHIST_RHO double BINOUT_TRHIST_N id

UM_TIMESTEP

BINOUT_TRHIST_PRESSURE double BINOUT_TRHIST_N id

UM_TIMESTEP

BINOUT_TPRINT_NUM_TIMESTE int 1 ignore

P

BINOUT_TPRINT_X double BINOUT_TPRINT_N ignore

UM_TIMESTEP

BINOUT_TPRINT_NUM_NODE_ID int 1 ignore

BINOUT_TPRINT_NUM_PART_ID int 1 ignore

68
BINOUT_TPRINT_NODE_IDS unsigne BINOUT_TPRINT_N ignore
d int UM_ID

BINOUT_TPRINT_PART_IDS unsigne BINOUT_TPRINT_N ignore

d int UM_ID

BINOUT_TPRINT_NUM_NODE_CO int 1 ignore

MPONENT

BINOUT_TPRINT_NUM_PART_CO int 1 ignore

MPONENT

BINOUT_TPRINT_NODE_COMPON BinoutS BINOUT_TPRINT_N ignore

ENTS tringAr UM_NODE_COMPONE
ray NT

BINOUT_TPRINT_PART_COMPON BinoutS BINOUT_TPRINT_N ignore

ENTS tringAr UM_PART_COMPONE
ray NT

BINOUT_TPRINT_TEMPERATURE double BINOUT_TPRINT_N id

UM_TIMESTEP

BINOUT_TPRINT_FLUX_X double BINOUT_TPRINT_N id

UM_TIMESTEP

BINOUT_TPRINT_FLUX_Y double BINOUT_TPRINT_N id

UM_TIMESTEP

BINOUT_TPRINT_FLUX_Z double BINOUT_TPRINT_N id

UM_TIMESTEP

BINOUT_TPRINT_T_TOP double BINOUT_TPRINT_N id

69
 UM_TIMESTEP

BINOUT_TPRINT_T_BOTTOM double BINOUT_TPRINT_N id

UM_TIMESTEP

BINOUT_TPRINT_AVERAGE_PAR double BINOUT_TPRINT_N id

T_TEMPERATURE UM_TIMESTEP

BINOUT_TPRINT_ENERGY_CHAN double BINOUT_TPRINT_N id

GE UM_TIMESTEP

BINOUT_TPRINT_HEAT_GENERA double BINOUT_TPRINT_N id

TED UM_TIMESTEP

BINOUT_TPRINT_TMIN double 1 state number

BINOUT_TPRINT_TMAX double 1 state number

BINOUT_TPRINT_TNORM double 1 state number

BINOUT_NCFORC_NUM_INTERFA int 1 ignore

CE

BINOUT_NCFORC_INTERFACES BinoutS BINOUT_NCFORC_N ignore

tringAr UM_INTERFACE
ray

BINOUT_NCFORC_NUM_ID int 1 cid = contact id

BINOUT_NCFORC_IDS unsigne BINOUT_NCFORC_N cid = contact id

d int UM_ID

70
BINOUT_NCFORC_NUM_SLAVEID int 1 cid = contact id

BINOUT_NCFORC_SLAVE_IDS unsigne BINOUT_NCFORC_N cid = contact id

d int UM_SLAVEID

BINOUT_NCFORC_NUM_MASTERI int 1 cid = contact id

D

BINOUT_NCFORC_MASTER_IDS unsigne BINOUT_NCFORC_N cid = contact id

d int UM_MASTERID

BINOUT_NCFORC_NUM_TIMESTE int 1 cid = contact id

P

BINOUT_NCFORC_X double BINOUT_NCFORC_N cid = contact id

UM_TIMESTEP

BINOUT_NCFORC_NUM_COMPONE int 1 cid = contact id

NT

BINOUT_NCFORC_COMPONENTS BinoutS BINOUT_NCFORC_N cid = contact id

tringAr UM_COMPONENT,
ray

BINOUT_NCFORC_FORCE_X double BINOUT_NCFORC_N cid = contact id, id =

UM_TIMESTEP master/slave node id

BINOUT_NCFORC_FORCE_Y double BINOUT_NCFORC_N cid = contact id, id =

UM_TIMESTEP master/slave node id

BINOUT_NCFORC_FORCE_Z double BINOUT_NCFORC_N cid = contact id, id =

71
 UM_TIMESTEP master/slave node id

BINOUT_NCFORC_PRESSURE double BINOUT_NCFORC_N cid = contact id, id =

UM_TIMESTEP master/slave node id

BINOUT_NCFORC_COORDINATE_ double BINOUT_NCFORC_N cid = contact id, id =

X UM_TIMESTEP master/slave node id

BINOUT_NCFORC_COORDINATE_ double BINOUT_NCFORC_N cid = contact id, id =

Y UM_TIMESTEP master/slave node id

BINOUT_NCFORC_COORDINATE_ double BINOUT_NCFORC_N cid = contact id, id =

Z UM_TIMESTEP master/slave node id

BINOUT_RCFORC_NUM_ID int 1 ignore

BINOUT_RCFORC_IDS unsigne BINOUT_RCFORC_N ignore

d int UM_ID

BINOUT_RCFORC_NUM_TIMESTE int 1 ignore

P

BINOUT_RCFORC_X double BINOUT_RCFORC_N ignore

UM_TIMESTEP

BINOUT_RCFORC_NUM_COMPONE int 1 ignore

NT

BINOUT_RCFORC_COMPONENTS BinoutS BINOUT_RCFORC_N ignore

tringAr UM_COMPONENT
ray

72
BINOUT_RCFORC_MASS double BINOUT_RCFORC_N id, idtype:
UM_TIMESTEP BINOUT_RCFORC_ID_MASTER,
BINOUT_RCFORC_ID_SLAVE

BINOUT_RCFORC_TIE_AREA double BINOUT_RCFORC_N id, idtype:

UM_TIMESTEP BINOUT_RCFORC_ID_MASTER,
BINOUT_RCFORC_ID_SLAVE

BINOUT_RCFORC_TIE_COUNT double BINOUT_RCFORC_N id, idtype:

UM_TIMESTEP BINOUT_RCFORC_ID_MASTER,
BINOUT_RCFORC_ID_SLAVE

BINOUT_RCFORC_FORCE_X double BINOUT_RCFORC_N id, idtype:

UM_TIMESTEP BINOUT_RCFORC_ID_MASTER,
BINOUT_RCFORC_ID_SLAVE

BINOUT_RCFORC_FORCE_Y double BINOUT_RCFORC_N id, idtype:

UM_TIMESTEP BINOUT_RCFORC_ID_MASTER,
BINOUT_RCFORC_ID_SLAVE

BINOUT_RCFORC_FORCE_Z double BINOUT_RCFORC_N id, idtype:

UM_TIMESTEP BINOUT_RCFORC_ID_MASTER,
BINOUT_RCFORC_ID_SLAVE

BINOUT_RCFORC_RESULTANT_F double BINOUT_RCFORC_N id, idtype:

ORCE UM_TIMESTEP BINOUT_RCFORC_ID_MASTER,
BINOUT_RCFORC_ID_SLAVE

BINOUT_RCFORC_MOMENT_X double BINOUT_RCFORC_N id, idtype:

UM_TIMESTEP BINOUT_RCFORC_ID_MASTER,
BINOUT_RCFORC_ID_SLAVE

BINOUT_RCFORC_MOMENT_Y double BINOUT_RCFORC_N id, idtype:

UM_TIMESTEP BINOUT_RCFORC_ID_MASTER,
BINOUT_RCFORC_ID_SLAVE

73
BINOUT_RCFORC_MOMENT_Z double BINOUT_RCFORC_N id, idtype:
UM_TIMESTEP BINOUT_RCFORC_ID_MASTER,
BINOUT_RCFORC_ID_SLAVE

BINOUT_SECFORC_NUM_ID int 1 ignore

BINOUT_SECFORC_IDS unsigne BINOUT_SECFORC_ ignore

d int NUM_ID

BINOUT_SECFORC_NUM_TIMEST int 1 ignore

EP

BINOUT_SECFORC_X double BINOUT_SECFORC_ ignore

NUM_TIMESTEP

BINOUT_SECFORC_NUM_COMPON int 1 ignore

ENT

BINOUT_SECFORC_COMPONENTS BinoutS BINOUT_SECFORC_ ignore

tringAr NUM_COMPONENT
ray

BINOUT_SECFORC_FORCE_X double BINOUT_SECFORC_ id

NUM_TIMESTEP

BINOUT_SECFORC_FORCE_Y double BINOUT_SECFORC_ id

NUM_TIMESTEP

BINOUT_SECFORC_FORCE_Z double BINOUT_SECFORC_ id

NUM_TIMESTEP

BINOUT_SECFORC_FORCE_TOTA double BINOUT_SECFORC_ id

L NUM_TIMESTEP

74
BINOUT_SECFORC_MOMENT_X double BINOUT_SECFORC_ id
NUM_TIMESTEP

BINOUT_SECFORC_MOMENT_Y double BINOUT_SECFORC_ id

NUM_TIMESTEP

BINOUT_SECFORC_MOMENT_Z double BINOUT_SECFORC_ id

NUM_TIMESTEP

BINOUT_SECFORC_MOMENT_TOT double BINOUT_SECFORC_ id

AL NUM_TIMESTEP

BINOUT_SECFORC_CENTROID_X double BINOUT_SECFORC_ id

NUM_TIMESTEP

BINOUT_SECFORC_CENTROID_Y double BINOUT_SECFORC_ id

NUM_TIMESTEP

BINOUT_SECFORC_CENTROID_Z double BINOUT_SECFORC_ id

NUM_TIMESTEP

BINOUT_SECFORC_AREA double BINOUT_SECFORC_ id

NUM_TIMESTEP

BINOUT_DCFAIL_NUM_ID int 1 ignore

BINOUT_DCFAIL_IDS unsigne BINOUT_DCFAIL_N ignore

d int UM_ID

BINOUT_DCFAIL_NUM_TIMESTE int 1 ignore

P

75
BINOUT_DCFAIL_X double BINOUT_DCFAIL_N ignore
UM_TIMESTEP

BINOUT_DCFAIL_NUM_COMPONE int 1 ignore

NT

BINOUT_DCFAIL_COMPONENTS BinoutS BINOUT_DCFAIL_N ignore

tringAr UM_COMPONENT
ray

BINOUT_DCFAIL_AREA double BINOUT_DCFAIL_N id

UM_TIMESTEP

BINOUT_DCFAIL_BENDING_TER double BINOUT_DCFAIL_N id

M UM_TIMESTEP

BINOUT_DCFAIL_EFFECTIVE_S double BINOUT_DCFAIL_N id

TRAIN_RATE UM_TIMESTEP

BINOUT_DCFAIL_FAILURE_FUN double BINOUT_DCFAIL_N id

CTION UM_TIMESTEP

BINOUT_DCFAIL_NORMAL_TERM double BINOUT_DCFAIL_N id

UM_TIMESTEP

BINOUT_DCFAIL_SHEAR_TERM double BINOUT_DCFAIL_N id

UM_TIMESTEP

BINOUT_DCFAIL_AREA_SOL double BINOUT_DCFAIL_N id

UM_TIMESTEP

BINOUT_DCFAIL_N

76
BINOUT_DCFAIL_AXIAL_FORCE double UM_TIMESTEP id

BINOUT_DCFAIL_SHEAR_FORCE double BINOUT_DCFAIL_N id

UM_TIMESTEP

BINOUT_DCFAIL_TORSIONAL_M double BINOUT_DCFAIL_N id

OMENT UM_TIMESTEP

BINOUT_DCFAIL_BENDING_MOM double BINOUT_DCFAIL_N id

ENT UM_TIMESTEP

BINOUT_PRTUBE_NUM_ID int 1 ignore

BINOUT_PRTUBE_IDS unsigne BINOUT_PRTUBE_N ignore

d int UM_ID

BINOUT_PRTUBE_NUM_TIMESTE int 1 ignore

P

BINOUT_PRTUBE_X double BINOUT_PRTUBE_N ignore

UM_TIMESTEP

BINOUT_PRTUBE_NUM_COMPONE int 1 ignore

NT

BINOUT_PRTUBE_COMPONENTS BinoutS BINOUT_PRTUBE_N ignore

tringAr UM_COMPONENT
ray

BINOUT_PRTUBE_AREA double BINOUT_PRTUBE_N id

UM_TIMESTEP

77
BINOUT_PRTUBE_PRESSURE double BINOUT_PRTUBE_N id
UM_TIMESTEP

BINOUT_PRTUBE_VELOCITY double BINOUT_PRTUBE_N id

UM_TIMESTEP

BINOUT_PRTUBE_DENSITY double BINOUT_PRTUBE_N id

UM_TIMESTEP

BINOUT_GCEOUT_NUM_ID int 1 ignore

BINOUT_GCEOUT_IDS unsigne BINOUT_GCEOUT_N ignore

d int UM_ID

BINOUT_GCEOUT_NUM_TIMESTE int 1 ignore

P

BINOUT_GCEOUT_X double BINOUT_GCEOUT_N ignore

UM_TIMESTEP

BINOUT_GCEOUT_NUM_COMPONE int 1 ignore

NT

BINOUT_GCEOUT_COMPONENTS BinoutS BINOUT_GCEOUT_N ignore

tringAr UM_COMPONENT
ray

BINOUT_GCEOUT_FORCE_X double BINOUT_GCEOUT_N id

UM_TIMESTEP

BINOUT_GCEOUT_FORCE_Y double BINOUT_GCEOUT_N id

UM_TIMESTEP

78
BINOUT_GCEOUT_FORCE_Z double BINOUT_GCEOUT_N id
UM_TIMESTEP

BINOUT_GCEOUT_MOMENT_X double BINOUT_GCEOUT_N id

UM_TIMESTEP

BINOUT_GCEOUT_MOMENT_Y double BINOUT_GCEOUT_N id

UM_TIMESTEP

BINOUT_GCEOUT_MOMENT_Z double BINOUT_GCEOUT_N id

UM_TIMESTEP

BINOUT_GCEOUT_FORCE_MAGNI double BINOUT_GCEOUT_N id

TUDE UM_TIMESTEP

BINOUT_GCEOUT_MOMENT_MAGN double BINOUT_GCEOUT_N id

ITUDE UM_TIMESTEP

BINOUT_DEFGEO_NUM_ID int 1 ignore

BINOUT_DEFGEO_IDS unsigne BINOUT_DEFGEO_N ignore

d int UM_ID

BINOUT_DEFGEO_NUM_TIMESTE int 1 ignore

P

BINOUT_DEFGEO_X double BINOUT_DEFGEO_N ignore

UM_TIMESTEP

BINOUT_DEFGEO_NUM_COMPONE int 1 ignore

NT

79
BINOUT_DEFGEO_COMPONENTS BinoutS BINOUT_DEFGEO_N ignore
tringAr UM_COMPONENT
ray

BINOUT_DEFGEO_DISPLACEMEN double BINOUT_DEFGEO_N id

T_X UM_TIMESTEP

BINOUT_DEFGEO_DISPLACEMEN double BINOUT_DEFGEO_N id

T_Y UM_TIMESTEP

BINOUT_DEFGEO_DISPLACEMEN double BINOUT_DEFGEO_N id

T_Z UM_TIMESTEP

BINOUT_DEFGEO_DISPLACEMEN double BINOUT_DEFGEO_N id

T_MAX UM_TIMESTEP

BINOUT_DEMRCFORC_NUM_ID int 1 ignore

BINOUT_DEMRCFORC_IDS unsigne BINOUT_DEMRCFOR ignore

d int C_NUM_ID

BINOUT_DEMRCFORC_NUM_TIME int 1 ignore

STEP

BINOUT_DEMRCFORC_X double BINOUT_DEMRCFOR ignore

C_NUM_TIMESTEP

BINOUT_DEMRCFORC_NUM_COMP int 1 ignore

ONENT

BINOUT_DEMRCFORC_COMPONEN BinoutS BINOUT_DEMRCFOR ignore

tringAr

80
TS ray C_NUM_COMPONENT

BINOUT_DEMRCFORC_FORCE_X double BINOUT_DEMRCFOR id

C_NUM_TIMESTEP

BINOUT_DEMRCFORC_FORCE_Y double BINOUT_DEMRCFOR id

C_NUM_TIMESTEP

BINOUT_DEMRCFORC_FORCE_Z double BINOUT_DEMRCFOR id

C_NUM_TIMESTEP

BINOUT_BRNGOUT_NUM_ID int 1 ignore

BINOUT_BRNGOUT_IDS unsigne BINOUT_BRNGOUT_ ignore

d int NUM_ID

BINOUT_BRNGOUT_NUM_TIMEST int 1 ignore

EP

BINOUT_BRNGOUT_X double BINOUT_BRNGOUT_ ignore

NUM_TIMESTEP

BINOUT_BRNGOUT_NUM_COMPON int 1 ignore

ENT

BINOUT_BRNGOUT_COMPONENTS BinoutS BINOUT_BRNGOUT_ ignore

tringAr NUM_COMPONENT
ray

BINOUT_BRNGOUT_FFXG double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

81
BINOUT_BRNGOUT_FFYG double BINOUT_BRNGOUT_ id
NUM_TIMESTEP

BINOUT_BRNGOUT_FFZG double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_FMXG double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_FMYG double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_FMZG double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_FFX double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_FFY double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_FFZ double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_FMX double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_FMY double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_DXG double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

82
BINOUT_BRNGOUT_DYG double BINOUT_BRNGOUT_ id
NUM_TIMESTEP

BINOUT_BRNGOUT_DZG double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_AXG double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_AYG double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_AZG double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_DXL double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_DYL double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_DZL double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_BXL double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_BRNGOUT_BYL double BINOUT_BRNGOUT_ id

