popFont="MS Sans Serif,10"
p_Sonnet_ProjectCopy_Copy_PB="Clicking on this button executes the copy specified in the To and From text entry boxes above."
p_Sonnet_ProjectCopy_Details_PB="Clicking on this button opens a display window which contains messages describing the execution of the command. If no problems have occurred, it will state that the command was successful. If errors have occurred, an error message is displayed here. This button is enabled only at the completion of the command."
p_Sonnet_ProjectUnpack_Details_PB="Clicking on this button opens a display window which contains messages describing the execution of the command. If no problems have occurred, it will state that the command was successful. If errors have occurred, an error message is displayed here. This button is enabled only at the completion of the command."
p_Sonnet_ProjectRename_Details_PB="Clicking on this button opens a display window which contains messages describing the execution of the command. If no problems have occurred, it will state that the command was successful. If errors have occurred, an error message is displayed here. This button is enabled only at the completion of the command."
p_Sonnet_ProjectPack_Details_PB="Clicking on this button opens a display window which contains messages describing the execution of the command. If no problems have occurred, it will state that the command was successful. If errors have occurred, an error message is displayed here. This button is enabled only at the completion of the command."
p_Sonnet_ProjectMove_Details_PB="Clicking on this button opens a display window which contains messages describing the execution of the command. If no problems have occurred, it will state that the command was successful. If errors have occurred, an error message is displayed here. This button is enabled only at the completion of the command."
p_Sonnet_ProjectDelete_Details_PB="Clicking on this button opens a display window which contains messages describing the execution of the command. If no problems have occurred, it will state that the command was successful. If errors have occurred, an error message is displayed here. This button is enabled only at the completion of the command."
p_Sonnet_ProjectClean_Details_PB="Clicking on this button opens a display window which contains messages describing the execution of the command. If no problems have occurred, it will state that the command was successful. If errors have occurred, an error message is displayed here. This button is enabled only at the completion of the command."
p_Sonnet_ProjectCopy_CancelClose_PB="Clicking on this button closes the dialog box once you have completed the desired operation(s)."
p_Sonnet_ProjectUnpack_CancelClose_PB="Clicking on this button closes the dialog box once you have completed the desired operation(s)."
p_Sonnet_ProjectRename_CancelClose_PB="Clicking on this button closes the dialog box once you have completed the desired operation(s)."
p_Sonnet_ProjectPack_CancelClose_PB="Clicking on this button closes the dialog box once you have completed the desired operation(s)."
p_Sonnet_ProjectMove_CancelClose_PB="Clicking on this button closes the dialog box once you have completed the desired operation(s)."
p_Sonnet_ProjectDelete_CancelClose_PB="Clicking on this button closes the dialog box once you have completed the desired operation(s)."
p_Sonnet_ProjectClean_CancelClose_PB="Clicking on this button closes the dialog box once you have completed the desired operation(s)."
p_Sonnet_ProjectCopy_BrowseFrom_PB="Clicking on this button opens a browse window which allows you to select the project(s) you wish to copy. You may select multiple projects by holding down the Control button as you click on project names."
p_Sonnet_ProjectCopy_BrowseTo_PB="Clicking on this button opens a browse window which allows you to select the directory to which you wish to copy the projects specified in the From section of the dialog box, and in the case of a single Project copy, the name which you wish to use for the project copy."
p_Sonnet_ProjectCopy_ProjectFrom_EC="Enter the project files you wish to copy here. You may specify a single or multiple files. Any files selected using the browse window are automatically entered here. If you input multiple file names separate the file names using a comma (,) semi-colon (;) or space. If the file name contains a space, then the name should be enclosed in quotes, i.e., ''Comb filter.son''."
p_Sonnet_ProjectCopy_ProjectTo_EC="Enter the name to which the file input in the From text entry box above is copied. If this text entry is left blank, the source project file is copied to the same project file name in another directory. This text entry is disabled for multiple file copies. If the file name contains a space, then the name should be enclosed in quotes, i.e., ''Comb filter.son''."
p_Sonnet_ProjectMove_Move_PB="Clicking on this button executes the move specified in the To and From sections above."
p_Sonnet_ProjectMove_BrowseFrom_PB="Clicking on this button opens a browse window which allows you to select the projects(s) you wish to move. You may select multiple projects by holding down the Control button as you click on project names."
p_Sonnet_ProjectMove_BrowseTo_PB="Clicking on this button opens a browse window which allows you to select the directory to which you wish to move the projects specified in the From section of the dialog box."
p_Sonnet_ProjectMove_ProjectFrom_EC="Enter the projects you wish to move here. You may specify a single or multiple projects. Any projects selected using the browse window are automatically entered here. If you input multiple project names, separate the project names using a comma (,) semi-colon (;) or space. If the project name contains a space, then the name should be enclosed in quotes, i.e., ''Comb filter.son''."
p_Main_Menu_Popup="The main menu for the Sonnet task bar which allows you to access the project management and administrative functions."
p_Project_Editor_button="Clicking on this button invokes the project editor which allows you to edit your circuit. When the button is clicked, a pop up menu appears which allows you to open a new geometry or netlist project file, browse to find the file you wish to open or choose a file from the most recently used (MRU) list."
p_Analysis_Monitor_button="Clicking on this button invokes the analysis monitor and launches an analysis for the selected project file using the saved analysis settings. When the button is clicked, a popup menu appears which allows you to open a new batch file, browse to find the file you wish to analyze or choose a file from the most recently used (MRU) list."
p_Current_Density_Viewer_button="Clicking on this button invokes the current density viewer and opens a current density plot of the selected project file. When the button is clicked, a popup menu appears which allows you to browse to find the desired project file or you may choose a file from the most recently used (MRU) list."
p_Far_Field_Viewer_button="Clicking on this button invokes the far field viewer and opens a plot of the far field radiation pattern of the selected project file. When the button is clicked, a popup menu appears which allows you to browse to find the desired project file or you may choose a file from the most recently used (MRU) list."
p_Manuals_button="Clicking on this button opens a PDF file in Adobe Acrobat which provides access to the Sonnet User's Manuals, Sonnet Tutorial, Sonnet Installation Manuals, Sonnet Examples, and other release documentation in PDF format."
p_Response_Viewer_button="Clicking on this button invokes the response viewer and opens a Cartesian graph of the selected project file's response data. When the button is clicked, a popup menu appears which allows you to browse to find the desired project file or you may choose a file from the most recently used (MRU) list."
p_Sonnet_ProjectRename_BrowseFrom_PB="Click on this button to open a Browse dialog box which allows you to select the project you wish to rename. You can use this dialog box to change source directories."
p_Sonnet_ProjectRename_Rename_PB="Click on the this button to perform the renaming. The specified project in the From entry box is renamed to the new project name entered in the To entry box. Messages indicating the progress of the rename are displayed in the Rename Project dialog box."
p_Sonnet_ProjectRename_ProjectFrom_EC="Enter the name of the existing project that you wish to rename in this text entry box. If you do not wish to enter the file directly, or if you wish to change the source directory, you may also click on the Browse button to open a dialog box which allows you to select a project on your computer. You may only enter or select one project at a time to rename."
p_Sonnet_ProjectRename_ProjectTo_EC="Enter the desired new project name in this text entry box. The source project is renamed using this project name. If the project name contains a space, then the name should be enclosed in quotes, i.e., ''Comb filter.son''."
p_Sonnet_ProjectDelete_BrowseFrom_PB="Click on this button to open a Browse dialog box which allows you to select the project(s) you wish to delete. You may also use this dialog box to change source directories. You may enter a single project to delete, or multiple projects to delete. Note that by holding down the Control key, you may select multiple projects in the browse window."
p_Sonnet_ProjectDelete_Delete_PB="Click on the this button to perform the project delete. The specified project(s) in the Project(s) text entry box is (are) deleted. Messages indicating the progress of the delete are displayed in the Delete Project dialog box."
p_Sonnet_ProjectDelete_ProjectFrom_EC="Enter the name of the existing project(s) that you wish to delete in this text entry box in the Delete Project dialog box. If you input multiple file names, separate the file names using a comma (,) semi-colon (;) or space. If the file name contains a space, then the name should be enclosed in quotes, i.e., ''Comb filter.son''. If you do not wish to enter the file directly, you may also click on the Browse button to open a dialog box which allows you to select a file on your computer. You may enter a single file to delete, or multiple files to delete. Note that by holding down the Control key, you may select multiple project files in the browse window."
p_Sonnet_ProjectPack_Pack_PB="Click on this button to execute the pack command on the specified projects. The projects entered in the Projects text entry box in the From section of the dialog box are packed and the archive file with the extension .zon is saved in the Directory specified in the To section of the dialog box. Messages indicating the progress of the pack are displayed in the Pack Project dialog box."
