http://www.cadfamily.com/downinfo/286838.html
Welcome to Adams/Flex
Adams/Flex is an add-on module to MD Adams products that lets you add flexible bodies to your models
to achieve more realistic simulation results.
If you’ve never used Adams/Flex before, this guide is a good place to start learning about Adams/Flex.
As you work through the two tutorials that we have provided, you will learn most of the basic concepts
and tasks that you can perform using Adams/Flex.
Before doing these tutorials you should be familiar with the basic features of the Adams/View interface.
For information about the Adams/View interface, see the guide, Getting Started Using Adams/View.
About the Tutorials
The two tutorials in this guide give you an introduction to using Adams/Flex:
• Building and Simulating a Flexible Model - The first tutorial teaches you how to integrate
flexible bodies into Adams/View and attach rigid bodies to them. The tutorial also introduces
you to Adams/Flex basics, such as the options that are available for setting up the modal content
of flexible bodies before a simulation.
• Exchanging a Rigid Body with a Flexible Body - The second tutorial teaches you how to bring
a flexible body into an existing model and replace a rigid body with the flexible body. It lets you
see how easy it is to integrate the flexible body into an existing rigid model so you can gradually
add complexity and realism to your model.
Note that there are additional tutorials in the guide, Using Adams/Flex, that explain many of the
advanced features of Adams/Flex. They are presented in the chapters in which the advanced features are
explained.
10/29/2009
Auto Cross Correlation Function
http://www.cadfamily.com/downinfo/293114.html
The nSoft ACCF module performs auto-correlation and cross-correlation on up to two single
parameter files.
It calculates the auto correlation function of a single time series signal and plots it graphically.
If two input files are entered, ACCF auto-correlates the two signals and, if possible, cross-correlates
each file. These results can also be plotted.
The nSoft ACCF module performs auto-correlation and cross-correlation on up to two single
parameter files.
It calculates the auto correlation function of a single time series signal and plots it graphically.
If two input files are entered, ACCF auto-correlates the two signals and, if possible, cross-correlates
each file. These results can also be plotted.
:nCode Agents worldwide
http://www.cadfamily.com/downinfo/293115.html
MSC.Software Australia (Sydney)
Countries served: Australia, New Zealand
Main contact: Mr Mathew Wallis
Level 13, 309 Pitt St
Sydney
New South Wales 2000
Australia
Tel: + 61 2 9283 2577
Fax: + 61 2 9283 2585
E-mail: matthew.wallis@mscsoftware.com.au
MSC.Software Australia (Melbourne)
Main Contact: Simon Kellett
L7, 271 William St.
Melbourne 3000
Australia
MSC.Software Australia (Sydney)
Countries served: Australia, New Zealand
Main contact: Mr Mathew Wallis
Level 13, 309 Pitt St
Sydney
New South Wales 2000
Australia
Tel: + 61 2 9283 2577
Fax: + 61 2 9283 2585
E-mail: matthew.wallis@mscsoftware.com.au
MSC.Software Australia (Melbourne)
Main Contact: Simon Kellett
L7, 271 William St.
Melbourne 3000
Australia
Overview of Anomaly Detection
http://www.cadfamily.com/downinfo/293116.html
Anomaly detection is the process of checking a data stream against a set of conditions
defining the validity of the data.
The software system which performs this function comprises three main parts.
• Anomaly definition - Define which anomalies to monitor on which data channels. A single
definition can be used with multiple test data sets.
• Anomaly detection - Perform a detection on one or more data sets given a previously
created anomaly definition.
• Anomaly display - Display the details of the detected anomalies, either graphically or in
a tabular form.
These three parts are provided as three separate programs, ANDEFINE, ANDETECT
and ANMULEDT.
Anomaly detection is the process of checking a data stream against a set of conditions
defining the validity of the data.
The software system which performs this function comprises three main parts.
• Anomaly definition - Define which anomalies to monitor on which data channels. A single
definition can be used with multiple test data sets.
• Anomaly detection - Perform a detection on one or more data sets given a previously
created anomaly definition.
• Anomaly display - Display the details of the detected anomalies, either graphically or in
a tabular form.
These three parts are provided as three separate programs, ANDEFINE, ANDETECT
and ANMULEDT.
Contour Plotting Program
http://www.cadfamily.com/downinfo/293117.html
The CONTOR module produces contour plots from any nSoft histogram file. Normally it is used for
JPH files produced from a joint probability analysis. The JPH files can be produced by nSoft module
JPD. The plotted file is displayed on screen, or at the users discretion saved as a plot file for later
printing. CONTOR also plots regression lines, if available, that show the degree of correlation
between the input data sets.
The CONTOR module produces contour plots from any nSoft histogram file. Normally it is used for
JPH files produced from a joint probability analysis. The JPH files can be produced by nSoft module
JPD. The plotted file is displayed on screen, or at the users discretion saved as a plot file for later
printing. CONTOR also plots regression lines, if available, that show the degree of correlation
between the input data sets.
10/26/2009
NCL V9.7 (Preliminary) Patch Notes
http://www.cadfamily.com/downinfo/292252.html
This document summarizes the changes made in each update of NCL V9.7 since the initial release.
Release 9.663
13-March-2009
NCL
•Added support for up to 256 colors in the menu icons.
•Entities highlighted by the pick cursor that are covered by other entities are now displayed in full as they were in previous releases.
•The UL_NCL_EDIT variable can once again have spaces in the file specification.
•A relative directory specification (dir\file) can once again be specified on NCLcommands that accept filenames as input.
•Filenames with spaces are now processed correctly from the Recent Files menu.
•The TEXT_FONT (Command Line Font Style) setting is now saved to the ncl_interface.mod file upon accepting the Interface Modals form.
•The NCL Signoff form is once again displayed when exiting after the Unibase has been modified.
•Fixed various problems with the display and processing of Dynamic Macro forms.
•The Surface Attributes and Modify Surface Attributes forms now contain help text for all fields.
•Fixed a problem where traces of the previous view would be left on the screen when dynamically stepping changes in the view, for example with the SpaceMouse.
•The Create Bounding Box Solid form has added fields that allow the user to select a layer to use for the input geometry or the word ALL to include all defined geometry.
•Fixed problems creating annotation from the CADD interface.
•Modifying the angle of existing annotation now displays the modified annotation correctly.
•Loading a Unibase created using the UBFN/PUT statement now restores the default label name modals.
•Fixed a problem where multiple line output created from the interface would sometimes lose a couple of the last characters at the end of the line.
•The last line of the part program file is no longer erased when inserting lines into the middle of the part program.
•Fixed a problem where the DISPLY and ERASE commands would not process wildcard specifications correctly.
This document summarizes the changes made in each update of NCL V9.7 since the initial release.
Release 9.663
13-March-2009
NCL
•Added support for up to 256 colors in the menu icons.
•Entities highlighted by the pick cursor that are covered by other entities are now displayed in full as they were in previous releases.
•The UL_NCL_EDIT variable can once again have spaces in the file specification.
•A relative directory specification (dir\file) can once again be specified on NCLcommands that accept filenames as input.
•Filenames with spaces are now processed correctly from the Recent Files menu.
•The TEXT_FONT (Command Line Font Style) setting is now saved to the ncl_interface.mod file upon accepting the Interface Modals form.
•The NCL Signoff form is once again displayed when exiting after the Unibase has been modified.
•Fixed various problems with the display and processing of Dynamic Macro forms.
•The Surface Attributes and Modify Surface Attributes forms now contain help text for all fields.
•Fixed a problem where traces of the previous view would be left on the screen when dynamically stepping changes in the view, for example with the SpaceMouse.
•The Create Bounding Box Solid form has added fields that allow the user to select a layer to use for the input geometry or the word ALL to include all defined geometry.
•Fixed problems creating annotation from the CADD interface.
•Modifying the angle of existing annotation now displays the modified annotation correctly.
•Loading a Unibase created using the UBFN/PUT statement now restores the default label name modals.
•Fixed a problem where multiple line output created from the interface would sometimes lose a couple of the last characters at the end of the line.
•The last line of the part program file is no longer erased when inserting lines into the middle of the part program.
•Fixed a problem where the DISPLY and ERASE commands would not process wildcard specifications correctly.
NCL/SOLID Create Unibase
http://www.cadfamily.com/downinfo/292251.html
NCL/SOLID
This new product allows you to create an NCL Unibase directly from SolidWorks. Registering SwUnibase.dll will add the following menu to SolidWorks.
NCL
Create Unibase
Use the following START/RUN procedure to register the SwUnibase.dll file with SolidWorks.
regsvr32 /s /c SwUnibase.dll
Within SolidWorks you must activate the Add_ons product by picking.
>Tools and >Add_ons & Checking the SwUnibase box.
Selecting the Create Unibase menu will display the Create NCL Unibase form, which has the following fields.
NCL/SOLID
This new product allows you to create an NCL Unibase directly from SolidWorks. Registering SwUnibase.dll will add the following menu to SolidWorks.
NCL
Create Unibase
Use the following START/RUN procedure to register the SwUnibase.dll file with SolidWorks.
regsvr32 /s /c SwUnibase.dll
Within SolidWorks you must activate the Add_ons product by picking.
>Tools and >Add_ons & Checking the SwUnibase box.
Selecting the Create Unibase menu will display the Create NCL Unibase form, which has the following fields.
NCL/IGES REFERENCE DOCUMENT
http://www.cadfamily.com/downinfo/292250.html
The name IGES is an acronym which stands for the Initial Graphics Exchange
Specification. This standard has been developed to allow the exchange of
geometric and graphic data between dissimilar CAD/CAM systems.
The NCL/IGES converter imports and exports ASCII IGES files. Imported files
are converted to NCL Unibase files and NCL Unibase files are exported to IGES
files.
NCL/IGES is implemented as a subset of the U.S. Department of Commerce
IGES Version 5.0 supporting those entities that allow a direct conversion into NCL
entity types.
The name IGES is an acronym which stands for the Initial Graphics Exchange
Specification. This standard has been developed to allow the exchange of
geometric and graphic data between dissimilar CAD/CAM systems.
The NCL/IGES converter imports and exports ASCII IGES files. Imported files
are converted to NCL Unibase files and NCL Unibase files are exported to IGES
files.
NCL/IGES is implemented as a subset of the U.S. Department of Commerce
IGES Version 5.0 supporting those entities that allow a direct conversion into NCL
entity types.
NCL hot keys for IBM, PC and SGI
http://www.cadfamily.com/downinfo/292249.html
NCL hot keys for IBM, PC and SGI
The following are the default ‘hot keys’ when running NCL. The functions on the keyboard can be customized by the user by editing the file nccs/VER/interface/nclkeys.plt. Where VER is ncl96, and plt is either sun, or sgi depending on the platform (IBM’s, PC, and SGI platforms use the same fle). Keys shown in upper case are activated by pressing SHIFT and the function key simultaneously. The NUM LOCK key must be lit to use the function keys on the numeric keypad. Refer to NCL Reference Manual: Appendix D - for a list of available programmable functions, and Appendix E - for a list of allowable keyboard keys.
