Universal Datat Number 151
Name: Header
Status: Current
Owner: General美文
Revision Date: 13-Dec-1993
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Record 1: FORMAT(80A1)
Field 1 -- model file name
Record 2: FORMAT(80A1)
Field 1 -- model file description
Record 3: FORMAT(80A1)
Field 1 -- program which created DBpathetic
Record 4: FORMAT(10A1,10A1,3I10)
Field 1 -- date databa created (DD-MMM-YY)
Field 2 -- time databa created (HH:MM:SS)
Field 3 -- Version from databa
Field 4 -- Subversion from databa
Field 5 -- File type
=0 Universal
=1 Archive
=2 Other
Record 5: FORMAT(10A1,10A1)
Field 1 -- date databa last saved (DD-MMM-YY)
Field 2 -- time databa last saved (HH:MM:SS)
Record 6: FORMAT(80A1)
Field 1 -- program which created universal file
Record 7: FORMAT(10A1,10A1,4I5)
Field 1 -- date universal file written (DD-MMM-YY)
Field 2 -- time universal file written (HH:MM:SS)
Field 3 -- Relea which wrote universal file
Field 4 -- Version number
Field 5 -- Host ID
MS1. 1-Vax/VMS 2-SGI 3-HP7xx,HP-UX
4-RS/6000 5-Alp/VMS 6-Sun 7-Sony
8-NEC 9-Alp/OSF
Field 6 -- Test ID
Field 7 -- Relea counter per host
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Universal Datat Number 164
Universal Datat
Number: 164
Name: Units
Status: Current
Owner: General
Revision Date: 19-AUG-1987
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Record 1: FORMAT(I10,20A1,I10)
Field 1 -- units code
= 1 - SI: Meter (newton)
= 2 - BG: Foot (pound f)
= 3 - MG: Meter (kilogram f)
= 4 - BA: Foot (poundal)
= 5 - MM: mm (milli newton)
= 6 - CM: cm (centi newton)
= 7 - IN: Inch (pound f)
= 8 - GM: mm (kilogram f)
= 9 - US: USER_DEFINED
= 10- MN: mm (newton)
Field 2 -- units description (ud for
documentation only)
Field 3 -- temperature mode
= 1 - absolute
= 2 - relative
Record 2: FORMAT(3D25.17)
Unit factors for converting universal file units to SI.
To convert from universal file units to SI divide by
the appropriate factor listed below.
Field 1 -- length
Field 2 -- force
Field 3 -- temperature
Field 4 -- temperature offt
Example:
-1
164
2Foot (pound f) 2
3.28083989501312334D+00 2.24808943099710480D-01 1.79999999999999999D+00
4.59670000000000002D+02
-
1
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Universal Datat Number 58
Name: Function at Nodal DOF
白洁英语Status: Current
Owner: Test
Revision Date: 30-Jun-1999
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Record 1: Format(80A1)
Field 1 - ID Line 1
NOTE
ID Line 1 is generally ud for the function
description.国旗下讲话期末考试
Record 2: Format(80A1)
Field 1 - ID Line 2
Record 3: Format(80A1)
Field 1 - ID Line 3
NOTE
ID Line 3 is generally ud to identify when the
function was created. The date is in the form
DD-MMM-YY, and the time is in the form HH:MM:SS,
with a general Format(9A1,1X,8A1).
Record 4: Format(80A1)
Field 1 - ID Line 4
Record 5: Format(80A1)
Field 1 - ID Line 5
Record 6: Format(2(I5,I10),2(1X,10A1,I10,I4))
DOF Identification
Field 1 - Function Type
0 - General or Unknown
1 - Time Respon
2 - Auto Spectrum
3 - Cross Spectrum
4 - Frequency Respon Function
5 - Transmissibility
6 - Coherence
7 - Auto Correlation
8 - Cross Correlation
9 - Power Spectral Density (PSD)
10 - Energy Spectral Density (ESD)
著名服装设计师11 - Probability Density Function
12 - Spectrum
13 - Cumulative Frequency Distribution
14 - Peaks Valley
15
- Stress/Cycles
16 - Strain/Cycles
17 - Orbit
18 - Mode Indicator Function
19 - Force Pattern
20 - Partial Power
21 - Partial Coherence
22 - Eigenvalue
23 - Eigenvector
24 - Shock Respon Spectrum
25 - Finite Impul Respon Filter
26 - Multiple Coherence
27 - Order Function
28 - Pha Compensation
Field 2 - Function Identification Number
Field 3 - Version Number, or quence number
Field 4 - Load Ca Identification Number
0 - Single Point Excitation
Field 5 - Respon Entity Name ("NONE" if unud)
Field 6 - Respon Node
Field 7 - Respon Direction
0 - Scalar
1 - +X Translation 4 - +X Rotation
-1 - -X Translation -4 - -X Rotation
2 - +Y Translation 5 - +Y Rotation
-2 - -Y Translation -5 - -Y Rotation
3 - +Z Translation 6 - +Z Rotation
-3 - -Z Translation -6 - -Z Rotation
Field 8 - Reference Entity Name ("NONE" if unud)
Field 9 - Reference Node
Field 10 - Reference Direction (same as field 7)
NOTE
Fields 8, 9, and 10 are only relevant if field 4
is zero.
