3. Worker Reference (auto-generated)¶
Schema-derived reference for every d3VIEW worker. Each page lists the worker’s description, inputs, outputs, tags, and a link to its runnable example when one is registered. Hand-curated pages under workerexamples/ override the auto-generated baseline when present.
3.1. Api workers¶
3.2. Apply workers¶
3.3. Assembler workers¶
- ASSEMBLER BUILD GRAPH
- CREATE ASSEMBLY
- CREATE AN DESIGN STEP
- CREATE A LOADCASE
- CREATE LOADCASES FROM EXCEL
- CREATE AN ML-BASED ACTION
- CREATE SIMULATION FROM SYSTEM MODEL
- CREATE A SYSTEM MODEL FROM ASSEMBLIES
- CREATE A SYSTEM MODEL FROM FILES
- DUPLICATE A LOADCASE
- ASSEMBLER EVALUATE LOADCASE
- ASSEMBLER FETCH NODE
- ASSEMBLER FETCH SIMULATION IDS
- LS-DYNA PARSE SENSORS FROM ASSEMBLY
- LS-DYNA PARSE SENSORS FROM SYSTEM MODEL
- ASSEMBLER SAVE REPORT TO SYSTEM MODEL
- ASSEMBLER: SUBMIT DOE STUDY FOR SYSTEM MODEL
- ASSEMBLER: SUBMIT SIMULATION FOR SYSTEM MODEL
3.4. Assembly workers¶
3.5. Attachment workers¶
3.6. Aws workers¶
3.7. Battery workers¶
3.8. Binning workers¶
3.9. Binout workers¶
3.10. Bms workers¶
3.11. Bom workers¶
3.12. Chest workers¶
3.13. Classify workers¶
3.14. Complexcurve workers¶
- CONVERT ACCELERATION TO DISPLACEMENT
- CONVERT COMPLEX CURVE TO VELOCITY
- CONVERT COMPLEX CURVE TO AWEIGHT
- COMPUTE THE PERCENTILE FOR THE CURVE
- CREATE A SAMPLE COMPLEX CURVE
- CONVERT COMPLEX CURVE TO AMPLITUDE
- CONVERT COMPLEX CURVE TO DB
- CONVERT COMPLEX CURVE TO PRESSURE DB
- CONVERT COMPLEX CURVE TO REAL
- CONVERT COMPLEX CURVE TO DYNAMIC STIFFNESS
3.15. Complexcurves workers¶
3.16. Condition workers¶
3.17. Connection workers¶
3.18. Coord workers¶
3.19. Create workers¶
3.20. Createscalargroup workers¶
3.21. Csv workers¶
3.22. Curve workers¶
- CURVE ABS
- CONVERTS A XYZ COORDINATE TIME-HISTORY TO JS3D
- COMPUTE THE Y-DIFFERENCE COMPARED TO THE PREVIOUS POINT
- ADD NOISE TO CURVE
- ADD POINTS WHERE THE CURVE INTERSECTS WITH THE X-AXIS
- ADD POINTS WHERE THE CURVE INTERSECTS WITH THE Y-AXIS
- INSERT STRAIN-RATE CURVE INTO A SET
- ADD A VALUE 0,0 IF IT DOES NOT EXISTS
- ADJUST YIELD TO THIS VALUE
- CREATE A NEW CURVE BY WHERE Y = ATAN(Y)
- PERFORM A SERIES OF CHECKS TO AUTO CLEAN A CURVE FOR USE BY MATERIAL LAWS
- PERFORMS A AUTO-CORRELATION ANALYSIS ON A CURVE
- COMPUTE AVERAGE VALUE BETWEEN TWO X VALUES
- COMPUTE AVERAGE VALUE BASED ON TYPE
- CONVERT REAL CURVE TO AWEIGHT
- COMPUTE THE BEFORE_AFTER OF THE CURVE
- CONVERT BIAXIAL ENG STRESS-STRAIN TO COMPRESSION ENG STRESS-STRAIN
- CREATE A NEW CURVE BY LINEAR INTERPOLATION TO REACH A MAXIMUM OF NUM_POINTS SPECIFIED BELOW
- CREATE A NEW CURVE BY LINEAR INTERPOLATION TO REACH A MAXIMUM OF NUM_POINTS SPECIFIED BELOW
- COMPUTE THE AVERAGE OF THE BOUNDED CURVE
- CONVERT CARTESIAN TO CYLINDRICAL
- GENERATE A CATMUL-ROM-SPLINE FOR CURVE
- CURVE CHECK TOLERANCE
- CHEST VISCOUS
- DISCARD THE POINTS IF THE X-VALUE AND Y-VALUE IS OUTSIDE OF THE RANGE SPECIFIED BELOW
- CLIP THE CURVE AFTER X WHERE Y IS MAX
- CLIP CURVE AT A POINT BETWEEN YMAX AND WHEN IT DROPS BY SPECIFIED PERCENTAGE
- CLIP CURVE TO DELAY NEGATIVE Y-VALUE
- CLIP WHEN Y REACHES ZERO
- CLIP CURVE WHEN Y DROPS BELOW A CERTAIN PERCENTAGE OF MAX VALUE
- CLIP THE CURVES BASED ON EITHER X OR Y RANGES
- DISCARD THE POINTS IF THE X-VALUE IS OUTSIDE OF THE RANGE SPECIFIED BELOW
- DISCARD THE POINTS IF THE X-VALUE IS OUTSIDE OF THE RANGE SPECIFIED USING A DATASET
- CLIP BY INTERSECTION WITH Y-AXIS
- DISCARD THE POINTS IF THE Y-VALUE IS OUTSIDE OF THE RANGE SPECIFIED BELOW
- NORMALIZE AND SCALE X VALUES
- NORMALIZE AND SCALE Y VALUES
- COMPUTE PARETO FRONT OPTIMAL FOR A TWO-DIMENSIONAL POINT
- COMPUTE LCID_P CURVE FROM 3D STRAINS
- COMPUTE R2 BETWEEN A REFERENCE CURVE AND A COMPARISON CURVE
- RETURNS ALL CONTACT FORCES
- COMPUTES KEY VALUES SUCH AS YIELD, NECKING ETC.
- CREATE A CURVE WITH POINTS
- CREATE A CURVE WITH POINTS
- CREATE A WING CURVE
- CREATE Y FROM POINTS
- DOWNSIZE BY TAKING ONLY CRITICAL POINTS
- COMPUTE THE CROSS PLOT OF THE Y WITH ITS DERIVATIVE
- FIT THE CUBIC SPLINE
- COMPUTE THE CUMULATIVE SUM
- CURVE CUSTOM BIN
- CUSTOM DIGITIZER
- CURVE STATS
- CYLINDRICAL TO CARTESIAN COORDINATES
- NORMALIZE THE CURVE USING STATS
- COMPUTE THE DERIVATIVE OF THE CURVE
- DETECT SIGN CHANGES BASED ON 3RD DERIVATIVE SIGN CHANGE
- DERIVE THE CURVE BASED ON X AND Y POINTS
- COMPUTE THE Y-DIFFERENCE COMPARED TO THE PREVIOUS POINT
- COMPUTE THE DIFFERENCE BETWEEN TWO YFIRST AND YAST VALUES
- CREATE A NEW CURVE BY LINEAR INTERPOLATION TO REACH A MAXIMUM OF NUM_POINTS SPECIFIED BELOW
- DIGITIZE BASED ON DERIVATIVE
- CREATE A CURVE BASED ON X-INTERVAL
- DIGITIZE A ENG-SS
- DISP TO ACCELERATION-DISPLACEMENT
- DISP TO ENERGY DENSITY VS DISP
- DISP TO ENERGY DENSITY VS TIME
- COMPUTE THE DISTANCE BETWEEN TWO POINT TIME-HISTORY
- CURVE DOWNSIZE
- COMPUTE THE DRI FOR A GIVEN ACCELERATION CURVE
- DROP NEGATIVE VALUES
- DROP POSITIVE POINTS
- FULLY AUTOMATIC PEAK DETECTION AND INTEGRATION FOR DSC CURVES. SMOOTHS THE CURVE, DETECTS SIGNIFICANT PEAKS, IDENTIFIES INTEGRATION LIMITS, AND COMPUTES AREA UNDER EACH PEAK. ALSO EMITS A DEGREE-OF-CURE CURVE PER PEAK (NORMALIZED CUMULATIVE AREA, 0 TO 1).
- EFFECTIVE TO TRUE OR ENG (SINGLE KNOB)
- GENERATE EXTRAPOLATE FROM DATASET
- HOCKET SHERBY EXTRAPOLATION
- MODIFIED HOCKET SHERBY EXTRAPOLATION
- UPDATE TO REMOVE LOCALIZATION
- COMPUTE THE HARDENING CURVE BASED ON STOUGHTON_YOON FUNCTION
- COMPUTE THE EXTRAPOLATION BASED ON SWIFT EXPONENTS
- CREATE A CURVE USING THE STANDARD VARIANCE OF YIELD, ULTIMATE AND FAILURE STRAIN USING AN EFFECTIVE STRESS VS STRAIN CURVE
- COMPUTE SCALES USING THE STANDARD VARIANCE OF YIELD, ULTIMATE AND FAILURE STRESS
- VOCE EXTRAPOLATION
- TRUE TO ENG
- CONVERT TRUE-STRESS-VS-STRAIN CURVE BASED FROM EFFECTIVE–STRESS-VS-STRAIN CURVE
- ENFORCE DECAY - MONOTONICALLY DECREASING VALUES FOR Y
- TREAT YPE
- *COMPUTE THE SLOPE OF THE CURVE AT A GIVEN POINT TO THE ORIGIN IE F(X) / X *
- COMPUTE THE NECKING STRAIN FROM AN ENG STRESS-STRAIN CURVE
- COMPUTE ENG STRAIN TO EFFECTIVE PLASTIC STRAIN
- COMPUTE THE TRUE STRAIN FROM ENG STRAIN
- REMOVE THERMAL EFFECTS
- CREATE A CURVE BY SCALING TO THE YIELD, ULTIMATE AND FAILURE STRAIN
- COMPUTE VARIANCE BASED ON SCALES
- COMPUTES KEY VALUES SUCH AS YIELD, NECKING ETC.