p_Sonnet_ProjectPack_IncludeData_CB="Click on this checkbox to include any calculated Current Density data. Current Density data produced when the Compute Current Density option was selected for the analysis is stored as part of your project file. When you are packing your project you can choose whether to include this data, which can be sizable, in the archive file. "
p_Sonnet_ProjectPack_BrowseFrom_PB="Use this button to open a browse window which allows you to choose the projects(s) you wish to pack. You can change the directory of the source files using this dialog box. You may select a single project to pack, or multiple project to pack. Note that by holding down the Control key, you may select multiple projects in the browse window."
p_Sonnet_ProjectPack_BrowseTo_PB="Click on this button to open a browse window which allows you to select a destination directory for your archive file(s).  The selected directory is displayed in the To section of the dialog box. The archive files are created in the destination directory using the basename of the source project with the extension ''.zon''. For example, if you select ''steps.son'' and ''filter.son'', two archive files, ''steps.zon'' and ''filter.zon'' are produced in the destination directory."
p_Sonnet_ProjectPack_ProjectFrom_EC="Enter the name of the existing project(s) that you wish to pack in this text entry box. If you input multiple file names, separate the file names using a comma (,) semi-colon (;) or space. If the file name contains a space, then the name should be enclosed in quotes, i.e., ''Comb filter.son''.  If you do not wish to enter the file directly, you may also click on the Browse button to open a dialog box which allows you to select one or multiple files on your computer for which to create archive files. "
p_Sonnet_ProjectUnlock_BrowseFrom_PB="Click on this button to open a browse window which allows you to select the project you wish to unlock. "
p_Sonnet_ProjectUnlock_Unlock_PB="When em is running an analysis, the project file is locked to prevent any changes being written to it so that the response data is consistent with the circuit. When the analysis is complete or stopped, the project file is unlocked. If you determine that em is not presently running, but the project is still locked, click on this button to execute the unlock command on the project specified in the Project text entry box. If the project is not presently locked, you receive a message indicating this and no action is taken.  Warning: It is important that you conclusively determine that em is not running before you unlock the project. If you perform an unlock while em is running, you may corrupt your analysis results."
p_Sonnet_ProjectUnlock_CancelClose_PB="Clicking on this button exits the dialog box. If you did not press the Unlock button before closing the dialog box then no action is taken."
p_Sonnet_ProjectUnlock_ProjectFrom_EC="Enter the name of the existing project that you wish to unlock in this text entry box. If you do not wish to enter the project directly, you may also click on the Browse button to open a dialog box which allows you to select a project on your computer."
p_Sonnet_ProjectUnpack_Unpack_PB="Click on the Unpack button to unpack the archive file specified in the Project(s) text entry box in the directory selected in the To section of the dialog box. Messages indicating the progress of the unpack are displayed in the Unpack Project dialog box."
p_Sonnet_ProjectUnpack_BrowseFrom_PB="Click on this button to open a browse window which allows you to select the packed project(s) you wish to unpack. You may select a single packed project to unpack, or multiple packed projects to unpack. Note that by holding down the Control key, you may select multiple packed projects in the browse window."
p_Sonnet_ProjectUnpack_BrowseTo_PB="Click on this button to open a browse window which allows you to select a destination directory for your unpacked projects. The archive projects are restored in this directory so that your project is available for use. "
p_Sonnet_ProjectUnpack_ProjectFrom_EC="Enter the name of the existing packed project(s) that you wish to unpack in this text entry box. If you input multiple packed project names, separate the names using a comma (,) semi-colon (;) or space. If the packed project name contains a space, then the name should be enclosed in quotes, i.e., ''Comb filter.zon''. If you do not wish to enter the packed project directly, you may also click on the Browse button to open a dialog box which allows you to select packed projects on your computer. You may select a single packed project to unpack, or multiple packed projects to unpack. Note that by holding down the Control key, you may select multiple packed projects in the browse window."
p_Sonnet_ProjectClean_BrowseFrom_PB="Clicking on this button opens a browse window which allows you to select the project(s) you wish to clean. You may select multiple projects by holding down the Control button as you click on project names."
p_Sonnet_ProjectClean_Clean_PB="Clicking on this button executes the clean command on the projects specified in the Project(s) text entry box. All of the existing response and log data is deleted from each project. Messages indicating the progress of the clean are displayed in the this dialog box Note When you clean a project, any separate data files such as a far field pattern, ''.pat'', or an additional data response output file are not cleaned as part of the project. These must be deleted separately if necessary. "
p_Sonnet_ProjectClean_ProjectFrom_EC="Enter the name of the existing project(s) that you wish to clean in this text entry box If you input multiple project names, separate the names using a comma (,) semi-colon (;) or space. If the project name contains a space, then the name should be enclosed in quotes, i.e., ''Comb filter.son''. If you do not wish to enter the project directly, you may also click on the Browse button to open a dialog box which allows you to select a project on your computer. You may select a single project to clean, or multiple projects to clean. Note that by holding down the Control key, you may select multiple projects in the Browse window. "
p_Sonnet_ResetHardwareKey_ResetCode_EC="The reset code you received from your Sonnet representative in response to a reset hardware key request should be entered here. This text entry box is only enabled when the Reset radio button is selected."
p_Sonnet_ResetHardwareKey_ActionReset_RB="Clicking on this radio button allows you to input the reset code received from your Sonnet Representative in response to a reset request in order to complete your hardware key reset."
p_Sonnet_ResetHardwareKey_ActionRequest_RB="Clicking on this radio button generates a request to reset in a file which you send to your Sonnet Representative. You need to receive your reset code back from your Sonnet Representative before completing the reset."
p_Sonnet_ResetHardwareKey_Browse_PB="Click on this button to open a browse window which allows you to select the directory in which to create the reset request file. "
p_Sonnet_ResetHardwareKey_View_PB="Once you have created the reset request file, click on this button to view the files contents."
p_Sonnet_ResetHardwareKey_FileName_EC="Enter the desired file name for the reset request here. "
p_Sonnet_RestrictSuite_Restricted_RB="Select this radio button to restrict your license in order to demo other Sonnet products. When you select this radio button, the drop list and checkboxes are enabled."
p_Sonnet_RestrictSuite_Restricted_LB="Select the Sonnet product you wish to demonstrate here. The choices include Sonnet Level3 Gold, Sonnet Level2 Silver, Sonnet Level2 Basic, Sonnet LitePlus and Sonnet Lite.  NOTE:    Choosing a product with more capabilities than your present license has no effect on your software."
p_Sonnet_RestrictSuite_Unrestricted_RB="Click on this radio button to retain the full functionality of your present license. This is the default setting."
p_Sonnet_RestrictSuite_FarField_CB="This option, which may be added to some Sonnet products, allows you use the Far Field Viewer which allows you plot far field radiation patterns. "
p_Sonnet_RestrictSuite_GDSII_CB="This option, which may be added to some Sonnet products, allows you use the GDSII translator which allows you to import and export GDSII formatted files from the project editor. "
p_Sonnet_RestrictSuite_AgilentInterface_CB="This option, which may be added to some Sonnet products, provides a seamless translation capability between Sonnet and Agilent ADS. From within the ADS Layout package you can directly create Sonnet geometry files. Em simulations can be invoked and the results incorporated into your design without leaving the ADS environment."
p_Sonnet_AdminEmserverWin_STATUS_TLB="This is a list of the jobs running and waiting to be run by emserver. Select a job by clicking on it. The job appears in reverse video with a blue background to indicate selection. Both the Additional Job Info. button and the Delete Job button act on the presently selected job in the job list. If you are experiencing a problem with emserver, error messages will appear here. Clicking on an error message will select all the text which appears in the list. Press control-C to copy this text to your clipboard from which you may paste the error messages(s) into an email or document to be sent to Sonnet support. "
p_Sonnet_AdminEmserverWin_TIME_NT="This time indicates when the most recent status was received from emserver."
p_Sonnet_AdminEmserverWin_ADD_INFO_PB="This button is only enabled if a job is selected in the Emserver Job list to the left. When you click here a window appears on your display which provides additional information about the job presently selected in the job list. The additional information identifies the source project file, the path to the file, the type of analysis, the progress of the analysis and whether any errors have occurred in the analysis thus far."
p_Sonnet_AdminEmserverWin_DELETE_PB__="This button is only enabled if a job is selected in the job list to the left. Click here to delete the presently selected job from the job list. A status message ''Job deleted at server'' is displayed in the analysis monitor window on the client machine whose job was just deleted."
p_Sonnet_AdminEmserverWin_PAUSE_CONT_PB="Pause Emserver: Click here to temporarily stop emserver. If a job is presently running, it is also paused and a message, ''Emserver operation paused'', is output to the analysis monitor on the client machine which submitted the job. This button is only enabled when emserver is running. Continue Emserver: Click here to restart a paused emserver. If a job is was paused when the emserver pause took place, the analysis will continue. This button only appears when emserver is paused. "
p_Sonnet_AdminEmserverWin_DISABLE_ENABLE_PB="Disable New Jobs: Click here to disable any new jobs from being added to the job list. This feature is useful if you wish to preserve processing resources for the server. This button appears and is enabled when the emserver is running and new jobs are allowed. Enable New Jobs: Click here to allow new jobs to be added to the job list. This button appears when the emserver is running but is not allowing jobs to be added to the job list. "
p_Sonnet_AdminEmserverWin_REFRESH_PB="The default setting for a status refresh for emserver is 30 seconds. If you wish to obtain a present status, without waiting for an automatic update, click here. If you wish to change the refresh interval, you may do so in the Emserver Advanced Settings dialog box, opened when you click on the Advanced button."