NCL hot keys for IBM, PC and SGI
The following are the default ‘hot keys’ when running NCL. The functions on the keyboard can be customized by the user by editing the file nccs/VER/interface/nclkeys.plt. Where VER is ncl96, and plt is either sun, or sgi depending on the platform (IBM’s, PC, and SGI platforms use the same fle). Keys shown in upper case are activated by pressing SHIFT and the function key simultaneously. The NUM LOCK key must be lit to use the function keys on the numeric keypad. Refer to NCL Reference Manual: Appendix D - for a list of available programmable functions, and Appendix E - for a list of allowable keyboard keys.
Wire EDM Getting Started Guide
http://www.cadfamily.com/downinfo/292460.html
This manual is designed to introduce you to the features of the ProCAM Wire EDM system.
The information and exercises in this chapter help you understand the process to generate
toolpaths and NC code.
This manual is a tutorial. It is designed to guide you through the steps to generate an NC
program and introduce you to the features of the ProCAM Punch system.
• The information and exercises in Chapter 1 help you understand the process of creating
an NC program.
• The exercises Chapter 2 provide an opportunity to learn how to use the features and
functions of the Wire EDM system.
Online Help
If you want more information about a particular feature or function, see the applicable
topics in the online Help system. To open the EDM Help, select Help on the ProCAM
menu bar, then select Wire EDM Topics.
This manual is designed to introduce you to the features of the ProCAM Wire EDM system.
The information and exercises in this chapter help you understand the process to generate
toolpaths and NC code.
This manual is a tutorial. It is designed to guide you through the steps to generate an NC
program and introduce you to the features of the ProCAM Punch system.
• The information and exercises in Chapter 1 help you understand the process of creating
an NC program.
• The exercises Chapter 2 provide an opportunity to learn how to use the features and
functions of the Wire EDM system.
Online Help
If you want more information about a particular feature or function, see the applicable
topics in the online Help system. To open the EDM Help, select Help on the ProCAM
menu bar, then select Wire EDM Topics.
10/22/2009
Turning Getting Started Guide
http://www.cadfamily.com/downinfo/292459.html
This manual is designed to introduce you to the features of the ProCAM Turning system. The
information and exercises in this chapter help you understand the process to generate turn
toolpaths and NC code.
This manual is a tutorial. It is designed to guide you through the steps to generate an
NC program and introduce you to the features of the ProCAM Turning system.
• The information and exercises in Chapter 1 help you understand the process of
creating an NC program.
• The exercises Chapters 2 through 4 provide an opportunity to learn how to use
the features and functions of the Turning system.
• Chapter 5 contains more advanced exercises for practicing what you have
learned.
• If you want more information about a particular feature or function, see the
applicable topics in the online Help system. To open the Turn Help, select Help
on the ProCAM menu bar, then select Lathe Help Topics.
Did You Know ...
The Manuals folder on the ProCAM CD contains a complete set of ProCAM
manuals. When you install ProCAM II from the ProCAM CD, the manuals are
copied into the \procad\manuals\ProCAM folder on your PC. These files are in
Adobe Portable Document Format (PDF) and can be viewed, searched and
printed using the Acrobat Reader. If you do not have the Reader, you can install
it from the ProCAM CD or download it from the Adobe web site.
This manual is designed to introduce you to the features of the ProCAM Turning system. The
information and exercises in this chapter help you understand the process to generate turn
toolpaths and NC code.
This manual is a tutorial. It is designed to guide you through the steps to generate an
NC program and introduce you to the features of the ProCAM Turning system.
• The information and exercises in Chapter 1 help you understand the process of
creating an NC program.
• The exercises Chapters 2 through 4 provide an opportunity to learn how to use
the features and functions of the Turning system.
• Chapter 5 contains more advanced exercises for practicing what you have
learned.
• If you want more information about a particular feature or function, see the
applicable topics in the online Help system. To open the Turn Help, select Help
on the ProCAM menu bar, then select Lathe Help Topics.
Did You Know ...
The Manuals folder on the ProCAM CD contains a complete set of ProCAM
manuals. When you install ProCAM II from the ProCAM CD, the manuals are
copied into the \procad\manuals\ProCAM folder on your PC. These files are in
Adobe Portable Document Format (PDF) and can be viewed, searched and
printed using the Acrobat Reader. If you do not have the Reader, you can install
it from the ProCAM CD or download it from the Adobe web site.
Punch Getting Started Guide
http://www.cadfamily.com/downinfo/292458.html
This manual is designed to introduce you to the features of the ProCAM Punch system. The
information and exercises in this chapter help you understand the process to generate
toolpaths and NC code.
This manual is a tutorial. It is designed to guide you through the steps to generate an NC
program and introduce you to the features of the ProCAM Punch system.
• The information and exercises in Chapter 1 help you understand the process of creating
an NC program.
• The exercises Chapters 2 through 10 provide an opportunity to learn how to use the
features and functions of the Punch system.
Did You Know ...
If you want more information about a particular feature or function, see the applicable
topics in the online Help system. To open the Punch Help, select Help on the ProCAM
menu bar, then select Punch Topics
This manual is designed to introduce you to the features of the ProCAM Punch system. The
information and exercises in this chapter help you understand the process to generate
toolpaths and NC code.
This manual is a tutorial. It is designed to guide you through the steps to generate an NC
program and introduce you to the features of the ProCAM Punch system.
• The information and exercises in Chapter 1 help you understand the process of creating
an NC program.
• The exercises Chapters 2 through 10 provide an opportunity to learn how to use the
features and functions of the Punch system.
Did You Know ...
If you want more information about a particular feature or function, see the applicable
topics in the online Help system. To open the Punch Help, select Help on the ProCAM
menu bar, then select Punch Topics
ProCAM Installation Guide
http://www.cadfamily.com/downinfo/292457.html
The steps to install ProCAM are listed below. If you are installing ProCAM to run on a network, the
installation directions are provided on the ProCAM CD.
1 Verify that you have the hardware and software required to run ProCAM (page 1-4).
These steps assume that your PC is running a supported version of Windows and your mouse
and video card are functioning correctly in Windows. In addition, make sure all critical
operating system updates and driver updates are installed.
If you are going to run Solids Machining, Access 2000, 2002, 2003 or Access 2000 Runtime
must be installed before running the ProCAM setup program.
2 Start Windows and insert the ProCAM CD in the drive.
After a brief pause, the Setup program should run automatically and the Setup menu should
display. If the menu does not display automatically, select Start on the Taskbar and choose Run.
In the Run dialog box, type d:\setup (or the letter of the CD drive) and click OK. You can also
start the program from Windows Explorer by opening the CD folder and double-clicking
setup.exe.
3 Click the Release Notes button on the Setup menu and read the Release Notes.
This file contains important information you need to know before installing.
4 Click the Win 2000/XP Driver button on the Setup menu to install the license/security key
driver.
Install this driver if you are installing ProCAM for the first time or if you have upgraded the
operating system to 2000 or XP. Without this driver, ProCAM cannot read the key and will run
in Demo mode. If you install the driver, reboot your PC before starting ProCAM.
5 Click the ProCAM II button on the Setup menu and follow the prompts to install the software.
6 Click the applicable buttons on the Setup menu to install supplemental TekSoft and third-party
products that you are licensed to run.
CAUTION! If you install supplemental programs (e.g., ProNest, Verify version 5.1) that you
have not purchased, these programs will not run. If you would like to purchase a license for any
of these programs, contact your TekSoft reseller.
7 Activate your ProCAM license.
ProCAM uses a key (also called a copy protection block or dongle) for licensing and protection
against unauthorized use. A key is a small hardware device that fits on the parallel port or the
USB connector of the PC. The key is programmed for the modules and versions you are licensed
to run and if the key is not attached, ProCAM will run in Demo mode.
The steps to install ProCAM are listed below. If you are installing ProCAM to run on a network, the
installation directions are provided on the ProCAM CD.
1 Verify that you have the hardware and software required to run ProCAM (page 1-4).
These steps assume that your PC is running a supported version of Windows and your mouse
and video card are functioning correctly in Windows. In addition, make sure all critical
operating system updates and driver updates are installed.
If you are going to run Solids Machining, Access 2000, 2002, 2003 or Access 2000 Runtime
must be installed before running the ProCAM setup program.
2 Start Windows and insert the ProCAM CD in the drive.
After a brief pause, the Setup program should run automatically and the Setup menu should
display. If the menu does not display automatically, select Start on the Taskbar and choose Run.
In the Run dialog box, type d:\setup (or the letter of the CD drive) and click OK. You can also
start the program from Windows Explorer by opening the CD folder and double-clicking
setup.exe.
3 Click the Release Notes button on the Setup menu and read the Release Notes.
This file contains important information you need to know before installing.
4 Click the Win 2000/XP Driver button on the Setup menu to install the license/security key
driver.
Install this driver if you are installing ProCAM for the first time or if you have upgraded the
operating system to 2000 or XP. Without this driver, ProCAM cannot read the key and will run
in Demo mode. If you install the driver, reboot your PC before starting ProCAM.
5 Click the ProCAM II button on the Setup menu and follow the prompts to install the software.
6 Click the applicable buttons on the Setup menu to install supplemental TekSoft and third-party
products that you are licensed to run.
CAUTION! If you install supplemental programs (e.g., ProNest, Verify version 5.1) that you
have not purchased, these programs will not run. If you would like to purchase a license for any
of these programs, contact your TekSoft reseller.
7 Activate your ProCAM license.
ProCAM uses a key (also called a copy protection block or dongle) for licensing and protection
against unauthorized use. A key is a small hardware device that fits on the parallel port or the
USB connector of the PC. The key is programmed for the modules and versions you are licensed
to run and if the key is not attached, ProCAM will run in Demo mode.
Laser-Plasma Getting Started Guide
http://www.cadfamily.com/downinfo/292456.html
This manual is designed to introduce you to the features of the ProCAM Laser and Plasma
systems. The information and exercises in this chapter help you understand the process to
generate toolpaths and NC code.
This manual is a tutorial. It is designed to guide you through the steps to generate an NC
program and introduce you to the features of the ProCAM Laser and Plasma systems.
• The information and exercises in Chapter 1 help you understand the process of creating
an NC program.
• The exercises Chapters 2 through 6 provide an opportunity to learn how to use the
features and functions of the Laser and Plasma systems.
Online Help
If you want more information about a particular feature or function, see the applicable
topics in the online Help system. To open the Laser/Plasma Help, select Help on the
ProCAM menu bar, then select Laser/Plasma Topics.
This manual is designed to introduce you to the features of the ProCAM Laser and Plasma
systems. The information and exercises in this chapter help you understand the process to
generate toolpaths and NC code.
This manual is a tutorial. It is designed to guide you through the steps to generate an NC
program and introduce you to the features of the ProCAM Laser and Plasma systems.
• The information and exercises in Chapter 1 help you understand the process of creating
an NC program.
• The exercises Chapters 2 through 6 provide an opportunity to learn how to use the
features and functions of the Laser and Plasma systems.
Online Help
If you want more information about a particular feature or function, see the applicable
topics in the online Help system. To open the Laser/Plasma Help, select Help on the
ProCAM menu bar, then select Laser/Plasma Topics.