- CREATE A CURVE USING THE STANDARD VARIANCE OF YIELD, ULTIMATE AND FAILURE STRAIN
- CREATE A CURVE USING THE STANDARD VARIANCE OF YIELD, ULTIMATE AND FAILURE STRESS
- COMPUTE SCALES USING THE STANDARD VARIANCE OF YIELD, ULTIMATE AND FAILURE STRESS
- COMPUTE YIELD POINT OF ENG STRESS STRAIN CURVE
- CONVERT A FORCE-DEFLECTION CURVE TO A ENGINEERING STRESS VS STRAIN CURVE BASED
- ENGINEERING STRESS VS STRAIN CURVE TO TRUE STRESS VS STRAIN CURVE USING CONSTANT VOLUME ASSUMPTION
- ENSURE FIRST YIELD GT ZERO
- ERSATZ ENGINEERING STRESS-STRAIN CURVE GENERATOR
- ERSATZ ENGINEERING STRESS-STRAIN CURVE GENERATOR (FROM ENGSTRESS_STATS)
- ERSATZ HARDENING CURVE GENERATOR
- DETECT SIGN CHANGES BASED ON 3RD DERIVATIVE SIGN CHANGE
- DETECT A DROP THAT HOLDS FOR A GIVEN WINDOW
- DETECT EVENTS BY TRACKING A DROP AND HOLDING
- DETECT A DROP THAT HOLDS FOR A GIVEN MIN DURATION
- DETECT SIGN CHANGES BASED SIGN CHANGE
- SPLIT THE CURVE BASED ON EVENTS
- CREATE A DECAYING CURVE WITH POINTS
- ADD POINTS BY EXTRAPOLATING USING THE LAST AVAILABLE SLOPE TO SPECIFIED X-VALUE
- EXTRAPOLATE THE CURVE WITH A CONSTANT VALUE
- COMPUTE THE FAILURE STRESS STRAIN VALUES
- COMPUTE THE POINT AT WHICH THE Y-VALUE DROPS TO ZERO OR STARTS TO DECLINE AT THE END OF THE CURVE. USEFUL FOR MATERIAL FAILURE ETC
- COMPUTE THE TIME AT WHICH THE Y REACHES A GIVEN VALUE FOR A SUSTAINED PERIOD
- COMPUTE THE FAILURE BY CHECKING FOR A Y-VALUE BETWEEN TWO RANGES OVER A GIVEN DURATION
- COMPUTE FFT
- FILTER THE CURVE
- FILTER THE CURVE USING CFC
- FILTER VALUES
- FIT THE HARDENING CURVES AND RETURN THE CURVE
- FIT THE HARDENING CURVES AND RETURN PARAMETERS
- FIT THE CURVE WITH POLYNOMIALS
- CONVERT FLEXURAL FORCE-DEFLECTION TO DISPLACEMENT
- CONVERT A FORCE-DEFLECTION CURVE TO A ENGINEERING STRESS VS STRAIN CURVE BASED
- CONVERT A FORCE-DEFLECTION CURVE TO A ENGINEERING STRESS VS STRAIN CURVE BASED
- CONVERT A FORCE-DEFLECTION CURVE TO A TRUE STRESS VS STRAIN CURVE BASED
- FORMAT X AND Y VALUES OF THE CURVE
- FORMAT X AND Y VALUES OF THE CURVE
- CREATE A CURVE FROM SET
- CONVERT GS TO DISP
- CONVERT GS TO VELOCITY
- GENERATE YIELD CURVE
- COMPUTE BILINEAR STATS
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- COMPUTE CROSS-OVER POINT WITH ANOTHER CURVE
- CURVE GET CYCLIC DATA
- GET AMOUNT OF DAMAGE
- GENERATE A DAMAGE CURVE BASED ON COCKCROFT_LATHAM DAMAGE CRITERIA
- GET DAMAGE INFORMATION
- COMPUTES EFFECTIVE STRAIN AT DEVIATION
- GET THE ENCLOSED AREA FROM COORDINATES
- GET END OF LINEARITY
- LOOK UP Y VALUES AND REPORT FAILED POINTS BASED ON THRESHOLDS
- GET FIT SLOPES
- GET R2 FIT TIME-HISTORY
- COMPUTE LOESS LINEAR WEIGHT CURVE
- GET YIELD BASED ON END OF LINEARITY
- GET RATIO OF NECKING STRESS BETWEEN THE TWO ENG. STRESS VS STRAIN CURVES
- GET OFFSET DUE TO SLIP
- COMPUTES OFFSET LINE YIELD STRESS VALUE
- AUTOMATICALLY SELECT THE OPTIMAL POLYNOMIAL ORDER USING R2
- GET OPTIMUM DIG POINTS
- FIND OPTIMUM VALUE FROM THE CURVE
- COMPUTE THE PACK POWER PULSES
- COMPUTER POWER DRIVE CYCLES
- GET REGULARIZATION ERROR
- DETECT RESTING TIMES FOR TIME-HISTORY DATA
- GET THE ENCLOSED AREA FROM COORDINATES
- GET THE SECANT MODULUS
- GET SLOPE PRIOR TO THE CHANGE
- GET SLOPE VS BEST FIT
- GET THE CURVE STATISTICS SUCH AS MIN/MAXG/MEANG/STD_DEV
- COMPUTE SWIFT EXPONENT FROM HARDENING CURVE
- COMPUTE LOESS TRI-CUBE WEIGHT CURVE
- GET THE VALUE BY INDEX
- COMPUTE THE CURVE2-CURVE1 IN RAW OR SQUARED FORM
- COMPUTE THE VIOLATIONS BASED ON MIN/MAX THRESHOLD CURVES
- GET WELD-NUGGET DIAMETER FOR SHEET THICKNESS
- GET WELD-NUGGET DEPENDENCY ON AVERAGE SHEET METAL THICKNESS
- GET X-POINTS FROM CURVE
- GET X-POINTS FROM CURVE AS CSV
- RETURN THE X-VALUE FROM WHICH THE CURVE 2 DEVIATES FROM CURVE1
- GET VALUE OF X WHEN Y INCREASES
- GET Y-POINTS FROM CURVE
- GET Y-POINTS FROM CURVE AS CSV
- CHECKS FOR LOCALIZATION
- DISCARD THE POINTS IF THE X-VALUE IS OUTSIDE OF THE RANGE SPECIFIED BELOW
- FILTER THE CURVE IN CFC
- FILTER THE CURVE IN SAE
- SORT POINTS
- COMPUTE THE HEAD INJURY CRITERIA (HIC) FOR A GIVEN ACCELERATION CURVE
- COMPUTE THE HEAD INJURY CRITERIA (HIC) FOR A GIVEN ACCELERATION CURVE
- FIND OPTIMUM VALUE FROM THE CURVE
- BIN Y-VALUES
- IMAGE TO TEXT WORKER
- INSERT POINT AT X
- COMPUTES THE INTEGRAL BETWEEN TWO X-VALUES
- COMPUTES THE INTEGRAL BY A SPECIFIED INTERVAL
- COMPUTE THE INTEGRATE OF THE CURVE
- COMPUTE THE INTEGRATE OF THE CURVE BETWEEN EVENTS
- INTEGRATE NEGATIVE VALUES ONLY
- INTEGRATE POSITIVE VALUES
- INTERPOLATION VALUES
- INTERPOLATE THE CURVE TO GET Y-VALUES FOR NEW X-POINTS
- CREATE A CURVE BY COMPUTING Y=1/Y
- CREATE A CURVE BY INVERSING BOTH X AND Y
- INVERT THE CURVE BY BY MULTIPLYING THE X BY -1 AND Y BY -1
- COMPUTE THE LAG VALUES
- COMPUTE LANKFORD COEFFICIENT
- MORPH CURRENT POINTS TO NEW POINTS USING LINEAR INTERPOLATION
- FIT A LINEAR REGRESSION
- EFFECTIVE TO TRUE
- COMPUTE LOG OF X AND LOG Y
- LOOK UP KEY VALUES FROM A CURVE
- GET BEST-FIT INITIAL SLOPE
- GET BEST-FIT INITIAL SLOPE AND INTERCEPT
- COMPUTE THE INTERSECTION OF THE CURVE WITH THE Y=0 AXIS AND RETURN THE X-VALUE AS SPECIFIED BELOW. USEFUL FOR DETERMINING THE TIME-TO-ZERO VELOCITY.
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- GET THE VALUE OF Y BASED ON A PERCENTAGE VALUE OF X. FOR EXAMPLE, Y(50%XA)
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- LOOKUP Y-VALUE FROM A GIVEN X-VALUE
- CURVE MAKE SYMMETRIC
- GET A CUSTOM VALUE BASED ON CURVE VALUES
- RUN MATH FUNCTIONS ON Y VALUES
- COMPUTE THE MIN MAX BOUNDS AND RETURN THE MEAN VALUES
- ENFORCES MONOTONICITY FOR X OR Y POINTS
- MOVING AVERAGE OF Y-VALUES
- SET ALL NEGATIVE VALUES TO ZERO
- NORMALIZE THE CURVE BY DIVIDING THE Y-VALUES BY THE MAX-Y
- OFFSET THE CURVE
- OFFSET AND SCALE THE X-VALUES AND Y-VALUES BY THE FACTORS PROVIDED BELOW
- TRANSLATE THE CURVE TO REMOVE SLIP
- OFFSET THE CURVE ALONG X WHEN THE INITIAL VALUE CHANGES BASED ON THE RATIO PROVIDED
- COMPUTE CURVE RELATIVE TO THE FIRST POINT
- OFFSET CURVES Y VALUE FROM A VALUE AT A GIVEN X
- PERFORM AN OFFSET FOLLOWED BY SCALE FOR X AND Y AS SPECIFIED BELOW
- TRANSLATE THE CURVE TO REMOVE ZERO X-VALUES AT THE START OF THE CURVE
- COMPUTE THE OLC FROM A GIVEN VEHICLE VELOCITY CURVE
- COMPUTE THE OLC FROM A GIVEN VEHICLE VELOCITY CURVE
- COMPUTE THE OLC AND PLOT THE TIME-HISTORIES OF OCCUPANT
- COMPUTE THE OCCUPANT LOAD CRITERIA FROM A GIVEN VEHICLE VELOCITY
- OVERLAY WITH ITS DERIVATIVE
- PARTITION A CURVE AND RETURN A SINGLE VALUE FOR EACH PARITION
- LIST NUMBER OF PEAKS OR PEAK VALUE. PEAKS ARE COMPUTED BASED ON THE SLOPE OF THE CURVE. IT IS EXPECTED THE CURVE BE SMOOTH TO AVOID LOCAL PEAKS.