p_Sonnet_AdminEmserverWin_START_STOP_PB="Start Emserver: Click here to start emserver on the server. Emserver oversees and executes em analysis jobs submitted from client computers. This program must be running for client machines to submit remote jobs to this server. Stop Emserver: Click here to stop emserver. When emserver is not running, all client machines are disabled from running remote analysis jobs on the server."
p_Sonnet_AdminEmserverWin_ADVANCED_PB="Click here to open the Emserver Advanced Settings dialog box which allows you to set up your log file, trace file, port information and status refresh rate."
p_Sonnet_AdminEmserverAdvWin_TF_NAME_EC="Enter the name of the trace file here. You may enter the trace file name manually or click on the Browse button to the right to open a Browse window to select a trace file."
p_Sonnet_AdminEmserverAdvWin_TF_LEVEL_LB="Select the desired trace level from the Trace Level drop list. The levels range from 0, meaning no tracing, to 5, the maximum amount of details."
p_Sonnet_AdminEmserverAdvWin_TF_BROWSE_PB="Click here to open a browse window which allows you to select a trace file. "
p_Sonnet_AdminEmserverAdvWin_TF_VIEW_PB="Click here to view the specified trace file in a standard text editor."
p_Sonnet_AdminEmserverAdvWin_LF_NAME_EC="Enter the name of the log file here. You may enter the log file name manually or click on the Browse button to the right to open a Browse window to select a log file."
p_Sonnet_AdminEmserverAdvWin_LF_BROWSE_PB="Click here to open a browse window which allows you to select a log file. "
p_Sonnet_AdminEmserverAdvWin_LF_STARTUP_CB="If you wish to start a new log file each time your server is rebooted, click on this checkbox. Otherwise, the new information after a reboot is appended to the end of the pre-existing log file."
p_Sonnet_AdminEmserverAdvWin_LF_VIEW_PB="Click here to view the specified log file in a standard text editor. "
p_Sonnet_AdminEmserverAdvWin_SERVICES_CB="To automatically start emserver on platforms which require a service (Windows NT 4.0 and Windows 2000 for example) click this checkbox in addition to the Start Server on Powerup checkbox."
p_Sonnet_AdminEmserverAdvWin_POWERON_CB="To automatically start emserver at startup, click this checkbox."
p_Sonnet_AdminEmserverAdvWin_REFRESH_EC="Enter the desired refresh rate in seconds for the emserver status here. This is how often the Status/Control window polls emserver for its status. The default is 30 seconds."
p_Sonnet_AdminEmserverAdvWin_ID_EC="Enter the host name or IP Address for the emserver machine here. This is the name or IP address used by the client machine to identify the emserver machine."
p_Sonnet_AdminEmserverAdvWin_PORT_EC="Enter the port address through which emclient's communicate with this server here. The default port address is 56150. If this port is already in use another available port should be entered here. Note that the port number for the server defined on the client must be the same as the port entered here."
p_Emserver_Running_Status="This message appears when emserver is up and running. If emserver is not running, the message ''Emserver not running'' appears here."
p_Emsaver_Stop_Start_Button="Start Emserver: Clicking on this button starts emserver on the server. Emserver oversees and executes em analysis jobs submitted from client computers. Emserver must be running for client machines to submit remote jobs to this server. Stop Emserver: Clicking on this button stops emserver. When emserver is not running, all client machines are disabled from running remote analysis jobs on the server."
p_Emserver_Pause_Continue_Button="Pause Emserver: Clicking on this button pauses emserver. If a job is presently running, it is also paused and a message, ''Emserver operation paused'', is output to the analysis monitor on the client machine which submitted the job. This button is only enabled when emserver is running. Continue Emserver: Clicking on this button restarts a paused emserver. If a job is was paused when the emserver pause took place, the analysis will continue. This button only appears when emserver is paused. "
p_Emserver_Disable_Enable_New_Jobs_Button="Disable New Jobs: Click on this button to disable any new jobs from being added to the job list. This feature is useful if you wish to preserve processing resources for the server. This button appears and is enabled when the emserver is running and new jobs are allowed. Enable New Jobs: Click on this button to allow new jobs to be added to the job list. This button appears when the emserver is running but is not allowing jobs to be added to the job list. "
p_Emserver_Delete_Job_button="This button is only enabled if a job is selected in the job list to the left. Clicking on this button deletes the presently selected job from the job list. The message ''Job deleted at server'' is displayed in the analysis monitor window on the client machine whose job was just deleted."
p_Emserver_Refresh_Button="The default setting for a status refresh for emserver is 30 seconds. If you wish to obtain a present status, without waiting for an automatic update, click on this button. If you wish to change the refresh interval, you may do so in the Emserver Advanced Settings dialog box, opened when you click on the Advanced button."
p_Emserver_Job_List="This is a list of the jobs running and waiting to be run by emserver. Select a job by clicking on it. The job appears in reverse video with a blue background to indicate selection. Both the Additional Job Info. button and the Delete Job button act on the presently selected job in the job list. If you are experiencing a problem with emserver, error messages will appear in this space. Clicking on an error message will select all the text which appears in the list. Press control-C to copy this text to your clipboard from which you may paste the error messages(s) into an email or document to be sent to Sonnet support. "
p_Sonnet_ProjectUnlock_Details_PB="Clicking on this button provides you details about the unlocking operation including its success or failure."
p_Sonnet_AdminEmserverAdvWin_DD_NAME_EC="Enter the location of the Data Directory here. The Data Directory is where projects submitted from clients are held while the analysis job is running on the analysis server."
p_Sonnet_AdminEmserverAdvWin_DD_BROWSE_PB="Click on this button to open a browse window that allows you to select the Data Directory where projects submitted from clients are held while the analysis job is running on the analysis server. "
p_Sonnet_AdminEmserverAdvWin_PT_EC="Enter the number of days a disconnected job is held here. If the analysis client has not recovered the disconnected job in this number of day, emserver deletes the disconnected job from the data directory. If the analysis client is not available when emserver is processing a job submitted from that client, the job an disconnected job. If the disconnected job has not been recovered by the analysis client in the number of days entered in the Remove disconnected projects after text entry box, then the disconnected job is deleted. "
p_Sonnet_ProjectUnpack_DirectoryFrom_EC="Enter the directory here in which the packed projects you wish to unpack are located."
p_Sonnet_ProjectUnpack_DirectoryTo_EC="Enter the directory here in which you wish to unpack the packed project(s). The resulting project is written here. This text entry is only enabled when the Use This Directory radio button is selected."
p_Sonnet_ProjectUnpack_UseFrom_RB="Select this radio button if you wish to place the unpacked project in the same directory as the source archive file."
p_Sonnet_ProjectUnpack_UseThis_RB="Select this radio button if you wish to unpack your project in a different directory than the one in which the source archive file is located. This enables the text entry box just below where the desired directory may be specified."
p_Sonnet_ProjectPack_DirectoryFrom_EC="Enter the directory here in which the projects you wish to pack are located."
p_Sonnet_ProjectPack_DirectoryTo_EC="Enter the directory here in which you wish to generate the archive file. The resulting archive file is written here. This text entry is only enabled when the Use This Directory radio button is selected."
p_Sonnet_ProjectPack_UseFrom_RB="Select this radio button if you wish to place the archive file in the same directory as the source project."
p_Sonnet_ProjectPack_UseThis_RB="Select this radio button if you wish to generate your archive file in a different directory than the one in which the source project is located. This enables the text entry box just below where the desired directory may be specified."
p_Sonnet_ProjectDelete_DirectoryFrom_EC="Enter the directory here where the project you wish to delete is located."
p_Sonnet_ProjectRename_DirectoryFrom_EC="Enter the directory in which the project you wish to rename presides."
p_Sonnet_ProjectMove_DirectoryFrom_EC="Enter the directory here from which you wish to move projects. This entry is updated when the browse window is used."
p_Sonnet_ProjectMove_DirectoryTo_EC="Enter the directory here to which you wish to move projects. This entry is updated when the browse window is used."
p_Sonnet_ProjectCopy_DirectoryFrom_EC="Enter the directory from which you wish to copy project(s) here. This entry is updated when you use the browse button."
p_Sonnet_ProjectClean_DirectoryFrom_EC="Enter the directory in which the project(s) you wish to clean are located."
p_Sonnet_ProjectUnlock_DirectoryFrom_EC="Enter the directory in which the project you wish to unlock is located. "
p_Sonnet_ProjectPack_IncludeABS_CB="Click on this checkbox to include to include the ABS cache data in your archive. This will save on subsequent processing time for this project but be aware that including cache data increases the size of your archive."