2DCAD Getting Started Guide
http://www.cadfamily.com/downinfo/292456.html
ProCAM uses the graphical user interface of Microsoft Windows® to provide an intuitive,
efficient work environment for designing and drafting parts and generating NC code. This
manual assumes you are already comfortable navigating in the Windows graphical
environment.
IMPORTANT! The ProCAM & ProCAM II Installation & Quick-Start Guide explains the
basics of working in ProCAM and the exercises in this manual assume that you have read
this guide and have an understanding of how to use ProCAM.
ProCAM uses the graphical user interface of Microsoft Windows® to provide an intuitive,
efficient work environment for designing and drafting parts and generating NC code. This
manual assumes you are already comfortable navigating in the Windows graphical
environment.
IMPORTANT! The ProCAM & ProCAM II Installation & Quick-Start Guide explains the
basics of working in ProCAM and the exercises in this manual assume that you have read
this guide and have an understanding of how to use ProCAM.
2D Mill User Guide
http://www.cadfamily.com/downinfo/292454.html
This manual is designed to introduce you to the features of the ProCAM 2D Mill system.
The information and exercises in this manual help you understand the process to generate
tool paths and NC code.
This chapter explains the steps to generate an NC program and shows you how to do a
simple cut around the outside of a part.
This manual is a combination tutorial and reference guide. It is designed to guide you
through the steps to generate an NC program and introduce you to the more advanced
features of 2D Mill. We recommend you read the chapters and do the exercises in the order
they are presented.
The information is organized in sections:
• Modifiers
For some commands, there is more than one way for ProCAM to execute the command.
This section lists and briefly explains the options, called modifiers.
• What You Need to Know
This is a reference section and includes concepts, definitions and operational information
for a specific function. This section is included only for those functions that require
further explanation. You should read these sections before attempting the exercises.
• What You'll Learn
This section contains exercises to help you learn ProCAM functions.
This manual is designed to introduce you to the features of the ProCAM 2D Mill system.
The information and exercises in this manual help you understand the process to generate
tool paths and NC code.
This chapter explains the steps to generate an NC program and shows you how to do a
simple cut around the outside of a part.
This manual is a combination tutorial and reference guide. It is designed to guide you
through the steps to generate an NC program and introduce you to the more advanced
features of 2D Mill. We recommend you read the chapters and do the exercises in the order
they are presented.
The information is organized in sections:
• Modifiers
For some commands, there is more than one way for ProCAM to execute the command.
This section lists and briefly explains the options, called modifiers.
• What You Need to Know
This is a reference section and includes concepts, definitions and operational information
for a specific function. This section is included only for those functions that require
further explanation. You should read these sections before attempting the exercises.
• What You'll Learn
This section contains exercises to help you learn ProCAM functions.
ArtCAM Postprocessor Configuration Guide
http://www.cadfamily.com/downinfo/292542.html
If you are new to FeatureCAM, please check out the tutorials (PDF, 4.02 MB).
FeatureCAM, developed by Delcam, is a suite of CAD/CAM software which combines cutting edge technology with ease of use.
FeatureCAM automates machining and minimizes programming times for parts on mills, lathes and wire EDM.
What makes FeatureCAM different?
Feature-Based Technology to Streamline Programming
With FeatureCAM, you:
• Draw or import your part
• Identify part components as features (holes, pockets, surface milling, etc.)
• Click simulation
• You are done! NC Code is generated!
Knowledge-Based Technology to Increase Productivity
FeatureCAM automatically:
• Selects Tools
• Calculates Feeds and Speeds, including Stepovers and Depth of Cut
• Determines Roughing and Finishing Operations
• Generates Toolpaths and NC Code
• You can change any of the automatically selected machining suggestions.
Added Value at No Additional Charge
FeatureCAM includes:
• Shared Network Databases for Tools and Feeds and Speeds
• Post Processor Library with 350+ Posts, with the Ability to
Create Custom Posts or Edit Existing Posts
• Feed Rate Optimization
• Application Programming Interface (API) for Macro
Creation and Program Customizations
• Job Quoting Tools
• Integrated 3D Simulation Package
If you are new to FeatureCAM, please check out the tutorials (PDF, 4.02 MB).
FeatureCAM, developed by Delcam, is a suite of CAD/CAM software which combines cutting edge technology with ease of use.
FeatureCAM automates machining and minimizes programming times for parts on mills, lathes and wire EDM.
What makes FeatureCAM different?
Feature-Based Technology to Streamline Programming
With FeatureCAM, you:
• Draw or import your part
• Identify part components as features (holes, pockets, surface milling, etc.)
• Click simulation
• You are done! NC Code is generated!
Knowledge-Based Technology to Increase Productivity
FeatureCAM automatically:
• Selects Tools
• Calculates Feeds and Speeds, including Stepovers and Depth of Cut
• Determines Roughing and Finishing Operations
• Generates Toolpaths and NC Code
• You can change any of the automatically selected machining suggestions.
Added Value at No Additional Charge
FeatureCAM includes:
• Shared Network Databases for Tools and Feeds and Speeds
• Post Processor Library with 350+ Posts, with the Ability to
Create Custom Posts or Edit Existing Posts
• Feed Rate Optimization
• Application Programming Interface (API) for Macro
Creation and Program Customizations
• Job Quoting Tools
• Integrated 3D Simulation Package
ArtCAM Postprocessor Configuration Guide
http://www.cadfamily.com/downinfo/292687.html
A post processor is a program which converts tool moves
in some standard neutral format into the format required
by a specific machine tool controller.
Examples of output for two different machine tool
controls are shown below. Both files were generated
from the same toolpath within ArtCAM.
A post processor is a program which converts tool moves
in some standard neutral format into the format required
by a specific machine tool controller.
Examples of output for two different machine tool
controls are shown below. Both files were generated
from the same toolpath within ArtCAM.
10/21/2009
:ArtCAM Pro Tools in Delcam
The real size of the required physical model of the model is entered (in the
present units), must enter the Height and the wide one.
It consists with a slid bar of of resolution of the model is to say what finely is
divided. The finished one that you can obtain finally when mechanizing to the
model depends on the fixed resolution.
For example - if you went to prepare a model that has 100mm of wide and put
the resolution to 100 points, the smallest step in the model will be then 1mm. If
you put the resolution to 1000 points, the smallest step will be 0.1mm.
Case out Open – files opens an existing model already.
TheTipo-Escoja archives the required data key in of the list.
ArtCAM Model (* art). It opens archives that contain information associated with
models, even the images in 2D, image of tiff, PCX, GIF, and JPEG. These
formats of the file are used to read images created by other applications.
Guard to – the present disc model cases out Save Salva Archives -.
Case out Information - File of Information - Opens a dialogue that shows the
present dimensions of the image.
He allows to select a rectangular region of the image enclosing it with a rubber
tied the box. The left button of the mouse in a corner of the noticeable region
presses the button and with the held button, it drags the cursor to the opposite
corner. The box can re-classify according to the size when it wants making click
in an edge or corner and dragging mouse. To move the click of the box and to
drag within the box. Once created the noticeable region it can be used for the
Court, Copy and Creates the functions of the example. Selecting the button
again and they will clear the box of the unfolding.
Edit Cut - the Court Reviews - Cortes outside the part at the moment selected
of the image and places go to the paper holder
present units), must enter the Height and the wide one.
It consists with a slid bar of of resolution of the model is to say what finely is
divided. The finished one that you can obtain finally when mechanizing to the
model depends on the fixed resolution.
For example - if you went to prepare a model that has 100mm of wide and put
the resolution to 100 points, the smallest step in the model will be then 1mm. If
you put the resolution to 1000 points, the smallest step will be 0.1mm.
Case out Open – files opens an existing model already.
TheTipo-Escoja archives the required data key in of the list.
ArtCAM Model (* art). It opens archives that contain information associated with
models, even the images in 2D, image of tiff, PCX, GIF, and JPEG. These
formats of the file are used to read images created by other applications.
Guard to – the present disc model cases out Save Salva Archives -.
Case out Information - File of Information - Opens a dialogue that shows the
present dimensions of the image.
He allows to select a rectangular region of the image enclosing it with a rubber
tied the box. The left button of the mouse in a corner of the noticeable region
presses the button and with the held button, it drags the cursor to the opposite
corner. The box can re-classify according to the size when it wants making click
in an edge or corner and dragging mouse. To move the click of the box and to
drag within the box. Once created the noticeable region it can be used for the
Court, Copy and Creates the functions of the example. Selecting the button
again and they will clear the box of the unfolding.
Edit Cut - the Court Reviews - Cortes outside the part at the moment selected
of the image and places go to the paper holder
How to make a 3D puzzle with ArtCam for Education
http://www.cadfamily.com/downinfo/292685.html
ArtCam for Education by Delcam is brilliant for making moulds, picture frames and
engraving 3D photographs into acrylic. Today we are going to learn how to use it to design
and manufacture a 3D puzzle. You will use a colour linking strategy to make this 3D model.
If you are thinking about making this project
you will need the following resources.
· Closed cell polyurethane foam 120 x 100 x
30 mm
· Opaque polystyrene sheet 1 mm thick
· Crystal polystyrene sheet 0.5 mm thick
· 3D Computer Aided Manufacturing
equipment
· Profile cutter
· Paint or permanent markers
ArtCam for Education by Delcam is brilliant for making moulds, picture frames and
engraving 3D photographs into acrylic. Today we are going to learn how to use it to design
and manufacture a 3D puzzle. You will use a colour linking strategy to make this 3D model.
If you are thinking about making this project
you will need the following resources.
· Closed cell polyurethane foam 120 x 100 x
30 mm
· Opaque polystyrene sheet 1 mm thick
· Crystal polystyrene sheet 0.5 mm thick
· 3D Computer Aided Manufacturing
equipment
· Profile cutter
· Paint or permanent markers
ArtCAM Pro Jewellery Edition
http://www.cadfamily.com/downinfo/292684.html
ArtCAM Pro Jewellery Edition
ArtCAM Pro Jewellery Edition is ideal for designers and
manufacturers of all jewellery, whether it is bespoke or massproduced.
It allows you to achieve improved productivity and quality
levels, whilst significantly reducing lead times. With its powerful and
intuitive modelling tools, you have the freedom to create artistic and
elegant designs. These designs can be sent directly to your CNC or
rapid prototyping machine to produce castings, findings or finished
items of jewellery, whether gem-set or not, with a superior finish.
The Jewellery Edition module is available to all users of ArtCAM Pro
5.510 and above. Previous versions of ArtCAM Pro do not support the
Jewellery Edition module.
What Jewellery Can I Create?
ArtCAM Pro Jewellery Edition can be used to produce any kind of
jewellery, but it is particularly useful for the design and manufacture
of rings. If you are not familiar with the design and creation of rings,
this item of jewellery frequently comprises of two parts: a Shank and a
Head. ArtCAM Pro Jewellery Edition is structured to allow you to
create these parts separately, and then merge them together if
necessary.
A Shank is the part of the ring, which encircles the finger. Shoulders
join the Shank with the Head of the ring, and these may be set with
smaller gemstones which complement the main gemstone(s) in the
ring’s Head.
ArtCAM Pro Jewellery Edition
ArtCAM Pro Jewellery Edition is ideal for designers and
manufacturers of all jewellery, whether it is bespoke or massproduced.