NUM_TIMESTEP

BINOUT_DBFSI_NUM_ID int 1 ignore

83
BINOUT_DBFSI_IDS unsigne BINOUT_DBFSI_NU ignore
d int M_ID

BINOUT_DBFSI_NUM_TIMESTEP int 1 ignore

BINOUT_DBFSI_X double BINOUT_DBFSI_NU ignore

M_TIMESTEP

BINOUT_DBFSI_NUM_COMPONEN int 1 ignore

T

BINOUT_DBFSI_COMPONENTS BinoutS BINOUT_DBFSI_NU ignore

tringAr M_COMPONENT
ray

BINOUT_DBFSI_FX double BINOUT_DBFSI_NU id

M_TIMESTEP

BINOUT_DBFSI_FY double BINOUT_DBFSI_NU id

M_TIMESTEP

BINOUT_DBFSI_FZ double BINOUT_DBFSI_NU id

M_TIMESTEP

BINOUT_DBFSI_PRES double BINOUT_DBFSI_NU id

M_TIMESTEP

BINOUT_DBFSI_MOUT double BINOUT_DBFSI_NU id

M_TIMESTEP

BINOUT_DBFSI_OBSOLETE double BINOUT_DBFSI_NU id

84
 M_TIMESTEP

BINOUT_DBFSI_GX double BINOUT_DBFSI_NU id

M_TIMESTEP

BINOUT_DBFSI_GY double BINOUT_DBFSI_NU id

M_TIMESTEP

BINOUT_DBFSI_GZ double BINOUT_DBFSI_NU id

M_TIMESTEP

BINOUT_DBFSI_PTMP double BINOUT_DBFSI_NU id

M_TIMESTEP

BINOUT_DBFSI_PDT double BINOUT_DBFSI_NU id

M_TIMESTEP

BINOUT_SBTOUT_NUM_BELT_ID int 1 ignore

BINOUT_SBTOUT_BELT_IDS usigned BINOUT_SBTOUT_N ignore

int UM_BELT_ID

BINOUT_SBTOUT_NUM_RETRACT int 1 ignore

OR_ID

BINOUT_SBTOUT_RETRACTOR_I usigned BINOUT_SBTOUT_N ignore

DS int UM_RETRACTOR_ID

BINOUT_SBTOUT_NUM_SLIPRIN int 1 ignore

G_ID

BINOUT_SBTOUT_SLIPRING_ID usigned BINOUT_SBTOUT_N ignore

85
S int UM_SLIPRING_ID

BINOUT_SBTOUT_NUM_TIMESTE int 1 ignore

P

BINOUT_SBTOUT_X double BINOUT_SBTOUT_N ignore

UM_TIMESTEP

BINOUT_SBTOUT_NUM_COMPONE int 1 ignore

NT

BINOUT_SBTOUT_COMPONENTS BinoutS BINOUT_SBTOUT_N ignore

tringAr UM_COMPONENT
ray

BINOUT_SBTOUT_BELT_FORCE double BINOUT_SBTOUT_T id, idtype: BINOUT_SBTOUT_ID_BELT

IMESTEP

BINOUT_SBTOUT_BELT_LENGTH double BINOUT_SBTOUT_T id, idtype: BINOUT_SBTOUT_ID_BELT

IMESTEP

BINOUT_SBTOUT_RETRACTOR_F double BINOUT_SBTOUT_T id, idtype:

ORCE IMESTEP BINOUT_SBTOUT_ID_RETRACTOR

BINOUT_SBTOUT_RETRACTOR_P double BINOUT_SBTOUT_T id, idtype:

ULL_OUT IMESTEP BINOUT_SBTOUT_ID_RETRACTOR

BINOUT_SBTOUT_RING_SLIP double BINOUT_SBTOUT_T id, idtype:

IMESTEP BINOUT_SBTOUT_ID_SLIPRING

BINOUT_BNDOUT_NUM_TIMESTE int 1 idtype

P

86
BINOUT_BNDOUT_X double BINOUT_BNDOUT_N idtype =
UM_TIMESTEP, BINOUT_BNDOUT_ID_DISCRETENO
DES,

BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

BINOUT_BNDOUT_ID_VELOCITYRI
GIDBODIES,

BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_BNDOUT_NUM_ID int 1 idtype =

BINOUT_BNDOUT_ID_DISCRETENO
DES,

BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

BINOUT_BNDOUT_ID_VELOCITYRI
GIDBODIES,

BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_BNDOUT_IDS usigned BINOUT_BNDOUT_N idtype =

int UM_ID BINOUT_BNDOUT_ID_DISCRETENO
DES,

BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

87
 BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

BINOUT_BNDOUT_ID_VELOCITYRI
GIDBODIES,

BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_BNDOUT_NUM_COMPONE int 1 idtype =

NT BINOUT_BNDOUT_ID_DISCRETENO
DES,

BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

BINOUT_BNDOUT_ID_VELOCITYRI
GIDBODIES,

BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_BNDOUT_COMPONENTS BinoutS BINOUT_BNDOUT_N idtype =

tringAr UM_COMPONENT BINOUT_BNDOUT_ID_DISCRETENO
ray DES,

BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

BINOUT_BNDOUT_ID_VELOCITYRI
GIDBODIES,

88
 BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_BNDOUT_FORCE_X double BINOUT_BNDOUT_N id, idtype =

UM_TIMESTEP BINOUT_BNDOUT_ID_DISCRETENO
DES,

BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

BINOUT_BNDOUT_ID_VELOCITYRI
GIDBODIES,

BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_BNDOUT_FORCE_Y double BINOUT_BNDOUT_N id, idtype =

UM_TIMESTEP BINOUT_BNDOUT_ID_DISCRETENO
DES,

BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

BINOUT_BNDOUT_ID_VELOCITYRI
GIDBODIES,

BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_BNDOUT_FORCE_Z double BINOUT_BNDOUT_N id, idtype =

UM_TIMESTEP BINOUT_BNDOUT_ID_DISCRETENO
DES,

89
 BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

BINOUT_BNDOUT_ID_VELOCITYRI
GIDBODIES,

BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_BNDOUT_ENERGY double BINOUT_BNDOUT_N id, idtype =

UM_TIMESTEP BINOUT_BNDOUT_ID_DISCRETENO
DES,

BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

BINOUT_BNDOUT_ID_VELOCITYRI
GIDBODIES,

BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_BNDOUT_MOMENT_X double BINOUT_BNDOUT_N id, idtype =

UM_TIMESTEP BINOUT_BNDOUT_ID_DISCRETENO
DES,

BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

BINOUT_BNDOUT_ID_VELOCITYRI

90
 GIDBODIES,

BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_BNDOUT_MOMENT_Y double BINOUT_BNDOUT_N id, idtype =

UM_TIMESTEP BINOUT_BNDOUT_ID_DISCRETENO
DES,

BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

BINOUT_BNDOUT_ID_VELOCITYRI
GIDBODIES,

BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_BNDOUT_MOMENT_Z double BINOUT_BNDOUT_N id, idtype =

UM_TIMESTEP BINOUT_BNDOUT_ID_DISCRETENO
DES,

BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

BINOUT_BNDOUT_ID_VELOCITYRI
GIDBODIES,

BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_BNDOUT_N idtype =

91
BINOUT_BNDOUT_TOTAL_X double UM_TIMESTEP BINOUT_BNDOUT_ID_DISCRETENO
DES,

BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

BINOUT_BNDOUT_ID_VELOCITYRI
GIDBODIES,

BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_BNDOUT_TOTAL_Y double BINOUT_BNDOUT_N idtype =

UM_TIMESTEP BINOUT_BNDOUT_ID_DISCRETENO
DES,

BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

BINOUT_BNDOUT_ID_VELOCITYRI
GIDBODIES,

BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_BNDOUT_TOTAL_Z double BINOUT_BNDOUT_N idtype =

UM_TIMESTEP BINOUT_BNDOUT_ID_DISCRETENO
DES,

BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

92
 BINOUT_BNDOUT_ID_VELOCITYRI
GIDBODIES,

BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_BNDOUT_ETOTAL double BINOUT_BNDOUT_N idtype =

UM_TIMESTEP BINOUT_BNDOUT_ID_DISCRETENO
DES,

BINOUT_BNDOUT_ID_DISCRETERIGIDBODI
ES,

BINOUT_BNDOUT_ID_PRESSURE,

BINOUT_BNDOUT_ID_VELOCITYNODES,

BINOUT_BNDOUT_ID_VELOCITYRI
GIDBODIES,

BINOUT_BNDOUT_ID_ORIENTATIO
NRIGIDBODIES,

BINOUT_NBNDOUT_NUM_TIMEST int 1 idtype =

EP BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

BINOUT_NBNDOUT_ID_DISCRETER
IGIDBODIES,

BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYN
ODES,

BINOUT_NBNDOUT_ID_VELOCITYR
IGIDBODIES,

93
 BINOUT_NBNDOUT_ID_ORIENTATI
ONRIGIDBODIES,

BINOUT_NBNDOUT_X double BINOUT_NBNDOUT_ idtype =

NUM_TIMESTEP, BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

BINOUT_NBNDOUT_ID_DISCRETER
IGIDBODIES,

BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYN
ODES,

BINOUT_NBNDOUT_ID_VELOCITYR
IGIDBODIES,

BINOUT_NBNDOUT_ID_ORIENTATI
ONRIGIDBODIES,

BINOUT_NBNDOUT_NUM_ID int 1 idtype =

BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

BINOUT_NBNDOUT_ID_DISCRETER
IGIDBODIES,

BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYN
ODES,

BINOUT_NBNDOUT_ID_VELOCITYR
IGIDBODIES,

94
 BINOUT_NBNDOUT_ID_ORIENTATI
ONRIGIDBODIES,

BINOUT_NBNDOUT_IDS usigned BINOUT_NBNDOUT_ idtype =

int NUM_ID BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

BINOUT_NBNDOUT_ID_DISCRETER
IGIDBODIES,

BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYN
ODES,

BINOUT_NBNDOUT_ID_VELOCITYR
IGIDBODIES,

BINOUT_NBNDOUT_ID_ORIENTATI
ONRIGIDBODIES,

BINOUT_NBNDOUT_NUM_COMPON int 1 idtype =

ENT BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

BINOUT_NBNDOUT_ID_DISCRETER
IGIDBODIES,

BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYN
ODES,

BINOUT_NBNDOUT_ID_VELOCITYR
IGIDBODIES,

BINOUT_NBNDOUT_ID_ORIENTATI

95
 ONRIGIDBODIES,

BINOUT_NBNDOUT_COMPONENTS BinoutS BINOUT_NBNDOUT_ idtype =

tringAr NUM_COMPONENT BINOUT_NBNDOUT_ID_DISCRETEN
ray ODES,

BINOUT_NBNDOUT_ID_DISCRETER
IGIDBODIES,

BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYN
ODES,

BINOUT_NBNDOUT_ID_VELOCITYR
IGIDBODIES,

BINOUT_NBNDOUT_ID_ORIENTATI
ONRIGIDBODIES,

BINOUT_NBNDOUT_FORCE_X double BINOUT_NBNDOUT_ id, idtype =

NUM_TIMESTEP BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

BINOUT_NBNDOUT_ID_DISCRETERIGIDBOD
IES,

BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYNODES,

BINOUT_NBNDOUT_ID_VELOCITYRIGIDBOD
IES,

BINOUT_NBNDOUT_ID_ORIENTATIONRIGID
BODIES,

96
BINOUT_NBNDOUT_FORCE_Y double BINOUT_NBNDOUT_ id, idtype =
NUM_TIMESTEP BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

BINOUT_NBNDOUT_ID_DISCRETERIGIDBOD
IES,

BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYNODES,

BINOUT_NBNDOUT_ID_VELOCITYRIGIDBOD
IES,

BINOUT_NBNDOUT_ID_ORIENTATIONRIGID
BODIES,

BINOUT_NBNDOUT_FORCE_Z double BINOUT_NBNDOUT_ id, idtype =

NUM_TIMESTEP BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

BINOUT_NBNDOUT_ID_DISCRETERIGIDBOD
IES,

BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYNODES,

BINOUT_NBNDOUT_ID_VELOCITYRIGIDBOD
IES,

BINOUT_NBNDOUT_ID_ORIENTATIONRIGID
BODIES,

BINOUT_NBNDOUT_ id, idtype =

97
BINOUT_NBNDOUT_ENERGY double NUM_TIMESTEP BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

BINOUT_NBNDOUT_ID_DISCRETERIGIDBOD
IES,

BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYNODES,

BINOUT_NBNDOUT_ID_VELOCITYRIGIDBOD
IES,

BINOUT_NBNDOUT_ID_ORIENTATIONRIGID
BODIES,

BINOUT_NBNDOUT_MOMENT_X double BINOUT_NBNDOUT_ id, idtype =

NUM_TIMESTEP BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

BINOUT_NBNDOUT_ID_DISCRETERIGIDBOD
IES,

BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYNODES,

BINOUT_NBNDOUT_ID_VELOCITYRIGIDBOD
IES,

BINOUT_NBNDOUT_ID_ORIENTATIONRIGID
BODIES,

BINOUT_NBNDOUT_MOMENT_Y double BINOUT_NBNDOUT_ id, idtype =

NUM_TIMESTEP BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

98
 BINOUT_NBNDOUT_ID_DISCRETERIGIDBOD
IES,

BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYNODES,

BINOUT_NBNDOUT_ID_VELOCITYRIGIDBOD
IES,

BINOUT_NBNDOUT_ID_ORIENTATIONRIGID
BODIES,

BINOUT_NBNDOUT_MOMENT_Z double BINOUT_NBNDOUT_ id, idtype =

NUM_TIMESTEP BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

BINOUT_NBNDOUT_ID_DISCRETERIGIDBOD
IES,

BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYNODES,

BINOUT_NBNDOUT_ID_VELOCITYRIGIDBOD
IES,

BINOUT_NBNDOUT_ID_ORIENTATIONRIGID
BODIES,

BINOUT_NBNDOUT_TOTAL_X double BINOUT_NBNDOUT_ idtype =

NUM_TIMESTEP BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

BINOUT_NBNDOUT_ID_DISCRETER
IGIDBODIES,

99
 BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYN
ODES,

BINOUT_NBNDOUT_ID_VELOCITYR
IGIDBODIES,

BINOUT_NBNDOUT_ID_ORIENTATI
ONRIGIDBODIES,

BINOUT_NBNDOUT_TOTAL_Y double BINOUT_NBNDOUT_ idtype =

NUM_TIMESTEP BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

BINOUT_NBNDOUT_ID_DISCRETER
IGIDBODIES,

BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYN
ODES,

BINOUT_NBNDOUT_ID_VELOCITYR
IGIDBODIES,

BINOUT_NBNDOUT_ID_ORIENTATI
ONRIGIDBODIES,

BINOUT_NBNDOUT_TOTAL_Z double BINOUT_NBNDOUT_ idtype =

NUM_TIMESTEP BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

BINOUT_NBNDOUT_ID_DISCRETER
IGIDBODIES,

100
 BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYN
ODES,

BINOUT_NBNDOUT_ID_VELOCITYR
IGIDBODIES,

BINOUT_NBNDOUT_ID_ORIENTATI
ONRIGIDBODIES,

BINOUT_NBNDOUT_ETOTAL double BINOUT_NBNDOUT_ idtype =

NUM_TIMESTEP BINOUT_NBNDOUT_ID_DISCRETEN
ODES,

BINOUT_NBNDOUT_ID_DISCRETER
IGIDBODIES,

BINOUT_NBNDOUT_ID_PRESSURE,

BINOUT_NBNDOUT_ID_VELOCITYN
ODES,

BINOUT_NBNDOUT_ID_VELOCITYR
IGIDBODIES,

BINOUT_NBNDOUT_ID_ORIENTATI
ONRIGIDBODIES,

BINOUT_JNTFORC_NUM_TYPES int 1 ignore

BINOUT_JNTFORC_TYPES BinoutS BINOUT_JNTFORC_ ignore

tringAr NUM_TYPES
ray

101
BINOUT_JNTFORC_NUM_ID int 1 idtype: BINOUT_JNTFORC_ID_JOINTS,
BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL,

BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_IDS unsigne BINOUT_JNTFORC_ idtype: BINOUT_JNTFORC_ID_JOINTS,

d int NUM_ID BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL,

BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_NUM_TIMEST int 1 idtype: BINOUT_JNTFORC_ID_JOINTS,

EP BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL,

BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_X double BINOUT_NBNDOUT_ idtype: BINOUT_JNTFORC_ID_JOINTS,

NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL,

BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_NUM_COMPON int 1, idtype: BINOUT_JNTFORC_ID_JOINTS,

ENT BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL,

BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_COMPONENTS BinoutS BINOUT_JNTFORC_ idtype: BINOUT_JNTFORC_ID_JOINTS,

tringAr NUM_COMPONENT, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ray ATIONAL,

BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

102
BINOUT_JNTFORC_FORCE_X double BINOUT_JNTFORC_ id, idtype:
NUM_TIMESTEP, BINOUT_JNTFORC_ID_JOINTS

BINOUT_JNTFORC_FORCE_Y double BINOUT_JNTFORC_ id, idtype:

NUM_TIMESTEP, BINOUT_JNTFORC_ID_JOINTS

BINOUT_JNTFORC_FORCE_Z double BINOUT_JNTFORC_ id, idtype:

NUM_TIMESTEP, BINOUT_JNTFORC_ID_JOINTS

BINOUT_JNTFORC_MOMENT_X double BINOUT_JNTFORC_ id, idtype:

NUM_TIMESTEP, BINOUT_JNTFORC_ID_JOINTS

BINOUT_JNTFORC_MOMENT_Y double BINOUT_JNTFORC_ id, idtype:

NUM_TIMESTEP, BINOUT_JNTFORC_ID_JOINTS

BINOUT_JNTFORC_MOMENT_Z double BINOUT_JNTFORC_ id, idtype:

NUM_TIMESTEP, BINOUT_JNTFORC_ID_JOINTS

BINOUT_JNTFORC_RESULTANT_ double BINOUT_JNTFORC_ id, idtype:

FORCE NUM_TIMESTEP, BINOUT_JNTFORC_ID_JOINTS

BINOUT_JNTFORC_RESULTANT_ double BINOUT_JNTFORC_ id, idtype:

MOMENT NUM_TIMESTEP, BINOUT_JNTFORC_ID_JOINTS

BINOUT_JNTFORC_JOINT_ENER double BINOUT_JNTFORC_ id, idtype:

GY NUM_TIMESTEP, BINOUT_JNTFORC_ID_JOINTS

BINOUT_JNTFORC_DISPLACEME double BINOUT_JNTFORC_ id, idtype:

NT_X NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_DISPLACEME BINOUT_JNTFORC_ id, idtype:

103
NT_Y double NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_DISPLACEME double BINOUT_JNTFORC_ id, idtype:

NT_Z NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_DISPLACEME double BINOUT_JNTFORC_ id, idtype:

NT_X_DT NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_DISPLACEME double BINOUT_JNTFORC_ id, idtype:

NT_Y_DT NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_DISPLACEME double BINOUT_JNTFORC_ id, idtype:

NT_Z_DT NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_FORCE_STIF double BINOUT_JNTFORC_ id, idtype:

FNESS_X NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_FORCE_DAMP double BINOUT_JNTFORC_ id, idtype:

ING_X NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_FORCE_TOTA double BINOUT_JNTFORC_ id, idtype:

L_X NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_FORCE_STIF double BINOUT_JNTFORC_ id, idtype:

FNESS_Y NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_FORCE_DAMP BINOUT_JNTFORC_ id, idtype:

104
ING_Y double NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_FORCE_TOTA double BINOUT_JNTFORC_ id, idtype:

L_Y NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_FORCE_STIF double BINOUT_JNTFORC_ id, idtype:

FNESS_Z NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_FORCE_DAMP double BINOUT_JNTFORC_ id, idtype:

ING_Z NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_FORCE_TOTA double BINOUT_JNTFORC_ id, idtype:

L_Z NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_TRANSLATIO double BINOUT_JNTFORC_ id, idtype:

N_JOINT_ENERGY NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_TRANSL
ATIONAL

BINOUT_JNTFORC_PHI_DEGREE double BINOUT_JNTFORC_ id, idtype:

S NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_PHI_DEGREE double BINOUT_JNTFORC_ id, idtype:

S_DT NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_THETA_DEGR double BINOUT_JNTFORC_ id, idtype:

EES NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_THETA_DEGR BINOUT_JNTFORC_ id, idtype:

105
EES_DT double NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_PSI_DEGREE double BINOUT_JNTFORC_ id, idtype:

S NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_PSI_DEGREE double BINOUT_JNTFORC_ id, idtype:

S_DT NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_PHI_MOMENT double BINOUT_JNTFORC_ id, idtype:

_STIFFNESS NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_PHI_MOMENT double BINOUT_JNTFORC_ id, idtype:

_DAMPING NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_PHI_MOMENT double BINOUT_JNTFORC_ id, idtype:

_TOTAL NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_THETA_MOME double BINOUT_JNTFORC_ id, idtype:

NT_STIFFNESS NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_THETA_MOME double BINOUT_JNTFORC_ id, idtype:

NT_DAMPING NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_THETA_MOME double BINOUT_JNTFORC_ id, idtype:

NT_TOTAL NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_PSI_MOMENT BINOUT_JNTFORC_ id, idtype:

106
_STIFFNESS double NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_PSI_MOMENT double BINOUT_JNTFORC_ id, idtype:

_DAMPING NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_PSI_MOMENT double BINOUT_JNTFORC_ id, idtype:

_TOTAL NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_PHI_THETA_ double BINOUT_JNTFORC_ id, idtype:

PSI_JOINT_ENERGY NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_ALPHA_DEGR double BINOUT_JNTFORC_ id, idtype:

EES NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_ALPHA_DEGR double BINOUT_JNTFORC_ id, idtype:

EES_DT NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_GAMMA_DEGR double BINOUT_JNTFORC_ id, idtype:

EES NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_GAMMA_DEGR double BINOUT_JNTFORC_ id, idtype:

EES_DT NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_BETA_DEGRE double BINOUT_JNTFORC_ id, idtype:

ES NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_BETA_DEGRE BINOUT_JNTFORC_ id, idtype:

107
ES_DT double NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_ALPHA_MOME double BINOUT_JNTFORC_ id, idtype:

NT_STIFFNESS NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_ALPHA_MOME double BINOUT_JNTFORC_ id, idtype:

NT_DAMPING NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_ALPHA_MOME double BINOUT_JNTFORC_ id, idtype:

NT_TOTAL NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_GAMMA_SCAL double BINOUT_JNTFORC_ id, idtype:

E_FACTOR NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_BETA_MOMEN double BINOUT_JNTFORC_ id, idtype:

T_STIFFNESS NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_BETA_MOMEN double BINOUT_JNTFORC_ id, idtype:

T_DAMPING NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_BETA_MOMEN double BINOUT_JNTFORC_ id, idtype:

T_TOTAL NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_JNTFORC_ALPHA_GAMM double BINOUT_JNTFORC_ id, idtype:

A_BETA_JOINT_ENERGY NUM_TIMESTEP, BINOUT_JNTFORC_ID_STIFFNESS_GENERA
LIZED

BINOUT_NODOUT_SSD_NUM_FRE

108
QUENCY int 1 ignore

BINOUT_NODOUT_SSD_X double BINOUT_NODOUT_S ignore

SD_NUM_FREQUENC
Y

BINOUT_NODOUT_SSD_NUM_ID int 1 ignore

BINOUT_NODOUT_SSD_IDS unsigne BINOUT_NODOUT_S ignore

d int SD_NUM_ID

BINOUT_NODOUT_SSD_NUM_MOD int 1 ignore

E

BINOUT_NODOUT_SSD_MODES double BINOUT_NODOUT_S ignore

SD_NUM_MODE

BINOUT_NODOUT_SSD_NUM_COM int 1 datatype_option:

PONENT BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY,
BINOUT_DATATYPE_MODALCONTRIBUTION

BINOUT_NODOUT_SSD_COMPONE BinoutS BINOUT_NODOUT_S datatype_option:

NTS tringAr SD_NUM_COMPONEN BINOUT_DATATYPE_AMPLITUDE,
ray T BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY,
BINOUT_DATATYPE_MODALCONTRIBUTION

BINOUT_NODOUT_SSD_TRANSLA double BINOUT_NODOUT_S id, datatype_option:

TIONAL_DISP_X SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

109
 BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_TRANSLA double BINOUT_NODOUT_S id, datatype_option:

TIONAL_VEL_X SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_TRANSLA double BINOUT_NODOUT_S id, datatype_option:

TIONAL_ACCL_X SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_TRANSLA double BINOUT_NODOUT_S id, datatype_option:

TIONAL_DISP_Y SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_TRANSLA double BINOUT_NODOUT_S id, datatype_option:

TIONAL_VEL_Y SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_TRANSLA double BINOUT_NODOUT_S id, datatype_option:

TIONAL_ACCL_Y SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,

110
 BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_TRANSLA double BINOUT_NODOUT_S id, datatype_option:

TIONAL_DISP_Z SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_TRANSLA double BINOUT_NODOUT_S id, datatype_option:

TIONAL_VEL_Z SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_TRANSLA double BINOUT_NODOUT_S id, datatype_option:

TIONAL_ACCL_Z SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_ROTATIO double BINOUT_NODOUT_S id, datatype_option:

NAL_DISP_X SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_ROTATIO double BINOUT_NODOUT_S id, datatype_option:

NAL_VEL_X SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

111
BINOUT_NODOUT_SSD_ROTATIO double BINOUT_NODOUT_S id, datatype_option:
NAL_ACCL_X SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_ROTATIO double BINOUT_NODOUT_S id, datatype_option:

NAL_DISP_Y SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_ROTATIO double BINOUT_NODOUT_S id, datatype_option:

NAL_VEL_Y SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_ROTATIO double BINOUT_NODOUT_S id, datatype_option:

NAL_ACCL_Y SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_ROTATIO double BINOUT_NODOUT_S id, datatype_option:

NAL_DISP_Z SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

112
BINOUT_NODOUT_SSD_ROTATIO double BINOUT_NODOUT_S id, datatype_option:
NAL_VEL_Z SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_ROTATIO double BINOUT_NODOUT_S id, datatype_option:

NAL_ACCL_Z SD_NUM_FREQUENC BINOUT_DATATYPE_ALPLITUDE,
Y BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY

BINOUT_NODOUT_SSD_MODALCO double BINOUT_NODOUT_S id, freq_mode, datatype_option:

NTRIBUTATION_ROTATIONAL_D SD_NUM_FREQUENC BINOUT_DATATYPE_MODALCONTRIBUTATIO
ISP_X Y N

BINOUT_NODOUT_SSD_MODALCO double BINOUT_NODOUT_S id, freq_mode, datatype_option:

NTRIBUTATION_ROTATIONAL_D SD_NUM_FREQUENC BINOUT_DATATYPE_MODALCONTRIBUTATIO
ISP_Y Y N

BINOUT_NODOUT_SSD_MODALCO double BINOUT_NODOUT_S id, freq_mode, datatype_option:

NTRIBUTATION_ROTATIONAL_D SD_NUM_FREQUENC BINOUT_DATATYPE_MODALCONTRIBUTATIO
ISP_Z Y N

BINOUT_NODOUT_SSD_MODALCO double BINOUT_NODOUT_S id, freq_mode, datatype_option:

NTRIBUTATION_TRANSLATIONA SD_NUM_FREQUENC BINOUT_DATATYPE_MODALCONTRIBUTATIO
L_DISP_X Y N

BINOUT_NODOUT_SSD_MODALCO double BINOUT_NODOUT_S id, freq_mode, datatype_option:

NTRIBUTATION_TRANSLATIONA SD_NUM_FREQUENC BINOUT_DATATYPE_MODALCONTRIBUTATIO
L_DISP_Y Y N

BINOUT_NODOUT_SSD_MODALCO double BINOUT_NODOUT_S id, freq_mode, datatype_option:

NTRIBUTATION_TRANSLATIONA SD_NUM_FREQUENC BINOUT_DATATYPE_MODALCONTRIBUTATIO

113
L_DISP_Z Y N

BINOUT_NODOUT_PSD_NUM_FRE int 1 ignore

QUENCY

BINOUT_NODOUT_PSD_X double BINOUT_NODOUT_P ignore

SD_NUM_FREQUENC
Y

BINOUT_NODOUT_PSD_NUM_ID int 1 ignore

BINOUT_NODOUT_PSD_IDS unsigne BINOUT_NODOUT_P ignore

d int SD_NUM_ID

BINOUT_NODOUT_PSD_NUM_COM int 1 ignore

PONENT

BINOUT_NODOUT_PSD_COMPONE BinoutS BINOUT_NODOUT_P ignore

NTS tringAr SD_NUM_COMPONEN
ray T

BINOUT_NODOUT_PSD_DISPLAC double BINOUT_NODOUT_P id

EMENT_X SD_NUM_FREQUENC
Y

BINOUT_NODOUT_PSD_DISPLAC double BINOUT_NODOUT_P id

EMENT_Y SD_NUM_FREQUENC
Y

BINOUT_NODOUT_PSD_DISPLAC double BINOUT_NODOUT_P id

EMENT_Z SD_NUM_FREQUENC
Y

BINOUT_NODOUT_PSD_VELOCIT BINOUT_NODOUT_P

114
Y_X double SD_NUM_FREQUENC id
Y

BINOUT_NODOUT_PSD_VELOCIT double BINOUT_NODOUT_P id

Y_Y SD_NUM_FREQUENC
Y

BINOUT_NODOUT_PSD_VELOCIT double BINOUT_NODOUT_P id

Y_Z SD_NUM_FREQUENC
Y

BINOUT_NODOUT_PSD_ACCLERA double BINOUT_NODOUT_P id

TION_X SD_NUM_FREQUENC
Y

BINOUT_NODOUT_PSD_ACCLERA double BINOUT_NODOUT_P id

TION_Y SD_NUM_FREQUENC
Y

BINOUT_NODOUT_PSD_ACCLERA double BINOUT_NODOUT_P id

TION_Z SD_NUM_FREQUENC
Y

BINOUT_NODOUT_SPCM_NUM_ID int 1 ignore

BINOUT_NODOUT_SPCM_IDS unsigne BINOUT_NODOUT_S ignore

d int PCM_NUM_ID

BINOUT_NODOUT_SPCM_NUM_CO int 1 ignore

MPONENT

BINOUT_NODOUT_SPCM_COMPON BinoutS BINOUT_NODOUT_S ignore

ENTS tringAr PCM_NUM_COMPONE
ray NT

115
BINOUT_NODOUT_SPCM_DISPLA double 1 id
CEMENT_X

BINOUT_NODOUT_SPCM_VELOCI double 1 id
TY_X

BINOUT_NODOUT_SPCM_ACCLER double 1 id
ATION_X

BINOUT_NODOUT_SPCM_DISPLA double 1 id
CEMENT_Y

BINOUT_NODOUT_SPCM_VELOCI double 1 id
TY_Y

BINOUT_NODOUT_SPCM_ACCLER double 1 id
ATION_Y

BINOUT_NODOUT_SPCM_DISPLA double 1 id
CEMENT_Z

BINOUT_NODOUT_SPCM_VELOCI double 1 id
TY_Z

BINOUT_NODOUT_SPCM_ACCLER double 1 id
ATION_Z

BINOUT_RWFORC_NUM_TIMESTE int 1 idtype =

P BINOUT_RWFORC_ID_FORCES ,
BINOUT_RWFORC_ID_TRANSDUCER or
BINOUT_RWFORC_ID_WALL,

116
BINOUT_RWFORC_X double BINOUT_RWFORC_N idtype =
UM_TIMESTEP, BINOUT_RWFORC_ID_FORCES ,
BINOUT_RWFORC_ID_TRANSDUCER or
BINOUT_RWFORC_ID_WALL,

BINOUT_RWFORC_NUM_ID int 1 idtype =

BINOUT_RWFORC_ID_FORCES ,
BINOUT_RWFORC_ID_TRANSDUCER or
BINOUT_RWFORC_ID_WALL if
BINOUT_RWFORC_ID_WALL param.wallid
is needed,

BINOUT_RWFORC_IDS unsigne BINOUT_RWFORC_N idtype =

d int UM_ID BINOUT_RWFORC_ID_FORCES ,
BINOUT_RWFORC_ID_TRANSDUCER or
BINOUT_RWFORC_ID_WALL if
BINOUT_RWFORC_ID_WALL param.wallid
is needed,

BINOUT_RWFORC_NUM_NODESET int 1 id, idtype =

BINOUT_RWFORC_ID_TRANSDUCER

BINOUT_RWFORC_NODESETS unsigne BINOUT_RWFORC_N id, idtype =

d int UM_NODESET BINOUT_RWFORC_ID_TRANSDUCER

BINOUT_RWFORC_NUM_COMPONE int 1 idtype =

NT BINOUT_RWFORC_ID_FORCES,
BINOUT_RWFORC_ID_TRANSDUCER or
BINOUT_RWFORC_ID_WALL if
BINOUT_RWFORC_ID_WALL param.wallid
is needed,,

BINOUT_RWFORC_COMPONENTS BinoutS BINOUT_RWFORC_N idtype =

tringAr UM_COMPONENT BINOUT_RWFORC_ID_FORCES,
ray BINOUT_RWFORC_ID_TRANSDUCER or
BINOUT_RWFORC_ID_WALL if
BINOUT_RWFORC_ID_WALL param.wallid
is needed,,

117
BINOUT_RWFORC_NORMAL_FORC double BINOUT_RWFORC_X id, idtype =
E BINOUT_RWFORC_ID_FORCES

BINOUT_RWFORC_FORCE_X double BINOUT_RWFORC_X id, idtype =

BINOUT_RWFORC_ID_FORCES,
BINOUT_RWFORC_ID_TRANSDUCER or
BINOUT_RWFORC_ID_WALL if
BINOUT_RWFORC_ID_WALL param.wallid
is needed,,

BINOUT_RWFORC_FORCE_Y double BINOUT_RWFORC_X id, idtype =

BINOUT_RWFORC_ID_FORCES,
BINOUT_RWFORC_ID_TRANSDUCER or
BINOUT_RWFORC_ID_WALL if
BINOUT_RWFORC_ID_WALL param.wallid
is needed,,

BINOUT_RWFORC_FORCE_Z double BINOUT_RWFORC_X id, idtype =

BINOUT_RWFORC_ID_FORCES,
BINOUT_RWFORC_ID_TRANSDUCER or
BINOUT_RWFORC_ID_WALL if
BINOUT_RWFORC_ID_WALL param.wallid
is needed,,

BINOUT_NODFOR_SSD_NUM_FRE int 1 ignore

QUENCY

BINOUT_NODFOR_SSD_X double BINOUT_NODFOR_S ignore

SD_NUM_FREQUENC
Y

BINOUT_NODFOR_SSD_NUM_ID int 1 ignore

BINOUT_NODFOR_SSD_IDS unsigne BINOUT_NODFOR_S ignore

d int SD_NUM_ID

BINOUT_NODFOR_SSD_NUM_GRO

118
UPID int 1 ignore

BINOUT_NODFOR_SSD_GROUP_I unsigne BINOUT_NODFOR_S ignore

DS d int SD_NUM_GROUPID

BINOUT_NODFOR_SSD_NUM_COM int 1 ignore

PONENT

BINOUT_NODFOR_SSD_COMPONE BinoutS BINOUT_NODFOR_S ignore

NTS tringAr SD_NUM_COMPONEN
ray T

BINOUT_NODFOR_SSD_FORCE_X double BINOUT_NODFOR_S id, idtype:

SD_NUM_FREQUENC BINOUT_NODFOR_SSD_ID_NODE,
Y
datatype_option =
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY,

BINOUT_NODFOR_SSD_FORCE_Y double BINOUT_NODFOR_S id, idtype:

SD_NUM_FREQUENC BINOUT_NODFOR_SSD_ID_NODE,
Y
datatype_option =
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY,

BINOUT_NODFOR_SSD_FORCE_Z double BINOUT_NODFOR_S id, idtype:

SD_NUM_FREQUENC BINOUT_NODFOR_SSD_ID_NODE,
Y
datatype_option =
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,

119
 BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY,

BINOUT_NODFOR_SSD_TOTAL_X double BINOUT_NODFOR_S id, idtype:

SD_NUM_FREQUENC BINOUT_NODFOR_SSD_ID_GROUP,
Y
datatype_option =
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY,

BINOUT_NODFOR_SSD_TOTAL_Y double BINOUT_NODFOR_S id, idtype:

SD_NUM_FREQUENC BINOUT_NODFOR_SSD_ID_GROUP,
Y
datatype_option =
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY,

BINOUT_NODFOR_SSD_TOTAL_Z double BINOUT_NODFOR_S id, idtype:

SD_NUM_FREQUENC BINOUT_NODFOR_SSD_ID_GROUP,
Y
datatype_option =
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,

BINOUT_DATATYPE_REAL,
BINOUT_DATATYPE_IMAGINARY,

BINOUT_ELOUTDET_NUM_TIMES int 1 ignore

TEP

BINOUT_ELOUTDET

120
BINOUT_ELOUTDET_X double _NUM_TIMESTEP ignore

BINOUT_ELOUTDET_NUM_ID int 1 idtype =

BINOUT_ELOUTDET_ID_SOLID,BI
NOUT_ELOUTDET_ID_SHELL,BINOUT_ELOU
TDET_ID_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG

BINOUT_ELOUTDET_IDS unsigne BINOUT_ELOUTDET idtype =

d int _NUM_ID BINOUT_ELOUTDET_ID_SOLID,BI
NOUT_ELOUTDET_ID_SHELL,BINOUT_ELOU
TDET_ID_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG

BINOUT_ELOUTDET_NUM_COMPO int 1 idtype =

NENT BINOUT_ELOUTDET_ID_SOLID,BI
NOUT_ELOUTDET_ID_SHELL,BINOUT_ELOU
TDET_ID_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG

BINOUT_ELOUTDET_COMPONENT BinoutS BINOUT_ELOUTDET idtype =

S tringAr _NUM_COMPONENT BINOUT_ELOUTDET_ID_SOLID,BI
ray NOUT_ELOUTDET_ID_SHELL,BINOUT_ELOU
TDET_ID_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG

BINOUT_ELOUTDET_NUM_IPT int 1 idtype =

BINOUT_ELOUTDET_ID_SOLID,BI
NOUT_ELOUTDET_ID_SHELL,BINOUT_ELOU
TDET_ID_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG

BINOUT_ELOUTDET_IPTS unsigne BINOUT_ELOUTDET idtype =

d int _NUM_IPT BINOUT_ELOUTDET_ID_SOLID,BI
NOUT_ELOUTDET_ID_SHELL,BINOUT_ELOU
TDET_ID_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG

idtype =

121
BINOUT_ELOUTDET_NUM_NPL int 1 BINOUT_ELOUTDET_ID_SOLID,BI
NOUT_ELOUTDET_ID_SHELL,BINOUT_ELOU
TDET_ID_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG

BINOUT_ELOUTDET_NPLS unsigne BINOUT_ELOUTDET idtype =

d int _NUM_NPL BINOUT_ELOUTDET_ID_SOLID,BI
NOUT_ELOUTDET_ID_SHELL,BINOUT_ELOU
TDET_ID_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG

BINOUT_ELOUTDET_NUM_NQT int 1 idtype =

BINOUT_ELOUTDET_ID_SOLID,BI
NOUT_ELOUTDET_ID_SHELL,BINOUT_ELOU
TDET_ID_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG

BINOUT_ELOUTDET_NQTS unsigne BINOUT_ELOUTDET idtype =

d int _NUM_NQT BINOUT_ELOUTDET_ID_SOLID,BI
NOUT_ELOUTDET_ID_SHELL,BINOUT_ELOU
TDET_ID_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG

BINOUT_ELOUTDET_EFFSG double BINOUT_ELOUTDET datatype_option =

_NUM_TIMESTEP BINOUT_DATATYPE_ELOUTDET_INTEGRATI
ON_POINTS or
BINOUT_DATATYPE_ELOUTDET_NODAL_POI
NTS,
idtype =
BINOUT_ELOUTDET_ID_SOLID,BINOUT_EL
OUTDET_ID_SHELL,BINOUT_ELOUTDET_ID
_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG,
id, ipt, npl,
nqt

BINOUT_ELOUTDET_EPS_XX double BINOUT_ELOUTDET datatype_option =

_NUM_TIMESTEP BINOUT_DATATYPE_ELOUTDET_INTEGRATI
ON_POINTS or
BINOUT_DATATYPE_ELOUTDET_NODAL_POI
NTS,
idtype =

122
 BINOUT_ELOUTDET_ID_SOLID,BINOUT_EL
OUTDET_ID_SHELL,BINOUT_ELOUTDET_ID
_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG,
id, ipt, npl,
nqt

BINOUT_ELOUTDET_EPS_XY double BINOUT_ELOUTDET datatype_option =

_NUM_TIMESTEP BINOUT_DATATYPE_ELOUTDET_INTEGRATI
ON_POINTS or
BINOUT_DATATYPE_ELOUTDET_NODAL_POI
NTS,
idtype =
BINOUT_ELOUTDET_ID_SOLID,BINOUT_EL
OUTDET_ID_SHELL,BINOUT_ELOUTDET_ID
_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG,
id, ipt, npl,
nqt

BINOUT_ELOUTDET_EPS_YY double BINOUT_ELOUTDET datatype_option =

_NUM_TIMESTEP BINOUT_DATATYPE_ELOUTDET_INTEGRATI
ON_POINTS or
BINOUT_DATATYPE_ELOUTDET_NODAL_POI
NTS,
idtype =
BINOUT_ELOUTDET_ID_SOLID,BINOUT_EL
OUTDET_ID_SHELL,BINOUT_ELOUTDET_ID
_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG,
id, ipt, npl,
nqt

BINOUT_ELOUTDET_EPS_YZ double BINOUT_ELOUTDET datatype_option =

_NUM_TIMESTEP BINOUT_DATATYPE_ELOUTDET_INTEGRATI
ON_POINTS or
BINOUT_DATATYPE_ELOUTDET_NODAL_POI
NTS,
idtype =
BINOUT_ELOUTDET_ID_SOLID,BINOUT_EL
OUTDET_ID_SHELL,BINOUT_ELOUTDET_ID
_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG,
id, ipt, npl,

123
 nqt

BINOUT_ELOUTDET_EPS_ZX double BINOUT_ELOUTDET datatype_option =

_NUM_TIMESTEP BINOUT_DATATYPE_ELOUTDET_INTEGRATI
ON_POINTS or
BINOUT_DATATYPE_ELOUTDET_NODAL_POI
NTS,
idtype =
BINOUT_ELOUTDET_ID_SOLID,BINOUT_EL
OUTDET_ID_SHELL,BINOUT_ELOUTDET_ID
_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG,
id, ipt, npl,
nqt

BINOUT_ELOUTDET_EPS_ZZ double BINOUT_ELOUTDET datatype_option =

_NUM_TIMESTEP BINOUT_DATATYPE_ELOUTDET_INTEGRATI
ON_POINTS or
BINOUT_DATATYPE_ELOUTDET_NODAL_POI
NTS,
idtype =
BINOUT_ELOUTDET_ID_SOLID,BINOUT_EL
OUTDET_ID_SHELL,BINOUT_ELOUTDET_ID
_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG,
id, ipt, npl,
nqt

BINOUT_ELOUTDET_SIG_XX double BINOUT_ELOUTDET datatype_option =

_NUM_TIMESTEP BINOUT_DATATYPE_ELOUTDET_INTEGRATI
ON_POINTS or
BINOUT_DATATYPE_ELOUTDET_NODAL_POI
NTS,
idtype =
BINOUT_ELOUTDET_ID_SOLID,BINOUT_EL
OUTDET_ID_SHELL,BINOUT_ELOUTDET_ID
_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG,
id, ipt, npl,
nqt

BINOUT_ELOUTDET_SIG_XY double BINOUT_ELOUTDET datatype_option =

_NUM_TIMESTEP BINOUT_DATATYPE_ELOUTDET_INTEGRATI
ON_POINTS or

124
 BINOUT_DATATYPE_ELOUTDET_NODAL_POI
NTS,
idtype =
BINOUT_ELOUTDET_ID_SOLID,BINOUT_EL
OUTDET_ID_SHELL,BINOUT_ELOUTDET_ID
_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG,
id, ipt, npl,
nqt

BINOUT_ELOUTDET_SIG_YY double BINOUT_ELOUTDET datatype_option =

_NUM_TIMESTEP BINOUT_DATATYPE_ELOUTDET_INTEGRATI
ON_POINTS or
BINOUT_DATATYPE_ELOUTDET_NODAL_POI
NTS,
idtype =
BINOUT_ELOUTDET_ID_SOLID,BINOUT_EL
OUTDET_ID_SHELL,BINOUT_ELOUTDET_ID
_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG,
id, ipt, npl,
nqt

BINOUT_ELOUTDET_SIG_YZ double BINOUT_ELOUTDET datatype_option =

_NUM_TIMESTEP BINOUT_DATATYPE_ELOUTDET_INTEGRATI
ON_POINTS or
BINOUT_DATATYPE_ELOUTDET_NODAL_POI
NTS,
idtype =
BINOUT_ELOUTDET_ID_SOLID,BINOUT_EL
OUTDET_ID_SHELL,BINOUT_ELOUTDET_ID
_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG,
id, ipt, npl,
nqt

BINOUT_ELOUTDET_SIG_ZX double BINOUT_ELOUTDET datatype_option =

_NUM_TIMESTEP BINOUT_DATATYPE_ELOUTDET_INTEGRATI
ON_POINTS or
BINOUT_DATATYPE_ELOUTDET_NODAL_POI
NTS,
idtype =
BINOUT_ELOUTDET_ID_SOLID,BINOUT_EL
OUTDET_ID_SHELL,BINOUT_ELOUTDET_ID
_TSHELL or

125
 BINOUT_ELOUTDET_ID_NODAVG,
id, ipt, npl,
nqt

BINOUT_ELOUTDET_SIG_ZZ double BINOUT_ELOUTDET datatype_option =

_NUM_TIMESTEP BINOUT_DATATYPE_ELOUTDET_INTEGRATI
ON_POINTS or
BINOUT_DATATYPE_ELOUTDET_NODAL_POI
NTS,
idtype =
BINOUT_ELOUTDET_ID_SOLID,BINOUT_EL
OUTDET_ID_SHELL,BINOUT_ELOUTDET_ID
_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG,
id, ipt, npl,
nqt

BINOUT_ELOUTDET_YIELD double BINOUT_ELOUTDET datatype_option =

_NUM_TIMESTEP BINOUT_DATATYPE_ELOUTDET_INTEGRATI
ON_POINTS or
BINOUT_DATATYPE_ELOUTDET_NODAL_POI
NTS,
idtype =
BINOUT_ELOUTDET_ID_SOLID,BINOUT_EL
OUTDET_ID_SHELL,BINOUT_ELOUTDET_ID
_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG,
id, ipt, npl,
nqt

BINOUT_ELOUTDET_PLASTIC_S double BINOUT_ELOUTDET datatype_option =

TRAIN _NUM_TIMESTEP BINOUT_DATATYPE_ELOUTDET_INTEGRATI
ON_POINTS or
BINOUT_DATATYPE_ELOUTDET_NODAL_POI
NTS,
idtype =
BINOUT_ELOUTDET_ID_SOLID,BINOUT_EL
OUTDET_ID_SHELL,BINOUT_ELOUTDET_ID
_TSHELL or
BINOUT_ELOUTDET_ID_NODAVG,
id, ipt, npl,
nqt

BINOUT_ELOUTDET_LOWER_SIG BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

126
_XX double _NUM_TIMESTEP id

BINOUT_ELOUTDET_LOWER_SIG double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_YY _NUM_TIMESTEP id

BINOUT_ELOUTDET_LOWER_SIG double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_ZZ _NUM_TIMESTEP id

BINOUT_ELOUTDET_LOWER_SIG double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_XY _NUM_TIMESTEP id

BINOUT_ELOUTDET_LOWER_SIG double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_YZ _NUM_TIMESTEP id

BINOUT_ELOUTDET_LOWER_SIG double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_ZX _NUM_TIMESTEP id

BINOUT_ELOUTDET_LOWER_YIE double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

LD _NUM_TIMESTEP id

BINOUT_ELOUTDET_UPPER_SIG double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_XX _NUM_TIMESTEP id

BINOUT_ELOUTDET_UPPER_SIG double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_YY _NUM_TIMESTEP id

BINOUT_ELOUTDET_UPPER_SIG double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_ZZ _NUM_TIMESTEP id

BINOUT_ELOUTDET_UPPER_SIG double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_XY _NUM_TIMESTEP id

127
BINOUT_ELOUTDET_UPPER_SIG double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,
_YZ _NUM_TIMESTEP id

BINOUT_ELOUTDET_UPPER_SIG double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_ZX _NUM_TIMESTEP id

BINOUT_ELOUTDET_UPPER_YIE double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

LD _NUM_TIMESTEP id

BINOUT_ELOUTDET_LOWER_EPS double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_XX _NUM_TIMESTEP id

BINOUT_ELOUTDET_LOWER_EPS double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_YY _NUM_TIMESTEP id

BINOUT_ELOUTDET_LOWER_EPS double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_ZZ _NUM_TIMESTEP id

BINOUT_ELOUTDET_LOWER_EPS double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_XY _NUM_TIMESTEP id

BINOUT_ELOUTDET_LOWER_EPS double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_YZ _NUM_TIMESTEP id

BINOUT_ELOUTDET_LOWER_EPS double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_ZX _NUM_TIMESTEP id

BINOUT_ELOUTDET_UPPER_EPS double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_XX _NUM_TIMESTEP id

BINOUT_ELOUTDET_UPPER_EPS double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_YY _NUM_TIMESTEP id

128
BINOUT_ELOUTDET_UPPER_EPS double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,
_ZZ _NUM_TIMESTEP id

BINOUT_ELOUTDET_UPPER_EPS double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_XY _NUM_TIMESTEP id

BINOUT_ELOUTDET_UPPER_EPS double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_YZ _NUM_TIMESTEP id

BINOUT_ELOUTDET_UPPER_EPS double BINOUT_ELOUTDET idtype=BINOUT_ELOUTDET_ID_NODAVG,

_ZX _NUM_TIMESTEP id

BINOUT_ELOUT_SSD_NUM_FREQ int 1 ignore

UENCY

BINOUT_ELOUT_SSD_X double BINOUT_ELOUT_SS ignore

D_NUM_FREQUENCY

BINOUT_ELOUT_SSD_NUM_ID int 1 idtype:

BINOUT_ELOUT_SSD_ID_BEAM,BINOUT_EL
OUT_SSD_ID_SOLID,BINOUT_ELOUT_SSD_
ID_TSHELL,

BINOUT_ELOUT_ID_SHELL

BINOUT_ELOUT_SSD_IDS unsigne BINOUT_ELOUT_SS idtype:

d int D_NUM_ID BINOUT_ELOUT_SSD_ID_BEAM,BINOUT_EL
OUT_SSD_ID_SOLID,BINOUT_ELOUT_SSD_
ID_TSHELL,

BINOUT_ELOUT_ID_SHELL

BINOUT_ELOUT_SSD_NUM_IPT int 1 idtype:

BINOUT_ELOUT_SSD_ID_BEAM,BINOUT_EL
OUT_SSD_ID_SOLID,BINOUT_ELOUT_SSD_

129
 ID_TSHELL,

BINOUT_ELOUT_ID_SHELL

BINOUT_ELOUT_SSD_IPTS unsigne BINOUT_ELOUT_SS idtype:

d int D_NUM_IPT BINOUT_ELOUT_SSD_ID_BEAM,BINOUT_EL
OUT_SSD_ID_SOLID,BINOUT_ELOUT_SSD_
ID_TSHELL,

BINOUT_ELOUT_ID_SHELL

BINOUT_ELOUT_SSD_NUM_MODE int 1 ignore

BINOUT_ELOUT_SSD_MODES double BINOUT_ELOUT_SS ignore

D_NUM_MODE

BINOUT_ELOUT_SSD_NUM_COMP int 1 idtype:

ONENT BINOUT_ELOUT_SSD_ID_BEAM,BINOUT_EL
OUT_SSD_ID_SOLID,BINOUT_ELOUT_SSD_
ID_TSHELL,

BINOUT_ELOUT_ID_SHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY,
BINOUT_DATATYPE_MODALCONTRIBUTION

BINOUT_ELOUT_SSD_COMPONEN BinoutS BINOUT_ELOUT_SS idtype:

TS tringAr D_NUM_COMPONENT BINOUT_ELOUT_SSD_ID_BEAM,BINOUT_EL
ray OUT_SSD_ID_SOLID,BINOUT_ELOUT_SSD_
ID_TSHELL,

BINOUT_ELOUT_ID_SHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

130
 BINOUT_DATATYPE_IMAGINARY,
BINOUT_DATATYPE_MODALCONTRIBUTION

BINOUT_ELOUT_SSD_STRESS_X double BINOUT_ELOUT_SS id, ipt(shell,thickshell),

X D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_SSD_ID_SOLID,BINOUT_E
LOUT_SSD_ID_TSHELL,BINOUT_ELOUT_ID
_SHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_STRESS_Y double BINOUT_ELOUT_SS id, ipt(shell,thickshell),

Y D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_SSD_ID_SOLID,BINOUT_E
LOUT_SSD_ID_TSHELL,BINOUT_ELOUT_ID
_SHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_STRESS_Z double BINOUT_ELOUT_SS id, ipt(shell,thickshell),

Z D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_SSD_ID_SOLID,BINOUT_E
LOUT_SSD_ID_TSHELL,BINOUT_ELOUT_ID
_SHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_STRESS_X BINOUT_ELOUT_SS id, ipt(shell,thickshell),

131
Y double D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_SSD_ID_SOLID,BINOUT_E
LOUT_SSD_ID_TSHELL,BINOUT_ELOUT_ID
_SHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_STRESS_Y double BINOUT_ELOUT_SS id, ipt(shell,thickshell),

Z D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_SSD_ID_SOLID,BINOUT_E
LOUT_SSD_ID_TSHELL,BINOUT_ELOUT_ID
_SHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_STRESS_Z double BINOUT_ELOUT_SS id, ipt(shell,thickshell),

X D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_SSD_ID_SOLID,BINOUT_E
LOUT_SSD_ID_TSHELL,BINOUT_ELOUT_ID
_SHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_STRAIN_X double BINOUT_ELOUT_SS id, idtype:

X D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SOLID

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

132
 BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_STRAIN_Y double BINOUT_ELOUT_SS id, idtype:

Y D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SOLID

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_STRAIN_Z double BINOUT_ELOUT_SS id, idtype:

Z D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SOLID

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_STRAIN_X double BINOUT_ELOUT_SS id, idtype:

Y D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SOLID

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_STRAIN_Y double BINOUT_ELOUT_SS id, idtype:

Z D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SOLID

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

133
 BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_STRAIN_Z double BINOUT_ELOUT_SS id, idtype:

X D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SOLID

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_LOWER_ST double BINOUT_ELOUT_SS id, idtype:

RAIN_XX D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SHELL,
BINOUT_ELOUT_SSD_ID_TSHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_LOWER_ST double BINOUT_ELOUT_SS id, idtype:

RAIN_YY D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SHELL,
BINOUT_ELOUT_SSD_ID_TSHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_LOWER_ST double BINOUT_ELOUT_SS id, idtype:

RAIN_ZZ D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SHELL,
BINOUT_ELOUT_SSD_ID_TSHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,

134
 BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_LOWER_ST double BINOUT_ELOUT_SS id, idtype:

RAIN_XY D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SHELL,
BINOUT_ELOUT_SSD_ID_TSHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_LOWER_ST double BINOUT_ELOUT_SS id, idtype:

RAIN_YZ D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SHELL,
BINOUT_ELOUT_SSD_ID_TSHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_LOWER_ST double BINOUT_ELOUT_SS id, idtype:

RAIN_ZX D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SHELL,
BINOUT_ELOUT_SSD_ID_TSHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_UPPER_ST double BINOUT_ELOUT_SS id, idtype:

RAIN_XX D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SHELL,
BINOUT_ELOUT_SSD_ID_TSHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,

135
 BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_UPPER_ST double BINOUT_ELOUT_SS id, idtype:

RAIN_YY D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SHELL,
BINOUT_ELOUT_SSD_ID_TSHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_UPPER_ST double BINOUT_ELOUT_SS id, idtype:

RAIN_ZZ D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SHELL,
BINOUT_ELOUT_SSD_ID_TSHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_UPPER_ST double BINOUT_ELOUT_SS id, idtype:

RAIN_XY D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SHELL,
BINOUT_ELOUT_SSD_ID_TSHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_UPPER_ST double BINOUT_ELOUT_SS id, idtype:

RAIN_YZ D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SHELL,
BINOUT_ELOUT_SSD_ID_TSHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,

136
 BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_UPPER_ST double BINOUT_ELOUT_SS id, idtype:

RAIN_ZX D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_SHELL,
BINOUT_ELOUT_SSD_ID_TSHELL

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_AXIAL double BINOUT_ELOUT_SS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_SHEAR_S double BINOUT_ELOUT_SS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_SHEAR_T double BINOUT_ELOUT_SS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

137
 BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_MOMENT_S double BINOUT_ELOUT_SS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_MOMENT_T double BINOUT_ELOUT_SS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_TORSION double BINOUT_ELOUT_SS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_SIGMA_11 double BINOUT_ELOUT_SS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

138
BINOUT_ELOUT_SSD_SIGMA_12 double BINOUT_ELOUT_SS id, idtype:
D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_SIGMA_31 double BINOUT_ELOUT_SS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_PLASTIC_ double BINOUT_ELOUT_SS id, idtype:

EPS D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_AXIAL_ST double BINOUT_ELOUT_SS id, idtype:

RAIN D_NUM_FREQUENCY BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_AMPLITUDE,
BINOUT_DATATYPE_PHASEANGLE,
BINOUT_DATATYPE_REAL,

BINOUT_DATATYPE_IMAGINARY

BINOUT_ELOUT_SSD_MODALCON double BINOUT_ELOUT_SS id, ipt(shell, thickshell),

TRIBUTION_STRESS_XX D_NUM_FREQUENCY freq_mode,
idtype:
BINOUT_ELOUT_SSD_ID_SOLID,

139
 BINOUT_ELOUT_SSD_ID_TSHELL,
BINOUT_ELOUT_SSD_ID_SHELL

datatype_option:
BINOUT_DATATYPE_MODALCONTRIBUTION

BINOUT_ELOUT_SSD_MODALCON double BINOUT_ELOUT_SS id, ipt(shell, thickshell),

TRIBUTION_STRESS_YY D_NUM_FREQUENCY freq_mode,
idtype:
BINOUT_ELOUT_SSD_ID_SOLID,
BINOUT_ELOUT_SSD_ID_TSHELL,
BINOUT_ELOUT_SSD_ID_SHELL

datatype_option:
BINOUT_DATATYPE_MODALCONTRIBUTION

BINOUT_ELOUT_SSD_MODALCON double BINOUT_ELOUT_SS id, ipt(shell, thickshell),

TRIBUTION_STRESS_ZZ D_NUM_FREQUENCY freq_mode,
idtype:
BINOUT_ELOUT_SSD_ID_SOLID,
BINOUT_ELOUT_SSD_ID_TSHELL,
BINOUT_ELOUT_SSD_ID_SHELL

datatype_option:
BINOUT_DATATYPE_MODALCONTRIBUTION

BINOUT_ELOUT_SSD_MODALCON double BINOUT_ELOUT_SS id, ipt(shell, thickshell),

TRIBUTION_STRESS_XY D_NUM_FREQUENCY freq_mode,
idtype:
BINOUT_ELOUT_SSD_ID_SOLID,
BINOUT_ELOUT_SSD_ID_TSHELL,
BINOUT_ELOUT_SSD_ID_SHELL

datatype_option:
BINOUT_DATATYPE_MODALCONTRIBUTION

BINOUT_ELOUT_SSD_MODALCON double BINOUT_ELOUT_SS id, ipt(shell, thickshell),

TRIBUTION_STRESS_YZ D_NUM_FREQUENCY freq_mode,
idtype:
BINOUT_ELOUT_SSD_ID_SOLID,
BINOUT_ELOUT_SSD_ID_TSHELL,
BINOUT_ELOUT_SSD_ID_SHELL

datatype_option:

140
 BINOUT_DATATYPE_MODALCONTRIBUTION

BINOUT_ELOUT_SSD_MODALCON double BINOUT_ELOUT_SS id, ipt(shell, thickshell),

TRIBUTION_STRESS_ZX D_NUM_FREQUENCY freq_mode,
idtype:
BINOUT_ELOUT_SSD_ID_SOLID,
BINOUT_ELOUT_SSD_ID_TSHELL,
BINOUT_ELOUT_SSD_ID_SHELL

datatype_option:
BINOUT_DATATYPE_MODALCONTRIBUTION

BINOUT_ELOUT_SSD_MODALCON double BINOUT_ELOUT_SS id, freq_mode,

TRIBUTION_AXIAL D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_MODALCONTRIBUTION

BINOUT_ELOUT_SSD_MODALCON double BINOUT_ELOUT_SS id, freq_mode,

TRIBUTION_SHEAR_S D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_MODALCONTRIBUTION

BINOUT_ELOUT_SSD_MODALCON double BINOUT_ELOUT_SS id, freq_mode,

TRIBUTION_SHEAR_T D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_MODALCONTRIBUTION

BINOUT_ELOUT_SSD_MODALCON double BINOUT_ELOUT_SS id, freq_mode,

TRIBUTION_MOMENT_S D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_MODALCONTRIBUTION

141
BINOUT_ELOUT_SSD_MODALCON double BINOUT_ELOUT_SS id, freq_mode,
TRIBUTION_MOMENT_T D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_MODALCONTRIBUTION

BINOUT_ELOUT_SSD_MODALCON double BINOUT_ELOUT_SS id, freq_mode,

TRIBUTION_TORSION D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_SSD_ID_BEAM

datatype_option:
BINOUT_DATATYPE_MODALCONTRIBUTION

BINOUT_ELOUT_PSD_NUM_FREQ int 1 ignore

UENCY

BINOUT_ELOUT_PSD_X double BINOUT_ELOUT_PS ignore

D_NUM_FREQUENCY

BINOUT_ELOUT_PSD_NUM_ID int 1 idtype: BINOUT_ELOUT_PSD_ID_BEAM,

BINOUT_ELOUT_PSD_ID_SOLID,
BINOUT_ELOUT_PSD_ID_TSHELL,

BINOUT_ELOUT_PSD_ID_SHELL

BINOUT_ELOUT_PSD_IDS unsigne BINOUT_ELOUT_PS idtype: BINOUT_ELOUT_PSD_ID_BEAM,

d int D_NUM_ID BINOUT_ELOUT_PSD_ID_SOLID,
BINOUT_ELOUT_PSD_ID_TSHELL,

BINOUT_ELOUT_PSD_ID_SHELL

BINOUT_ELOUT_PSD_NUM_IPT int 1 idtype: BINOUT_ELOUT_PSD_ID_BEAM,

BINOUT_ELOUT_PSD_ID_SOLID,
BINOUT_ELOUT_PSD_ID_TSHELL,

BINOUT_ELOUT_PSD_ID_SHELL

unsigne BINOUT_ELOUT_PS idtype: BINOUT_ELOUT_PSD_ID_BEAM,

142
BINOUT_ELOUT_PSD_IPTS d int D_NUM_IPT BINOUT_ELOUT_PSD_ID_SOLID,
BINOUT_ELOUT_PSD_ID_TSHELL,

BINOUT_ELOUT_PSD_ID_SHELL

BINOUT_ELOUT_PSD_NUM_COMP int 1 idtype: BINOUT_ELOUT_PSD_ID_BEAM,

ONENT BINOUT_ELOUT_PSD_ID_SOLID,
BINOUT_ELOUT_PSD_ID_TSHELL,

BINOUT_ELOUT_PSD_ID_SHELL

BINOUT_ELOUT_PSD_COMPONEN BinoutS BINOUT_ELOUT_PS idtype: BINOUT_ELOUT_PSD_ID_BEAM,

TS tringAr D_NUM_COMPONENT BINOUT_ELOUT_PSD_ID_SOLID,
ray BINOUT_ELOUT_PSD_ID_TSHELL,

BINOUT_ELOUT_PSD_ID_SHELL

BINOUT_ELOUT_PSD_STRESS_X double BINOUT_ELOUT_PS id, ipt(shell,thickshell),

X D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_PSD_ID_SOLID,
BINOUT_ELOUT_PSD_ID_TSHELL,
BINOUT_ELOUT_PSD_ID_SHELL

BINOUT_ELOUT_PSD_STRESS_Y double BINOUT_ELOUT_PS id, ipt(shell,thickshell),

Y D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_PSD_ID_SOLID,
BINOUT_ELOUT_PSD_ID_TSHELL,
BINOUT_ELOUT_PSD_ID_SHELL

BINOUT_ELOUT_PSD_STRESS_Z double BINOUT_ELOUT_PS id, ipt(shell,thickshell),

Z D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_PSD_ID_SOLID,
BINOUT_ELOUT_PSD_ID_TSHELL,
BINOUT_ELOUT_PSD_ID_SHELL

BINOUT_ELOUT_PSD_STRESS_X double BINOUT_ELOUT_PS id, ipt(shell,thickshell),

Y D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_PSD_ID_SOLID,
BINOUT_ELOUT_PSD_ID_TSHELL,
BINOUT_ELOUT_PSD_ID_SHELL

143
BINOUT_ELOUT_PSD_STRESS_Y double BINOUT_ELOUT_PS id, ipt(shell,thickshell),
Z D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_PSD_ID_SOLID,
BINOUT_ELOUT_PSD_ID_TSHELL,
BINOUT_ELOUT_PSD_ID_SHELL

BINOUT_ELOUT_PSD_STRESS_Z double BINOUT_ELOUT_PS id, ipt(shell,thickshell),

X D_NUM_FREQUENCY idtype:
BINOUT_ELOUT_PSD_ID_SOLID,
BINOUT_ELOUT_PSD_ID_TSHELL,
BINOUT_ELOUT_PSD_ID_SHELL

BINOUT_ELOUT_PSD_STRAIN_X double BINOUT_ELOUT_PS id, idtype:

X D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SOLID

BINOUT_ELOUT_PSD_STRAIN_Y double BINOUT_ELOUT_PS id, idtype:

Y D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SOLID

BINOUT_ELOUT_PSD_STRAIN_Z double BINOUT_ELOUT_PS id, idtype:

Z D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SOLID

BINOUT_ELOUT_PSD_STRAIN_X double BINOUT_ELOUT_PS id, idtype:

Y D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SOLID

BINOUT_ELOUT_PSD_STRAIN_Y double BINOUT_ELOUT_PS id, idtype:

Z D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SOLID

BINOUT_ELOUT_PSD_STRAIN_Z double BINOUT_ELOUT_PS id, idtype:

X D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SOLID

BINOUT_ELOUT_PSD_LOWER_ST double BINOUT_ELOUT_PS id, idtype:

RAIN_XX D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SHELL,
BINOUT_ELOUT_PSD_ID_TSHELL

144
BINOUT_ELOUT_PSD_LOWER_ST double BINOUT_ELOUT_PS id, idtype:
RAIN_YY D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SHELL,
BINOUT_ELOUT_PSD_ID_TSHELL

BINOUT_ELOUT_PSD_LOWER_ST double BINOUT_ELOUT_PS id, idtype:

RAIN_ZZ D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SHELL,
BINOUT_ELOUT_PSD_ID_TSHELL

BINOUT_ELOUT_PSD_LOWER_ST double BINOUT_ELOUT_PS id, idtype:

RAIN_XY D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SHELL,
BINOUT_ELOUT_PSD_ID_TSHELL

BINOUT_ELOUT_PSD_LOWER_ST double BINOUT_ELOUT_PS id, idtype:

RAIN_YZ D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SHELL,
BINOUT_ELOUT_PSD_ID_TSHELL

BINOUT_ELOUT_PSD_LOWER_ST double BINOUT_ELOUT_PS id, idtype:

RAIN_ZX D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SHELL,
BINOUT_ELOUT_PSD_ID_TSHELL

BINOUT_ELOUT_PSD_UPPER_ST double BINOUT_ELOUT_PS id, idtype:

RAIN_XX D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SHELL,
BINOUT_ELOUT_PSD_ID_TSHELL

BINOUT_ELOUT_PSD_UPPER_ST double BINOUT_ELOUT_PS id, idtype:

RAIN_YY D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SHELL,
BINOUT_ELOUT_PSD_ID_TSHELL

BINOUT_ELOUT_PSD_UPPER_ST double BINOUT_ELOUT_PS id, idtype:

RAIN_ZZ D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SHELL,
BINOUT_ELOUT_PSD_ID_TSHELL

BINOUT_ELOUT_PSD_UPPER_ST double BINOUT_ELOUT_PS id, idtype:

RAIN_XY D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SHELL,
BINOUT_ELOUT_PSD_ID_TSHELL

145
BINOUT_ELOUT_PSD_UPPER_ST double BINOUT_ELOUT_PS id, idtype:
RAIN_YZ D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SHELL,
BINOUT_ELOUT_PSD_ID_TSHELL

BINOUT_ELOUT_PSD_UPPER_ST double BINOUT_ELOUT_PS id, idtype:

RAIN_ZX D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_SHELL,
BINOUT_ELOUT_PSD_ID_TSHELL

BINOUT_ELOUT_PSD_AXIAL double BINOUT_ELOUT_PS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_BEAM

BINOUT_ELOUT_PSD_SHEAR_S double BINOUT_ELOUT_PS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_BEAM

BINOUT_ELOUT_PSD_SHEAR_T double BINOUT_ELOUT_PS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_BEAM

BINOUT_ELOUT_PSD_MOMENT_S double BINOUT_ELOUT_PS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_BEAM

BINOUT_ELOUT_PSD_MOMENT_T double BINOUT_ELOUT_PS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_BEAM

BINOUT_ELOUT_PSD_TORSION double BINOUT_ELOUT_PS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_BEAM

BINOUT_ELOUT_PSD_SIGMA_11 double BINOUT_ELOUT_PS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_BEAM

BINOUT_ELOUT_PSD_SIGMA_12 double BINOUT_ELOUT_PS id, idtype:

D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_BEAM

BINOUT_ELOUT_PSD_SIGMA_31 double BINOUT_ELOUT_PS id, idtype:

146
 D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_BEAM

BINOUT_ELOUT_PSD_PLASTIC_ double BINOUT_ELOUT_PS id, idtype:

EPS D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_BEAM

BINOUT_ELOUT_PSD_AXIAL_ST double BINOUT_ELOUT_PS id, idtype:

RAIN D_NUM_FREQUENCY BINOUT_ELOUT_PSD_ID_BEAM

BINOUT_ELOUT_SPCM_NUM_ID int 1 idtype: BINOUT_ELOUT_SPCM_ID_BEAM,

BINOUT_ELOUT_SPCM_ID_SOLID,
BINOUT_ELOUT_SPCM_ID_TSHELL,

BINOUT_ELOUT_SPCM_ID_SHELL

BINOUT_ELOUT_SPCM_IDS unsigne BINOUT_ELOUT_SP idtype: BINOUT_ELOUT_SPCM_ID_BEAM,

d int CM_NUM_ID BINOUT_ELOUT_SPCM_ID_SOLID,
BINOUT_ELOUT_SPCM_ID_TSHELL,

BINOUT_ELOUT_SPCM_ID_SHELL

BINOUT_ELOUT_SPCM_NUM_IPT int 1 idtype: BINOUT_ELOUT_SPCM_ID_BEAM,

BINOUT_ELOUT_SPCM_ID_SOLID,
BINOUT_ELOUT_SPCM_ID_TSHELL,

BINOUT_ELOUT_SPCM_ID_SHELL

BINOUT_ELOUT_SPCM_IPTS int BINOUT_ELOUT_SP idtype: BINOUT_ELOUT_SPCM_ID_BEAM,

CM_NUM_IPT BINOUT_ELOUT_SPCM_ID_SOLID,
BINOUT_ELOUT_SPCM_ID_TSHELL,

BINOUT_ELOUT_SPCM_ID_SHELL

BINOUT_ELOUT_SPCM_NUM_COM int 1 idtype: BINOUT_ELOUT_SPCM_ID_BEAM,

PONENT BINOUT_ELOUT_SPCM_ID_SOLID,
BINOUT_ELOUT_SPCM_ID_TSHELL,

BINOUT_ELOUT_SPCM_ID_SHELL

147
BINOUT_ELOUT_SPCM_COMPONE BinoutS BINOUT_ELOUT_SP idtype: BINOUT_ELOUT_SPCM_ID_BEAM,
NTS tringAr CM_NUM_COMPONEN BINOUT_ELOUT_SPCM_ID_SOLID,
ray T BINOUT_ELOUT_SPCM_ID_TSHELL,

BINOUT_ELOUT_SPCM_ID_SHELL

BINOUT_ELOUT_SPCM_STRESS_ double 1 id, ipt(shell,thickshell),

XX idtype:
BINOUT_ELOUT_SPCM_ID_SOLID,
BINOUT_ELOUT_SPCM_ID_SHELL,
BINOUT_ELOUT_SPCM_ID_TSHELL

BINOUT_ELOUT_SPCM_STRESS_ double 1 id, ipt(shell,thickshell),

YY idtype:
BINOUT_ELOUT_SPCM_ID_SOLID,
BINOUT_ELOUT_SPCM_ID_SHELL,
BINOUT_ELOUT_SPCM_ID_TSHELL

BINOUT_ELOUT_SPCM_STRESS_ double 1 id, ipt(shell,thickshell),

ZZ idtype:
BINOUT_ELOUT_SPCM_ID_SOLID,
BINOUT_ELOUT_SPCM_ID_SHELL,
BINOUT_ELOUT_SPCM_ID_TSHELL

BINOUT_ELOUT_SPCM_STRESS_ double 1 id, ipt(shell,thickshell),

XY idtype:
BINOUT_ELOUT_SPCM_ID_SOLID,
BINOUT_ELOUT_SPCM_ID_SHELL,
BINOUT_ELOUT_SPCM_ID_TSHELL

BINOUT_ELOUT_SPCM_STRESS_ double 1 id, ipt(shell,thickshell),

YZ idtype:
BINOUT_ELOUT_SPCM_ID_SOLID,
BINOUT_ELOUT_SPCM_ID_SHELL,
BINOUT_ELOUT_SPCM_ID_TSHELL

BINOUT_ELOUT_SPCM_STRESS_ double 1 id, ipt(shell,thickshell),

ZX idtype:
BINOUT_ELOUT_SPCM_ID_SOLID,

148
 BINOUT_ELOUT_SPCM_ID_SHELL,
BINOUT_ELOUT_SPCM_ID_TSHELL

BINOUT_ELOUT_SPCM_AXIAL double 1 id, idtype:

BINOUT_ELOUT_SPCM_ID_BEAM

BINOUT_ELOUT_SPCM_SHEAR_S double 1 id, idtype:

BINOUT_ELOUT_SPCM_ID_BEAM

BINOUT_ELOUT_SPCM_SHEAR_T double 1 id, idtype:

BINOUT_ELOUT_SPCM_ID_BEAM

BINOUT_ELOUT_SPCM_MOMENT_ double 1 id, idtype:

S BINOUT_ELOUT_SPCM_ID_BEAM

BINOUT_ELOUT_SPCM_MOMENT_ double 1 id, idtype:

T BINOUT_ELOUT_SPCM_ID_BEAM

BINOUT_ELOUT_SPCM_TORSION double 1 id, idtype:

BINOUT_ELOUT_SPCM_ID_BEAM

BINOUT_ELOUT_SPCM_SIGMA_1 double 1 id, ipt(beam), idtype:

1 BINOUT_ELOUT_SPCM_ID_BEAM

BINOUT_ELOUT_SPCM_SIGMA_1 double 1 id, ipt(beam), idtype:

2 BINOUT_ELOUT_SPCM_ID_BEAM

BINOUT_ELOUT_SPCM_SIGMA_3 double 1 id, ipt(beam), idtype:

1 BINOUT_ELOUT_SPCM_ID_BEAM

BINOUT_ELOUT_SPCM_PLASTIC double 1 id, ipt(beam), idtype:

_EPS BINOUT_ELOUT_SPCM_ID_BEAM

149
BINOUT_ELOUT_SPCM_AXIAL_S double 1 id, ipt(beam), idtype:
TRAIN BINOUT_ELOUT_SPCM_ID_BEAM

BINOUT_RBDOUT_NUM_TIMESTE int 1 ignore

P

BINOUT_RBDOUT_X double BINOUT_RBDOUT_N ignore

UM_TIMESTEP

BINOUT_RBDOUT_NUM_ID int 1 ignore

BINOUT_RBDOUT_IDS unsigne BINOUT_RBDOUT_N ignore

d int UM_ID

BINOUT_RBDOUT_NUM_COMPONE int 1 ignore

NT

BINOUT_RBDOUT_COMPONENTS BinoutS BINOUT_RBDOUT_N ignore

tringAr UM_COMPONENT
ray

BINOUT_RBDOUT_DIRCOS_11 double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_DIRCOS_12 double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_DIRCOS_13 double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_DIRCOS_21 double BINOUT_RBDOUT_N id

150
 UM_TIMESTEP

BINOUT_RBDOUT_DIRCOS_22 double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_DIRCOS_23 double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_DIRCOS_31 double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_DIRCOS_32 double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_DIRCOS_33 double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_AX double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_AY double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_AZ double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_DX double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_DY double BINOUT_RBDOUT_N id

UM_TIMESTEP

151
BINOUT_RBDOUT_GLOBAL_DZ double BINOUT_RBDOUT_N id
UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_RAX double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_RAY double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_RAZ double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_RDX double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_RDY double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_RDZ double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_RVX double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_RVY double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_RVZ double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_VX double BINOUT_RBDOUT_N id

UM_TIMESTEP

152
BINOUT_RBDOUT_GLOBAL_VY double BINOUT_RBDOUT_N id
UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_VZ double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_X double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_Y double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_GLOBAL_Z double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_AX double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_AY double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_AZ double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_DX double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_DY double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_DZ double BINOUT_RBDOUT_N id

153
 UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_RAX double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_RAY double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_RAZ double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_RDX double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_RDY double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_RDZ double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_RVX double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_RVY double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_RVZ double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_VX double BINOUT_RBDOUT_N id

UM_TIMESTEP

154
BINOUT_RBDOUT_LOCAL_VY double BINOUT_RBDOUT_N id
UM_TIMESTEP

BINOUT_RBDOUT_LOCAL_VZ double BINOUT_RBDOUT_N id

UM_TIMESTEP

BINOUT_SLEOUT_NUM_TIMESTE int 1 ignore

P

BINOUT_SLEOUT_X double BINOUT_SLEOUT_N ignore

UM_TIMESTEP

BINOUT_SLEOUT_NUM_ID int 1 ignore

BINOUT_SLEOUT_IDS unsigne BINOUT_SLEOUT_N ignore

d int UM_ID

BINOUT_SLEOUT_NUM_COMPONE int 1 ignore

NT

BINOUT_SLEOUT_COMPONENTS BinoutS BINOUT_SLEOUT_N ignore

tringAr UM_COMPONENT
ray

BINOUT_SLEOUT_FRICTION_EN double BINOUT_SLEOUT_N id

ERGY UM_TIMESTEP

BINOUT_SLEOUT_MASTER double BINOUT_SLEOUT_N id

UM_TIMESTEP

BINOUT_SLEOUT_SLAVE double BINOUT_SLEOUT_N id

UM_TIMESTEP

155
BINOUT_SLEOUT_SLAVEMASTER double BINOUT_SLEOUT_N id
UM_TIMESTEP

BINOUT_SLEOUT_TOTAL_ENERG double BINOUT_SLEOUT_N ignore

Y UM_TIMESTEP

BINOUT_SLEOUT_TOTAL_FRICT double BINOUT_SLEOUT_N ignore

ION UM_TIMESTEP

BINOUT_SLEOUT_TOTAL_MASTE double BINOUT_SLEOUT_N ignore

R UM_TIMESTEP

BINOUT_SLEOUT_TOTAL_SLAVE double BINOUT_SLEOUT_N ignore

UM_TIMESTEP

BINOUT_SPCFORC_NUM_TIMEST int 1 ignore

EP

BINOUT_SPCFORC_X double BINOUT_SPCFORC_ ignore

NUM_TIMESTEP

BINOUT_SPCFORC_NUM_FORCEI int 1 ignore

D

BINOUT_SPCFORC_FORCE_IDS unsigne BINOUT_SPCFORC_ ignore

d int NUM_FORCEID

BINOUT_SPCFORC_NUM_FORCES int 1 ignore

ETID

BINOUT_SPCFORC_FORCESET_I unsigne BINOUT_SPCFORC_ ignore

156
DS d int NUM_FORCESETID

BINOUT_SPCFORC_NUM_COMPON int 1 ignore

ENT

BINOUT_SPCFORC_COMPONENTS BinoutS BINOUT_SPCFORC_ ignore

tringAr NUM_COMPONENT
ray

BINOUT_SPCFORC_FORCE_X double BINOUT_SPCFORC_ id = force_id

NUM_TIMESTEP

BINOUT_SPCFORC_FORCE_Y double BINOUT_SPCFORC_ id = force_id

NUM_TIMESTEP

BINOUT_SPCFORC_FORCE_Z double BINOUT_SPCFORC_ id = force_id

NUM_TIMESTEP

BINOUT_SPCFORC_NUM_MOMENT int 1 ignore

ID

BINOUT_SPCFORC_MOMENT_IDS unsigne BINOUT_SPCFORC_ ignore

d int NUM_MOMENTID

BINOUT_SPCFORC_NUM_MOMENT int 1 ignore

SETID

BINOUT_SPCFORC_MOMENTSET_ unsigne BINOUT_SPCFORC_ ignore

IDS d int NUM_MOMENTSETID

BINOUT_SPCFORC_MOMENT_X double BINOUT_SPCFORC_ id = moment_id

NUM_TIMESTEP

157
BINOUT_SPCFORC_MOMENT_Y double BINOUT_SPCFORC_ id = moment_id
NUM_TIMESTEP

BINOUT_SPCFORC_MOMENT_Z double BINOUT_SPCFORC_ id = moment_id

NUM_TIMESTEP

BINOUT_SPCFORC_RESULTANT_ double BINOUT_SPCFORC_ ignore

X NUM_TIMESTEP

BINOUT_SPCFORC_RESULTANT_ double BINOUT_SPCFORC_ ignore

Y NUM_TIMESTEP

BINOUT_SPCFORC_RESULTANT_ double BINOUT_SPCFORC_ ignore

Z NUM_TIMESTEP

BINOUT_SWFORC_NUM_TIMESTE int 1 ignore

P

BINOUT_SWFORC_X double BINOUT_SWFORC_N ignore

UM_TIMESTEP

BINOUT_SWFORC_NUM_ID int 1 ignore

BINOUT_SWFORC_IDS unsigne BINOUT_SWFORC_N ignore

d int UM_ID

BINOUT_SWFORC_NUM_COMPONE int 1 ignore

NT

BINOUT_SWFORC_COMPONENTS BinoutS BINOUT_SWFORC_N ignore

tringAr UM_COMPONENT

158
 ray

BINOUT_SWFORC_AXIAL double BINOUT_SWFORC_N id, idtype:

UM_TIMESTEP BINOUT_SWFORC_ID_CONSTRAINT,
BINOUT_SWFORC_ID_WELD,
BINOUT_SWFORC_ID_BEAM,
BINOUT_SWFORC_ID_SOLID,

BINOUT_SWFORC_ID_NONNODAL_CONSTRAI
NT,
BINOUT_SWFORC_ID_SOLID_ASSEMBLY

BINOUT_SWFORC_FAILURE double BINOUT_SWFORC_N id, idtype:

UM_TIMESTEP BINOUT_SWFORC_ID_CONSTRAINT,
BINOUT_SWFORC_ID_WELD,
BINOUT_SWFORC_ID_BEAM,
BINOUT_SWFORC_ID_SOLID,

BINOUT_SWFORC_ID_NONNODAL_CONSTRAI
NT,
BINOUT_SWFORC_ID_SOLID_ASSEMBLY

BINOUT_SWFORC_LENGTH double BINOUT_SWFORC_N id, idtype:

UM_TIMESTEP BINOUT_SWFORC_ID_CONSTRAINT,
BINOUT_SWFORC_ID_WELD,
BINOUT_SWFORC_ID_BEAM,
BINOUT_SWFORC_ID_SOLID,

BINOUT_SWFORC_ID_NONNODAL_CONSTRAI
NT,
BINOUT_SWFORC_ID_SOLID_ASSEMBLY

BINOUT_SWFORC_RESULTANT_M double BINOUT_SWFORC_N id, idtype:

OMENT UM_TIMESTEP BINOUT_SWFORC_ID_CONSTRAINT,
BINOUT_SWFORC_ID_WELD,
BINOUT_SWFORC_ID_BEAM,
BINOUT_SWFORC_ID_SOLID,

BINOUT_SWFORC_ID_NONNODAL_CONSTRAI
NT,
BINOUT_SWFORC_ID_SOLID_ASSEMBLY

159
BINOUT_SWFORC_SHEAR double BINOUT_SWFORC_N id, idtype:
UM_TIMESTEP BINOUT_SWFORC_ID_CONSTRAINT,
BINOUT_SWFORC_ID_WELD,
BINOUT_SWFORC_ID_BEAM,
BINOUT_SWFORC_ID_SOLID,

BINOUT_SWFORC_ID_NONNODAL_CONSTRAI
NT,
BINOUT_SWFORC_ID_SOLID_ASSEMBLY

BINOUT_SWFORC_TORSION double BINOUT_SWFORC_N id, idtype:

UM_TIMESTEP BINOUT_SWFORC_ID_CONSTRAINT,
BINOUT_SWFORC_ID_WELD,
BINOUT_SWFORC_ID_BEAM,
BINOUT_SWFORC_ID_SOLID,

BINOUT_SWFORC_ID_NONNODAL_CONSTRAI
NT,
BINOUT_SWFORC_ID_SOLID_ASSEMBLY

BINOUT_CURVOUT_NUM_TIMEST int 1 ignore

EP

BINOUT_CURVOUT_X double BINOUT_CURVOUT_ ignore

NUM_TIMESTEP

BINOUT_CURVOUT_NUM_ID int 1 ignore

BINOUT_CURVOUT_IDS unsigne BINOUT_CURVOUT_ ignore

d int NUM_ID

BINOUT_CURVOUT_NUM_COMPON int 1 ignore

ENT

BINOUT_CURVOUT_COMPONENTS BinoutS BINOUT_CURVOUT_ ignore

tringAr NUM_COMPONENT
ray

160
BINOUT_CURVOUT_VALUES double BINOUT_CURVOUT_ id
NUM_TIMESTEP

BINOUT_DBSENSOR_NUM_TIMES int 1 ignore

TEP

BINOUT_DBSENSOR_X double BINOUT_DBSENSOR ignore

_NUM_TIMESTEP

BINOUT_DBSENSOR_NUM_ID int 1 ignore

BINOUT_DBSENSOR_IDS unsigne BINOUT_DBSENSOR ignore

d int _NUM_ID

BINOUT_DBSENSOR_NUM_COMPO int 1 ignore

NENT

BINOUT_DBSENSOR_COMPONENT BinoutS BINOUT_DBSENSOR ignore

S tringAr _NUM_COMPONENT
ray

BINOUT_DBSENSOR_PRESSURE double BINOUT_DBSENSOR id

_NUM_TIMESTEP

BINOUT_DBSENSOR_SOLID_ID double BINOUT_DBSENSOR id

_NUM_TIMESTEP

BINOUT_DBSENSOR_TEMPERATU double BINOUT_DBSENSOR id

RE _NUM_TIMESTEP

BINOUT_DBSENSOR_POSITION_ double BINOUT_DBSENSOR id

161
X _NUM_TIMESTEP

BINOUT_DBSENSOR_POSITION_ double BINOUT_DBSENSOR id

Y _NUM_TIMESTEP

BINOUT_DBSENSOR_POSITION_ double BINOUT_DBSENSOR id

Z _NUM_TIMESTEP

BINOUT_DBBEMAC_NUM_TIMEST int 1 ignore

EP

BINOUT_DBBEMAC_X double BINOUT_DBBEMAC_ ignore

NUM_TIMESTEP

BINOUT_DBBEMAC_NUM_ID int 1 ignore

BINOUT_DBBEMAC_IDS unsigne BINOUT_DBBEMAC_ ignore

d int NUM_ID

BINOUT_DBBEMAC_NUM_COMPON int 1 ignore

ENT

BINOUT_DBBEMAC_COMPONENTS BinoutS BINOUT_DBBEMAC_ ignore

tringAr NUM_COMPONENT
ray

BINOUT_DBBEMAC_FREQUENCY double BINOUT_DBBEMAC_ id

NUM_TIMESTEP

BINOUT_DBBEMAC_PRESSURE double BINOUT_DBBEMAC_ id

NUM_TIMESTEP

162
BINOUT_DBBEMAC_SOUNDPRESS double BINOUT_DBBEMAC_ id
URELEVEL NUM_TIMESTEP

BINOUT_ICVOUT_NUM_TIMESTE int 1 ignore

P

BINOUT_ICVOUT_X double BINOUT_ICVOUT_N ignore

UM_TIMESTEP

BINOUT_ICVOUT_NUM_ICVIID int 1 ignore

BINOUT_ICVOUT_ICVIIDS unsigne BINOUT_ICVOUT_N ignore

d int UM_ICVIID

BINOUT_ICVOUT_NUM_ICVID int 1 ignore

BINOUT_ICVOUT_ICVIDS unsigne BINOUT_ICVOUT_N ignore

d int UM_ICVID

BINOUT_ICVOUT_NUM_COMPONE int 1 ignore

NT

BINOUT_ICVOUT_COMPONENTS BinoutS BINOUT_ICVOUT_N ignore

tringAr UM_COMPONENT
ray

BINOUT_ICVOUT_ICVI_AREA double BINOUT_ICVOUT_N icvi id

UM_TIMESTEP

BINOUT_ICVOUT_ICVI_FLOW_R double BINOUT_ICVOUT_N icvi id

ATE UM_TIMESTEP

163
BINOUT_ICVOUT_ICV_PRESSUR double BINOUT_ICVOUT_N icv id
E UM_TIMESTEP

BINOUT_ICVOUT_ICV_VOLUME double BINOUT_ICVOUT_N icv id

UM_TIMESTEP

Geometry object type

The geometry object type is used to define the type of the geometry
entities, the symbols are defined here in the following table, use the
exact capital letter as shown in the table to define the type in the
API functions

OBJ_SOLID
OBJ_SHELL
OBJ_FACE
OBJ_WIRE
OBJ_EDGE
OBJ_VERTEX

Geometry related Functions

Int SCLCalcGeomArea(Int id, Int obj_type, Float *result)

Purpose: Calculate the area of a geometry entity.
Input: id - geometry entity id.
obj_type - Geometry object type, see geometry object type table
above for definition
Output: result - area value
Return: status of calculation, 1=success, 0=fail
…...............................................................................................................................

Int SCLCalcGeomVolume(Int id, Int obj_type, Float *result)

Purpose: Calculate the volume of a geometry entity.
Input: id - geometry element entity id.
obj_type - Geometry object type, see geometry object type table
above for definition
Output: result - volume value.
Return: status of calculation, 1=success, 0=fail
…...............................................................................................................................

164
Int SCLCalcGeomLength(Int id, Int obj_type, Float *result)
Purpose: Calculate the length of geometry entity.
Input: id - Geometry entity id.
obj_type - Geometry object type, see geometry object type table
above for definition
Output: result - length value.
Return: status of calculation, 1=success, 0=fail
…...............................................................................................................................

Float SCLCalcShapeBoundBox(Int id, Int obj_type, Float *minPnt, Float*

maxPnt)
Purpose: Calculate the bounding box of geometry entity.
Input: id – Geometry entity id.
obj_type – Geometry object type, see geometry object type table
Output: minPnt – min point of the shape’s bounding box
maxPnt – max point of the shape’s bounding box
Return: status of calculation, 1=success, 0=fail
…...............................................................................................................................

Float SCLCalcShapesBoundBox(Int* ids, Int* obj_types, Int n, Float *minPnt,

Float* maxPnt)
Purpose: Calculate the bounding box of geometry entities.
Input: ids – Geometry entities’ id.
obj_types – Geometry entities’ type.
n – Number of geometry entities.

Output: minPnt – min point of the shapes’ bounding box

maxPnt – max point of the shapes’ bounding box
Return: status of calculation, 1=success, 0=fail
…...............................................................................................................................

Int SCLGeomGetAllShapeIDs(Int **ids, Int obj_type, Int bLocal)

Purpose: Get ids of all geometry faces.
Input: ids – ids array.
obj_type – Geometry object type, see geometry object type table
above for definition
bLocal – if bLocal=1, get all shape including local shape; if bLocal
= 0, just get independent shape (non-local) only. A local shape is a
shape from a parent object

165
Output: none
Return: Number of faces.
…...............................................................................................................................

Int SCLMeasureGeomShellSolid(Int id, Int obj_type, Int* numOfFaces, Float*

area, Float* volume, Int* bClosed, Float* cgPnt, Float* halfInertiaMatrix,
Float* principalVector)
Purpose: Measure shell or solid shape’s geometry information
Input: id – the shell or solid shape’s ID.
type – the shape’s type.
Output: numOfFaces – number faces of the shell or solid shape.
area – area of the shell or solid shape.
volume – volume of the shell or solid shape.
bClosed – close tag of the shell or solid shape.
cgPnt – centre mass point.
halfInertiaMatrix – half inertia matrix. The array is Ixx, Ixy, Ixz,
Iyy, Iyz, Izz.
principalVector – principal vector.
Return: 1=success, 0=fail
…...............................................................................................................................

void SCLGeomMeasureToText(Int id, Int obj_type)

Purpose: Issues a geometry measurement for a specified geometry shape
Input: id - the geometry entity id
obj_type - Geometry object type, see geometry object type table
above for definition
Output: none
Return: none
…...............................................................................................................................

void SCLGeomMeasureToText2(Int id1, Int obj_type1, Int id2, Int obj_type2)

Purpose: Issues a geometry measurement for two specified geometry shapes
Input: id1 - the geometry entity id for shape 1
obj_type1 - Geometry object type for shape 1, see geometry object
type table above for definition
id2 - the geometry entity id for shape 2
obj_type2 – Geometry object type for shape 2
Output: none
Return: none

166
…...............................................................................................................................

Int SCLGeomMeasureGetValueCount()
Purpose: Get number of return values from Geometry measurement operation.
Input: none
Output: none
Return: Number of return values.
…...............................................................................................................................

void SCLGeomMeasureGetValue(Int i, char *p1, char *p2)

Purpose: Get the geometry measurement value for the ith entry
Input: i - the ith entry
Output: p1 - string contains the name of the measurement
P2 - string contains the values of the measurement, can be multiple
floating point numbers, user needs to decode it according to the name
Return: none
…...............................................................................................................................

Int SCLGetParentEntityID(Int childID, Int obj_type1, Int obj_type2)

Purpose: Get the parent entity ID given the child entity ID.
Input: childID – the child entity ID
obj_type1 – object type of the child
obj_type2 – object type of parent
Output: none
Return: parent entity ID
…...............................................................................................................................

Int SCLGetParentEntityIDs(Int childID, Int obj_type1, Int obj_type2, Int **ids)

Purpose: Get the parent entity’s ids given the child entity ID.
Input: childID – the child entity ID
obj_type1 – object type of the child
obj_type2 – object type of parent
Output: ids – array contains parent ids. (a child can has multiple parents, e.g.
an edge line will have multiple faces)
Return: number of parent entities

…...............................................................................................................................

Int SCLGetEntityMaxID(Int type)

Purpose: Get the max ID of the specified entity type

167
Input: type – entity type
Return: max ID of the specified entity type
…...............................................................................................................................

Int SCLGetSubEntityIDs(Int parentID, Int obj_type1, Int obj_type2, Int **ids)

Purpose: Get the children entity ids given the parent entity ID
Input: parentID – the parent entity ID
obj_type1 – object type of parent entity
obj_type2 – object type of the children entity
Output: ids – array contains children ids
Return: number of children

…...............................................................................................................................

Int SCLIsSonParentRelationship(Int childID,Int obj_type1, Int parentID, Int

obj_type2)
Purpose: Check if the child entity belongs to a parent entity
Input: childID – the child entity ID
obj_type1 – object type of the child entity
parentID – the parent entity ID
obj_type2 – object type of the parent entity
Output: none
Return: True or False

…...............................................................................................................................

Int SCLMidPlaneSearchFacePairs(Int ID,Int obj_type, Int bStrict, Int **ids)

Purpose: Find the mid-plane faces pairs for a given solid entity
Input: ID – the solid entity ID
obj_type – object type, must be OBJ_SOLID
bStrict – key for setting the searching tolerance, 0=relax, 1=strict
Output: face ids array, 2 ids make up a pair
Return: number of pairs

…...............................................................................................................................

Int SCLPropagateFacesByAngle(Int* IDs, Int nFace, Float angleTol, Int**

FaceIDs, Int* FaceNum)
Purpose: Given several seed faces, find the same level faces by angle. This is
API is from “Shell by Angle” in “Middle Surface” dialog.

168
Input: IDs – several seed faces ID
nFace – number of seed faces
angleTol – angle tolerance to propagate
Output:
FaceIDs – several seed faces ID
FaceNum – number of propagated faces
Return: 0: no propagated faces found; 1: find propagated faces
…...............................................................................................................................

Int SCLSearchSimilarShapes(Int* IDs, Int* Types, Int n, Float relativeRatio, Int

bByDisMeasure, Int** similarShapeIDs, Int** similarTypes, Int* nSimilar)
Purpose: Search the looks like shapes with the seed shapes.
Input: IDs – seed shapes ID
Types –seed shapes’ type
n – number of seed shapes
relativeRatio – error ratio, the value is in (0, 1), default value is 0.003
bByDisMeasure – search by distance measure only, default is 0.
Output:
similarShapeIDs – similar shapes’ ID after searching
similarTypes – similar shapes’ type
nSimilar – number of similar shapes
Return: number of similar shapes
…...............................................................................................................................

void SCLDeleteModel()
Purpose: Delete all components
…...............................................................................................................................

void SCLDeleteAllShape()
Purpose: Delete all geometry shapes
…...............................................................................................................................

void SCLDeleteAllFEMPart()
Purpose: Delete all FEM parts
…...............................................................................................................................

void SCLDeleteAssembly(Int assemblyID)

Purpose: Delete assembly by ID
Input: assemblyID – assembly’s ID
…...............................................................................................................................

169
void SCLDeleteAssemblyShape(Int assemblyID)
Purpose: Delete all shapes in specified assembly
Input: assemblyID – assembly’s ID
…...............................................................................................................................

void SCLDeleteAssemblyRefGeom(Int assemblyID)

Purpose: Delete all reference geometry in specified assembly
Input: assemblyID – assembly’s ID
…...............................................................................................................................
void SCLDeleteAssemblyFEMPart(Int assemblyID)
Purpose: Delete all FEM parts in specified assembly
Input: assemblyID – assembly’s ID
…...............................................................................................................................

void SCLDeleteGPart(Int gpartID)

Purpose: Delete the specified GPart
Input: gpartID – GPart’s ID
…...............................................................................................................................

void SCLDeleteGPartShape(Int gpartID)

Purpose: Delete all shapes in specified GPart
Input: gpartID – GPart’s ID
…...............................................................................................................................

void SCLDeleteGPartFEMPart(Int gpartID)

Purpose: Delete all FEM parts in specified GPart
Input: gpartID – GPart’s ID
…...............................................................................................................................

void SCLDeleteEntity(Int* IDs, Int* types, Int num)

Purpose: Delete entities (shapes, FEM parts and reference geometry) by ID
and Type
Input: IDs – entities’ ID
types – entities’ type
num – entities’ number
…...............................................................................................................................

void SCLDeleteFEMParts(Int* IDs, Int num)

Purpose: Delete FEM parts

170
Input: IDs – parts’ ID
num – parts’ number

…...............................................................................................................................

void SCLCopyModel(Int toAssemblyID, Int toGPartID)

Purpose: Copy all shapes and FEM parts to specified assembly and GPart
Input: toAssemblyID – the specified assembly ID. -1: copy to a new
assembly
toGPartID – the specified GPart ID. -1: copy to a new GPart

…...............................................................................................................................

void SCLCopyAssembly(Int fromAssemblyID, Int toAssemblyID)

Purpose: Copy all entities(shapes, reference geometry and FEM parts) in some
assembly to another assembly
Input: fromAssemblyID – the source assembly ID
toAssemblyID – the destination assembly ID. -1: copy to a new
assembly

…...............................................................................................................................

void SCLCopyAssemblyShape(Int fromAssemblyID, Int toAssemblyID)

Purpose: Copy all shapes in some assembly to another assembly
Input: fromAssemblyID – the source assembly ID
toAssemblyID – the destination assembly ID. -1: copy to a new
assembly
…...............................................................................................................................

void SCLCopyAssemblyRefGeom(Int fromAssemblyID, Int toAssemblyID)

Purpose: Copy all reference geometry in some assembly to another assembly
Input: fromAssemblyID – the source assembly ID
toAssemblyID – the destination assembly ID. -1: copy to a new
assembly

…...............................................................................................................................
void SCLCopyAssemblyFEMPart(Int fromAssemblyID, Int toAssemblyID)
Purpose: Copy all FEM parts in some assembly to another assembly
Input: fromAssemblyID – the source assembly ID
toAssemblyID – the destination assembly ID. -1: copy to a new

171
assembly

…...............................................................................................................................

void SCLCopyGPart(Int fromGpartID, Int toGPartID)

Purpose: Copy all entities in some GPart to another GPart
Input: fromGpartID – the source GPart ID
toGPartID – the destination GPart ID. -1: copy to a new GPart
…...............................................................................................................................

void SCLCopyGPartShape(Int fromGpartID, Int toGPartID)

Purpose: Copy all shapes in some GPart to another GPart
Input: fromGpartID – the source GPart ID
toGPartID – the destination GPart ID. -1: copy to a new GPart
…...............................................................................................................................

void SCLCopyGPartFEMPart(Int fromGpartID, Int toGPartID)

Purpose: Copy all FEM parts in some GPart to another GPart
Input: fromGpartID – the source GPart ID
toGPartID – the destination GPart ID. -1: copy to a new GPart
…...............................................................................................................................

void SCLCopyEntity(Int* ids, Int* types, Int num)

Purpose: Copy entities
Input: ids – the source entities’ ID
types – the source entities’ type
num – number of source entities
…...............................................................................................................................
void SCLCopyFEMParts(Int* ids, Int num)
Purpose: Copy FEM parts
Input: ids – the source parts’ ID
num – number of source parts
…...............................................................................................................................
void SCLHoleManage_Analysis()
Purpose: Start analysis inner hole and outer hole in geometry shapes

…...............................................................................................................................

void SCLHoleManage_AnalysisShape(Int ID, Int type)

Purpose: Start analysis inner hole and outer hole in specified face, shell or

172
solid shape

Input: ID – the face, shell or solid’s ID

type – the shape’s type

…...............................................................................................................................

Int SCLHoleManage_GetInnerHoleCount()
Purpose: After analysis, get number of inner holes (inner loop from face)
Return: number of inner hole

…...............................................................................................................................

Int SCLHoleManage_GetOutHoleCount()
Purpose: After analysis, get number of out holes (out hole is grouped by
multiple faces)
Return: number of out hole
…...............................................................................................................................

Int SCLHoleManage_GetInnerHoleInfor(Int holeID, char** holeName, Int*

holeWireID, Int** holeEdgeIDs, Int* holeEdgeCount, Float* size)
Purpose: After analysis, get the inner hole geometry information
Input: holeID – the inner hole’s ID
Output: holeName – the inner hole’s name
holeWireID – wire ID of the inner hole
holeEdgeIDs – edges’ ID of the inner hole
holeEdgeCount – number of edges from the inner hole
size – diagonal length of the inner hole’s bounding box
Return: 0: invalid inner hole; 1: success
…...............................................................................................................................

Int SCLHoleManage_GetOutHoleInfor(Int holeID, char** holeName, Int**

holeEdgeIDs, Int* holeEdgeCount, Float* size, Int* bFilled)
Purpose: After analysis, get the out hole geometry information
Input: holeID – the out hole’s ID
Output: holeName – the out hole’s name
holeEdgeIDs – edges’ ID of the out hole
holeEdgeCount – number of edges from the out hole
size – diagonal length of the inner hole’s bounding box
bFilled – out hole filled tag (some large out hole should not be filled)

173
Return: 0: invalid out hole; 1: success
…...............................................................................................................................

Int SCLHoleManage_FillHole(Int bInnerHole, Int holeID)

Purpose: After analysis, fill specified inner or out hole
Input: bInnerHole – tag of inner hole or out hole
holeID – the hole’s ID
Return: 0: invalid out hole; 1: success
…...............................................................................................................................
void SCLHollowManage_Analysis(Int bSimpleHollowOnly)
Purpose: Start analysis hollow in geometry shapes
Input: bSimpleHollowOnly – a tag to check simple or complex hollow

…...............................................................................................................................

void SCLHollowManage_AnalysisShape(Int id, Int type, Int

bSimpleHollowOnly)
Purpose: Start analysis hollow in geometry shell or solid
Input: id – the shell or solid shape’s ID
type – the shape’s type
bSimpleHollowOnly – a tag to check simple or complex hollow
…...............................................................................................................................