p_Sonnet_ProjectCopy_DirectoryTo_EC="Enter the directory to which you wish to copy project(s) here. This entry is updated when you use the browse button."
p_Sonnet_ProjectPack_IncludeExternalFiles_CB="Click on this checkbox to include any external files in your archive file. This does not include optional output files, but only those files needed by the analysis engine, em, to run an analysis. An example would be a subproject referenced by a netlist project. "
p_Sonnet_ProjectClean_CleanAll_RB="Choosing this option removes all analysis and log data as well as auto documentation stored in your project. "
p_Sonnet_ProjectClean_CleanABSCache_CB="Select this checkbox to delete the ABS Cache Data from your project when the Delete Only radio button is selected. "
p_Sonnet_ProjectClean_CleanJxy_CB="Select this checkbox to delete the Current Density Data from your project when the Delete Only radio button is selected. "
p_Sonnet_ProjectClean_CleanSome_RB="This option allows you to selectively delete the Current Density data and/or the ABS cache data depending on which checkboxes are selected below. All other analysis and log data is left in the project."
p_Sonnet_AdminAWROptions_DIR_EC="Enter the desired temporary directory for Microwave Office Interface projects here. "
p_Sonnet_AdminAWROptions_BROWSE_PB="Enter the location here of the temporary directory used by Sonnet when you are editing an EM structure in the project editor opened from Microwave Office. You may directly edit this entry or click on the Browse button to open a browse window which allows you to select the desired directory."
p_Xgeom_AdvOptWin_Automatic_RB="Click on this radio button to have the analysis engine, em, automatically determine the resolution for an Adaptive Band Synthesis (ABS) analysis. This is the default setting which provides approximately 300 frequency points in the band. "
p_Xgeom_AdvOptWin_Manual_RB="Click on this radio button if you wish to set the resolution for an ABS analysis and enter the desired resolution in the adjacent text entry box. The units for this value are the presently selected frequency units for the project.  "
p_Xgeom_AdvOptWin_AFI_Res_EC="Enter the value you wish to use for the resolution of an ABS analysis here. The units are the presently selected frequency units for your project. This dialog box is only enabled when the Manual radio button is selected. A step size resulting in at least 50 points and less than 2000 points is recommended. "
p_Xgeom_AdvOptionsWin_Additional_EC="You may enter additional run options for em in this text entry box. This is normally used at the direction of Sonnet technical support personnel. "
p_Xgeom_AdvOptionsWin_Apply_CB="If the present project is a Netlist project that cites other projects, i.e., a master project, the analysis sweep controls set up in this project are also used for the analyses of the sub-projects. "
p_Xgeom_AdvOptionsWin_BoxResonance_CB="Em will provide box resonance information in the analysis monitor. If a potential box resonance is detected then a warning is output to the analysis monitor. For a detailed discussion of box resonance, please see ''Package Resonances'' in the Sonnet User's Guide. "
p_Xgeom_AdvOptionsWin_DeEmbed_CB="This checkbox turns on the de-embedding option. Each port in a circuit analyzed by em introduces a discontinuity into the analysis results. In addition, any transmission lines that might be present introduce phase shift, and possibly, impedance mismatch and loss. Depending upon the nature of your analysis, this may or may not be desirable. De-embedding is the process by which the port discontinuity and transmission line effects are removed from the analysis results. This option is set by default. "
p_Xgeom_AdvOptWin_Force_CB="Select this checkbox if you wish to force em to perform an analysis at frequencies for which data already exists. Care should be exercised with this run option especially on larger circuits whose analysis times are significant.  "
p_Xgeom_AdvOptionsWin_Inherit_CB="If the present project is cited by another project, it does NOT use the analysis sweep controls set up in this project, but instead, uses the analysis controls passed down from the calling or master project. "
p_Xgeom_AdvOptWin_ABS_Target_EC="Enter the target number of frequencies desired here when Automatic is selected for the ABS frequency resolution. Be aware that this number is a target. The algorithm uses this target value and easily rounded step values such as .1, .2, .25 or .5, to calculate the final number of frequency points. The number of points will range from 2/3 to 4/3 of the target value. For example, if you use the default of 300, you will end up with from 200 to 400 data points.  Be aware that a very low target number may prevent the analysis engine, em, from analyzing the circuit at the discrete frequency points necessary to obtain a good ''fit'' for the rational polynomial. A target of 300 is the recommended default. "
p_Xgeom_AdvOptWin_MultiRB="Selecting this cache level saves the ABS cache data for every analysis performed on the project. This saves you processing time on any subsequent ABS analyses but be aware that the cache data will be calculated for any analysis of the project including non-ABS types of analysis, increasing the processing time. Also, since the cache data from every analysis is stored, this option increases the project file size.  "
p_Xgeom_AdvSubWin_BothRB="Select this option if you wish to analyze your project at the highest frequency used in this or any previous run of the project.  "
p_Xgeom_AdvSubWin_SubsPerLam_CB="This field allows you to limit the maximum size of the subsection, generated by the analysis engine, in terms of subsections per wavelength. The default of 20, used when this option is not on, is fine for most work. "
p_Xgeom_AdvSubWin_EstEpsy_CB="Selecting this option overrides the automatic algorithm used by em to determine the effective dielectric constant. Em instead uses the effective dielectric constant you enter in the adjacent text entry box to calculate the wavelength which is used in setting the Maximum Subsection size. "
p_Xgeom_AdvSubWin_EstEpsy_EC="Enter the effective dielectric constant which you wish em to use in determining the maximum subsection size. If AUTO is entered, then em uses its automatic algorithm to determine the effective dielectric constant. "
p_Xgeom_AdvSubWin_FMAX_CB="Selecting this option overrides the automatic algorithm used by em to determine the subsectioning frequency. Em instead uses the frequency you enter in the adjacent text entry box to calculate the wavelength which is used in setting the Maximum Subsection size. "
p_Xgeom_AdvSubWin_FMAX_EC="Enter the frequency which you wish em to use in determining the subsectioning frequency. If AUTO is entered, then em uses its automatic algorithm to determine the frequency. "
p_Xgeom_AdvSubWin_PolyEdge_CB="Normally em considers one adjacent metal level in either direction from the present level when computing the subsectioning. This is an important consideration when thin dielectric layers are used. Polygon Edge Checking allows you to override the automatic algorithm and specify how many adjacent levels should be considered when calculating subsections "
p_Xgeom_AdvSubWin_PolyEdge_EC="Enter an integer value for the number of adjacent levels which should be considered by em during an analysis. Note that entering a value of zero causes em to only look at the present metal level.  "
p_Xgeom_AdvSubWin_SubsPerLam_EC="Enter an integer value for the maximum number of subsections. The default is 20. Increasing this number decreases the maximum subsection size until the limit of 1 subsection = 1 cell is reached. "
p_Xgeom_AdvSubWin_EachRunRB="Select this option to use the highest frequency at which the project is analyzed for this run as the subsectioning frequency. This is the default setting for the subsectioning frequency.  "
p_Xgeom_AdvSubWin_FixedRB="Select this option to enter the frequency you wish to use for the subsectioning frequency. Enter the desired frequency in the text entry box to the right which is enabled when this option is selected. This frequency will be used as the subsectioning frequency for all analyses of this project.  "
p_Xgeom_AdvSubWin_LastRunRB="Select this option if you wish to analyze your project at a different frequency range than a previous run but wish to use the same subsectioning on your circuit. The maximum frequency from all previous runs on this project will be used as the subsectioning frequency.  "
p_Xgeom_AdvOptWin_NoneRB="Select this option if you do not wish to store any ABS cache data in your project. If this option is selected and you stop an ABS analysis before completion, the only data available is the data calculated for the discrete data points. When you resubmit the ABS job, the cache data will need to be recalculated. "
p_Xgeom_AdvOptWin_StopRestartRB="Select this option to store the ABS cache data while an ABS analysis is running. This allows you to stop an ABS analysis and restart it at a later time without losing the data from the processing done before the stop. This option only retains the cache data until convergence is reached and the ABS analysis is completed, then the cache data is deleted. This is the default setting.  "
p_Xgeom_AnSetup_AdvancedPB="Click on this button to open the Advanced Options dialog box which allows you to select advanced options for your analysis. "
p_Xgeom_AnSetup_TypeLB="You select the type of analysis run from the Analysis type drop list. Your choices include Linear Frequency Sweep, Adaptive Sweep (ABS), Frequency Sweep Combinations, Parameter Sweep, Optimization and External Frequency File. The appearance of the dialog box is updated with the appropriate controls for your choice of analysis type. "