It allows you to achieve improved productivity and quality
levels, whilst significantly reducing lead times. With its powerful and
intuitive modelling tools, you have the freedom to create artistic and
elegant designs. These designs can be sent directly to your CNC or
rapid prototyping machine to produce castings, findings or finished
items of jewellery, whether gem-set or not, with a superior finish.
The Jewellery Edition module is available to all users of ArtCAM Pro
5.510 and above. Previous versions of ArtCAM Pro do not support the
Jewellery Edition module.
What Jewellery Can I Create?
ArtCAM Pro Jewellery Edition can be used to produce any kind of
jewellery, but it is particularly useful for the design and manufacture
of rings. If you are not familiar with the design and creation of rings,
this item of jewellery frequently comprises of two parts: a Shank and a
Head. ArtCAM Pro Jewellery Edition is structured to allow you to
create these parts separately, and then merge them together if
necessary.
A Shank is the part of the ring, which encircles the finger. Shoulders
join the Shank with the Head of the ring, and these may be set with
smaller gemstones which complement the main gemstone(s) in the
ring’s Head.
ArtCAM Pro Jewellery Edition User Guide by Delcam
http://www.cadfamily.com/downinfo/292683.html
ArtCAM Pro Jewellery Edition
ArtCAM Pro Jewellery Edition is ideal for designers and
manufacturers of all jewellery, whether it is bespoke or massproduced.
It allows you to achieve improved productivity and quality
levels, whilst significantly reducing lead times. With its powerful and
intuitive modelling tools, you have the freedom to create artistic and
elegant designs. These designs can be sent directly to your CNC or
rapid prototyping machine to produce castings, findings or finished
items of jewellery, whether gem-set or not, with a superior finish.
The Jewellery Edition module is available to all users of ArtCAM Pro
5.510 and above. Previous versions of ArtCAM Pro do not support the
Jewellery Edition module.
What Jewellery Can I Create?
ArtCAM Pro Jewellery Edition can be used to produce any kind of
jewellery, but it is particularly useful for the design and manufacture
of rings. If you are not familiar with the design and creation of rings,
this item of jewellery frequently comprises of two parts: a Shank and a
Head. ArtCAM Pro Jewellery Edition is structured to allow you to
create these parts separately, and then merge them together if
necessary.
A Shank is the part of the ring, which encircles the finger. Shoulders
join the Shank with the Head of the ring, and these may be set with
smaller gemstones which complement the main gemstone(s) in the
ring’s Head.
ArtCAM Pro Jewellery Edition
ArtCAM Pro Jewellery Edition is ideal for designers and
manufacturers of all jewellery, whether it is bespoke or massproduced.
It allows you to achieve improved productivity and quality
levels, whilst significantly reducing lead times. With its powerful and
intuitive modelling tools, you have the freedom to create artistic and
elegant designs. These designs can be sent directly to your CNC or
rapid prototyping machine to produce castings, findings or finished
items of jewellery, whether gem-set or not, with a superior finish.
The Jewellery Edition module is available to all users of ArtCAM Pro
5.510 and above. Previous versions of ArtCAM Pro do not support the
Jewellery Edition module.
What Jewellery Can I Create?
ArtCAM Pro Jewellery Edition can be used to produce any kind of
jewellery, but it is particularly useful for the design and manufacture
of rings. If you are not familiar with the design and creation of rings,
this item of jewellery frequently comprises of two parts: a Shank and a
Head. ArtCAM Pro Jewellery Edition is structured to allow you to
create these parts separately, and then merge them together if
necessary.
A Shank is the part of the ring, which encircles the finger. Shoulders
join the Shank with the Head of the ring, and these may be set with
smaller gemstones which complement the main gemstone(s) in the
ring’s Head.
ArtCAM Pro Tutorials
http://www.cadfamily.com/downinfo/292711.html
The tutorials contained within this manual are designed to help you to
understand the practical uses of the design tools and toolpaths
available in ArtCAM Pro.
The majority of the tutorials use example files from the ArtCAM Pro
7.0\Examples directory. If you cannot locate the example files used in
a specfic tutorial here, you must download the TutorialExamples.zip
archive from the Downloads area at http://www.artcam.com/.
You will require the Winzip application to use the files contained
within the archive. If you do not already have Winzip installed on
your computer, you can download a free evaluation copy of the latest
version from http://www.winzip.com/.
Extract the contents of the archive to the ArtCAM Pro 7.0\Examples\
directory, which is located wherever you have installed ArtCAM Pro
7.0 on your computer. To do so:
1. Using Windows Explorer, go to the directory to where you
have downloaded the archive named TutorialExamples.zip.
2. Right-click on the archive to display the context menu, then
click on the Extract to… option to launch Winzip and
display the Winzip Extract dialog box:
The tutorials contained within this manual are designed to help you to
understand the practical uses of the design tools and toolpaths
available in ArtCAM Pro.
The majority of the tutorials use example files from the ArtCAM Pro
7.0\Examples directory. If you cannot locate the example files used in
a specfic tutorial here, you must download the TutorialExamples.zip
archive from the Downloads area at http://www.artcam.com/.
You will require the Winzip application to use the files contained
within the archive. If you do not already have Winzip installed on
your computer, you can download a free evaluation copy of the latest
version from http://www.winzip.com/.
Extract the contents of the archive to the ArtCAM Pro 7.0\Examples\
directory, which is located wherever you have installed ArtCAM Pro
7.0 on your computer. To do so:
1. Using Windows Explorer, go to the directory to where you
have downloaded the archive named TutorialExamples.zip.
2. Right-click on the archive to display the context menu, then
click on the Extract to… option to launch Winzip and
display the Winzip Extract dialog box:
10/18/2009
ArtCAM CabinetMaker Getting Started
http://www.cadfamily.com/downinfo/292710.html
Working alongside ArtCAM Insignia, ArtCAM Cabinetmaker
provides a fully automated Nested-Based Manufacturing software
solution for makers of custom furniture and cabinetry. ArtCAM
Cabinetmaker combines a very simple user-interface with exceptional
calculation speed, providing an effortless and efficient progression
from design to manufacture.
Using layered DXF files originating from a variety of CAD systems,
including the popular KCDw Cabinetmakers software, ArtCAM
Cabinetmaker nests vector artwork representing each of the cabinet
components across multiple sheets, grouping them according to
material and thickness.
ArtCAM Cabinetmaker then generates optimised toolpaths using predefined
templates, assigning any combination of machining strategy,
cutting tool and machining parameters to each of the DXF layers that
make up the design.
The calculated toolpaths can be simulated, if required, before being
sent to the machine. More than 180 machine tool control options are
supported, including those that offer automatic tool changing.
ArtCAM Cabinetmaker generates sheet reports for your nested design
and outputs panel label data compatible with several third-party
labelling packages, thus streamlining the entire process for the
machine operator.
Working alongside ArtCAM Insignia, ArtCAM Cabinetmaker
provides a fully automated Nested-Based Manufacturing software
solution for makers of custom furniture and cabinetry. ArtCAM
Cabinetmaker combines a very simple user-interface with exceptional
calculation speed, providing an effortless and efficient progression
from design to manufacture.
Using layered DXF files originating from a variety of CAD systems,
including the popular KCDw Cabinetmakers software, ArtCAM
Cabinetmaker nests vector artwork representing each of the cabinet
components across multiple sheets, grouping them according to
material and thickness.
ArtCAM Cabinetmaker then generates optimised toolpaths using predefined
templates, assigning any combination of machining strategy,
cutting tool and machining parameters to each of the DXF layers that
make up the design.
The calculated toolpaths can be simulated, if required, before being
sent to the machine. More than 180 machine tool control options are
supported, including those that offer automatic tool changing.
ArtCAM Cabinetmaker generates sheet reports for your nested design
and outputs panel label data compatible with several third-party
labelling packages, thus streamlining the entire process for the
machine operator.
tools and toolpaths available in ArtCAM Pro
http://www.cadfamily.com/downinfo/292709.html
The tutorials contained within this manual are designed to help you lo understand the practical uses of the design tools and toolpaths available in ArtCAM Pro.
The majority of the tutorials use example files from the ArtCAM Pro 6.0\Examplcs\ directory. If you cannot locate the example files used in a specfic tutorial here, you must download the TittorialExaniples.zip archive from the Downloads area at http://www.arteam.com/.
You will require the Winzip application to use the files contained within the archive. If you do not already have Winzip installed on your computer, you can download a free evaluation copy of the latest version from http://www.winzip.com/.
Extract the contents of the archive lo the ArtCAM Pro 6.0\ExampIes\ directory, which is located wherever you have installed ArtCAM Pro 6.0on your computer. To do so:
The tutorials contained within this manual are designed to help you lo understand the practical uses of the design tools and toolpaths available in ArtCAM Pro.
The majority of the tutorials use example files from the ArtCAM Pro 6.0\Examplcs\ directory. If you cannot locate the example files used in a specfic tutorial here, you must download the TittorialExaniples.zip archive from the Downloads area at http://www.arteam.com/.
You will require the Winzip application to use the files contained within the archive. If you do not already have Winzip installed on your computer, you can download a free evaluation copy of the latest version from http://www.winzip.com/.
Extract the contents of the archive lo the ArtCAM Pro 6.0\ExampIes\ directory, which is located wherever you have installed ArtCAM Pro 6.0on your computer. To do so:
Artcam Pro Reference Manual By Delcam plc
http://www.cadfamily.com/downinfo/292707.html
ArtCAM Pro is a unique software program which allows users to
easily create impressive, high quality 3D products starting from 2D
bitmap or vector based artwork. ArtCAM Pro transforms ideas into
finished products far more quickly than is possible using conventional
methods. Even in cases where a hand-finished look is desired,
ArtCAM Pro accelerates production. Using ArtCAM Pro and a
machine tool or router to machine most of the job, leaves the artisan
more time to concentrate on the original design and the fine details,
which together help to differentiate products in today's competitive
markets.
ArtCAM Pro is a unique software program which allows users to
easily create impressive, high quality 3D products starting from 2D
bitmap or vector based artwork. ArtCAM Pro transforms ideas into
finished products far more quickly than is possible using conventional
methods. Even in cases where a hand-finished look is desired,
ArtCAM Pro accelerates production. Using ArtCAM Pro and a
machine tool or router to machine most of the job, leaves the artisan
more time to concentrate on the original design and the fine details,
which together help to differentiate products in today's competitive
markets.
ArtCAM 2D User Guide
http://www.cadfamily.com/downinfo/292706.html
ArtCAM 2D is a powerful 2.5D machining solution for
professional CNC engravers and router users. Designs
can be created using ArtCAM 2D’s comprehensive vector
drawing tools or imported from other graphics packages
as *.eps, *.dxf or *.ai files. Bitmap images and scans
(*.bmp, *.tif, *.jpg and *.gif) can also be imported,
vectorized and edited.
ArtCAM 2D handles complex designs with ease and
provides flexible machining strategies that are fast,
accurate and, most importantly, very reliable. Integrated
Nesting automatically positions multiple objects inside a
user-definable block of material, ensuring minimal
material wastage when the objects are manufactured.