- COMPUTE THE PERCENTILE FOR THE CURVE
- SET ALL POSITIVE VALUES TO ZERO
- FIT POST-NECKING EXTRAPOLATION
- COMPUTE THE Y-POWER OF THE CURVE
- PROJECT POINTS FOUND WITHIN A TOLERANCE TO A SPECIFIED VALUE
- COMPUTE THE PROPORNALITY LIMIT
- COMPUTE A PSI FROM VEHICLE ACCELERATION
- COMPUTE THE PULSE SEVERITY
- SMOOTH USING RBF KERNEL
- CURVE RDP DOWNSAMPLING
- REGRESSION BASED SMOOTHING OF CURVE
- REGULARIZE BASED ON UNIAXIAL DATA
- REMOVE DISCONTINUITY IDENTIFIED BY X-POINT BEING FAR AWAY FROM THE PREVIOUS POINT AND CLIP AT THE LAST POINT
- REMOVE LEADING AND TRAINING ZEROS IN Y VALUES IF FOUND
- REMOVE LAST NEGATIVE SLOPE
- REMOVE OUTLIER POINTS FROM CURVES
- REMOVE REPEATED POINTS
- REMOVE THE SPIKES
- REMOVE TRAILING INTERSECTION WITH X-AXIS
- REPLACE X-VALUE
- REPLACE Y-VALUE AT A GIVEN X
- EVALUATES THE SLOPE TO DETERMINE IF MESH-REGULARIZATION IS REQUIRED
- RETAIN ONLY THE FIRST AND LAST POINTS OF A CURVE
- REVERSE THE POINTS ORDER BASED ON THE AXIS SELECTION
- ROTATE THE POINTS ABOUT A CENTER BY A CERTAIN ANGLE
- ROTATE THE POINTS ABOUT A CENTER BY A CERTAIN ANGLE
- SAVTISKY GOLAY FILTER
- SUBTRACT A VALUE FROM ALL POINTS OF A CURVE
- SCALE THE X-VALUES AND Y-VALUES BY THE FACTORS PROVIDED BELOW
- SCALE AFTER FIRST PEAK
- SCALE Y VALUES BY A CURVE
- SCALE Y VALUES BASED ON CP
- SCALE EFFECTIVE STRESS STRAIN FOR POLYMERS
- SCALE Y VALUES BASED ON RATES AND VALUES
- SCALE Y VALUES
- SCALE Y VALUES
- SCALE BASED ON RATIO OF THE DESIRED FIRST VALUE
- PERFORM AN SCALE FOLLOWED BY AN OFFSET FOR X AND Y AS SPECIFIED BELOW
- SCALE THE Y-VALUES BASED ON CONDITIONS OF THE X VALUE
- SCALE Y VALUES BASED ON THEIR X-LOCATION
- COMPUTE THE SECANT MODULUS OF THE CURVE
- PERFORM A LINEAR FIT AND RETURN THE SLOPES
- SET CONSTANT Y-VALUE TO ALL X-POINTS
- CURVE SET Y AT X
- DETECT SIGN CHANGES AND RETURN THE STATS AROUND THAT POINT
- FIND THE OPTIMIZE X BASED ON THE SIMULATED ANNEALING
- CREATE A NEW CURVE BY SKIPPING POINTS
- COMPUTE THE SLOPE OF THE CURVE
- COMPUTE THE SLOPE OF THE CURVE AT A GIVEN POINT
- COMPUTE THE SECAND MODULUS BASED ON THE INITIAL-POINT AND THE SPECIFIED POINT
- SMOOTH THE CURVE
- SMOOTH THE CURVE
- FIT THE CURVE USING ANY REGION NEAR THE INITIAL POINT TO SMOOTH THE INITIAL CURVE
- SORT POINTS
- FIT THE CURVE USING SPLINES
- SPLIT THE CURVE AT SPECIFIED X-VALUES
- SPLIT THE CURVE BASED ON EVENTS
- SPLIT OR JOIN HARDENING/EFFECTIVE CURVE AT THE NECKING POINT
- SPLIT THE LOADING/ULOADING CURVE
- SPLIT THE CURVE INTO SEGMENTS AND RETURN THE Y VALUES FOR THOSE SEGMENTED CURVES
- COMPUTE THE Y-SQRT OF THE CURVE
- COMPUTE START POINT
- CURVES STATS
- COMPUTE DIFFERENCE BETWEEN TWO CURVES
- COMPUTE THE MAXIMUM Y-VALUE THAT IS MAINTAINED OVER THE DURATION SPECIFIED
- SWAP THE XY-POINTS OF A CURVE
- ADD POINTS BY EXTRAPOLATING SWIFT EXTRAPOLATION
- ADD POINTS BY EXTRAPOLATING SWIFT EXTRAPOLATION
- SYNC THE X-VALUES FROM 3 CURVES
- SYNC THE X-POINTS OF TWO CURVES
- COMPUTE 3MS CLIP
- COMPUTE 3MS CLIP
- COMPUTE DISPLACEMENTS FROM COORDINATES
- CONVERT A SINGLE CURVE INTO A DATASET
- CONVERT CURVE TO DB
- CONVERT VALUES OF X OR Y TO ANTILOG SCALE
- CONVERT VALUES OF X OR Y TO LOG SCALE
- CONVERT THE FREQUENCY TO 1 3 BANDS
- CONVERT CURVE TO PRESSURE DB
- CONVERT CURVE TO PRESSURE DB RMS
- CONVERT REAL CURVE TO DB
- CONVERT TORQUE VS TWIST TO SHEAR STRESS VS SHEAR STRING
- CONVERTS THE TORSIONAL STRESS VS SHEAR STRAIN TO UNI-AXIAL STRESS VS EFFECTIVE STRAIN
- TRANSFORM A CURVE USING A DATASET CONTAINING THE OPERATIONS
- TRIM CURVE BASED ON Y POINTS AFTER A CERTAIN X-VALUE
- REMOVE LEADING AND TRAILING ZEROES
- SCALE Y VALUES
- TRUE TO ENG STRAIN
- CONVERT TRUE TO EFFECTIVE STRESS VS STRAIN CURVE BY REMOVING ALL ELASTIC STRAINS
- TRUE TO ENG
- COMPUTE A TWO-STAGE PULSE FIT FROM A VELOCITY CURVE
- SCALE THE Y-VALUES BY THE FACTOR TO CREATE THE UNLOADING
- UPDATE CURVE SO IT DOES NOT INTERSECT WITH ITS DERIVATIVE
- CREATE A CURVE WITH CUSTOM DEFINITION
- COMPUTE THE SLOPE OF THE CURVE
- COMPUTE POINT-WISE SQ-DIFFERENCE WITH VARIANCEFFT
- CURVE VARY XY AT X
- CURVE VARY Y AT X
- PERFORMS VERIFICATION ON VARIOUS ATTRIBUTES ON THE CURVES
- COMPUTES THE STIFFNESS BY DIVITING Y OVER X
- CONVERTS VOLUMETRIC TRUE STRESS TO ENG STRESS
- COMPUTE THE PULSE INDEX BASED ON VEHICLE DISPLACEMENT AND ACCELERATION TIME-HISTORY DATA
- COMPUTE THE VDI TIME-HISTORY FROM ACCELERATION
- COMPUTE THE VDI TIME-HISTORY FROM DISPLACEMENT
- RETURN THE XVALUES AS A VECTOR
- COMPUTE THE Y-VALUE AT WHICH THE SLOPE EITHER STARTS TO INCREASE OR DECREASE AFTER A CERTAIN X-VALUE.
- COMPUTE THE Y VALUES BASED ON THE FUNCTION THAT USES BOTH Y AND X
- TREAT YPE
- GENERATE AN INSTABILITY CURVE BASED ON YIELD CURVE BASED ON SWIFT. THANKS TO PAUL DU BOIS FOR HIS GUIDANCE.
- CURVE YIELD STRAIN USING STM METHOD
- COMPUTE THE YIELD OFFSET LINE USING THE MODULUS, AND OFFSET FACTOR
- ENFORCES MONOTOCITY FOR X OR Y POINTS
- CURVE YVALUES
- COMPUTE ZONE AVERAGE BASED ON X-RANGES
- COMPUTE ZONE VALUES BASED ON X-RANGES
3.23. Curves workers¶
- COMPUTE THE ABS VALUE OF THE CURVES
- COMPUTE THE ADDITION OF TWO CURVES BY ADDING THE Y-VALUES
- CONVERTS A XYZ COORDINATE TIME-HISTORY TO JS3D
- COMPUTE THE Y-DIFFERENCE COMPARED TO THE PREVIOUS POINT
- ADD PAIRS OF CURVES
- ADD CURVES BASED ON NEW STRAIN RATE VALUES BY INTERPOLATING OR EXTRAPOLATING
- CURVES ADD TO DATASET AS UNIQUE COLUMNS
- ADD A VALUE 0,0 IF IT DOES NOT EXISTS
- ADD CURVE AFTER A INDEX
- COMPUTES APLI SCORE
- APPLY OFFSET DUE TO SLIP
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- AVERAGE TWO OR MORE CURVES
- AVERAGE OF ALL CURVES
- COMPUTE AVERAGE VALUE BETWEEN TWO X VALUES FOR THE CURVES
- COMPUTE AVERAGE MAX VALUE BETWEEN TWO X VALUES FOR THE CURVES
- COMPUTE THE AXIAL CRUSH OF A SET OF NODES
- CURVES BARRIER FORCE ANALYZER
- BIN VALUES OF CURVE
- BIN VALUES OF CURVE
- COMPUTE THE AVERAGE OF THE BOUNDED CURVE
- CREATE A NEW CURVE THAT BOUNDS THE CURVES.
- CARTESIAN TO CYLINDRICAL
- GENERATE A CATMUL-ROM-SPLINE FOR ALL CURVES
- CLIP THE CURVES BASED ON EITHER X OR Y RANGES
- CLIP THE CURVES AT X WHERE Y IS MAXIMUM
- CLIP TO MAKE THE SLOPES OF CURVES MONOTONICALLY INCREASING OR DECREASING
- CLIP CURVES AT A POINT BETWEEN YMAX AND WHEN IT DROPS BY A PERCENTAGE
- CLIP THE CURVES BASED ON PERCENTAGE OF XLENGTH
- CLIP CURVE TO DELAY NEGATIVE Y-VALUE
- CLIP CURVE WHEN MAXIMUM Y DROPS BY A PERCENTAGE
- CLIP THE CURVES BASED ON EITHER X OR Y RANGES
- COLLECTS CURVES
- *SORT THE CURVES BASED ON THE TYPE AND ORDER *
- COMPUTES RELAXATION STRESS VS TIME FOR HYPERELASTIC MATERIALS BASED ON TENSILE OR COMPRESSIVE DYNAMIC TESTS
- COMPUTE THE STRAIN-RATE FROM EFFECTIVE PLASTIC STRAIN VS TIME CURVES
- COMPUTE VISCOSITY
- RETURNS ALL CONTACT FORCES
- CONVERTS A XYZ COORDINATES IN GROUPS TO AVEARGE VALUES
- CONVERTS A XYZ COORDINATE TIME-HISTORY TO JS3D
- TRANSFORM INDIVIDUAL CURVES FROM GLOBAL TO LOCAL SYSTEM
- TRANSFORM SET OF CURVES FROM GLOBAL TO LOCAL COORDINATE SYSTEM BASED ON THE REFERENCE X,Y,Z CURVES. USEFUL TO COMPUTE DISPLACEMENTS WITH RESPECT TO A LOCAL SYSTEM
- TRANSFORM SET OF CURVES FROM GLOBAL TO LOCAL COORDINATE SYSTEM BASED ON THE REFERENCE X,Y,Z CURVES. USEFUL TO COMPUTE DISPLACEMENTS WITH RESPECT TO A LOCAL SYSTEM
- DOWNSIZE BY TAKING ONLY CRITICAL POINTS
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- CREATE A NEW CURVE USING Y FROM CURVE 1 AND THE Y FROM CURVE 2
- COMPUTE A SET OF CURVES USING THE X FROM FIRST CURVE AND Y FROM THE SECOND CURVE
- CROSSPLOT PAIRS OF CURVES
- COMPUTE A CURVE BASED ON THE VALUES FROM A GROUP OF CURVES
- FIT THE CUBIC SPLINE
- CYLINDRICAL TO CARTESIAN
- DETECT SIGN CHANGES BASED ON 3RD DERIVATIVE SIGN CHANGE
- COMPUTE THE DERIVATIVE OF CURVES
- COMPUTE THE Y-DIFFERENCE COMPARED TO THE PREVIOUS POINT
- CREATE A NEW SET OF CURVES BY USING A INTERVAL OF XMAX-MAX/NP AS SPECIFIED BELOW
- DIGITIZE BASED ON DERIVATIVE
- DIGITIZE A ENG-SS CURVES
- CURVES DISTANCE BETWEEN POINTS TIMEHISTORY
- DIVIDE TWO CURVES
- DIVIDE PAIRS OF CURVES
- CURVE DOWNSIZE
- EFFECTIVE TO TRUE OR ENG (SINGLE KNOB, BATCH)
- UPDATE TO REMOVE LOCALIZATION
- COMPUTE EIGEN-VALUES OF A SYMMETRIC 3X3 MATRIX. ONLY 6 COMPONENTS ARE NEEDED.
- COMPUTE THE ENERGY DISTRIBUTION
- ENFORCE DECAY - MONOTONICALLY DECREASING VALUES FOR Y
- ENSURE THAT THE LAST SLOPE IS GREATER THAN ZERO
- COMPUTE THE TRUE STRAIN FROM ENG STRAIN
- COMPUTE VARIANCE BASED ON SCALES
- REMOVE THERMAL EFFECTS BY SCALING UP THE DYNAMIC CURVES
- COMPUTES KEY VALUES SUCH AS YIELD, NECKING ETC.