Record 7: Format(3I10,3E13.5)
Data Form
Field 1 - Ordinate Data Type
2 - real, single precision
4 - real, double precision
5 - complex, single precision
6 - complex, double precision
Field 2 - Number of data pairs for uneven abscissa
spacing, or number of data values for even
abscissa spacing
Field 3 - Abscissa Spacing
0 - unevencorrect
1 - even (no abscissa values stored)
Field 4 - Abscissa
minimum (0.0 if spacing uneven)
Field 5 - Abscissa increment (0.0 if spacing uneven)
Field 6 - Z-axis value (0.0 if unud)
Record 8: Format(I10,3I5,2(1X,20A1))
Abscissa Data Characteristics
Field 1 - Specific Data Type
0 - unknown
1 - general
2 - stress
3 - strain
5 - temperature
6 - heat flux
8 - displacement
9 - reaction force
11 - velocity
12 - acceleration
13 - excitation force
15 - pressure
16 - mass
17 - time
18 - frequency
19 - rpm
20 - order
21 - sound pressure
22 - sound intensity
23 - sound power
Field 2 - Length units exponent
Field 3 - Force units exponent
Field 4 - Temperature units exponent
NOTE
Fields 2, 3 and 4 are relevant only if the
Specific Data Type is General, or in the ca of
ordinates, the respon/reference direction is a
scalar, or the functions are being ud for
nonlinear connectors in System Dynamics Analysis.
See Addendum 'A' for the units exponent table.
Field 5 - Axis label ("NONE" if not ud)
Field 6 - Axis units label ("NONE" if not ud)
NOTE
If fields 5 and 6 are supplied, they take
precendence over program generated labels and
units.
Record 9: Format(I10,3I5,2(1X,20A1))
Ordinate (or ordinate numerator) Data Characteristics
Record 10: Format(I10,3I5,2(1X,20A1))
Ordinate Denominator Data Characteristics
Record 11: Format(I10,3I5,2(1X,20A1))
听录音
Z-axis Data Characteristics
NOTE
Records 9, 10, and 11 are always included and
have fields the same as record 8. If records 10
and 11 are not ud, t field 1 to zero.
Record 12:
Data Values
Ordinate Abscissa
Ca Type Precision Spacing Format
-------------------------------------------------------------
1 real single even 6E13.5
2 real single uneven 6E13.5
3 complex single even 6E13.5
4 complex single uneven 6E13.5
5 real double even 4E20.12
6 real double uneven 2(E13.5,E20.12)
7 complex double even 4E20.12
laborday
8 complex double uneven E13.5,2E20.12
--------------------------------------------------------------
NOTE
See Addendum 'B' for typical FORTRAN READ/WRITE
questionedstatements for each ca.
General Notes:
1. ID lines may not be blank. If no information is required,
the word "NONE" must appear in columns 1 through 4.
2. ID line 1 appears on plots in Finite Element Modeling and is
ud as the function description in System Dynamics Analysis.
3. Dataloaders u the following ID line conventions
ID Line 1 - Model Identification
ID Line 2 - Run Identification
ID Line 3 - Run Date and Time
ID Line 4 - Load Ca Name
4. Coordinates codes from MODAL-PLUS and MODALX are decoded into
node and direction.
5. Entity names ud in System Dynamics Analysis prior to I-DEAS
Level 5 have a 4 character maximum. Beginning with Level 5,
entity names will be ignored if this datat is preceded by
datat 259. If no datat 259 precedes this datat, then the
entity name will be assumed to exist in model bin number 1.
6. Record 10 is ignored by System Dynamics Analysis unless load
ca = 0. Record 11 is always ignored by System Dynamics
aggression
Analysis.
7. In record 6, if the respon or reference names are "NONE"
and are not overridden by a datat 259, but the correspond-
ing node is non-zero, System Dynamics Analysis adds the node
and direction to the function description if space is sufficie
8. ID line 1 appears on XY plots in Test Data Analysis along
with ID line 5 if it is defined. If defined, t