Realistic 3D toolpath simulation can be used to verify all
toolpaths, and visualise the end product, before sending
them to the CNC machine.
ArtCAM 2D is a powerful 2.5D machining solution for
professional CNC engravers and router users. Designs
can be created using ArtCAM 2D’s comprehensive vector
drawing tools or imported from other graphics packages
as *.eps, *.dxf or *.ai files. Bitmap images and scans
(*.bmp, *.tif, *.jpg and *.gif) can also be imported,
vectorized and edited.
ArtCAM 2D handles complex designs with ease and
provides flexible machining strategies that are fast,
accurate and, most importantly, very reliable. Integrated
Nesting automatically positions multiple objects inside a
user-definable block of material, ensuring minimal
material wastage when the objects are manufactured.
Realistic 3D toolpath simulation can be used to verify all
toolpaths, and visualise the end product, before sending
them to the CNC machine.
10/15/2009
the Embedded Software Manager in Teamcenter® Engineering
http://www.cadfamily.com/downinfo/292151.html
This manual describes the Embedded Software Manager (ESM) provided with
Teamcenter® Engineering. It includes information on the purpose of the ESM and
how to use it to manage embedded software binaries. Teamcenter Engineering
belongs to the UGS® portfolio of digital product lifecycle management software
and services.
This manual contains the following chapters and appendix.
Chapter 1 Getting Started provides an overview of the Embedded Software
Manager (ESM).
Chapter 2 Managing Embedded Software describes how to use the
Embedded Software Manager to manage release binary
software.
Appendix A Glossary contains terms applicable to this document.
This manual describes the Embedded Software Manager (ESM) provided with
Teamcenter® Engineering. It includes information on the purpose of the ESM and
how to use it to manage embedded software binaries. Teamcenter Engineering
belongs to the UGS® portfolio of digital product lifecycle management software
and services.
This manual contains the following chapters and appendix.
Chapter 1 Getting Started provides an overview of the Embedded Software
Manager (ESM).
Chapter 2 Managing Embedded Software describes how to use the
Embedded Software Manager to manage release binary
software.
Appendix A Glossary contains terms applicable to this document.
CATIA--NCM S7 for Industrial Ethernet
You want to install our SIMATIC S7 CPs in your system and make
optimum use of them.
This primer will help you to become familiar with handling NCM S7 for
Industrial Ethernet, the configuration tool for S7 CPs. Based on the
configuration and program examples supplied with NCM, we introduce
you to the typical steps required to make optimum use of NCM S7 for
Industrial Ethernet with your SIMATIC S7 CPs.
This primer is intended for installation personnel and STEP 7
programmers as well as for service personnel.
This primer applies to Version V5.2 and higher of the NCM S7
configuration software and to Version 5.0 and higher of the STEP 7
software.
For further information about STEP 7 documentation and the product,
please refer to the accompanying manual “NCM S7 for Industrial
Ethernet”.
For further information about installing the NCM S7 for Industrial
Ethernet software, please refer to the readme file.
optimum use of them.
This primer will help you to become familiar with handling NCM S7 for
Industrial Ethernet, the configuration tool for S7 CPs. Based on the
configuration and program examples supplied with NCM, we introduce
you to the typical steps required to make optimum use of NCM S7 for
Industrial Ethernet with your SIMATIC S7 CPs.
This primer is intended for installation personnel and STEP 7
programmers as well as for service personnel.
This primer applies to Version V5.2 and higher of the NCM S7
configuration software and to Version 5.0 and higher of the STEP 7
software.
For further information about STEP 7 documentation and the product,
please refer to the accompanying manual “NCM S7 for Industrial
Ethernet”.
For further information about installing the NCM S7 for Industrial
Ethernet software, please refer to the readme file.
Teamcentre-AIWS Configuration And Customization
http://www.cadfamily.com/downinfo/292332.html
\This manual describes how to develop a client that allows an external application
to share data with Teamcenter® Engineering using the collaboration context
functionality. Teamcenter Engineering belongs to the UGS® portfolio of digital
product lifecycle management software and services
\This manual describes how to develop a client that allows an external application
to share data with Teamcenter® Engineering using the collaboration context
functionality. Teamcenter Engineering belongs to the UGS® portfolio of digital
product lifecycle management software and services
Teamcenter Engineering Configuration Guide
Configuring Teamcenter Engineering may involve defining
environment variables and preferences, setting up NX Manager and Multi-Site
Collaboration, creating custom classes, defining volumes, setting up file security, and
defining log files.
Configuration should be fully completed before deploying Teamcenter Engineering.
Some configuration tasks, such as defining log files, are difficult to redefine once
Teamcenter Engineering is deployed
http://www.cadfamily.com/downinfo/292150.html
environment variables and preferences, setting up NX Manager and Multi-Site
Collaboration, creating custom classes, defining volumes, setting up file security, and
defining log files.
Configuration should be fully completed before deploying Teamcenter Engineering.
Some configuration tasks, such as defining log files, are difficult to redefine once
Teamcenter Engineering is deployed
http://www.cadfamily.com/downinfo/292150.html
Backup And Recovery of Teamcenter® Engineering
This manual describes backup and recovery features of Teamcenter® Engineering.
Teamcenter Engineering belongs to the UGS® portfolio of digital product lifecycle
management software and services.
This manual contains the following chapters:
Chapter 1 Integrated Backup describes Teamcenter Engineering integrated
backup and recovery.
Chapter 2 Single File Recovery (SFR) describes Teamcenter Engineering
single file recovery.
Chapter 3 Recovery Management Backup Recommendation describes
recommendations for recovery backup management.
Chapter 4 Installing and Using the Cold Backup and Restore Utility
describes the planning, installation, and usage of the Teamcenter
Engineering Backup and Restore Utility.
Chapter 5 Using the Teamcenter Hot Backup and Recovery Utility describes
the planning, installation, and usage of the Teamcenter
Engineering Backup and Recovery Utility.
Teamcenter Engineering belongs to the UGS® portfolio of digital product lifecycle
management software and services.
This manual contains the following chapters:
Chapter 1 Integrated Backup describes Teamcenter Engineering integrated
backup and recovery.
Chapter 2 Single File Recovery (SFR) describes Teamcenter Engineering
single file recovery.
Chapter 3 Recovery Management Backup Recommendation describes
recommendations for recovery backup management.
Chapter 4 Installing and Using the Cold Backup and Restore Utility
describes the planning, installation, and usage of the Teamcenter
Engineering Backup and Restore Utility.
Chapter 5 Using the Teamcenter Hot Backup and Recovery Utility describes
the planning, installation, and usage of the Teamcenter
Engineering Backup and Recovery Utility.
Teamcenter AutoCAD Integration
http://www.cadfamily.com/downinfo/292148.html
Managing your files with Teamcenter Engineering ensures that data can only be
modified by one user at a time. Write access is gained by checking the file out of the
Teamcenter Engineering database. To relinquish access, you must either cancel the
checkout and lose any modifications you have made to the file, or check the file
back in to the database.
The standard AutoCAD file commands are also available in Teamcenter 2005
Integration for AutoCAD. These commands store files locally, rather than in the
Teamcenter Engineering database; however, there are no restrictions preventing you
from using both AutoCAD and Teamcenter 2005 Integration for AutoCAD commands.
When you save an AutoCAD file in Teamcenter Engineering, Teamcenter 2005
Integration for AutoCAD automatically saves any files that are dependent on
the saved file. For example, if you save an AutoCAD assembly in Teamcenter
Engineering, Teamcenter 2005 Integration for AutoCAD automatically saves all
component parts and subassemblies before saving the assembly file.
Teamcenter 2005 Integration for AutoCAD Help illustrates the use of the Teamcenter
2005 Integration for AutoCAD and assumes that you are familiar with AutoCAD
concepts and usage.
Managing your files with Teamcenter Engineering ensures that data can only be
modified by one user at a time. Write access is gained by checking the file out of the
Teamcenter Engineering database. To relinquish access, you must either cancel the
checkout and lose any modifications you have made to the file, or check the file
back in to the database.
The standard AutoCAD file commands are also available in Teamcenter 2005
Integration for AutoCAD. These commands store files locally, rather than in the
Teamcenter Engineering database; however, there are no restrictions preventing you
from using both AutoCAD and Teamcenter 2005 Integration for AutoCAD commands.
When you save an AutoCAD file in Teamcenter Engineering, Teamcenter 2005
Integration for AutoCAD automatically saves any files that are dependent on
the saved file. For example, if you save an AutoCAD assembly in Teamcenter
Engineering, Teamcenter 2005 Integration for AutoCAD automatically saves all
component parts and subassemblies before saving the assembly file.
Teamcenter 2005 Integration for AutoCAD Help illustrates the use of the Teamcenter
2005 Integration for AutoCAD and assumes that you are familiar with AutoCAD
concepts and usage.
Application Integration Environment engineering process management
http://www.cadfamily.com/downinfo/292147.html
The Application Integration Environment (AIE) provides the framework and
common functions required to integrate applications with Teamcenter. This
framework consists of three components: Encapsulation Manager, Remote Manager,
and Supplier Manager.
Encapsulation Manager enables a multiple push-and-pull environment for
encapsulated applications. Remote Manager enables users to work offline and then
synchronize data with the Teamcenter database. Supplier Manager enables users to
manage data sharing between their enterprise and its suppliers.
The Application Integration Environment (AIE) provides the framework and
common functions required to integrate applications with Teamcenter. This
framework consists of three components: Encapsulation Manager, Remote Manager,
and Supplier Manager.
Encapsulation Manager enables a multiple push-and-pull environment for
encapsulated applications. Remote Manager enables users to work offline and then
synchronize data with the Teamcenter database. Supplier Manager enables users to
manage data sharing between their enterprise and its suppliers.
Security Services Release Notes in Teamcenter
http://www.cadfamily.com/downinfo/292237.html
UGS encourages customers to stay reasonably current with new releases of
Teamcenter products. This upgrade strategy ensures that users obtain the most
current announcements and information about new features in a timely manner. It
also allows UGS’s support of its products to be consistent with that of our dependent
technology partners (that is, operating systems, databases, and embedded software
products).
For a list of supported Teamcenter releases, search GTAC for the Product Support
Periods document.
UGS encourages customers to stay reasonably current with new releases of
Teamcenter products. This upgrade strategy ensures that users obtain the most
current announcements and information about new features in a timely manner. It
also allows UGS’s support of its products to be consistent with that of our dependent
technology partners (that is, operating systems, databases, and embedded software
products).
For a list of supported Teamcenter releases, search GTAC for the Product Support
Periods document.
Rich Client Framework in Teamcenter
http://www.cadfamily.com/downinfo/292236.html
This chapter describes the following topics:
• Establishing Teamcenter sessions
• Launching applications
• Using the Teamcenter rich client windows
• Using dialog window elements
• Using shortcut menus
• Expanding application groups
• Setting information center options
• Opening new default application windows
• Viewing help
• Closing applications
• Exiting Teamcenter sessions
This chapter describes the following topics:
• Establishing Teamcenter sessions
• Launching applications
• Using the Teamcenter rich client windows
• Using dialog window elements
• Using shortcut menus
• Expanding application groups
• Setting information center options
• Opening new default application windows
• Viewing help
• Closing applications
• Exiting Teamcenter sessions
Rich Client Customization Programmer Guide
http://www.cadfamily.com/downinfo/292235.html
UGS is committed to maintaining compatibility between Teamcenter
product releases. If you customize functions and methods using published
APIs and documented extension points, be assured that the next successive
release will honor these interfaces. On occasion, it may become necessary to
make behaviors more usable or to provide better integrity. Our policy is to
notify customers at the time of the release prior to the one that contains a
published interface behavior change.