- CREATE A CURVE USING THE STANDARD VARIANCE OF YIELD, ULTIMATE AND FAILURE STRESS
- ENGINEERING STRESS VS STRAIN CURVES TO TRUE STRESS VS STRAIN CURVE USING CONSTANT VOLUME ASSUMPTION
- ENSURE FIRST YIELD GT ZERO
- COMPUTE THE EQUIVALENT STRAIN PLOT
- COMPUTE ERROR BETWEEN TWO SETS OF CURVES BASED ON R2, MSD, NMAD, RE
- COMPUTE ERROR BETWEEN TWO SETS OF CURVES BASED ON R2, MSD, NMAD, RE AND RETURN A DATASET
- ERSATZ ENGINEERING STRESS-STRAIN — BATCH FROM DATASET
- CONVERT THE CURVES INTO INDEPENDENT CURVE
- EXPORT CURVES AS CSV
- ADD POINTS BY EXTRAPOLATING USING THE LAST AVAILABLE SLOPE TO SPECIFIED X-VALUE
- EXTRAPOLATE THE CURVES WITH A CONSTANT VALUE
- COMPUTE FAILURE POINT BASED ON PERCENTAGE
- COMPUTE THE POINT AT WHICH THE Y-VALUE DROPS TO ZERO OR STARTS TO DECLINE AT THE END OF THE CURVE. USEFUL FOR MATERIAL FAILURE ETC
- COMPUTE THE TIME AT WHICH THE Y REACHES A GIVEN VALUE FOR A SUSTAINED PERIOD
- COMPUTE THE TIME AT WHICH THE Y REACHES A GIVEN VALUE FOR A SUSTAINED PERIOD
- FILTER THE CURVES BASED ON FILTER TYPE, FREQ USING ACCELERATION AND TIME SCALE FACTORS
- FILTER THE CURVE USING CFC
- FIND AND REPLACE NAMES
- GET THE FIRST CURVE FROM THE COLLECTION OF CURVES
- FIT THE CURVES WITH POLYNOMIALS
- FORMAT THE POINTS FOR ALL CURVES
- COMPUTE FPLI SCORE
- GENERATE GISSMO FAILURE
- CONTOUR PARTS BASED ON CURVE DATA
- COMPUTE THE ADDITION OF TWO CURVES BY ADDING THE Y-VALUES
- COMPUTE ANGLE BETWEEN TWO CURVES USING LINES MEASURED AT TWO POINTS
- GET CURVES OF A SINGLE AXIS FROM A GROUPED XYZ CURVES. THE NUMBER OF CURVES IS ASSUMED TO BE DIVISIBLE BY 3
- COMPUTE CONSTAINT STRAIN-RATE EQUIVALENT FROM THE VARYING STRAIN-RATE CURVES
- COMPUTE CORRIDOR DATASET BETWEEN TWO CURVES
- COMPUTE CORRIDOR SCORE BETWEEN TWO CURVES
- COMPUTE CORRIDOR SCORES BETWEEN TWO CURVES
- COMPUTE THE AXIAL CRUSH OF A SET OF NODES
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- CURVES SELECTOR FOR CALIBRATION
- CURVES GET CYCLIC DATA
- GET AMOUNT OF DAMAGE
- GET DAMAGE INFORMATION
- GET KEY METRICS OF THE CURVES AS KEY VALUE
- CURVES SELECTOR FOR CALIBRATION
- CURVES GET DEFINETABLE
- COMPUTES EFFECTIVE STRAIN AT DEVIATION
- GET ENCLOSED AREA DIFFERENCE BETWEEN TWO CURVES
- ERSATZ HARDENING CURVE GENERATOR
- COMPUTE INCREMENTAL MATCHES BETWEENT CURRENT AND PREVIOUS CURVE
- GET INITIAL AND FINAL COORDINATES AS A CURVE
- COMPUTE THE LAST SLOPES OF THE CURVES AND RETURN A KEY-VALUE TABLE
- GET R2 FIT TIME-HISTORY
- COMPUTE MIN-MAX CURVES FROM A GIVE SET OF CURVES
- GET OFFSET DUE TO SLIP
- GET OPTIMUM DIG POINTS
- GET OPTIMUM DIG POINTS
- COMPUTE THE PERCENTAGE DEVIATION OF THE CURVES
- GET REGULARIZATION ERRORR
- GET SHIFT OFFSET BETWEEN TWO CURVES
- COMPUTE THE SLOPES OF THE CURVES
- GET STRAIN-RATES ASSOCIATED WITH CURVE FROM THE CURVE GROUP
- COMPUTE SWIFT EXPONENT FROM HARDENING CURVES
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- COMPUTE INTERSECTIONS OF A CURVE WITH THE THRESHOLD VALUES
- COMPUTES THE TRIAX AT THE TIME OF FAILURE
- RETURN THE X-VALUE FROM WHICH THE CURVE 2 DEVIATES FROM CURVE1
- GET VALUES OF X WHEN Y INCREASES
- RETURNS THE Y-VALUES AT A CERTAIN X VALUE. USES INTERPOLATION WHEN NEEDED.
- GET CURVE BY INDEX. USEFUL FOR EXTRACTING A CURVE FOR A COLLECTION OF CURVES USING THE ORDER.
- GET CURVES BY INDEXES. USEFUL FOR EXTRACTING A CURVE FOR A COLLECTION OF CURVES USING THE ORDER.
- GET CURVE BY NAME FROM A COLLECTION OF CURVES
- GET A CURVE BY SORTING THE COLLECTION OF CURVES BY VALUE TYPE AND RETURN THE CURVES BY FROM A COLLECTION OF CURVES BY VALUE
- GET CURVES INDEXES FROM NAMES
- GROUP CURVES SO THEY ARE IN THE ORDER OF N1-XYZ, N2-XYZ, …
- CHECKS FOR LOCALIZATION
- COMPUTE THE IIHS INTRUSION BASED ON THE SEAT AND THE MEASURING POINT
- COMPUTES IIHS INTRUSION NUMBERS BASED ON DISPLACEMENTS
- COMPUTES IIHS INTRUSION NUMBERS BASED ON DISPLACEMENTS IN REFERENCE SYSTEM
- CREATES A JS3D VISUALIZATION FOR VIEWING THE INTRUSIONS IN LOCAL SYSTEM
- COMPUTES IIHS INTRUSION NUMBERS BASED ON DISPLACEMENTS IN REFERENCE SYSTEM FOR PASSENGER
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- COMPUTE THE IIHS INTRUSION BASED ON THE CURVES FROM THE AVERAGE SEAT AND THE MEASURING POINT
- COMPUTES IIHS INTRUSION NUMBERS AND OUTPUT A TABLE OF VALUES
- IMPORT CURVES FROM CSV STRING
- COMPUTES THE INTEGRAL BY A SPECIFIED INTERVAL
- INTEGRATE CURVES
- INTERPOLATE
- INTERPOLATE
- INTERPOLATION CURVES BETWEEN TWO CURVES
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- COMPUTE THE INTRUSION OF TWO GLOBAL POINTS IN LOCAL SYSTEM
- ITERATOR
- MERGE CURVES TO GET COMPRESSION AND TENSION COMBINED RATES
- GET THE LAST CURVE FROM A COLLECTION OF CURVES
- CURVES LONGEST COMMON SEQUENCE
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- THIS FUNCTION EXTRACTS THE MIN, MAX, FINAL, TIME AT MIN, TIME AT MAX AND CLASSIFIES THEM BASED ON THE CONDITIONS
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- LOOKUP X-VALUE FROM A GIVEN Y-VALUE
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- GET MAX YRANGE
- LOOKUP Y-VALUE FROM A GIVEN X-VALUE
- LOOKUP Y-VALUE FROM A GIVEN X-VALUE
- COMPUTE THE LOWER BOUND FOR A SET OF CURVES
- GET A CUSTOM VALUE BASED ON CURVE VALUES
- COMPUTE THE DIFFERENCE BETWEEN TWO CURVES
- COMPUTE THE DIFFERENCE BETWEEN CURVES AND A BASELINE
- COMPUTE THE DIFFERENCE BETWEEN A COLLECTION OF CURVES TO A REFERENCE AND RETURN THE INPUT THAT HAS THE LOWEST ERROR
- COMPUTE THE DIFFERENCE BETWEEN TWO CURVES
- RETURN PERCENTAGE OF POINTS OUTSIDE OF MIN-MAX BOUND
- MAX OF ALL CURVES
- COMPUTE MAX-MIN NORMALIZE
- MEDIAN OF ALL CURVES
- CREATE A NEW CURVE BY ADDING THE X-VALUES OF THE SECOND CURVE TO THE BASE-CURVE.
- CREATE A NEW CURVE BY ADDING THE X-VALUES OF THE SECOND CURVE TO THE BASE-CURVE.