p_Xgeom_AnSetup_EmvuCB="Selecting the Compute Current Density option outputs current density information for the entire circuit which can be viewed using the Current Density Viewer. Note that current density response data is non-de-embedded regardless of whether the de-embedding option is set for the analysis or not. Be aware that for an adaptive sweep, current density data is only calculated for discrete data points. "
p_Xgeom_AnSetup_MemSave_CB="Selecting this check box turns on the Memory Save option. The system matrix is filled in single precision which reduces memory requirements for storing the matrix to one half of that of double precision. If this option is not used, the matrix is stored in double precision. This option affects only the matrix storage and the matrix solution. The precision of the matrix fill calculations is not affected.  "
p_Xgeom_AnSetup_MfcCB="Select this checkbox to turn the Multi-Frequency caching (MFC) option on. MFC is a technique that can dramatically reduce the em computation time when analyzing large circuits over many frequencies without any loss in accuracy. MFC pre-computes frequency independent data and stores it on your hard disk. This data is later recalled while the simulation is performed. This option is disabled if an adaptive sweep is selected in the Analysis Setup dialog box. "
p_Xgeom_AnSetup_Add_OptGoal_PB="Click on this button to open the Optimization Goal Entry dialog box which allows you to specify an optimization goal. When you are finished the goal is displayed in the optimization list to the left. "
p_Xgeom_AnSetup_Delete_OptGoal_PB="Click on this button to delete the goal presently selected in the list to the left. "
p_Xgeom_AnSetup_Edit_OptGoal_PB="Click on this button when an optimization goal is selected in the list to the left. The Optimization Goal Entry dialog box is opened so that you can edit the selected optimization goal. When you are finished the goal is displayed in the optimization list to the left. "
p_Xgeom_AnSetup_MaxIterations_EC="Enter the maximum number of iterations for the optimization. Em continues running an optimization until it finds a local minima (no change in error) or it has reached this maximum number of iterations. This allows you to limit the length of analyses. "
p_Xgeom_AnSetup_OptGoals_LB="This list contains all the goals defined for your optimization. To select a goal click on it. To edit the selected goal, click on the Edit button to the right. To add a new goal, click on the add button to the right. To delete a goal, select it then click on the Delete button to the right. "
p_Xgeom_AnSetup_Edit_Params_PB="Click on this button to open the Optimization Parameters dialog box which allows you to select parameters for optimization and enter their respective data ranges. All the parameters defined in your project appear in this dialog box. "
p_Xgeom_AnSetup_Parameters_LB="This list contains all the parameters in your project. If a parameter is being used for the optimization, the start and stop values are displayed in the list. If the nominal value is being used, the fixed value used for the analysis is displayed. To select a parameter for optimization and to enter the data range, click on the Edit button to the right of the parameter list. "
p_Xgeom_AnSetup_Delete_ParamSwp_PB="Click on this button to delete the parameter sweep specification selected in the list that appears to the left. "
p_Xgeom_AnSetup_Edit_ParamSwp_PB="Click on this button to open the Parameter Sweep Entry dialog box and edit the existing parameter sweep which is selected in the list of parameter sweeps to the left. "
p_Xgeom_AnSetup_ParamSwp_LB="This is a list of parameter sweep specifications. Each item displays the frequency range and parameter data range for that sweep. You edit this list by use of the buttons to the right. To select an item in the list click on it. "
p_Xgeom_AnSetup_Add_ParamSwp_PB="Click on this button to open the Parameter Sweep Entry dialog box which allows you to enter a parameter sweep. When you finish entering the parameter sweep, it is added to the list of parameter sweeps to the left. "
p_Xgeom_AnSetup_StartEC="Enter the lowest frequency at which you wish to analyze your circuit. "
p_Xgeom_AnSetup_StepEC="Enter the interval between analysis frequencies you wish to use for the analysis. For a linear sweep the same interval is used between all frequencies. For example, if you specify 10 GHz for the starting frequency, 40 GHz for the stop frequency and 5 GHz for the step, your circuit is analyzed at 10, 15, 20, 25, 30, 35, and 40 GHz. "
p_Xgeom_AnSetup_StopEC="Enter the highest frequency at which you wish to analyze your circuit. "
p_Xgeom_AnSetup_Save_Ext_PB="Click on this button to open a browse window that allows you to output all the frequency controls in the Frequencies list. This file may be input later to this or another project by clicking on the Load button. "
p_Xgeom_AnSetup_Add_Complex_PB="Click on this button to open the Frequency Sweep Entry dialog box to add a complex frequency specification to the list of frequencies that appears to the left. "
p_Xgeom_AnSetup_Delete_Complex_PB="Click on this button to delete the complex frequency specification selected in the list of frequencies that appears to the left. "
p_Xgeom_AnSetup_Edit_Complex_PB="Click on this button to open the Frequency Sweep Entry dialog box to edit the complex frequency specification selected in the list of frequencies that appears to the left. "
p_Xgeom_AnSetup_Complex_Sweeps_LB="This is a list of frequency control specifications. You edit this list by use of the buttons to the right. To select an item in the list click on it. To save the whole list to an external file, click on the Save button. "
p_Xgeom_AnSetup_Load_Ext_PB="Click on this button to open a browse window that allows you to select a previously saved external file with frequency controls. "
p_Xgeom_AnSetup_Browse_External_PB="Click on this button to open a browse window which allows you to select an external frequency file to load and use for analysis control. "
p_Xgeom_AnSetup_External_File_EC="Enter the file name for the external frequency file which you wish to use to control your analysis.  "
p_Xgeom_AnSetup_External_Sweeps_LB="Once the external frequency file is selected, a list of the frequency sweeps contained in it appears here. "
p_Xgeom_AnSetup_Down_Complex_PB="Click here to move the selected entry down one position in the entry list. "
p_Xgeom_AnSetup_Up_Complex_PB="Click here to move the selected entry up one position in the entry list. "
p_Xgeom_AnSetup_Speed_PB="Click on this button to open the Analysis Speed/Memory Control dialog box which allows you to control the use of how much memory you wish to use in analyzing your circuit, thereby increasing or decreasing the processing time. Using more memory provides a more accurate answer but increases processing time.  "
p_Xgeom_MTSetupWin_CenterPB="Set the Anchor to the Box Center. This places the anchor at the middle of the substrate. "
p_Xgeom_MTSetupWin_DraggableCB="Allow you to drag the anchor to a new position using your mouse. "
p_Xgeom_MTSetupWin_OriginPB="Set the Anchor to (0,0), the Drawing Origin "
p_Xgeom_MTSetupWin_X_EC="X coordinate of the Anchor position "
p_Xgeom_MTSetupWin_Y_EC="Y coordinate of the Anchor position "
p_Xgeom_BoxWin_CellCalcPB="Clicking on this button opens the cell size calculator which allows you to enter your critical circuit dimensions to calculate an optimal cell size which provides the needed level of accuracy while using the minimum processing resources. "
p_Xgeom_DieWin_DefaultLB="Select the brick material you wish to use for adding new dielectric bricks to your circuit "
p_Xgeom_DieWin_DefaultPB="Make the selected brick material the default for new bricks in your circuit "
p_Xgeom_DieWin_DeletePB="Delete the selected brick material. "
p_Xgeom_DieWin_NewPB="Click on this button to open the Dielectric Editor dialog box which allows you to define a new dielectric material. When you close the Dielectric Editor dialog box, the new dielectric material is added to the list. "
p_Xgeom_CellCalc_CalcPB="Click on this button once you have entered all the critical dimensions in the Target entries and set your tolerances for each target. The optimal cell size for the direction selected (x or y) is output in the appropriate Cell Width text entry box. The actual size and the error is displayed for each target in the columns to the right.  "
p_Xgeom_CellCalc_WidthEC="The suggested cell size for the x direction appears here when you click on the calculate button when the X direction is selected for the cell calculator. You may enter a cell dimension value here, then click on the update button to see if your value meets tolerance criteria. If the tolerance is not met, the results for that target appear in red. This value is entered in the Box Settings dialog box when the Cell Calculator is closed. "
p_Xgeom_CellCalc_HeightEC="The suggested cell size for the y direction appears here when you click on the calculate button when the Y direction is selected for the cell calculator. You may enter a cell dimension value here, then click on the update button to see if your value meets tolerance criteria. If the tolerance is not met, the results for that target appear in red.  This value is entered in the Box Settings dialog box when the Cell Calculator is closed. "
p_Xgeom_CellCalc_DefaultTolPB="Click on this button to update all the tolerances in the presently selected direction to the default value input in the text entry box just below the button. When you input a new tolerance, the results fields, including the suggested cell dimension, actual values and tolerances are cleared. You need to click on the Calculate button to update these fields. "
p_Xgeom_CellCalc_DelfaultTolEC="Enter the default tolerance value here. When you click on the Set Tolerances to: button, the tolerance for all the targets presently entered in this direction are updated with this value.  "
p_Xgeom_CellCalc_EstMemPB="Click on this button to subsection the circuit and estimate the amount of memory needed to perform an analysis. "