UGS does not support code extensions that use unpublished and
undocumented APIs or extension points. All APIs and other extension
points are unpublished unless documented in the official set of technical
manuals and help files issued by UGS Technical Communications.
The Teamcenter license agreements prohibit reverse engineering, including:
decompiling Teamcenter object code or bytecode to derive any form of the
original source code; the inspection of header files; and the examination of
configuration files, database tables, or other artifacts of implementation.
UGS does not support code extensions made using source code created from
such reverse engineering.
If you have a comment or would like to request additional extensibility,
contact the UGS customer support representatives at GTAC for further
assistance.
UGS is committed to maintaining compatibility between Teamcenter
product releases. If you customize functions and methods using published
APIs and documented extension points, be assured that the next successive
release will honor these interfaces. On occasion, it may become necessary to
make behaviors more usable or to provide better integrity. Our policy is to
notify customers at the time of the release prior to the one that contains a
published interface behavior change.
UGS does not support code extensions that use unpublished and
undocumented APIs or extension points. All APIs and other extension
points are unpublished unless documented in the official set of technical
manuals and help files issued by UGS Technical Communications.
The Teamcenter license agreements prohibit reverse engineering, including:
decompiling Teamcenter object code or bytecode to derive any form of the
original source code; the inspection of header files; and the examination of
configuration files, database tables, or other artifacts of implementation.
UGS does not support code extensions made using source code created from
such reverse engineering.
If you have a comment or would like to request additional extensibility,
contact the UGS customer support representatives at GTAC for further
assistance.
Installation On UNIX and Linux Clients
http://www.cadfamily.com/downinfo/292234.html
Teamcenter Engineering 2005 SR1 supports the rich client on the following
operating systems:
• Hewlett-Packard HP-UX 11.0 and 11.i (11.11)
PA-RISC 1.1 is not supported.
• IBM AIX 5.1, 5.2, and 5.3
On IBM AIX hosts only, run the rootpre.sh script on the CD-ROM mount point,
as root user in a shell window.
$ /cdrom_mount_point_directory/rootpre.sh
This script configures the AIX Asynchronous I/O and Oracle Post-Wait Kernel
Extension.
• Sun Solaris 8 12/02, 9, and 10
• Novell Linux Desktop 9.0 SP2 and SUSE Linux Enterprise Server 9.0 SP1
The listed operating system versions are the minimum versions required to run
the software. Consult with the Global Technical Access Center (GTAC) regarding
compatibility with other operating system versions.
Teamcenter Engineering 2005 SR1 supports the rich client on the following
operating systems:
• Hewlett-Packard HP-UX 11.0 and 11.i (11.11)
PA-RISC 1.1 is not supported.
• IBM AIX 5.1, 5.2, and 5.3
On IBM AIX hosts only, run the rootpre.sh script on the CD-ROM mount point,
as root user in a shell window.
$ /cdrom_mount_point_directory/rootpre.sh
This script configures the AIX Asynchronous I/O and Oracle Post-Wait Kernel
Extension.
• Sun Solaris 8 12/02, 9, and 10
• Novell Linux Desktop 9.0 SP2 and SUSE Linux Enterprise Server 9.0 SP1
The listed operating system versions are the minimum versions required to run
the software. Consult with the Global Technical Access Center (GTAC) regarding
compatibility with other operating system versions.
EDA User Guide in Teamcenter
http://www.cadfamily.com/downinfo/292233.html
Perform the following general steps to install Teamcenter EDA:
1. Ensure your system meets minimum software and hardware requirements.
2. Install prerequisite applications and licenses. Verify proper operation before
continuing.
3. Install the Teamcenter EDA data model to the server, and install the Teamcenter
EDA client.
4. Configure creation of viewable files (optional).
Follow the directions in the subsequent sections of this chapter to perform these
steps.
Perform the following general steps to install Teamcenter EDA:
1. Ensure your system meets minimum software and hardware requirements.
2. Install prerequisite applications and licenses. Verify proper operation before
continuing.
3. Install the Teamcenter EDA data model to the server, and install the Teamcenter
EDA client.
4. Configure creation of viewable files (optional).
Follow the directions in the subsequent sections of this chapter to perform these
steps.
Clear Case Integration in Teamcenter
http://www.cadfamily.com/downinfo/292232.html
The integration of ClearCase with Teamcenter Engineering brings in better version
management capabilities of software files in ClearCase, while doing product
modeling, workflow, and process management in Teamcenter. You can use the
Teamcenter Engineering rich client browser to manage the product data of the
hardware part of the product and use ClearCase to manage the product data of the
software part of the product. You can manage the development life cycle of software
designed for hardware whose data is already managed in Teamcenter.
The main tasks you can complete with the integration are as follows:
• Access ClearCase information from Teamcenter, allowing you to query and
access the ClearCase views and versioned object bases (VOB).
• Select, get information about, and update ClearCase files and directories.
The integration of ClearCase with Teamcenter Engineering brings in better version
management capabilities of software files in ClearCase, while doing product
modeling, workflow, and process management in Teamcenter. You can use the
Teamcenter Engineering rich client browser to manage the product data of the
hardware part of the product and use ClearCase to manage the product data of the
software part of the product. You can manage the development life cycle of software
designed for hardware whose data is already managed in Teamcenter.
The main tasks you can complete with the integration are as follows:
• Access ClearCase information from Teamcenter, allowing you to query and
access the ClearCase views and versioned object bases (VOB).
• Select, get information about, and update ClearCase files and directories.
AutoCAD Integration Release Notes
http://www.cadfamily.com/downinfo/292231.html
This manual contains general notes, descriptions of known problems, and corrections
to the documentation. Teamcenter® Engineering belongs to the UGS® portfolio of
digital product lifecycle management software and services.
This document supplements the Teamcenter Engineering Help Library.
If you find information inconsistent with that found in that Teamcenter
Engineering Help Library, contact the UGS Global Technical Access Center
(GTAC) for clarification.
This manual contains general notes, descriptions of known problems, and corrections
to the documentation. Teamcenter® Engineering belongs to the UGS® portfolio of
digital product lifecycle management software and services.
This document supplements the Teamcenter Engineering Help Library.
If you find information inconsistent with that found in that Teamcenter
Engineering Help Library, contact the UGS Global Technical Access Center
(GTAC) for clarification.
Wiring Harness Design Tools
http://www.cadfamily.com/downinfo/292346.html
This chapter provides an overview of the Teamcenter Engineering Integration for
Wiring Harness Design Tools and its capabilities.
This chapter includes the following topics:
• An introduction to wiring harnesses and their design.
• An overview of the STEP AP212 standard.
• The capabilities of the Teamcenter solution for wiring harness design.
• The fundamental objects you can manage with the Teamcenter Engineering
Integration for Wiring Harness Design Tools, including interfaces, connections
and signals.
• Working with fundamental wiring harness objects using Teamcenter applications
and APIs.
• User interface information
• API support
This chapter provides an overview of the Teamcenter Engineering Integration for
Wiring Harness Design Tools and its capabilities.
This chapter includes the following topics:
• An introduction to wiring harnesses and their design.
• An overview of the STEP AP212 standard.
• The capabilities of the Teamcenter solution for wiring harness design.
• The fundamental objects you can manage with the Teamcenter Engineering
Integration for Wiring Harness Design Tools, including interfaces, connections
and signals.
• Working with fundamental wiring harness objects using Teamcenter applications
and APIs.
• User interface information
• API support
the program files associated with the utilities
http://www.cadfamily.com/downinfo/292345.html
Unless otherwise noted in the description of a utility, the program files
associated with the utilities described in this manual are located in the bin
directory under the Teamcenter Engineering application root directory.
Teamcenter Engineering administrators typically configure site workstations and
computers so that users can log in without manually setting the environment. If this
has not been done by your administrator, you must manually set the Teamcenter
Engineering environment before you can run a session.
IMAN_ROOT and IMAN_DATA are the only environment variable settings
required to run the core Teamcenter Engineering application. These variables can
be set automatically at login. However, there are several standalone utilities such as
install and clearlocks that also require that the entire Teamcenter Engineering
environment be set.
If you are unsure whether to perform this procedure, consult your administrator for
additional information.
Unless otherwise noted in the description of a utility, the program files
associated with the utilities described in this manual are located in the bin
directory under the Teamcenter Engineering application root directory.
Teamcenter Engineering administrators typically configure site workstations and
computers so that users can log in without manually setting the environment. If this
has not been done by your administrator, you must manually set the Teamcenter
Engineering environment before you can run a session.
IMAN_ROOT and IMAN_DATA are the only environment variable settings
required to run the core Teamcenter Engineering application. These variables can
be set automatically at login. However, there are several standalone utilities such as
install and clearlocks that also require that the entire Teamcenter Engineering
environment be set.
If you are unsure whether to perform this procedure, consult your administrator for
additional information.
Translation Solution Toolkit Installation
http://www.cadfamily.com/downinfo/292344.html
A translation server functions as an independent compute server that translates files
from one format to other formats. It consists of a translation scheduler, translation
modules, and an optional test client. For better load balancing, each translation
module resides on a separate machine and is connected to the translation scheduler.
The scheduler sends translation tasks to the modules and they invoke one or more
translators to perform the translations.
The translation server allows you to perform translations either using a Web server
(Web mode) or through remote method invocation (RMI) mode. RMI is a standard
for distributed objects written in Java and uses a remote procedure call (RPC) to
invoke applications, components, and/or modules in a network. Translations using
the RMI mode are generally faster. The translation server standard installation
supports RMI mode.
• Web mode: For performing translations across a firewall. This mode requires a
Web server and a file server.
• RMI mode: For performing translations within a firewall. This mode requires
a common staging directory.
For more information about the Web mode and RMI mode, see Translation Process,
later in this chapter.
The scheduler balances the translation load in the event of multiple translation
requests. If you have numerous translation tasks in the scheduler queue at your
site, you can start multiple modules. Each module is automatically connected to
the translation scheduler and immediately starts participating in the translation
process.
The translation task request embeds information of the source file location and
type of translation. The module starts a separate thread to process each request.
On starting the thread, the module downloads the source file from the file server
or common staging directory location to a unique directory, invokes the required
translator, and starts the translation process. After the translation server
successfully completes the translation process, the module uploads the resulting files
to the file server or common staging directory location and notifies the scheduler.
The scheduler then communicates the status of the translation to the client.
A translation server functions as an independent compute server that translates files
from one format to other formats. It consists of a translation scheduler, translation
modules, and an optional test client. For better load balancing, each translation
module resides on a separate machine and is connected to the translation scheduler.
The scheduler sends translation tasks to the modules and they invoke one or more
translators to perform the translations.