Int SCLHollowManage_GetHollowCount()
Purpose: After analysis, get number of hollow
Return: number of hollow
…...............................................................................................................................
Int SCLHollowManage_GetHollowInfor(Int hollowID, char** hollowName,
Int** hollowFaceIDs, Int* holeFaceCount, Float* size)
Purpose: After analysis, get the hollow geometry information
Input: hollowID – the hollow’s ID
Output: hollowName – the hollow’s name
hollowFaceIDs – faces’ ID of the hollow
holeFaceCount – number of faces from the hollow
size – diagonal length of the hollow’s bounding box
Return: 0: invalid hollow; 1: success
…...............................................................................................................................

Int SCLHollowManage_FillHollow(Int hollowID)

Purpose: After analysis, fill one hollow

174
Input: hollowID – the hollowID’s ID

Return: 0: failed; 1: success

…...............................................................................................................................

Int SCLHollowManage_FillAll()
Purpose: After analysis, fill all hollows
Return: 0: failed; 1: success

…...............................................................................................................................

Int SCLSetDBEntityColor(Int ID, Int type, Float* color)

Purpose: Set entity’s color
Input: ID – the entity’ ID
type – the entity’ type
color – the color array (size 4, the last component is transparency)
Return: 0: failed; 1: success

…...............................................................................................................................

Int SCLGetDBEntityColor(Int ID, Int type, Float* color)

Purpose: Get entity’s color
Input: ID – the entity’ ID
type – the entity’ type
Output: color – the color array (size 4, the last component is transparency)
Return: 0: failed; 1: success

LS-PrePost Scripting Command Language specifics and limitations

LSPP-SCL is almost like the C programming language with the following

exceptions:

1. Combined assignments such as i++, i--, --i, ++i, i+=, i*=; are not supported,
must use i=i+1; i=i-1; i=i+n; i=i*x; i=i/n;
2. For integer data declaration, you must use “Int” not “int”.
3. For floating point number declaration, you must use “Float”, not “float”.
4. Do not type cast data conversion, e.g. Int i; Float x;
i = x; (correct way), i = (Int)x; (not supported)

175
5. Switch case: do... while - not supported
6. Conditional operator: (boolean) ? : - not supported

How to use Scripting Command Language in LS-PrePost

There are 2 ways to execute the scripting command language file:

1. Run it with the regular LS-PrePost command, or within the command file,
use the runscript command to execute the scl file, parameters can also be passed
to the script.

The syntax:
runscript “sclfilename” optional parameters

Example: the following command file will execute the script that creates a X-Y
curve with the parameters defined in the command file.

parameter pa 9.0E+07
parameter pb 7000.0
parameter pc 4.0E+07
parameter npt 300
parameter xmin 0.0
parameter xmax 0.00126
runscript "customcurve.scl" &npt &pa &pb &pc &xmin &xmax

2. Run it by going to the Application pull down menu, select “Customize” and
in the pop up dialog, click “Load” to load the SCL file, then click “Run” to
execute. Running script this way parameter cannot be passed to the script file, as
shown in the following pictures:

176
Python API Functions

LsPrePost module:

def execute_command(cmd)
pass

Purpose: Execute a LS-PrePost command

Input: cmd - a string contains the LS-PrePost command
Return: none

177
…...............................................................................................................................

def echo(string)
pass

Purpose: Display the text in the LS-PrePost message dialog and in the
lspost.msg file
Input: string - text string
Output: none
Return: none
…...............................................................................................................................

def switch_state(ist)
pass

Purpose: Switch the current state to a specified state

Input: ist - state number, 0 < ist <= largest state
Output: none
Return: flag, 1=success, 0=fail
…...............................................................................................................................
def fringe_dc_to_model(typecode, avg_opt, num, data, ist, label)
pass

Purpose: Fringe the data center array to current model.

Input: typecode - Node or element type, constant such as "NODE",
"0","SOLID","BEAM","SHELL","TSHELL","SPHNODE" can be
used. (from DataCenter import Type)
avg_opt – nodal averaging option, 0=none, 1=nodal
num - array size
data - Float array
ist - State number which data will be assigned
Label - Name of the fringing data to be shown on fringe plot
Output: none
Return: none
…...............................................................................................................................

def save_dc_to_file(filename, num, data)

pass

178
Purpose: Save the data center array to file.
Input: filename - name of output file.
num - array size
data - Float array
Output: none
Return: none
…...............................................................................................................................

def cmd_result_get_value_count()
pass

Purpose: Get number of results from a LS-PrePost command.

Input: none
Output: none
Return: Number of command results.
…...............................................................................................................................

def cmd_result_get_value(i)
pass

Purpose: Get value of command results.

Input: i - Index of command results. (starting from 0)
Output: depends on the data type, one of the following will be used
the integer result
the floating point result in double word.
Return: status flag, 1=success, 0=fail
…...............................................................................................................................

def check_if_part_is_active_u(uid)
pass

Purpose: Check if a part is active (visible) given a user defined part id

Input: uid - User id.
Output: none
Return: visibility flag, 1 is visible, 0 is invisible.
…...............................................................................................................................

def check_if_part_is_active_i(iid)

179
 pass

Purpose: Check if a part is active (visible) given an internal part id.

Input: iid - internal id.
Output: none
Return: visibility flag, 1 is visible, 0 is invisible.
…...............................................................................................................................

def check_if_element_is_active_u(uid, type)

pass

Purpose: Check if an element is active (visible) given an users element id.

Input: uid - User id.
type - Data type, constant such as SHELL, SOLID, TSHELL,
BEAM, SPHNODE can be used(from DataCenter import Type).
Output: none
Return: visibility flag, 1 is visible, 0 is invisible
…...............................................................................................................................

def check_if_element_is_active_i(iid, dtype)

pass

Purpose: Check if an element is active (visible) given an internal id.

Input: iid - Internal id.
type - Data type, constant such as SHELL, SOLID, TSHELL,
BEAM, SPHNODE can be used(from DataCenter import Type).
Output: none
Return: visibility flag, 1 is visible, 0 is invisible.
…...............................................................................................................................

DataCenter module:

def get_data(parameter_name, type=-1, id=-1, ipt=-999, ist=-1)

pass

Purpose: Get data from model.

Input: parameter_name(like “part_name”, “time”).
Keyword arguments(ignore if not necessary):

180
 1. type - Data type, constant such as NODE, PART, SHELL,
SOLID, TSHELL, BEAM, SPHNODE can be used(from
DataCenter import Type). If the parameter_name
“elemofpart_ids” is used, type=0 means to get the internal element
id array.
2. id - element/part/nodeset/elementset id.
3. ipt - Integration points or layer. Valid for getting component
values from element shell, beam and tshell(from DataCenter
import Ipt), such as "MEAN", "UPPER", "LOWER" can be
used. Also valid for solid fully integrated, base-1,such as
"1","2"..."8" can be used.
4. ist - State number which data will be extracted (starting from 1)
Return: result
…...............................................................................................................................

class Type(Enum):
PART = 0
BEAM = 1
SHELL = 2
SOLID = 3
TSHELL = 4
SPHNODE = 11
NODE = 14

class Ipt(Enum):
MAX = -4
UPPER = -3
LOWER = -2
MIDDLE = -1

class Vector():

def x(self):

pass

def y(self):

pass

def z(self):

181
 pass

class Tensor():

def x(self):

pass

def y(self):

pass

def z(self):

pass

def xy(self):

pass

def yz(self):

pass

def zx(self):

pass

…...............................................................................................................................
How to use Python Scripting in LS-PrePost
Download (from official website) and install Python on your machine, please note
that the Python3.6 is required for LS-PrePost4.9 and earlier version, the
Python3.10 is required for LS-PrePost4.10 and newer version,
When running the Python script the first time, one should issue the following
command in LS-PrePost command input window.

setpythonhome “python_home_directory”
(e.g. setpythonhome “D:\Python36”)

182
The Python home path will be automatically saved to the config file.

And then run Python scripting with the regular LS-PrePost command, or within
the command file, use the runpython command to execute the Python scripting,
parameters can also be passed to the script.

The syntax:

runpython “pythonscriptingname” optional parameters

Example: the following command file will execute the script that creates a X-Y
curve with the parameters defined in the command file.

parameter pa 9.0E+07
parameter pb 7000.0
parameter pc 4.0E+07
parameter npt 300
parameter xmin 0.0
parameter xmax 0.00126
runpython "customcurve.py" &npt &pa &pb &pc &xmin &xmax

Data Center Parameter Name list

Name Return Type Status

num_states Int Available

num_parts Int Available

num_nodes Int Available

num_elements Int Available

num_materials Int Available

largest_node_id Int Available

largest_element_id Int Available

num_shell_elements Int Available

183
num_beam_elements Int Available

num_solid_elements Int Available

num_tshell_elements Int Available

num_sph_elements Int Available

num_discrete_elements Int Available

num_seatbelt_elements Int Available

num_mass_elements Int Available

num_inertia_elements Int Available

num_validparts Int Available

num_beam_intp Int Available

num_active_elements Int Available

largest_point_id Int Available

largest_vertex_id Int Available

largest_edge_id Int Available

largest_surface_id Int Available

partofelem_id Int Available

current_state Int Available

num_selection Int Available

is_full_integrated Int Available

xyplot_numpopupwin Int Available

xyplot_numcurves Int Available

node_ids Int array Available

ids_inset Int array Available

184
element_ids Int array Available

elemofpart_ids Int array Available

validpart_ids Int array Available

selection_ids Int array Available

selection_types Int array Available

partofmat_ids Int array Available

material_ids Int array Available

element_connectivity Int array Available

active_elements_ids Int array Available

largest_time Float Available

largest_disp_magnitude Float Available

max_stress_x Float Available

max_stress_y Float Available

max_stress_z Float Available

max_stress_xy Float Available

max_stress_yz Float Available

max_stress_zx Float Available

max_strain_x Float Available

max_strain_y Float Available

max_strain_z Float Available

max_strain_xy Float Available

max_strain_yz Float Available

max_strain_zx Float Available

185
xyplot_maxvalue Float Available

xyplot_minvalue Float Available

xyplot_lastvalue Float array Available

state_times Float array Available

nodal_temperatures Float array Available

node_x Float or float array Available

node_y Float or float array Available

node_z Float or float array Available

disp_x Float or float array Available

disp_y Float or float array Available

disp_z Float or float array Available

disp_magnitude Float or float array Available

state_node_x Float or float array Available

state_node_y Float or float array Available

state_node_z Float or float array Available

velo_x Float or float array Available

velo_y Float or float array Available

velo_z Float or float array Available

velo_magnitude Float or float array Available

accel_x Float or float array Available

accel_y Float or float array Available

accel_z Float or float array Available

accel_magnitude Float or float array Available

186
stress_x Float or float array Available

stress_y Float or float array Available

stress_z Float or float array Available

stress_xy Float or float array Available

stress_yz Float or float array Available

stress_zx Float or float array Available

effective_plastic_strain Float or float array Available

historyvar Float array Available

stress_1stprincipal Float or float array Available

stress_2ndprincipal Float or float array Available

stress_3rdprincipal Float or float array Available

strain_x Float or float array Available

strain_y Float or float array Available

strain_z Float or float array Available

strain_xy Float or float array Available

strain_yz Float or float array Available

strain_zx Float or float array Available

strain_1stprincipal_infin Float or float array Available

strain_2ndprincipal_infin Float or float array Available

strain_3rdprincipal_infin Float or float array Available

lower_eps1 Float array Available

upper_eps1 Float array Available

mean_eps1 Float array Available

187
lower_eps2 Float array Available

upper_eps2 Float array Available

mean_eps2 Float array Available

sigma1 Float array Available

sigma2 Float array Available

mx Float or float array Available

my Float or float array Available

mxy Float or float array Available

qx Float or float array Available

qy Float or float array Available

nx Float or float array Available

ny Float or float array Available

nxy Float or float array Available

Nx/t-6*Mx/(t*t) Float or float array Available

Nx/t+6*Mx/(t*t) Float or float array Available

Ny/t-6*My/(t*t) Float or float array Available

Ny/t+6*My/(t*t) Float or float array Available

Nxy/t-6*Mxy/(t*t) Float or float array Available

Nxy/t+6*Mxy/(t*t) Float or float array Available

strain_energy_density Float or float array Available

Internal_energy_density float array Available

kinetic_energy Float or float array Available

internal_energy Float or float array Available

188
total_energy Float or float array Available

rigidbody_dispx Float or float array Available

rigidbody_dispy Float or float array Available

rigidbody_dispz Float or float array Available

result_rigidbody_disp Float or float array Available

rigidbody_velx Float or float array Available

rigidbody_vely Float or float array Available

rigidbody_velz Float or float array Available

result_rigidbody_vel Float or float array Available

rigidbody_accelx Float or float array Available

rigidbody_accely Float or float array Available

rigidbody_accelz Float or float array Available

result_rigidbody_accel Float or float array Available

von_mises Float or float array Available

thickness Float or float array Available

area Float or float array Available

volume Float or float array Available

shell_normal Vector Available

displacement Vector or vector array Available

velocity Vector or vector array Available

acceleration Vector or vector array Available

global_stress Tensor or tensor array Available

global_strain Tensor or tensor array Available

189
axial_force Float or Float array Available

s_shear_resultant Float or Float array Available

t_shear_resultant Float or Float array Available

s_bending_moment Float or Float array Available

t_bending_moment Float or Float array Available

torsional_resultant Float or Float array Available

axial_stress Float or Float array Available

rs_shear_stress Float or Float array Available

tr_shear_stress Float or Float array Available

plastic_strain Float or Float array Available

axial_strain Float or Float array Available

strain_maxprincipal Float or Float array Available

strain_2ndprincipal Float or Float array Available

strain_minprincipal Float or Float array Available

x_heatflux Float or Float array Available

y_heatflux Float or Float array Available

z_heatflux Float or Float array Available

heatflux_magnitude Float or Float array Available

internal_energy_density Float or Float array Available

material_internal_energy Float or Float array Available

material_rigidbody_velx Float or Float array Available

material_rigidbogy_vely Float or Float array Available

material_rigidbogy_velz Float or Float array Available

190
material_result_rigidbody_vel Float or Float array Available

part_name String Available

time String Available

elementdeletion Float Available

user_id int Available for

Python

internal_id int Available for

Python

inquiry_part_type_u int Available for

Python

inquiry_part_type_i int Available for

Python

model_directory String Available for

Python

num_set_segment_id Int Available

set_segment_id Int array Available

maxnum_set_segmentdata_i Int Available

nset

set_segmentdata_inset Int array Available

Input parameter: set

internal id from 1.

ids_inset Int array Available

Input parameter:

Type: PART, SHELL,

NODE, SOLID, BEAM

Set internal id from 1

191
Examples:

The examples can be download from the LSTC ftp site:

ftp://ftp.lstc.com/outgoing/lsprepost/SCLexamples/SCL_Examples.zip

As of June, 2020, there are 11 example scripts:

1. Example 1:
Script to get no. of parts in the model. Get all the part IDs, then draw each part by
itself and auto center it for each part, capture a picture in png format, and save it
to a file which has the part id as the file name.

2. Example 2:
Script to create a plate with 25 shell elements, then extract the following:
1. number of nodes/elements in the model,
2. largest node/element ids,
3. the array of the node ids.
4. get the element connectivity for the last element

3. Example 3:
Script to create a load curve based on a given equation and some parameters, the
script will be called by a command file example3.cfile which passes the
parameters to the script, the created curve will be written to a file called curve.txt,
then load the file back to display in the xy-plot plot interface as a XY graph

4. Example 4:
Script to measure the mass, mass center of gravity and volume of all solid parts in
the model, the measured information will be written to file exam4.txt.

Example 4a:
Script to measure the angular velocity, of all solid parts in the model, the
measured information will be written to file exam4a.txt.

5. Example 5:
Script to extract the x, y, and z components of the displacement array, then
compute the resultant displacement for all the nodes and then fringe the computed
result, also write the computed result to a file for each state. The file written can
be loaded back into LSPP as User defined fringe data.

192
6. Example 6:
Script to get x, y, z, global stress components and compute the average stress,
then fringe the computed result and write it out to a file.

7. Example 7:
Script to extract the z component of the nodal displacement array, then
differentiate it with respect to time, which should give the z velocity array, then
extract the z component of the velocity array that was stored in d3plot file and
then compute the difference between differentiated result with stored result and
then fringe it.

8. Example 8:
Script to extract MX, MY, MXY, QX, QY, NX, NY, NXY resultant forces at the
last state for Shell elements from a set of d3plot files, and write the extracted data
out to a file

9. Example 9:
Script to look up number of parts in a model, get the part IDs, for each active part,
measure the volume of the part by issuing a "Measure Vol part" command, and
obtain the results from the command, then write out the return values from the
measure command to a file call postdata.txt.

10. Example 10:

Script to read a file that contains nodal coordinates which define the outline of a
region on the XY plane. Then create a geometry surface from the outline, and
then mesh it with shell elements, drag the shell elements in the Z direction to form
a solid block. Delete the shell element part, and keep the solid part, write the solid
part to a file. This example uses a LS-PrePost command file (example10.cfile) to
call the SCL file, with the input file, output file and a few parameters defined in
the command file and pass them to the script.

11. Example 11:

Script to write the nodal coordinate from the selection buffer to a file. The file
name is passed through the runscript/runpython command line. This example
demonstrates how to pass a string from command line to the script. Also
demonstrates how to get items in the selection buffer.

193