p_Xgeom_CellCalc_PercentRB="Click on this radio button to enter the tolerance for a target as a percentage of the target. This is the default setting when the cell calculator is opened for the first time. "
p_Xgeom_CellCalc_UnitsRB="Click here to enter the tolerance for a target as an absolute value. Whichever length unit is in use for this project appears here. "
p_Xgeom_CellCalc_UpdatePB="Click on this button if you have edited the Cell Width value. The update recalculates the actual value and error for each target. If the resulting error is greater than the specified tolerance, then the results are displayed in red. "
p_Xgeom_CellCalc_XRB="Click on this radio button to calculate the x dimension of the cell. The rest of the calculator refers to the x direction when this radio button is selected and the Cell Width(X) text entry box is enabled and the Cell Width(Y) text entry box is disabled. "
p_Xgeom_CellCalc_YRB="Click on this radio button to calculate the y dimension of the cell. The rest of the calculator refers to the y direction when this radio button is selected and the Cell Width(Y) text entry box is enabled and the Cell Width(X) text entry box is disabled. "
p_Xgeom_ImportChoose_Struct_LB="This is a list of all the structures available in the GDSII file you are importing. Click on the structure you wish to convert. "
p_Xgeom_ViaElm_NumSidesEC="Enter the number of sides for the circular via here. This value controls the curvature of the inner and outer edges of the circular via. The higher the value the smoother the edge. The value of 8 yields an octagon  "
p_Xgeom_BoxWin_BottomMetalLB="The metal type used for the bottom of the six-sided metal enclosure for your circuit. "
p_Xgeom_BoxWin_BoxHeightEC="The Y dimension, or height, of the substrate which defines the area of the bottom and hence the top of the six-sided enclosure. "
p_Xgeom_BoxWin_BoxWidthEC="The X dimension, or width, of the substrate which defines the area of the bottom and hence the top of the six-sided enclosure. "
p_Xgeom_BoxWin_CellHeightEC="The Y dimension, or height, of the cell size. The cell size defines the smallest allowable subsection. "
p_Xgeom_BoxWin_CellSizeLockCB="Prevent the cell size from changing when a new box size or number of cells is entered "
p_Xgeom_BoxWin_CellWidthEC="The X dimension, or width, of the cell size. The cell size defines the smallest allowable subsection. "
p_Xgeom_BoxWin_MaxSubSizeEC="Limit the size of the maximum subsection in terms of subsections per wavelength, where the wavelength is approximated at the beginning of the analysis by em. The highest analysis frequency is used to calculate the wavelength. Increasing this number decreases the maximum subsection size.  "
p_Xgeom_BoxWin_NCellsHeightEC="The number of cells in the Y dimension or height of the substrate which defines the area of the bottom and hence the top of the six-sided enclosure. "
p_Xgeom_BoxWin_NCellsLockCB="Prevent the number of cells from changing when a new box size or cell size is entered "
p_Xgeom_BoxWin_NCellsWidthEC="The number of cells in the X dimension or width of the substrate which defines the area of the bottom and hence the top of the six-sided enclosure. "
p_Xgeom_BoxWin_BoxSizeLockCB="Prevent the box size from changing when a new cell size or number of cells is entered "
p_Xgeom_BoxWin_SymmetryCB="If the top half of your circuit is identical in every respect to the bottom half of your circuit, activating symmetry results in a faster analysis.  Everything below the line of symmetry is ignored and all the metal and ports above are ''reflected'' about the symmetry line. Note that ports MUST be identical in all respects including number, excitation and termination. "
p_Xgeom_BoxWin_TopMetalLB="The metal type used for the top of the six-sided metal enclosure for your circuit. "
p_Xgeom_BoxWin_UseMousePB="Drag mouse to set box size "
p_Xgeom_StartSubdiv_Browse_PB="Click on this button to open a browse window which allows you to select a directory in which to create your master netlist file and subprojects. You may enter a new filename in the browse window or select an existing filename. If you select an existing file, you are prompted as to whether you wish to overwrite the file before the command to create the new netlist is executed. "
p_Xgeom_StartSubdiv_MainNet_EC="Enter the desired name for the main netlist project generated from the subdivide. If you enter an existing project, you are prompted as to whether you wish to overwrite it, before the command is executed. "
p_Xgeom_ViaElm_DiameterEC="Enter the distance from outer edge to opposite outer edge of the circular via here. "
p_Xgeom_CleanWin_CacheCB="Select this checkbox to delete the ABS Cache Data from your project when the Delete Only radio button is selected. "
p_Xgeom_CleanWin_AllResultsRB="Choosing this option removes all analysis and log data stored in your project. "
p_Xgeom_CleanWin_CurrentCB="Select this checkbox to delete the Current Density Data from your project when the Delete Only radio button is selected. "
p_Xgeom_CleanWin_DeleteOnlyRB="This option allows you to selectively delete the Current Density data and/or the ABS cache data depending on which checkboxes are selected below. All other analysis and log data is left in the project. "
p_Xgeom_DieEdit_AnisotropicCB="If you wish the brick material to be anisotropic, indicating that its parameters are different in each dimension, click on this checkbox. The dialog box is updated with three sets of entries; one for each direction. You can then enter the parameters of the brick material by editing the entries in the row.  "
p_Xgeom_DieEdit_CopiesEC="Enter the number of new layers which you wish to add to the circuit. The layers all have identical parameters. The default value is one. "
p_Xgeom_DieEdit_DielCondEC="Enter the dielectric conductivity here.  For more information on how the parameters are used to model loss in the dielectric, see How do I specify loss in a dielectric layer? or How do I specify loss in a dielectric brick? "
p_Xgeom_DieWin_EditPB="Click on this button Click on this button to edit the presently selected dielectric. The Dielectric Editor dialog box is opened allowing you to change the parameters of the dielectric. "
p_Xgeom_DieEdit_ERelEC="Enter the relative dielectric constant here. For more information on how the parameters are used to model loss in the dielectric, see How do I specify loss in a dielectric layer? or How do I specify loss in a dielectric brick? "
p_Xgeom_DieEdit_LibraryPB="To use a dielectric material from the dielectric libraries for your layer, click on this button to open the Dielectric Library dialog box which allows you to access the dielectric library.  "
p_Xgeom_DieEdit_LossTanEC="Enter the dielectric loss tangent here. For more information on how the parameters are used to model loss in the dielectric, see How do I specify loss in a dielectric layer? or How do I specify loss in a dielectric brick? "
p_Xgeom_DieEdit_MagLossTanEC="Enter the magnetic loss tangent here. For more information on how the parameters are used to model loss in the dielectric, see How do I specify loss in a dielectric layer? or How do I specify loss in a dielectric brick? "
p_Xgeom_DieEdit_MRelEC="Enter the relative magnetic permeability here. For more information on how the parameters are used to model loss in the dielectric, see How do I specify loss in a dielectric layer? or How do I specify loss in a dielectric brick? "
p_Xgeom_DieEdit_NameEC="Enter the desired name for the dielectric material here.  "
p_Xgeom_DieEdit_ThicknessEC="Enter the desired thickness of the dielectric layer here. It is possible to also edit this value in the Dielectric Layers dialog box. "
p_Xgeom_LayerWin_Edit_PB="Click on this button to edit the presently selected layer. The Dielectric Editor dialog box is opened allowing you to change the parameters of the dielectric layer. "
p_Xgeom_LayerWin_LibraryPB="Click on this button to open the Dielectrics Library dialog box which allows you to select a library material to be used as the dielectric layer. "
p_Xgeom_LayerWin_ThicknessEC="Enter the thickness of the dielectric layer in this text entry box. To change other parameters of the dielectric layer, click on the Edit button when the layer is selected. "
p_Xgeom_LayerWin_ZPartsPB="Click on this button to open the Z Partitions dialog box to set the z partitioning for any dielectric bricks used in this dielectric layer. "
p_Xgeom_LayerWin_DeletePB="Click on this button to delete the presently selected dielectric layer. If you attempt to delete a layer on which metalization is present, the Project Editor will prompt you for confirmation before deleting the dielectric layer, since any metalization present under the layer will also be deleted. "
p_Xgeom_LayerWin_NewAbovePB="Add a dielectric layer above the selected layer. The Dielectric Editor dialog box is opened which allows you to input all the parameters for the dielectric layer you are adding. "
p_Xgeom_LayerWin_NewBelowPB="Add a dielectric layer below the selected layer. The Dielectric Editor dialog box is opened which allows you to input all the parameters for the dielectric layer you are adding. "
p_Xgeom_DieLib_AddPB="Click on this button to open the Dielectric Editor dialog box which allows you to define a new dielectric to add to the presently selected library.  "
p_Xgeom_DieLib_DeletePB="Click on this button to remove the presently selected dielectric from the library. To select a dielectric in the library, click on its entry in the list to the left of this button. If you wish to delete a dielectric layer from your project, you may do so in the Dielectric Layers dialog box. "
p_Xgeom_DieLib_EditPB="Click on this button to open the Dielectric Editor dialog box which allows you to edit the type and properties of the dielectric presently selected in the library list. To select a dielectric in the library, click on its entry in the list. "