The translation server allows you to perform translations either using a Web server
(Web mode) or through remote method invocation (RMI) mode. RMI is a standard
for distributed objects written in Java and uses a remote procedure call (RPC) to
invoke applications, components, and/or modules in a network. Translations using
the RMI mode are generally faster. The translation server standard installation
supports RMI mode.
• Web mode: For performing translations across a firewall. This mode requires a
Web server and a file server.
• RMI mode: For performing translations within a firewall. This mode requires
a common staging directory.
For more information about the Web mode and RMI mode, see Translation Process,
later in this chapter.
The scheduler balances the translation load in the event of multiple translation
requests. If you have numerous translation tasks in the scheduler queue at your
site, you can start multiple modules. Each module is automatically connected to
the translation scheduler and immediately starts participating in the translation
process.
The translation task request embeds information of the source file location and
type of translation. The module starts a separate thread to process each request.
On starting the thread, the module downloads the source file from the file server
or common staging directory location to a unique directory, invokes the required
translator, and starts the translation process. After the translation server
successfully completes the translation process, the module uploads the resulting files
to the file server or common staging directory location and notifies the scheduler.
The scheduler then communicates the status of the translation to the client.
information about the configuration and usage of Teamcenter
http://www.cadfamily.com/downinfo/292340.html
This manual provides information about the configuration and usage of Teamcenter
for Simulation. Teamcenter® Engineering belongs to the UGS® portfolio of digital
product lifecycle management software and services
This manual contains the following chapters:
Chapter 1 Getting started provides an overview and license information
about CAE Structure Editor (CAE SE). It describes
the interface and the basic tasks involved in managing
engineering analysis data in Teamcenter. It provides
information about launching CAE SE, and configuring various
features and managing preferences specific to engineering
analysis data in Teamcenter. It discusses about the object
types that your administrator sets up for you.
Chapter 2 Preparing CAE data for analysis describes the process
of creating and managing engineering analysis data in
Teamcenter. It describes new CAE items, and provides
information about creating and revising CAE items and
sending items to CAE SE from other Teamcenter applications.
Chapter 3 Managing CAE data for analysis provides information about
managing engineering analysis data in CAE Structure Editor
(CAE SE) and generating CAE model structures using the
data map and/or structure map definitions. It describes
the Product, Model, and Analysis panes, and specific data
panel objects. It also describes the batch meshing feature in
Teamcenter.
Chapter 4 Defining structure map rules provides an overview and the
process of creating and managing structure map rules in
Structure Map Builder. It describes the interface and provides
information about launching Structure Map Builder.
This manual provides information about the configuration and usage of Teamcenter
for Simulation. Teamcenter® Engineering belongs to the UGS® portfolio of digital
product lifecycle management software and services
This manual contains the following chapters:
Chapter 1 Getting started provides an overview and license information
about CAE Structure Editor (CAE SE). It describes
the interface and the basic tasks involved in managing
engineering analysis data in Teamcenter. It provides
information about launching CAE SE, and configuring various
features and managing preferences specific to engineering
analysis data in Teamcenter. It discusses about the object
types that your administrator sets up for you.
Chapter 2 Preparing CAE data for analysis describes the process
of creating and managing engineering analysis data in
Teamcenter. It describes new CAE items, and provides
information about creating and revising CAE items and
sending items to CAE SE from other Teamcenter applications.
Chapter 3 Managing CAE data for analysis provides information about
managing engineering analysis data in CAE Structure Editor
(CAE SE) and generating CAE model structures using the
data map and/or structure map definitions. It describes
the Product, Model, and Analysis panes, and specific data
panel objects. It also describes the batch meshing feature in
Teamcenter.
Chapter 4 Defining structure map rules provides an overview and the
process of creating and managing structure map rules in
Structure Map Builder. It describes the interface and provides
information about launching Structure Map Builder.
The Teamcenter Manufacturing – Tecnomatix collaboration context integration
http://www.cadfamily.com/downinfo/292343.html
The Teamcenter Manufacturing – Tecnomatix collaboration context integration
allows data sharing and exchange between Teamcenter Manufacturing and
Tecnomatix. The integration components are released as part of the Teamcenter
Engineering product, and you should refer to the Teamcenter Engineering
installation documentation for information about installing and licensing of the base
product. Integration components must also be installed on the Tecnomatix system,
and you should refer to the Tecnomatix documentation for information about this
requirement.
The Teamcenter Manufacturing – Tecnomatix collaboration context integration
allows data sharing and exchange between Teamcenter Manufacturing and
Tecnomatix. The integration components are released as part of the Teamcenter
Engineering product, and you should refer to the Teamcenter Engineering
installation documentation for information about installing and licensing of the base
product. Integration components must also be installed on the Tecnomatix system,
and you should refer to the Tecnomatix documentation for information about this
requirement.
Teamcenter Manufacturing User And AdministratorManual
http://www.cadfamily.com/downinfo/292342.html
Teamcenter Manufacturing allows you to manage assembly and fabrication of
products whose design process is managed by Teamcenter Engineering. This
chapter contains an introduction to the design of a manufacturing process and its
components.
This chapter describes the following topics:
• The scope of the Teamcenter Manufacturing product.
• The structures and operations you can create and maintain.
• How to use resources as part of the manufacturing process.
Teamcenter Manufacturing allows you to manage assembly and fabrication of
products whose design process is managed by Teamcenter Engineering. This
chapter contains an introduction to the design of a manufacturing process and its
components.
This chapter describes the following topics:
• The scope of the Teamcenter Manufacturing product.
• The structures and operations you can create and maintain.
• How to use resources as part of the manufacturing process.
10/14/2009
Teamcenter Interoperability - the process of linking
http://www.cadfamily.com/downinfo/292341.html
This chapter describes Teamcenter interoperability, the process of linking
Teamcenter applications so that objects in one application can be shared by another
Teamcenter application.Interoperability allows you to create and maintain links between objects in one Teamcenter application with objects in the other Teamcenter applications and to
launch the other application so that it displays the linked object.
There are various types of links a Teamcenter user can create in order to link
with other remote Teamcenter applications. Some of these links are available only
between certain applications. Others are available across Teamcenter applications.
This chapter describes Teamcenter interoperability, the process of linking
Teamcenter applications so that objects in one application can be shared by another
Teamcenter application.Interoperability allows you to create and maintain links between objects in one Teamcenter application with objects in the other Teamcenter applications and to
launch the other application so that it displays the linked object.
There are various types of links a Teamcenter user can create in order to link
with other remote Teamcenter applications. Some of these links are available only
between certain applications. Others are available across Teamcenter applications.
SMS Software Distribution Guidelines
http://www.cadfamily.com/downinfo/292339.html
The SMS software distribution process contains three steps designed to target a collection of SMS resources.
· Package Creation and Distribution
· Program Creation and Configuration
· Creation of Program Advertisements
In order to advertise software to SMS clients, the first step is to create a package. A package contains the files and/or instructions that SMS must use to distribute software to a distribution point. Clients access distribution points to obtain a package.
Software packages contain the files that SMS clients will need to execute, copy, read, etc. These files must be copied to a distribution point in the SMS site where the targeted clients are located. If a package is not placed on a distribution point, clients will not be able to access the advertised software.
The SMS software distribution process contains three steps designed to target a collection of SMS resources.
· Package Creation and Distribution
· Program Creation and Configuration
· Creation of Program Advertisements
In order to advertise software to SMS clients, the first step is to create a package. A package contains the files and/or instructions that SMS must use to distribute software to a distribution point. Clients access distribution points to obtain a package.
Software packages contain the files that SMS clients will need to execute, copy, read, etc. These files must be copied to a distribution point in the SMS site where the targeted clients are located. If a package is not placed on a distribution point, clients will not be able to access the advertised software.
Security Services Installation Customization
http://www.cadfamily.com/downinfo/292338.html
The basic concept behind Security Services is the notion of a single sign-on
(SSO) session. An SSO session spans one or more Teamcenter applications. It is
established after the user is successfully authenticated through a Teamcenter login,
which occurs as a side effect of the user accessing the first Teamcenter application.
The session terminates either after the user logs out of each Teamcenter application
or after the session expires.
Session expiration occurs if there is no interaction with Security Services over some
configurable span of time, even if the user is actively using one or more Teamcenter
applications. However, SSO session expiration does not affect a user’s current
session with any Teamcenter application; it simply means they receive another login
challenge if they start another Teamcenter application.
The Security Services installation package consists of the following components:
• LoginService
In the Web Application Manager, this appears as Teamcenter Security Services
Login Service Web Application.
• IdentityService
In the Web Application Manager, this appears as Teamcenter Security Services
Identity Service Web Application.
• A default identity provider implementation that is used by Security Services and
can be configured to work with a variety of lightweight directory access protocol
(LDAP) servers.
The basic concept behind Security Services is the notion of a single sign-on
(SSO) session. An SSO session spans one or more Teamcenter applications. It is
established after the user is successfully authenticated through a Teamcenter login,
which occurs as a side effect of the user accessing the first Teamcenter application.
The session terminates either after the user logs out of each Teamcenter application
or after the session expires.
Session expiration occurs if there is no interaction with Security Services over some
configurable span of time, even if the user is actively using one or more Teamcenter
applications. However, SSO session expiration does not affect a user’s current
session with any Teamcenter application; it simply means they receive another login
challenge if they start another Teamcenter application.
The Security Services installation package consists of the following components:
• LoginService
In the Web Application Manager, this appears as Teamcenter Security Services
Login Service Web Application.
• IdentityService
In the Web Application Manager, this appears as Teamcenter Security Services
Identity Service Web Application.
• A default identity provider implementation that is used by Security Services and
can be configured to work with a variety of lightweight directory access protocol
(LDAP) servers.
Product Structure Advanced User Guide
http://www.cadfamily.com/downinfo/292337.html
This manual describes the basic concepts behind Teamcenter® Engineering product
structure and includes advanced information on how to use and administer it. It
provides information on best practices when configuring and managing product
structures. Teamcenter Engineering belongs to the UGS® portfolio of digital product
lifecycle management software and services. You should understand the contents
of this manual before you design a product structure
This manual describes the basic concepts behind Teamcenter® Engineering product
structure and includes advanced information on how to use and administer it. It
provides information on best practices when configuring and managing product
structures. Teamcenter Engineering belongs to the UGS® portfolio of digital product
lifecycle management software and services. You should understand the contents
of this manual before you design a product structure
10/12/2009
CAD-Appearance Configuration in Teamcenter
http://www.cadfamily.com/downinfo/292333.html
This manual describes how to configure appearances. Appearances are a sequence of
occurrences describing a unique path through an exploded structure. Teamcenter®
Engineering belongs to the UGS® portfolio of digital product lifecycle management
software and services.
This manual describes how to configure appearances. Appearances are a sequence of
occurrences describing a unique path through an exploded structure. Teamcenter®
Engineering belongs to the UGS® portfolio of digital product lifecycle management
software and services.
CAD-Classification Administration to categorize your company’s product data
http://www.cadfamily.com/downinfo/292334.html
The Classification application utilizes a classification hierarchy to categorize your
company’s product data. As the system administrator, you use Classification
Administration to define the groups, classes, and views that form the classification
hierarchy. You also define and format the attributes that, when associated with a
class, determine the type of information that is stored.