- MERGE INDIVIDUALLY OPTIMIZED DAMAGE CURVES
- MIN OF ALL CURVES
- MAX OF ALL CURVES
- ENFORCES MONOTOCITY FOR X OR Y POINTS FOR ALL CURVES
- COMPUTE THE MEAN SQUARE ERROR BETWEEN TWO CURVES
- MULTIPLY TWO CURVES
- MULTIPLY PAIRS OF CURVES
- SET ALL NEGATIVE VALUES TO ZERO
- COMPUTE NORMALIZED MEAN ABSOLUTE DIFFERENCE (NMAD) BETWEEN TWO SETS OF CURVES
- NORMALIZE THE CURVES BY DIVIDING THE Y-VALUES BY THE Y-MAX FROM ALL CURVES
- NORMALIZE THE CURVES BY DIVIDING THE Y-VALUES BY THE Y-MAX FROM THE FIRST CURVE
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- COMPUTE THE DIFFERENCE DIFF NORMALIZED TO THE FIRST CURVE AND RETURN IN PERCENTAGE
- COMPUTES IIHS INTRUSION NUMBERS BASED ON DISPLACEMENTS IN REFERENCE SYSTEM
- COMPUTES IIHS INTRUSION NUMBERS BASED ON DISPLACEMENTS IN REFERENCE SYSTEM
- OFFSET THE X-VALUES AND Y-VALUES BY THE FACTORS PROVIDED BELOW
- TRANSLATE CURVES TO REMOVE LIST
- OFFSET AND SCALE CURVES
- OFFSET CURVES ALONG X WHEN THE INITIAL VALUE CHANGES BASED ON THE RATIO PROVIDED
- COMPUTE OFFSETS FROM THE FIRST CURVE
- REMOVE OFFSETS BASED ON THE FIRST POINT
- OFFSET BASE CURVE TO STRAIN RATES
- OVERLAY TWO OR MORE CURVES
- PARTITION A CURVE AND RETURN A SINGLE VALUE FOR EACH PARITION
- SET ALL POSITIVE VALUES TO ZERO
- COMPUTE THE Y-POWER OF THE CURVE
- COMPUTE THE PRE-POST CRASH USING COORDINATES
- PROJECT THE LINE IN 3D FORMED BETWEEN TWO-POINTS ONTO A PLANE PASSING THROUGH P1
- COMPUTE THE MEAN SQUARE ERROR BETWEEN TWO CURVES
- SMOOTH USING RBF KERNEL
- CURVES RDP DOWNSAMPLING
- USING PREDICTED VALUES FROM ML, RE-CONSTRUCT A CURVE BY INTERPOLATING FROM CURVES USED IN TRAINING
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- REGRESSION BASED SMOOTHING OF CURVES
- COMPUTE THE RESULTANT FROM TWO OR MORE CURVES
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- REMOVE LAST NEGATIVE SLOPE
- REMOVE OUTLIER POINTS FROM CURVES
- REMOVE OUTLIER CURVES
- COMPUTE THE DIFFERENCE AND REMOVES THE POINTS BASED ON DIFF-OUTLIERS
- *REMOVE OVERLAPPING CURVES BASED ON HOW CLOSE THEY ARE *
- REMOVE CURVE BY INDEX
- RENAME CURVE BY INDEX
- PROVIDE ALTERNATIVE NAMES FOR THE CURVES
- RENAME CURVES
- REORDER CURVES BY INDEXES
- REPLACE BY INDEX
- EVALUATES THE SLOPE OF ALL CURVES TO DETERMINE IF MESH-REGULARIZATION IS REQUIRED
- EVALUATES THE SLOPE OF ALL CURVES TO DETERMINE IF MESH-REGULARIZATION IS REQUIRED
- COMPUTE THE RESULTANT FROM TWO OR MORE CURVES
- COMPUTE THE RESULTANT BASED ON TWO SETS OF CURVES
- RETAIN ONLY THE FIRST AND LAST POINTS OF A CURVE
- REVERSE POINTS X, Y OR BOTH
- COMPUTE THE RMS FROM TWO OR MORE CURVES
- ROTATE THE POINTS ABOUT A CENTER BY A CERTAIN ANGLE
- ROTATE THE POINTS ABOUT A CENTER BY A CERTAIN ANGLE
- TRANSFORM THE CURVES USING A TRANSFORMATION MATRIX
- SCALE THE X-VALUES AND Y-VALUES BY THE FACTORS PROVIDED BELOW
- DIVIDE PAIRS OF CURVES
- SCALE THE X-VALUES AND Y-VALUES BY THE BY A CURVE
- SCALE Y VALUES BY A SET OF CURVE
- SCALE CURVES IN THE TABLE USING A PARAMETER DATASET FOR A ROW IN A DOE DATASET
- SCALE CURVES IN THE TABLE USING A PARAMETER DATASET
- SCALE EFFECTIVE STRESS VS STRAIN FOR POLYMERS
- SCALE BASE CURVE TO STRAIN RATES
- SCALE BASE CURVE TO STRAIN RATES THAT IS NORMALIZED TO QS CURVE
- ENSURE SECOND CURVE IS HIGHER THAN THE FIRST CURVE BY SCALING UP OR DOWN
- SCALE THE Y-VALUES OF ALL CURVES BASED ON CONDITIONS OF THE X VALUE
- SCALE Y VALUES BASED ON THEIR X-LOCATION
- CURVES SEARCH BY NAME
- FIND THE ANGLE BETWEEN THREE TIME-HISTORY POINTS
- SELECT CURVES BY CURVE LOOKUP
- SET CONSTANT Y-VALUE TO ALL X-POINTS IN ALL CURVES
- DETECT SIGN CHANGES AND RETURN THE STATS AROUND THAT POINT
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- CREATE A NEW SET OF CURVES BY USING A INTERVAL OF XMAX-MAX/NP AS SPECIFIED BELOW
- SMOOTH THE CURVES
- SMOOTH THE CURVES
- FIT THE CURVE USING ANY REGION NEAR THE INITIAL POINT TO SMOOTH THE INITIAL PORTION
- COMPUTE A BLENDED Y-VALUE BASED ON WEIGHTS
- *SORT THE CURVES BASED ON THE TYPE AND ORDER *
- FIT THE CURVE BASED ON SPLINES
- COMPUTE THE SPRAGUE AND GEER ERROR AND RETURN EITHER THE PHASE, MAGNITUDE OR SHAPE ERRORS. USEFUL FOR COMPARING TWO SIMULATIONS OR SIMULATION AND TEST
- COMPUTE THE SPRAGUE AND GEER ERRORS BETWEEN A REFERENCE CURVE AND A SET OF CURVES
- COMPUTE THE Y-SQRT OF THE CURVES
- COMPUTE THE SQUARED RESULTANT
- CURVE STATISTICS
- COMPUTE EFFECTIVE STRAINS FROM STRAIN-TENSOR
- CONVERT STRESS-TENSOR TO TIAXIALITY USING VON-MISES STRESS AND HYDROSTATIC PRESSURE
- COMPUTE THE DIFFERENCE OF TWO CURVES BY SUBTRACTING THE Y-VALUES
- COMPUTE THE DIFFERENCE OF ALL CURVES BETWEEN RESPECTIVE ONES
- SUBTRACT PAIRS OF CURVES
- ADD POINTS BY EXTRAPOLATING SWIFT EXTRAPOLATION
- SWITCH X POINTS
- SYNC CURVES SUCH THAT ALL CURVES WILL HAVE THE SAME XMIN AND XMAX USING EXTRAPOLATION
- SYNC LAST SLOPES OF ALL CURVES SO THEY ARE EQUAL
- SYNC UNITS IF THE CURVES ARE OF DIFFERENT SCALE
- SYNC THE X-POINTS TO THE REFERENCE CURVE
- SYNC POINTS SUCH THAT ALL CURVES HAVE THE SAME X-VALUES
- SYNC POINTS SUCH THAT ALL CURVES HAVE THE FIRST AND LAST POINTS TO BE IDENTICAL
- CURVES SYNC_X_STRAIN_RATES
- CURVES THREE POINT CIRCLE
- FIND THE TIME-HISTORY ANGLE USING TIME-HISTORY COORDINATES OF THREE POINTS
- COMPUTE ANGLE FORMED BY THREE POINTS
- COMPUTE DISPLACEMENTS FROM COORDINATES
- CONVERT THE CURVES TO DATASET
- CONVERT CURVES TO PRESSURE DB RMS
- TRANSFORM CURVES USING A DATASET CONTAINING THE OPERATIONS
- CREATE A CURVE FROM SET
- TRUE TO ENG STRAIN
- CONVERT TRUE TO EFFECTIVE STRESS VS STRAIN CURVES BY REMOVING ELASTIC STRAINS
- TRUE TO ENG
- COMPUTE U-PLI SCORE CALCULATOR
- COMPUTE THE UPPER BOUND FOR A SET OF CURVES
- PERFORMS VERIFICATION ON VARIOUS ATTRIBUTES ON THE CURVES
- CONVERTS VOLUMETRIC TRUE STRESSES TO ENG STRESS
- AVERAGE TWO OR MORE CURVES
- COMPUTE THE RESULTANT AND RETURN A DATASET WITH X,Y,Z, RESULTANT
- CURVES Y ONLY
- COMPUTE YIELD VALUES USING STM METHOD
- ENFORCES MONOTOCITY FOR Y BASED ON PERCENTAGE
- COMPUTE ZONE VALUES BASED ON X-RANGES
3.24. Custom workers¶
3.25. Cvision workers¶
3.26. D3hsp workers¶
3.27. D3plot workers¶
3.28. Dashboard workers¶
3.29. Database workers¶
- DATABASE CONNECTOR
- CREATE A NEW DATABASE
- CREATES A RECORD INTO A DATABASE
- DELETES RECORDS FROM A DATABASE
- GET RECORDS FROM A DATABASE
- GETS A VECTOR COLUMN FROM A DATABASE
- CONNECTS TO A DATABASE AND INSERTS RECORDS BASED ON THE SQL-QUERY
- CREATES OR REPLACES A RECORD INTO THE DATABASE BASED ON PHYSICALTEST RESPONSES
- CONNECT TO A DATABASE TO SELECT RECORDS BASED ON A QUERY
- CREATES OR REPLACES A RECORD INTO THE DATABASE BASED ON SIMULATION RESPONSES
- TIMEZONE CONVERTER
3.30. Dataset workers¶
- DATASET ADD COLUMN
- DATASET ADD COLUMN BY COLUMN REGEXP
- ADD COLUMN BY EXPRESSION
- DATASET ADD COLUMN BY REGEXP
- DATASET ADD COLUMN FROM CURVE LOOKUP
- DATASET ADD COLUMN TRANSFORMING CURVES
- DATASET ADD COUNTER
- ADD CURVES TO A COLUMN
- DATASET ADD ROW
- COMBINE DATASETS BASED ON PRIMARY KEYS
- DATASET ANALYTICS
- DATASET ANALYZE ROBUSTNESS
- DATASET BOOTSTRAP SAMPLING
- DATASET CLASSIFIER
- DATASET CLASSIFIER EXCEL
- DATASET COLUMN TO CURVE
- DATASET COLUMNS TO CURVES
- USE COLUMN VALUES TO ADD NEW DATASET COLUMN
- COMBINE DATASETS BASED ON PRIMARY KEYS
- DATASET COMBINE KEYS FROM COLUMN
- COMBINE SCALARS
- DATASET COMPILE GISSMO SCALES TO CURVES
- DATASET COMPUTE 3D EUCLIDEAN DISTANCE
- DATASET COMPUTE AVERAGES
- DATASET COMPUTE DERIVATIVES
- DATASET COMPUTE FAILURE STRAIN ERROR
- COMPUTE PARETO FRONT OPTIMAL FROM PROVIDED DATASET
- COMPUTE SORTED PARETO FRONT FROM PROVIDED DATASET
- COMPUTE SORTED PARETO FRONT AND RETURN THE FRONTIER POINTS
- DATASET COMPUTE PREDICTION ACCURACY
- DATASET COMPUTE PREDICTION EVALUATION
- DATASET COMPUTE SHAP
- COMPUTE THE OCCUPANT INJURY STAR-RATING BASED ON THE DATASET WITH VALUES FOR HICD AND PEAK VALUE SOF CHEST, FEMUR AND NECK VALUES