p_Xgeom_DieLib_GlobalPB="Click on this button to open a browse window which allows you to select the location of the global library file. "
p_Xgeom_DieLib_GlobalLibraryRB="Select this radio button to select and display the Global Library. The entries appear in the dielectrics list below. "
p_Xgeom_DieLib_MyPB="Click on this button to open a browse window which allows you to select the location of your library file. "
p_Xgeom_DieLib_MyLibraryRB="Select this radio button to select and display your local dielectric Library. The entries appear in the dielectrics list below. "
p_Xgeom_QSG_ManualRB="Clicking on this radio button opens the Quick Start Guide in manual mode which provides the steps for manually inputting a circuit geometry in the project editor. "
p_Xgeom_EstimateMem_ViewSubs_PB="Click here to open a viewer which displays the subsectioning of your circuit. You may view all metalization levels and their subsectioning. "
p_Xgeom_ExtOpt_DeleteRB="Click on this radio button to delete the external file selected in the list.  "
p_Xgeom_ExtOpt_ExtractRB="Click on this radio button to extract the external file selected in the list. The file will be written to the destination entered below. "
p_Xgeom_ExtOpt_DirEC="Enter the destination to which you wish to extract the external file here. You may click on the Browse button to the right to open a Browse window which allows you to select a destination. This destination will be displayed in the list in the Subprojects extraction dialog box when this dialog box is closed. This text entry is only enabled if the Extract radio button is selected. "
p_Xgeom_FlipWin_BoxCenterRB="Use the center of the bounding box of your selection as the pivot point "
p_Xgeom_FlipWin_IndividualCentersRB="Each polygon selected uses its own center point as the pivot point "
p_Xgeom_FlipWin_LeftRightPB="Flip your selection about the vertical axis containing the pivot point "
p_Xgeom_FlipWin_MTPostionRB="Use the anchor set in the Measuring Tool as pivot point "
p_Xgeom_FlipWin_PivotPointRB="Set your input as the pivot point. You input the pivot point by clicking on the Set Pivot button and clicking your mouse at the desired pivot location. "
p_Xgeom_FlipWin_SelectionCenterPB="Set the center of selection as the pivot point "
p_Xgeom_FlipWin_SetPivotPB="Set the pivot point with your mouse "
p_Xgeom_FlipWin_UpDownPB="Flip your selection about the horizontal axis containing the pivot point "
p_Xgeom_CmplxSwpWin_Stop_EC="Enter the highest frequency in your range of control frequencies here. "
p_Xgeom_CmplxSwpWin_ParamType_LB="The parameter drop list allows you to select the response measurement for which you wish to determine the minimum or maximum value. "
p_Xgeom_CmplxSwpWin_Start_EC="Enter the lowest frequency in your range of control frequencies here. "
p_Xgeom_CmplxSwpWin_Step_EC="Enter the desired interval between frequency points here. "
p_Xgeom_CmplxSwpWin_Sweep_Type_LB="You select the type of sweep from this drop list. Only the controls associated with each sweep type are enabled in the rest of the dialog box. "
p_Xgeom_CmplxSwpWin_Points_EC="Enter the number of Points to be used for the analysis. The frequency range is divided by this number of points to provide a constant interval between analysis frequencies. For example the values Start = 8.0, Stop = 64.0 with the # points = 4 will analyze at 8, 16, 32, and 64. "
p_Xgeom_ImpCtrl_ProjectName_EC="Enter the name of the new project file to which you wish to import the file here. This text entry box is only enabled if the Import to New Project radio button is selected. "
p_Xgeom_ImpCtrl_NewRB="Select this radio button if you wish to import your file to a new Sonnet project. Clicking on this button enables the New Project Name text entry box and the Use a project as a template check box. "
p_Xgeom_ImpCtrl_PresentRB="Select this radio button if you wish to input your file into the project that is presently open and active in the project editor. The input replaces the geometry in the file, but the Box settings, materials, and dielectric layers are retained. "
p_Xgeom_ImpCtrl_BrowsePB="Click on this button to open a Browse window to allow you to select the name of an existing project whose box specifications and material list you wish to use for the new project to which you are importing the file. Selecting this button also selects the Use a project as a template checkbox. "
p_Xgeom_ImpCtrl_FileEC="Enter the name of an existing project whose box specifications and material list you wish to use for the new project to which you are importing the file. This text entry box is only enabled when the Use a project as a template checkbox is selected. "
p_Xgeom_ImpCtrl_TemplateCB="Selecting this checkbox uses an existing project's box specifications and material list for the new project to which you are importing the file. This checkbox is only enabled if the Import to New Project radio button is selected. "
p_Xgeom_QSG_ImportRB="Clicking on this radio button opens the Quick Start Guide in import mode which provides the steps for importing a DXF or GDSII file into a Sonnet project using the project editor. "
p_Xgeom_ImpOpt_AdvEC="There are presently two advanced options available, -c and -y. Enter the desired option in this text entry box. For details about either option, see the Import Options dialog box.  "
p_Xgeom_ImpOpt_DefaultsPB="Click on this button to restore all the settings in this dialog box to their original state when the software was initially installed. "
p_Xgeom_ImpOpt_RememberCB="Click here to save any selections you make for the next time this dialog box is accessed. "
p_Xgeom_ImpOpt_ViaCB="Click here to convert incoming vias to rectangular vias. The project editor places a bounding box on vias being imported and creates a rectangular via the size of the bounding box in place of the imported via. "
p_Xgeom_ImpOpt_SizeLB="The substrate size setting determines the size of the substrate. Choices are: Max: Uses the maximum X and maximum Y coordinate of the circuit polygons as the size of the substrate. Min: Makes the substrate minimum size. Specifically it makes the length of the substrate equal to the maximum X coordinate minus the minimum X coordinate. The height of the substrate is the maximum Y coordinate minus the minimum Y coordinate. May position circuit outside of box if used with the Normal Translation option. Normal: Same as “min” except the substrate is made a little larger so that the circuit, if positioned properly, would not touch the edge of the substrate. (Default) Limits: (DXF Only) Uses the DXF drawing limits to determine the substrate size. Specifically it makes the X dimension of the substrate equal to the X coordinate of LIMMAX minus the X coordinate of LIMMIN. Similarly, the height of the substrate is based on the Y coordinates of LIMMAX and LIMMIN. This works best when Limits is also selected for the translation.  "
p_Xgeom_ImpOpt_TransLB="The translation determines the location of the circuit  None: The coordinates are used with no translation. This option is recommended when using another graphics program as a project editor replacement. Min: The coordinates are translated so that the minimum X coordinate and the minimum Y coordinate are set to 0. Normal: The minimum X and Y coordinates are translated so that both are positive (Default). Limits: (DXF Only) The minimum X and Y coordinates are translated using the DXF drawing limits variables. If you can set the drawing limits in your drafting program, this is the best choice.  "
p_Xgeom_ImpOpt_ZeroWidthLB="Select the conversion control option for zero width paths here. Boundary: Converts paths to boundaries, assuming that each point is an endpoint (default)  Open: Do not convert paths to boundaries. Will make zero width lines by tracing each line to end then back to the beginning. Note that these polygons have no subsections.  Smart: Makes a path into a boundary path if the end point equals the begin point.  Else makes it a no_boundary_path "
p_Xgeom_ImpOpt_AngleEC="Enter the angle, in degrees, used for converting arcs and circles to piece wise line segments. The angle is the step size used to divide up the circle or arc. For example if the angle is 10, a circle will become 36 line segments. "
p_Xgeom_ImpOpt_MiterCB="Click on this check box if you wish polyline rounded corners to be “mitered”. Straight line segments are used instead of the arcs. "
p_Xgeom_ImpOpt_ToleranceEC="Enter the tolerance, in inches, used to join nearly touching objects to form a larger polygon. The default is 0.11. "
p_Xgeom_ImpOpt_UnitsLB="Select the length units used in the DXF file from the drop list. Choices are inches (default), mils, um, microns and mm. "
p_Xgeom_ImpStat_OkPB="Clicking on this button executes the import of the file into the specified Sonnet project. Progress messages are shown above the output window as the translator performs the conversion. "
p_Xgeom_ImpStat_LayersPB="Clicking on this button opens the Layers Mapping dialog box which allows you to adjust the mapping of the import file to the Sonnet project. "
p_Xgeom_ImpStat_OptionsPB="Clicking on this button opens the Import Options dialog box which allows you to select advanced options for your import.  "
p_Xgeom_ImpStat_StatusST="The status of the import is shown here. Once the import is completed, this window contains information about the imported file and its conversion. "
p_Xgeom_ImpStatus_Warnings_PB="Clicking on this button opens the Warning display. This button is only enabled if a warning is issued or errors occur during an import. "
p_Xgeom_ImpLayer_Add_PB="Click on this button to add an entry row to the dialog box. This allows you to have multiple entries for a layer in order to map it to multiple Sonnet levels or, for GDSII files, to map different data types in that stream to different objects in the Sonnet project. "