The Classification Administration application is best suited for creating a new
hierarchy structure or for maintaining an existing hierarchy. If you are creating
a large classification structure and have a form of bulk data, such as an existing
classification structure that can be imported into the database, it is more expeditious
to import the data. For more information, see chapter 14, Importing and Exporting
Hierarchy Data.
The Classification application utilizes a classification hierarchy to categorize your
company’s product data. As the system administrator, you use Classification
Administration to define the groups, classes, and views that form the classification
hierarchy. You also define and format the attributes that, when associated with a
class, determine the type of information that is stored.
The Classification Administration application is best suited for creating a new
hierarchy structure or for maintaining an existing hierarchy. If you are creating
a large classification structure and have a form of bulk data, such as an existing
classification structure that can be imported into the database, it is more expeditious
to import the data. For more information, see chapter 14, Importing and Exporting
Hierarchy Data.
CAD-ETS Customization to support data translation
http://www.cadfamily.com/downinfo/292335.html
ETS provides a generic framework to support data translation including the
triggering of translations, extraction of data from Teamcenter for translator input,
translation of the data in the TSTK, storage of the TSTK translation results in
Teamcenter, and management of the translation request.
This document is intended to provide the necessary information to enable successful
ETS customization to meet the varying needs of UGS customers.
ETS was originally envisioned to resolve a data incomplete situation that was
created when an assembly was imported into Teamcenter with I-deas® data sharing
import. Following the import, no assembly transforms were available. As the
requirements accumulated for Engineering Translation Services, the vision of ETS
evolved into a generic framework incorporating the Translation Solution Toolkit
(TSTK) that could support any type of translation provided by TSTK.
One of the more significant requirements placed on ETS was the generation of
visualization data in a way that minimally impacts user resources. As a result, ETS
is asynchronous, driven by requests to translate objects. Requests to translate an
object or objects are created by specific user actions, triggers, or by background
processes and are persisted for the lifetime of the translation.
ETS provides a generic framework to support data translation including the
triggering of translations, extraction of data from Teamcenter for translator input,
translation of the data in the TSTK, storage of the TSTK translation results in
Teamcenter, and management of the translation request.
This document is intended to provide the necessary information to enable successful
ETS customization to meet the varying needs of UGS customers.
ETS was originally envisioned to resolve a data incomplete situation that was
created when an assembly was imported into Teamcenter with I-deas® data sharing
import. Following the import, no assembly transforms were available. As the
requirements accumulated for Engineering Translation Services, the vision of ETS
evolved into a generic framework incorporating the Translation Solution Toolkit
(TSTK) that could support any type of translation provided by TSTK.
One of the more significant requirements placed on ETS was the generation of
visualization data in a way that minimally impacts user resources. As a result, ETS
is asynchronous, driven by requests to translate objects. Requests to translate an
object or objects are created by specific user actions, triggers, or by background
processes and are persisted for the lifetime of the translation.
CAD-Installation On Windows Servers
http://www.cadfamily.com/downinfo/292336.html
This manual describes the installation and upgrade of Teamcenter® Engineering
2005 SR1 on Microsoft Windows servers. Teamcenter Engineering belongs to the
UGS® portfolio of digital product lifecycle management software and services.
This manual is a reference for persons installing Teamcenter Engineering on
Microsoft Windows servers. This installation should be performed only by qualified
persons with a thorough working knowledge of the Windows operating system
This manual describes the installation and upgrade of Teamcenter® Engineering
2005 SR1 on Microsoft Windows servers. Teamcenter Engineering belongs to the
UGS® portfolio of digital product lifecycle management software and services.
This manual is a reference for persons installing Teamcenter Engineering on
Microsoft Windows servers. This installation should be performed only by qualified
persons with a thorough working knowledge of the Windows operating system
10/10/2009
Multiflash Command Reference
http://www.cadfamily.com/downinfo/290978.html
Multiflash is an advanced software package for performing complex
equilibrium calculations quickly and reliably. The main utility is a
multiple phase equilibrium algorithm which is interfaced to
Infochem’s package of thermo dynamic models and a number of
physical property data banks. The program also contains Infochem’s
Chemreact utility for performing simultaneous phase and chemical
equilibrium calculations
This document describes the Multiflash command language which
can be used to configure and drive the software. Multiflash itself
can be used and accessed in many different ways (see below) but
the command language is common to all implementations. An
overview of the Multiflash software structure is given in the diagram
on the following page.
The command-line version of Multiflash is largely machine
independent. It can be run by typing in all the necessary instructions
at the command line or by reading in files of commands. The
software is also available as an interactive Micro soft Windows
program (see the User’s Guide for Multiflash for Windows) and as an
add-in for use with the Microsoft Excel spreadsheet program (see
the User’s Guide for Multiflash Excel Interface).
For application developers Multiflash can be used as a set of
procedures callable from Microsoft Visual Basic (see the
Programmer’s Guide for the Multiflash Visual Basic Interface), C and
C++ (see the Programmer’s Guide for the Multiflash C Language
Interface) and Fortran. The low-level application interface is descried
in the Multiflash Programmer’s Guide.
Multiflash is an advanced software package for performing complex
equilibrium calculations quickly and reliably. The main utility is a
multiple phase equilibrium algorithm which is interfaced to
Infochem’s package of thermo dynamic models and a number of
physical property data banks. The program also contains Infochem’s
Chemreact utility for performing simultaneous phase and chemical
equilibrium calculations
This document describes the Multiflash command language which
can be used to configure and drive the software. Multiflash itself
can be used and accessed in many different ways (see below) but
the command language is common to all implementations. An
overview of the Multiflash software structure is given in the diagram
on the following page.
The command-line version of Multiflash is largely machine
independent. It can be run by typing in all the necessary instructions
at the command line or by reading in files of commands. The
software is also available as an interactive Micro soft Windows
program (see the User’s Guide for Multiflash for Windows) and as an
add-in for use with the Microsoft Excel spreadsheet program (see
the User’s Guide for Multiflash Excel Interface).
For application developers Multiflash can be used as a set of
procedures callable from Microsoft Visual Basic (see the
Programmer’s Guide for the Multiflash Visual Basic Interface), C and
C++ (see the Programmer’s Guide for the Multiflash C Language
Interface) and Fortran. The low-level application interface is descried
in the Multiflash Programmer’s Guide.
gPROMS System Programmer Guide
http://www.cadfamily.com/downinfo/291005.html
This manual describes several advanced features of the gPROMS package. These in-
clude:
The gPROMS Foreign Object Interface (see chapter 2).
Foreign Objects are external software components that provide certain compu-
tational services to gPROMS MODELs. These include physical property packages,
external unit operation modules, or even complete computational
uid dynam-
ics (CFD) software packages. This chapter explains how to make use of foreign
objects that are already interfaced to gPROMS; and also how to develop and
interface your own foreign objects.
The gPROMS Physical Property Interface (see chapter 3).
Physical property packages form a special type of foreign objects (see above) that
are encountered very frequently in practice. The gPROMS Physical Property
Interface (PPI) de nes a standard set of physical property facilities that should be
supported by all physical property packages interfaced to gPROMS. Some widely
used physical property packages are already interfaced to gPROMS; details on
how to use them are also provided in this chapter. Finally, the PPI provides
a particularly convenient way of interfacing new physical property packages to
gPROMS.
The gPROMS Foreign Process Interface (see chapter 4).
The Foreign Process Interface (FPI) allows gPROMS simulations to interact with
external software such as distributed control systems and operator training pack-
ages in order to exchange data and other information. The interaction takes the
form of a special set of elementary actions within the gPROMS TASK language.
FPI is particularly useful for embedding gPROMS simulations within larger soft-
ware systems.
This manual describes several advanced features of the gPROMS package. These in-
clude:
The gPROMS Foreign Object Interface (see chapter 2).
Foreign Objects are external software components that provide certain compu-
tational services to gPROMS MODELs. These include physical property packages,
external unit operation modules, or even complete computational
uid dynam-
ics (CFD) software packages. This chapter explains how to make use of foreign
objects that are already interfaced to gPROMS; and also how to develop and
interface your own foreign objects.
The gPROMS Physical Property Interface (see chapter 3).
Physical property packages form a special type of foreign objects (see above) that
are encountered very frequently in practice. The gPROMS Physical Property
Interface (PPI) de nes a standard set of physical property facilities that should be
supported by all physical property packages interfaced to gPROMS. Some widely
used physical property packages are already interfaced to gPROMS; details on
how to use them are also provided in this chapter. Finally, the PPI provides
a particularly convenient way of interfacing new physical property packages to
gPROMS.
The gPROMS Foreign Process Interface (see chapter 4).
The Foreign Process Interface (FPI) allows gPROMS simulations to interact with
external software such as distributed control systems and operator training pack-
ages in order to exchange data and other information. The interaction takes the
form of a special set of elementary actions within the gPROMS TASK language.
FPI is particularly useful for embedding gPROMS simulations within larger soft-
ware systems.
gPROMS Advanced User Guide
http://www.cadfamily.com/downinfo/291003.html
This manual describes several advanced features of the gPROMS package. These include:
Dynamic Optimisation in gPROMS (see chapter 2).
gPROMS can be used to optimise the steady-state and/or the dynamic behaviour
of a continuous or batch process. Both plant design and operational optimisation
can be carried out. The form of the objective function and the constraints can
be quite general. Moreover, the optimisation decision variables can be either
functions of time (\controls") or time-invariant quantities.
Parameter Estimation in gPROMS (see chapter 3).
gPROMS can be used to estimate the values of model parameters from the results
of one or more experiments. Both steady-state and dynamic experiments can be
used for this purpose. The experiments can employ di erent initial conditions
and/or operating sequences; the sets of variables measured by each experiment,
as well as the times at which these measurements are taken, may also di er from
experiment to experiment.
The gPROMS Foreign Object Interface (see chapter 4).
Foreign Objects are external software components that provide certain computational
services to gPROMS MODELs. These include physical property packages,
external unit operation modules, or even complete computational
uid dynamics
(CFD) software packages.
This manual describes several advanced features of the gPROMS package. These include:
Dynamic Optimisation in gPROMS (see chapter 2).
gPROMS can be used to optimise the steady-state and/or the dynamic behaviour
of a continuous or batch process. Both plant design and operational optimisation
can be carried out. The form of the objective function and the constraints can
be quite general. Moreover, the optimisation decision variables can be either
functions of time (\controls") or time-invariant quantities.
Parameter Estimation in gPROMS (see chapter 3).
gPROMS can be used to estimate the values of model parameters from the results
of one or more experiments. Both steady-state and dynamic experiments can be
used for this purpose. The experiments can employ di erent initial conditions
and/or operating sequences; the sets of variables measured by each experiment,
as well as the times at which these measurements are taken, may also di er from
experiment to experiment.
The gPROMS Foreign Object Interface (see chapter 4).
Foreign Objects are external software components that provide certain computational
services to gPROMS MODELs. These include physical property packages,
external unit operation modules, or even complete computational
uid dynamics
(CFD) software packages.
Subscribe to:
Posts (Atom)