- CONCATENATE COLUMNS INTO A NEW COLUMN
- CONVERT PATHS TO URLS
- DATASET CREATE EMPTY
- CREATE DATASET BASED ON THE KEY VALUES PROVIDED
- DATASET CREATE ML SIMULATIONS
- DATASET CREATE SQL TABLE
- DATASET CREEP COEFFICIENTS OPTIMIZER
- DATASET CREEP COEFFICIENTS OPTIMIZER
- CROSSPLOT TWO COLUMNS FROM A DATASET
- CONVERT A CURVE COLUMN TO A MATRIX
- DATASET CURVE TO BILINEAR COLUMNS
- DATASET CURVE TO COLUMNS
- USE DATASET VALUES TO ADD NEW COLUMNS
- DATASET DESIGN SPACE FILLER
- DATASET DIGITIZE COLUMN
- DATASET DROP COLUMNS
- DATASET DROP COLUMNS
- DATASET ECDF CALCULATOR
- DATASET EIS DATA PROCESSOR
- DATASET EIS NYQUISTPLOT FEATURE EXTRACTOR
- DATASET ENCODER
- DATASET EXCEL DOWNLOADER
- DATASET EXTEND ROWS
- DATASET FILL NA
- FILL SPARSE REGION WITH MORE CURVES
- FILL SPARSE REGION WITH MORE CURVES
- DATASET FILTER
- DATASET FILTER BY COLUMN DIFF
- DATASET FILTER COLUMNS BY CORRELATION
- DATASET FILTER CURVE COLUMN
- DATASET FORMAT COLUMN
- GENERATES A GENERIC NUMERIC PARAMATERS
- GENERATE SYNTHETIC DATA (DENSIFY DATASET)
- DATASET GENERATE UID
- GET THE CELL VALUE FROM GIVEN DATASET
- GET THE CELL VALUE FROM GIVEN DATASET
- GET THE CELL VALUE FROM GIVEN DATASET
- GET THE CELL VALUE FROM GIVEN DATASET
- GET THE CELL VALUE FROM GIVEN DATASET
- DATASET GET COLUMN NAMES
- DATASET GET COLUMN RATIO
- DATASET GET COLUMN VALUE BY CONDITION
- DATASET GET COLUMN VALUES
- DATASET GET COLUMN WITH NOISE
- DATASET GET CONTEXT
- CURVE FROM COLUMN
- DATASET GET CURVE VARIATIONS BY GROUP
- GET CURVES FROM A COLUMN
- DATASET GET DEFINE TABLE
- RE-ORGANIZE FEATURE IMPORTANCE LIKE TABLE TO GROUP-PARTS TABLE
- RE-ORGANIZE FEATURE IMPORTANCE LIKE TABLE TO GROUP-PARTS TABLE
- GET DATASET SUMMARY
- GET MAP STRING FOR A SET OF COLUMNS
- DATASET GET MAX ABS CROSS CORRELATION VALUE
- DATASET GET MAX ABS CROSS CORRELATION VALUE
- BIN VALUES BASED ON COLUMN AND RETURN THE BIN THAT HAS THE MOST NUMBER OF ITEMS
- DATASET GET MEAN SD BY GROUP
- DATASET GET MEAN SD BY GROUP
- COMPUTE MINIMUM SAMPLE SIZE
- COMPUTE THE NORM OF A DATASET
- DATASET GET NUM COLUMNS
- GET NUMBER OF ROWS FROM A DATASET
- GET NUMBER OF ROWS FROM A DATASET
- GET STATS FOR NUMERIC COLUMNS
- DATASET GET PREDICTION METRICS
- DATASET GET PROGRESSIVE CRUSH FACTOR
- DATASET GET ROW BY CONDITION
- DATASET ROW SELECTOR FOR CALIBRATION
- DATASET GET ROW NEAR ORIGIN
- DATASET GET ROWS BY CONDITION
- GET SCHEMA FOR THE COLUMNS
- DATASET GET SOBOL
- GET DATASET SUMMARY
- CALCULATE SUMMARY STATS AND RELIABILITY INTERVAL LIMITS IN A TABLE
- CALCULATE SUMMARY STATS AND RELIABILITY INTERVAL LIMITS IN A TABLE
- CALCULATE SUMMARY STATS AND RELIABILITY INTERVAL LIMITS IN A TABLE
- CALCULATE SUMMARY STATS AND RELIABILITY INTERVAL LIMITS IN A TABLE
- GETS UNIQUE VALUES OF A COLUMN
- DATASET GROUP AND AGGREGATE BY
- DATASET GROUP BY
- JOIN DATASETS BASED ON PRIMARY KEYS
- JOIN A ROW TO ALL ROWS OF THE DESTINATION DATASET
- DATASET KEEP COLUMNS
- DATASET MAP VALUES
- DATASET MERGE
- DATASET MERGE BASED ON EUCLIDEAN DISTANCE
- DATASET MERGE DATASET COLUMN
- DATASET MERGE TEXT COLUMNS
- DATASET MERGE TEXT COLUMNS FROM ROWS
- DATASET NELDER-MEAD SIMPLEX OPTIMIZER
- NORMALIZE COLUMNS IN THE DATASET
- PICK CALIBRATION CURVES FROM DATASET
- DATASET PROCESS CURVE COLUMNS
- DATASET PROCESS CURVE COLUMNS
- DATASET QUERY
- CREATES A RANDOM DATASET
- DATASET RECONSTRUCT BILINEAR CURVE
- DATASET RECONSTRUCT CURVE FROM PREDICTIONS
- REDUCE DATASET TO SINGLE COLUMN AND UNIFY KEYS
- DATASET REDUCE SPATIAL POINTS
- DATASET REGRESSION BUILD
- DATASET REGRESSION PREDICT
- DATASET REMOVE NA
- DATASET REMOVE OUTLIERS
- DATASET REMOVE UNIQUE COLUMNS
- DATASET RENAME COLUMN
- DATASET RENAME COLUMNS
- DATASET RENAME CURVES IN COLUMN
- SEARCH AND REPLACE COLUMN NAMES
- DATASET REPLACE COLUMN VALUE BY CONDITION
- RUN SENTIMENT ANALYSIS ON A DATASET COLUMN
- DATASET SANITIZE COLUMN NAMES
- DATASET SCALE COLUMN
- SCAN THE DATASET AND COMPARE ITS COLUMN VALUES TO A REFERENCE DATASET AND FLAG IF THEY ARE IN OR OUT OF RANGE OF THE REFERENCE VALUES
- DATASET SELECT ROW
- SET THE CELL VALUE FROM GIVEN DATASET
- DATASET SET COLUMN VALUE BY CONDITION
- DATASET SET CONSTANT VALUE BY COLUMN
- FIND THE OPTIMUM DESIGN BASED ON OBJECTIVE
- DATASET SLICE
- DATASET SORT BY COLUMN
- DATASET SORT BY DATASET
- DATASET SORT BY KEYVALUE
- DATASET SORT BY ROW
- DATASET SORT COLUMN NAMES
- DATASET SPLIT COLUMN VALUES INTO COLUMNS
- SPLIT ROWS TO COLUMS
- DATASET SQL QUERY
- SUBTRACT TWO DATASETS AND RETURN THE DIFFERENCE
- SYNC X VALUES FOR THE SELECTED COLUMNS
- DATASET TAGUCHI DESIGN ANALYZER
- DATASET TAGUCHI DESIGN MAIN EFFECTS
- DATASET TAGUCHI DESIGN OPTIMUM
- DATASET TAGUCHI FACTORS TO PARAMETERS
- DATASET TAGUCHI GET FACTORS
- CONVERT A DATASET TO COLUMN
- DATASET TO DOE PARAMETERS
- DATASET TO KEYVALUE
- DATASET TRANSPOSE
- DATASET TRIM COLUMN NAMES AND VALUES
- UNIFY COLUMNS IN THE DATASET
- CHECKS DATASET FOR UNIQUE COLUMN NAME
- COMPUTE THE UNIQUE NUMBER OF OCCURENCES IN VALUES
- DATASET VERIFY
- DATASET VERIFY NA
- WRITE DATASET TO FILE
3.31. Definetable workers¶
- ADD INTERPOLATED CURVES
- ADD STRAIN-RATE ROW TO DEFINE TABLE
- ADD ADDITIONAL VALUES RATES BY INTERPOLATING OR EXTRAPOLATING THE EXISTING IN THE TABLE
- FORMAT VALUES
- RETURN THE CURVES THAT MATCHES THE VALUE OF THE DEFINE TABLE
- RETURN THE CURVES OF THE DEFINE TABLE
- RETURN THE FIRST VALUE OF THE DEFINE TABLE
- RETURN THE LAST VALUE OF THE DEFINE TABLE
- RETURN THE MAX OF ALL VALUES
- RETURN THE MIN OF ALL VALUES
- RETURN THE MIN OF ALL VALUES
- COMPUTE RATE EFFECTS BASED ON THE LOCATION OF THE STRAIN
- DEFINE TABLE GET ROWS FOR CALIBRATION
- RETURN THE VALUES OF THE DEFINE TABLE
- RETURN THE INTERPOLATED Y-VALUE BASED ON VALUE AND CURVE X VALUE
- REPLACE THE CURVE THAT MATCHES THE VALUE OF THE DEFINE TABLE
- REPLACE CURVES
- REPLACE VALUES IN TABLE
- SCALE CURVES IN THE TABLE USING A PARAMETER DATASET
- SCALE AND OFFSET VALUES
3.32. Dic workers¶
3.33. Doe workers¶
3.34. Dynakeyword workers¶
- PARSES GIVEN FILENAME TO IMPORT CURVES DEFINED BY *DEFINE_CURVE
- PARSES GIVEN FILENAME TO IMPORT TABLES DEFINED BY *DEFINE_TABLE AND ITS CURVES
- PARSES GIVEN TEXT TO IMPORT TABLES DEFINED BY *DEFINE_TABLE AND ITS CURVES
- CONTOUR PARTS WITH CURVE VALUES
- CREATE A MAT_001 KEYWORD FOR LS-DYNA
- CREATE A MAT_057 FOR LS-DYNA
- CREATE A MAT_OGDEN RUBBER
- CREATE A MAT_083 FOR LS-DYNA
- CREATE A MAT_100 DF KEYWORD FOR LS-DYNA
- CREATE A MAT_103P
- CREATE A MAT_123
- CREATE A MAT_124 WITH OR WITHOUT STRAIN-RATES FOR LS-DYNA
- CREATE A MAT_181 WITH STRAIN RATES KEYWORD FOR LS-DYNA
- CREATE A MAT_181 WITHOUT STRAIN RATES KEYWORD FOR LS-DYNA
- CREATE A MAT_SAMP_LIGHT
- CREATE A MAT_187 OUT STRAIN RATES KEYWORD FOR LS-DYNA
- CREATE A MAT_224
- CREATE A MAT_024 KEYWORD FOR LS-DYNA
- CREATE A MAT_024 KEYWORD FOR LS-DYNA WITH STRAIN-RATES
- CREATE A MAT_024 KEYWORD FOR LS-DYNA WITH STRAIN-RATES
- CREATE A MAT_024 WITHOUT STRAIN RATES KEYWORD FOR LS-DYNA
- CREATE A MAT_36
- CREATE A MAT_36E
- CREATE A MAT_089 WITHOUT STRAIN RATES KEYWORD FOR LS-DYNA
- CREATE A MAT_ADD_DAMAGE_GISSMO KEYWORD FOR LS-DYNA
- CREATE A MAT_ADD EROSION WITH GISSMO KEYWORD FOR LS-DYNA
- CREATE A MAT_ADD EROSION WITH GISSMO KEYWORD FOR LS-DYNA
- REPLACES THE X-VALUE WITH <LOG(X)> FOR A GIVEN SET OF CURVE IDS
- WRITES A GIVEN CURVE TO A LS-DYNA CURVE KEYWORD
3.35. Dynamodel workers¶
3.36. Excel workers¶
3.37. Femzip workers¶
3.38. File workers¶
- CONVERTS EXCEL/TXT FILE TO PDF FILE. ALL OTHERS ARE RETURNED AS IS
- CREATE FILE
- FILE DOWNLOAD
- FILE DOWNLOAD
- ATTACHMENT FINDER
- FILE GREP SAVE WORKER
- EXTRACT FILE PROPERTIES
- FILE MERGE
- PARSE PARAMETERS IN A FILE
- PARSE PARAMETERS IN A FILE
- READ FILE LINES
- REPLACE PARAMETERS IN A FILE
- REPLACE PARAMETERS IN A FILE
- SEARCH FILE CONTENTS
- FILE TO TEXT WORKER
- FILE UNZIP
- WRITE TO FILE
3.39. Finder workers¶
3.40. Generate workers¶
3.41. Genetic workers¶
3.42. Get workers¶
3.43. Gissmo workers¶
3.44. Global workers¶
3.45. Hpc workers¶
3.46. Hpcjob workers¶
3.47. Hpcjobs workers¶
3.48. Hpcjobsettings workers¶
3.49. Hpcsetting workers¶
3.50. Hypergraph workers¶
3.51. Image workers¶
3.52. Injury workers¶
- COMPUTE THE BRAIN INJURY CRITERION (BRIC) FROM HEAD ANGULAR VELOCITIES
- STAR-RATING CALCULATOR
- GET CTI INTERCEPTS BY OCCUPANT TYPE AND MEAS TYPE
- GET FEMUR INTERCEPTS BY OCCUPANT TYPE AND MEAS TYPE
- GET FEMUR INTERCEPTS BY OCCUPANT TYPE AND MEAS TYPE
- GET NIJ INTERCEPTS BY OCCUPANT TYPE AND LOAD TYPE
- GET THORACIC INTERCEPTS BY OCCUPANT TYPE AND MEAS TYPE
- COMPUTE THE NIJ BASED ON THE OCCUPANT NECK AXIAL, SHEAR AND MOMENT TIME-HISTORY
- COMPUTE THE OCCUPANT INJURY STAR-RATING BASED ON THE HICD AND PEAK VALUE SOF CHEST, FEMUR AND NECK VALUES
3.53. Input workers¶
3.54. Jira workers¶
3.55. Job workers¶
- SUBMIT SIMULATIONS
- SUBMIT STUDY SIMULATIONS
- JOB SUBMISSION BY SAVED CONFIGURATION
- SUBMIT COMPRESSED FILES USING SAVED CONFIGURATION
- JOB SUBMISSION BY PEDPRO FROM FOLDER SAVED CONFIGURATION
- SUBMIT SIMULATION BY SAVED CONFIGURATION
- SUBMITS MULTIPLE SIMULATIONS FROM FOLDER
- SUBMITS MULTIPLE SIMULATIONS FROM SERVER FILES
3.56. Js3d workers¶
3.57. Keyvalue workers¶
- CLASSIFY THE VALUE IN EACH ROW
- COMPARE TWO KEYVLAUES AND PROVIDE A SUMMARY
- CREATE A KEY VALUE FROM RESPONSES
- EXTRACT THE VALUE OF A RESPONSE NAME FROM A KEYVALUE
- EXTRACT THE VALUE OF A RESPONSE NAME FROM A KEYVALUE
- EXTRACT THE VALUE OF A RESPONSE NAME FROM A KEYVALUE
- EXTRACT THE VALUES
- *FORMAT VALUES *
- CONTOUR PARTS WITH CURVE VALUES
- EXTRACT THE VALUE OF A RESPONSE NAME FROM A KEYVALUE
- RETURN THE NAMES OF THE KEYVALUE ITEMS
- EXTRACT THE STATE FROM TIME
- EXTRACT THE VALUE OF A RESPONSE NAME FROM A KEYVALUE
- COMPUTES IIHS INTRUSION NUMBERS BASED ON DISPLACEMENTS IN REFERENCE SYSTEM
- COMPUTE THE MAX OF ALL THE VALUES IN THE KEYVALUE
- MERGE TWO KEYVALUES
- MERGE TWO KEY VALUES INTO ONE DATA SET
- SEARCH AND REPLACE A PATTERN IN THE STRING
- REPLACE VALUES
- SCALE THE VALUES FOR KEYVALUE
- RETURN THE UNIQUE KEY VALUES FROM THE GIVEN RESPONSE
- RENAME COLUMNS IN SECOND KEYVALUE BASED ON THE MAP DATA
- *FORMAT KEY VALUE TO DATASET *
- ERSATZ ENGINEERING STRESS-STRAIN CURVE FROM A KEYVALUE
- UNION TWO KEYVALUES
- RETURN THE UNIQUE KEY VALUES FROM THE GIVEN RESPONSE
- COMPUTE THE UNIQUE NUMBER OF OCCURRENCES IN VALUES
- COMPUTE THE MAX OF ALL THE VALUES IN THE KEYVALUE
- COMPUTE THE MAX OF ALL THE VALUES IN THE KEYVALUE
- COMPUTE THE MIN OF ALL THE VALUES IN THE KEYVALUE
- COMPUTE THE SUM OF ALL THE VALUES IN THE KEYVALUE
- EXTRACT THE VALUE OF A RESPONSE NAME FROM A KEYVALUE
3.58. Kriging workers¶
3.59. Linear workers¶
3.60. Lsdyna workers¶
- PARSES LS-DYNA KEYWORD ADD *DATATABASE_HISTORY CARDS TO THE KEYWORD
- ADD LS-DYNA MATERIAL TO EXISTING DATABASE
- BUILD SIMULATION GRAPH (ONTOLOGY)
- LSDYNA CONTACT TIME HISTORY
- LSDYNA ELEMENT FAILURE TIMELINE
- LSDYNA ELEMENT-TO-PART LOOKUP
- LS-DYNA ENCRYPT TEXT
- PARSES A GIVEN CURVE AND RETURNS THE PARAMETERS
- EXTRACTIONS MATERIALS AND THE ASSOCIATED CURVE DEFINTIONS
- GET IDS FROM SET
- LS-DYNA IMAGE GENERATOR
- LS-DYNA KEYWORD FILE SUMMARY
- RETRIEVES A SPECIFIED LIBRARY MODEL FROM D3VIEW LIBRARY
- LS-DYNA MAP SENSORS TO PARTS
- PERFORMS LS-DYNA MATERIAL CURVES VALIDATION
- PERFORMS LS-DYNA MATERIAL REMOVE STRAIN RATES
- CONVERTS LS-DYNA MATERIAL TO DATABASE JSON
- LS-DYNA NOTES TO DATASET
- LS-DYNA PARAMETERIZE K FILE
- PARSES LS-DYNA KEYWORD INPUT TO GET HOLE SPECIMEN INFORMATION
- LS-DYNA PARSE PARAMETERS FROM FILE
- LS-DYNA PARSE PARAMETERS FROM TEXT
- PARSES LS-DYNA KEYWORD INPUT TO GET PUNCH SPECIMEN INFORMATION
- LS-DYNA PARSE SENSORS FROM FILE
- LS-DYNA PARSE SENSORS FROM SIMULATION
- PARSES LS-DYNA KEYWORD INPUT TO GET SHEAR SPECIMEN INFORMATION
- PARSES LS-DYNA KEYWORD INPUT TO GET UNIAXIAL SPECIMEN INFORMATION
- LS-PREPOST COMMAND RUNNER
- REPLACES PARAMETERS FROM LSOPT
- BUILDS A LS-DYNA CONTEXT FOR LLM INTELLIGENCE
- CONVERTS LS-DYNA SPOTWELD TO FAILURE INFORMATION
- CONVERTS LS-DYNA MATERIAL TO SPOTWELD MATERIAL DATA
3.61. Lsopt workers¶
3.62. Lucy workers¶
3.63. Madymo workers¶
3.64. Mailer workers¶
3.65. Material workers¶
- MATERIAL EXCEL PARSER
- EXTRACT SWIFT EXPONENT FROM HARDENING CURVE
- MATERIAL SPECIMEN GENERATOR FOR BALL IMAPCT
- CONE-PUSH SPECIMEN GENERATOR
- MATERIAL SPECIMEN GENERATOR FOR SOLID CUBE
- MATERIAL SPECIMEN GENERATOR
- MATERIAL SPECIMEN GENERATOR FOR DART IMAPCT
- DROP TOWER SPECIMEN GENERATOR
- MATERIAL SPECIMEN GENERATOR. ONLY ADD MATERIAL INFORMATION. MID=4
- MATERIAL SPECIMEN GENERATOR
- MATERIAL SPECIMEN GENERATOR
- MATERIAL SPECIMEN GENERATOR
- MATERIAL SPECIMEN GENERATOR FOR PLATE JOINING PEEL
- MATERIAL SPECIMEN GENERATOR FOR PLATE JOINING SHEAR
- MATERIAL SPECIMEN GENERATOR
- MATERIAL SPECIMEN GENERATOR
- MATERIAL SPECIMEN GENERATOR FOR SINGLE SHELL
- MATERIAL SPECIMEN GENERATOR FOR SINGLE SOLID
- UNIAXIAL MATERIAL SPECIMEN GENERATOR
3.66. Math workers¶
- COMPUTE THE ABSOLUTE VALUE OF E
- COMPUTE THE SUM OF VALUES
- COMPUTE THE AVERAGE OF VALUES
- COMPUTE YOUNGS MODULUS BASED ON BULK MODULUS
- DIVIDE TWO VALUES
- COMPUTE THE POWER OF A NUMBER
- COMPUTE FLEXURAL MODULUS
- *RETURNS BASED ON CONDITION. IF( VALUE1, VALUE1, OPERATOR, TRUE_VALUE, FALSE_VALUE) *
- CHECK IF A GIVEN VALUE IS IN RANGE
- INSPECT THE VALUE AND RETURN PASS-FAIL
- INSPECT THE DUAL VALUES AND RETURN PASS-FAIL
- INTERPOLATES TO RETURN A SET OF VALUES BETWEEN MIN AND MAX
- COMPUTE LANKFORD COEFFICIENT BASED ON 0,45 AND 90 DEG STRAINS
- COMPUTE THE NATURAL LOG OF A NUMBER
- COMPUTE THE LOG TO THE BASE10 OF A NUMBER
- COMPUTES THE MASS BASED ON IDEAL GAS LAW
- COMPUTE MAXIMUM VALUES FROM GIVEN DATA
- COMPUTE THE MEDIAN OF A LIST OF NUMBERS
- COMPUTE MINIMUM VALUES FROM GIVEN DATA
- GET THE MODE OF A LIST OF NUMBERS
- M-PDB SCORE CALCULATOR
- When to use
- Inputs
- Outputs
- Disciplines
- Runnable example
- OFFSET A VALUE
- *OFFSET A VALUE THEN SCALE IT *
- CONVERT POTENTIAL ENERGY TO VELOCITY
- COMPUTE THE PECENTAGE RATIO
- COMPUTE THE NUMBER TO THE POWER OF A NUMBER
- GENERATE A RANDOM NUMBER
- GET A RANGE OF NUMBERS BETWEEN MIN AND MAX PROVIDED
- COMPUTE THE MIN/MAX AND CONVERT TO PARAMETERS DATASET
- COMPUTE THE SQUARE ROOT OF THE SUM OF SQUARES OF VALUES
- ROUND THE NUMBER
- SCALE A NUMBER
- SCALE A VALUE THEN OFFSET IT
- COMPUTE SIMPLIFIED RUBBER MATERIAL FAILURE VALUES BASED ON UNI-AXIAL AND EQUI-BIAXIAL FAILURE STRETCH RATIOS
- SQRT
- SUBTRACT BETWEEN TWO VALUES
- COMPUTES A BOLT TENSION FORCE BASED ON TORQUE
- COMPUTE MATH VALUE TO VERIFY THERMODYNAMIC STABILITY
- COMPUTED THE WEIGHTED VALUE FOR GIVEN TWO VALUES
3.67. Mathmodel workers¶
3.68. Matml workers¶
3.69. Matrix workers¶
- MATRIX COPY
- MATRIX CREATECOSINEFROMEULERANGLES
- CREATE A MATRIX FROM A CSV STRING
- CREATE A MATRIX FROM VECTOR
- CREATE A MATRIX USING THE VECTORS
- CREATE A RANDOM MATRIX BASED ON THE GIVEN ROWS AND COLUMNS
- MATRIX GETENTRY
- MATRIX INVERSE
- COMPUTE THE PRODUCT OF TWO MATRICES
- COMPUTJE THE SUM OF TWO MATRICES
- DIVIDED TWO MATRICES
- SCALE THE MATRIX BY A NUMBER
- SUBTRACT TWO MATRICES
- MATRIX TRANSPOSE
3.70. Metalforming workers¶
3.71. Microsoft workers¶
3.72. Ml workers¶
- TRAIN OR CLASSIFY USING DECISION TREE
- GET ML TASK CONFIGURATIONS
- CONNECTS TO A D3VIEW IMAGE CLASSIFICATION SERVER TO LEARN BASED ON ANNOTATIONS GENERATED FROM IMAGE ANNOTATOR
- ML LEARN ERSATZ — TRAIN M1..M4 SURROGATES
- OPTIMAL PROGNOSIS (PHP-ONLY)
- ML PREDICT
- ML PREDICT ERSATZ — CHAIN M1..M4 + RECONSTRUCT CURVES
- ML INTERACTIVE PREDICTION
- ML PREDICT INFO
- LEARNS AND PREDICTS THE COMMANDS FOR SIMLYTIKS BASED ON DATA
3.73. Movie workers¶
3.74. Nastran workers¶
3.75. Nvh workers¶
3.76. Ontology workers¶
3.77. Openssl workers¶
3.78. Pdf workers¶
3.79. Peacock workers¶
3.80. Pedpro workers¶
3.81. Php workers¶
3.82. Physical workers¶
3.83. Physicaltest workers¶
- ADD FILES TO PHYSICALTESTS
- ADD ONE-PAGER SUMMARY TO PHYSICALTESTS
- ADD RESPONSES TO PHYSICALTESTS
- PHYSICALTEST APPLY RESULT TEMPLATE WORKER
- COMPRESSES IMAGES
- CREATE PHYSICALTEST FROM FILE
- DELETE TEST
- PHYSICALTEST FINDER
- GETS META-DATA FROM A TEST
- CHECKS IF A TEST HAS A RESPONSE BY NAME
- IMPORT DATA FROM BMS
- IMPORT FILES FROM DATASET INTO A TEST
- PHYSICALTEST IMPORT FROM DATASET
- IMPORT DATA FROM MME FILE
- IMPORT DATA FROM BMS
- IMPORT RESPONSES FROM FILES
- IMPORT DATA FROM UNV
- MAP RESPONSES FROM PHYSICALTESTS
- MERGES RESPONSES FROM DIFFERENT TESTS TO PROVIDE A COMBINED ONE
- IMPORTS DATA DIRECTLY FROM NHTSA BASED ON TEST-ID
- RUNS POST-PROCESSING FOR THE NVH BODY SENSITIVITY WORKER
- REMOVE RESPONSES BY TEMPLATE
- EXTRACTS RESPONSE FROM A SIMULATION
- GET RESPONSES FROM PHYSICALTEST
- GETS META-DATA FROM A TEST
- GETS META-DATA FROM A TEST
- SAVES ANY FILE TO A PHYSICALTEST
- SYNC TIME-HISTORY RESPONSES SO THEY ALL HAVE THE SAME TIME-STAMP
- UPDATE ATTRIBUTE OF A TEST
- CREATE PHYSICAL TEST FOR WINDNOISE DATA
- VALIDATE BODY SENSITIVITY TEST DATA
3.84. Platform workers¶
3.85. Plm workers¶
3.86. Polymer workers¶
3.87. Product workers¶
3.88. Project workers¶
3.89. Projects workers¶
3.90. Prony workers¶
3.91. Python workers¶
3.92. Query workers¶
3.93. Reliability workers¶
3.94. Remote workers¶
3.95. Rename workers¶
3.96. Reporter workers¶
3.97. Response workers¶
3.98. Responses workers¶
3.99. Responsetemplate workers¶
- MATCH RESPONSETEMPLATE BINOUT RESPONSES TO BINOUTS
- CONFIGURE SENSORS FROM A RESPONSETEMPLATE
- CREATE TEMPLATE FROM LIBRARY
- GATHER SENSORS FROM A RESPONSETEMPLATE
- MODIFIES RESPONSE OPTIONS VALUE
- GET RESPONSES FROM A RESPONSETEMPLATE
- MODIFIES RESPONSE EXPRESSION VALUE
- MODIFIES RESPONSE OPTION VALUE
- SANITIZE RESPONSETEMPLATE
3.100. Set workers¶
3.101. Simlytiks workers¶
3.102. Simulation workers¶
- ADD A TEXT FILE TO A SIMULATION
- ADD A SERVER FILE FOR THE SIMULATION
- ADD AN INCLUDE FILE FOR THE SIMULATION
- ADD A FILE FOR THE SIMULATION
- ADD RESPONSES TO SIMULATION
- ADD A SERVER FILE FOR THE SIMULATION
- CHECKS FOR NORMAL TERMINATION
- CLONE SIMULATION FROM EXISTING SIMULATION
- ARCHIVE SIMULATION FILES
- SIMULATION CREATE CURVE RESPONSE
- CREATE SIMULATION FROM FILE
- CREATES A NEW SIMULATION BASED ON FILES FROM PARENT SIMULATION
- CREATE SIMULATION FROM TEXT
- RUNS A CUSTOM APPLICATION TO WORK WITH SIMULATION DIRECTORY
- DEQUEUE THE SIMULATION
- LLM POWERED HISTORICAL SIMULATION DATA ANALYZER
- EXPORTS SIMULATION GEOMETRY INTO A DATASET
- EDIT CONTENTS OF AN SIMULATION FILES
- GET FILES FROM SIMULATION
- RETRIEVES SIMULATIONS BASED ON FILTERS
- RETRIEVES AN ATTACHMENT BY NAME FROM A SIMULATION
- GET BILL OF MATERIALS
- GET BILL-OF-MATERIAL GRAPH FROM A SIMULATION
- GET COMPONENT DETAILS
- SIMULATION GET CURVE BY ID
- SIMULATION GET DOE PARAMETERS
- GET ERRORS AND WARNINGS FROM A SIMULATION
- GET SIMULATION HPC JOB DIRECTORY
- GET SIMULATION HEADER INFO
- RETRIEVES JOB INFORMATION
- GET IDS FROM SET
- GET INCLUDE FILE STRUCTURE
- GET MAIN INPUT FILE FOR A GIVEN SIMULATION
- GET NODES FROM SET_NODE_LIST
- GET PARAMETERS FROM A SIMULATION
- GET IDS FROM SET
- GET SOLVER LOG
- GET TIME HISTORY RESPONSES
- CHECKS IF A SIMULATION HAS A RESPONSE BY NAME
- SIMULATION IMPORT FROM DATASET
- IMPORT SIMULATION FROM SERVER
- LIST SIMULATION COMPONENTS
- SIMORGANIZER
- GET SIMULATION OVERVIEW
- PARAMETERIZE AND INPUT FOR SIMULATION FILE
- PARAMETERIZE AND INPUT FOR SIMULATION
- PARAMETERIZE AND INPUT FOR SIMULATION
- PARSES A LS-PREPOST EXPORTED FILE TO IMPORT DATA RELATED TO NODES AND NODAL OR ELEMENT RESULTSR
- MATCH PHYSICALTEST TO BINOUT DATA EXTRACTION
- RENAME SIMULATION FILE
- SIMULATION CURVE REPLACEMENT
- REPLACE PARAMETERS
- CREATES RESPONSES FROM A SIMULATION
- GET RESPONSES FROM SIMULATION
- SAVES ANY FILE TO AN SIMULATION
- SEARCH SIMULATION ISSUES
- SET MAIN INPUT FILE FOR A GIVEN SIMULATION
- UNARCHIVE SIMULATION FILE
- UPDATE ATTRIBUTE OF A SIMULATION
- INSERT TEXT IN THE MAIN INPUT FILE
- VERIFIES THE PARAMETERS IN THE SIMULATION
- VERIFIES IF SIMULATION CONTAINS ALL THE RAW SENSORS NEEDED BY THE TEMPLATE
3.103. Simulations workers¶
3.104. Sleep workers¶
3.105. Solverai workers¶
3.106. Sql workers¶
3.107. Ssh workers¶
3.108. String workers¶
- CONCAT TWO STRINGS AND RETURN THE CONCATENATED STRING
- STRING CONTAINS
- *STRING CONTAINS ALL *
- *STRING CONTAINS ANY ONE *
- STRING CONTAINS
- ENDS WITH STRINGS
- CHECKS IF A STRING ENDS WITH ANY ONE OF THE PROVIDED STRINGS
- STRING EQUALS WITH
- STRING EVAL
- STRING EXCLUDES
- STRING EXCLUDES ALL
- FORMAT A CSV STRING OF NUMBERS
- FORMAT A STRING BASED ON INFLECTOR
- CHECK IF STRING UNDEFINED
- STRING EQUALS WITH
- STRING MATCHES WITH
- STRING MAX
- STRING MIN
- STRING REGEX
- STRING REPLACE
- SANITIZE A STRING TO REMOVE NON ALPHANUMERIC CHARACTERS
- SORT VALUES FROM CSV
- *SPLIT BY A DELIMITER AND RETURN SPLIT-PARTS BY THE GIVEN INDEX. EX. SPLIT THE STRING <B> THE CAT JUMPED OVER THE CALL</B> BY SPACE AND RETURN THE 3RD VALUE (RETURNS JUMPED) *
- FORMAT A STRING OR A NUMBER
- CHECKS IF A STRING STARTS WITH A GIVEN SUBSTRING
3.109. Study workers¶
- APPLY RESULT TEMPLATE TO A STUDY
- CHECKS FOR NORMAL TERMINATION
- REMOVES SIMULATIONS AND TESTS IN THIS STUDY
- COMPARE SIMULATIONS FROM STUDY WITH GIVEN TEST
- COMPILE STUDY RESULTS BY TEMPLATE
- COMPUTES CURVE MATCH WITH PHYSIAL TEST
- CREATES A NEW STUDY
- DEQUEUE STUDY SIMULATIONS
- EXPORTS STUDY FILES
- EXPORTS STUDY SIMULATIONS GEOMETRY INTO A DATASET
- RETRIEVES STUDY INFORMATION
- STUDY PARAMETER & RESPONSE DATASET
- GETS SIMULATIONS BELONGING TO THE STUDY
- GET RESPONSES FROM STUDY
- VERIFIES THE PARAMETERS IN THE STUDY
3.110. Systemmodel workers¶
3.111. Task workers¶
3.112. Template workers¶
- CREATES A HOLE EXPANSION RESPONSE TEMPLATE FOR DATA EXTRACTION
- CREATES A PUNCH RESPONSE TEMPLATE FOR DATA EXTRACTION
- CREATES A SHEAR RESPONSE TEMPLATE FOR DATA EXTRACTION
- CREATES A UNI-AXIAL RESPONSE TEMPLATE FOR DATA EXTRACTION
- GET LAYOUT SAVED IN THE TEMPLATE
- SET LAYOUT SAVED IN THE TEMPLATE
- VERIFY IF THE TEMPLATE CAN EXTRACT ALL DATA
3.113. Templates workers¶
3.114. Text workers¶
- COMPUTE THE DIFFERENCE BETWEEN TWO TESTS
- CAST A NUMBER
- COMPUTE THE DIFFERENCE BETWEEN TWO TESTS
- TEXT FROM BASE64 STRING
- GET TEXT FROM BLOB IN DATABASE
- GET KEYWORD PARAMETER VALUE
- MERGE TWO OR MORE TEXTS
- MERGE TWO OR MORE TEXTS
- MERGE TWO OR MORE TEXTS AND ADD NEW LINES AT THE END
- PARAMETERIZE INPUT
- PARAMETERIZE INPUT BY DATASET
- USE REGULAR EXPRESSION TO EXTRACT THE DATA FROM A TEXT
- CREATE FAILURE
- REPLACE PATTERNS OF TEXT
- REPLACE MATCHING LINE
- REPLACE CURVE BY ID
- REPLACE CURVE BY ID
- SAVE TEXT A BLOB IN DATABASE
- REPLACE MATCHING LINE
- SEARCHES TEXT AND RETURNS VALUE
- TEXT SIMILARITY
- TEMPLATE BASED
- TEMPLATE WITH KEYVALUE
- TEXT TO BASE64 STRING
- CONVERTS EXCEL/TXT FILE TO PDF FILE. ALL OTHERS ARE RETURNED AS IS
- TOKENIZE TEXT
- TRANSFORM TEXT USING EXISTING RESPONSES
- WRITE TEXT CONTENTS TO A FILE
3.116. Trig workers¶
3.117. Uniaxial workers¶
3.118. User workers¶
3.119. Vault workers¶
3.120. Vector workers¶
3.121. Wordpress workers¶
3.122. Worker workers¶
3.123. Workers workers¶
3.124. Workflow workers¶
- REMOVE ALL DATA ASSOCIATED WITH THE SELECTED WORKFLOW
- SEARCH WORKFLOW CORPUS
- CREATES A WORKFLOW FROM FILE
- GET WORKER CONFIGURATIONS
- LIBRARY WORKFLOW — GET METADATA
- REMOVE SINGLE OR MULTIPLE FILES IN A WORKFLOW
- REPLACE FILE IN A WORKFLOW
- SAVES ANY FILE TO AN ATTACHMENT
- SUBMIT WORKFLOW USING SAVED CONFIGURATION