p_Xgeom_ImpLayer_DeletePB="Clicking on this button deletes the presently selected layer in the dialog box. This allows you to delete layer entries that you do not need to convert.  "
p_Xgeom_ImpLayer_Table_Type_EC="The data type number as defined in your circuit layout program. Each layer, defined by your circuit layout program, may have multiple data types. "
p_Xgeom_ImpLayer_Table_GeoLevel_EC="Specify the level in the Sonnet project where you wish to place the layer and data type (GDSII only) being input from the import file. The top level in Sonnet projects is 0. To put metal on the ground plane, for via placement, set the level number to “gnd” or “GND”.  "
p_Xgeom_ImpLayer_LoadPB="Click on this button to open a browse window which allows you to select an external mapping file previously saved from this dialog box. The settings in this file are loaded into the dialog box and are used to control the mapping for the import. "
p_Xgeom_ImpLayer_Table_Mapped_CB="Select this checkbox to convert the layer and data type (data type is available only in GDSII files) listed in the first two columns to the Sonnet object, material type and level listed in the last three columns. If this checkbox is off, then the layer is not included in the Sonnet project file. "
p_Xgeom_ImpLayer_Table_Material_LE="Select the material type you wish to use for the object in the Sonnet project file. The choices available depend on what type of object is selected in Xgeom Object type, Metal, Via or Brick and what materials are available in the template project. You may also edit this entry with a new material name, whose parameters you can later input in the project editor. "
p_Xgeom_ImpLayer_Table_Name_EC="The layer number (GDSII) or layer name (DXF) as defined in your circuit layout program. Note that the layer number has no relationship to the project editor’s dielectric layer number or metalization level number. "
p_Xgeom_ImpLayer_Table_ObjType_LB="Select what type of object should be input to the Sonnet project for the layer and data type (GDSII file only). Select Metal for metalization, Brick for dielectric brick or Via for via from the drop list. You select or enter the metal type (Metal or Via) or brick material from the Xgeom Material drop list. "
p_Xgeom_ImpLayer_SavePB="Click on this button to open a browse window which allows you to save the settings in this dialog box to an external layer mapping file. You can load these settings in subsequent imports of this file by pressing the Load button. "
p_Xgeom_LevVisWin_AllInvisiblePB="Make all levels invisible from other levels "
p_Xgeom_LevVisWin_AllVisiblePB="Make all levels visible from other levels "
p_Xgeom_LevVisWin_InvisiblePB="Make the selected level invisible from other levels "
p_Xgeom_LevVis_LevelsLB="Select the level you wish displayed in the Project Editor window "
p_Xgeom_LevVisWin_LevelLE="Enter the level you wish displayed in the Project Editor window "
p_Xgeom_LevVisWin_LockPB="Lock the selected level which prevents selection from another level. "
p_Xgeom_LevVisWin_UnlockPB="Unlock the selected level which allows selection from other levels "
p_Xgeom_LevVisWin_VisiblePB="Make the selected level visible from other levels "
p_Messages="This field contains brief explanation of buttons or possible actions for the present mode of the project editor. "
p_Xgeom_MetEdit_ConductEC="Enter the bulk conductivity for a Normal metal here. If the bulk conductivity is infinite, enter INF. This is the default bulk conductivity for a new metal.   "
p_Xgeom_MetEdit_RatioEC="The current ratio is the ratio of the current flowing on the bottom of the metal to the current flowing on the top of the metal. Reciprocal values have the same effect; i.e., 0.5 results in the same loss as 2.0. For a more detailed explanation of current ratio, click on the Help button in this dialog box. "
p_Xgeom_MetEdit_LsEC="Enter the Kinetic Inductance (Ls in pH/sq) for a General metal type here.  "
p_Xgeom_MetEdit_NameEC="Enter the name of the metal which you are adding or editing here. "
p_Xgeom_MetEdit_PatDownPB="Click on this button to step through the available display patterns you may assign to the metal. This pattern is used to identify this metal when it is added to your circuit. "
p_Xgeom_MetEdit_PatUpPB="Click on this button to step through the available display patterns you may assign to the metal. This pattern is used to identify this metal when it is added to your circuit. "
p_Xgeom_MetEdit_RdcEC="Enter the DC resistance, Rdc, in ohms/sq here. This value is required for the Resistor, Rdc/Rrf and General metal types. "
p_Xgeom_MetEdit_RrfEC="Enter the skin effect coefficient, Rrf, in ohms/sq here. This value is required for the Rdc/Rrf and General metal types. "
p_Xgeom_MetEdit_LibraryPB="Click here if you wish to open the Metal Library dialog box to add a metal from your local or global library to your project. "
p_Xgeom_MetEdit_ThicknessEC="Normal: Enter the thickness for a Normal metal type here. Metal thickness is used only in calculating loss; the Normal metal type is modeled as a zero-thickness metal.  Thick Metal Model: When using the Thick Metal Model, the thickness parameter represents the physical thickness of the metal.  "
p_Xgeom_MetEdit_TypeLB="Select the type of metal for this metal definition from the Type drop list.  "
p_Xgeom_MetEdit_XdcEC="Enter the DC reactance, Xdc, for the metal here. This attribute is used for both the General and Sense Metal metal types. "
p_Xgeom_MetLib_DeletePB="Click here to remove the presently selected metal from the library. To select a metal in the library, click on its entry in the list to the left of this button. If you wish to delete a metal from your project, you may do so in the Metal Types dialog box. "
p_Xgeom_MetLib_EditPB="Click here to open the Metal Editor dialog box which allows you to edit the type and properties of the metal presently selected in the library list. To select a metal in the library, click on its entry in the list. "
p_Xgeom_MetLib_GlobalLibraryRB="Select this radio button to select and display the Global Library. The entries appear in the metals list below. "
p_Xgeom_MetLib_MyLibraryRB="Select this radio button to select and display your local metal Library. The entries appear in the metals list below. "
p_Xgeom_MetLib_AddPB="Click here to open the Metal Editor dialog box which allows you to define a new metal to add to the presently selected library.  "
p_Xgeom_MetLib_GlobalPB="Click on this button to open a browse window which allows you to select the location of the global library file. "
p_Xgeom_MetLib_MyPB="Click on this button to open a browse window which allows you to select the location of your library file. "
p_Xgeom_PolyWin_MaxSubLen_CB="Select this checkbox if you wish to define a maximum subsection length for conformal meshing. This checkbox is only enabled if Conformal is the fill type. "
p_Xgeom_MetalWin_NewPB="Click on this button to open the Metal Editor dialog box which allows you to define a new metal type or add an existing defined metal from a metal library to your project. "
p_Xgeom_MetalWin_EditPB="Click here to edit the selected metal type in the list to the left. The Metal Editor dialog box is opened displaying the present values of the metal. You may edit the name and properties of the metal in this dialog box. "
p_Xgeom_MetalWin_LibraryPB="Click here to open the Metal Library dialog box which allows you to edit the contents of your local or global metal library. "
p_Xgeom_MetEdit_ZPartsEC="Enter the desired number of sheets for the thick metal type here. The metal thickness defines the overall physical thickness of the metal. The number of sheets determines how many layers of metal you wish to use in modeling the thick metal. The thickness is equal to the total thickness of all the sheets taken together. As you increase the number of sheets the accuracy of your answer is improved. However, there is a tradeoff since an increased number of sheets also demands more processing time and memory use. The recommended default of 2 sheets should prove to be adequate in about 90% of circuits.  "
p_Xgeom_PolyWin_EdgeMeshLB="Select On from this drop list to turn on edge meshing for the selected polygon(s). When using the Edge Mesh option, all Manhattan polygons (no diagonal edges) are treated as if they were non-Manhattan polygons. In other words, the edge subsections are always one cell wide regardless of X Min or Y Min. When used in conjunction with large X Min or Y Min values, this option can be very useful in reducing the number of subsections but still maintaining the edge singularity. This is very often a good compromise between accuracy and speed "
p_Xgeom_PolyWin_FillLB="Choose a fill type for the polygon from the drop list. For more details, click on the Help button. "
p_Xgeom_PolyWin_MetalLB="Metal Properties: Choose a metal type for the polygon from the drop list. The default metal type Lossless is included as well as any user defined metals. To define a new metal, see Circuit => Metal Types. Brick Properties: Choose a brick type for the polygon from the drop list. The default brick type Air is included as well as any user defined brick materials. To define a new brick material, see Circuit => Brick Materials. "
p_Xgeom_PolyWin_XMaxEC="The maximum width, defined as a number of cells, of a subsection. Applies only to the selected polygon(s). "
p_Xgeom_PolyWin_XMinEC="The minimum width, defined as a number of cells, of a subsection. Lowest limit is the default value, one cell. Applies only to the selected polygon(s). "
p_Xgeom_PolyWin_YMaxEC="The maximum height, defined as a number of cells, of a subsection. Applies only to the selected polygon(s). "
p_Xgeom_PolyWin_YMinEC="The minimum height, defined as a number of cells, of a subsection. Lowest limit is the default value, one cell. Applies only to the selected polygon(s). "
p_Xgeom_PolyWin_MaxSubLen_EC="Enter the maximum desired length for a conformal subsection here. This text entry is only enabled if the Fill type is Conformal and the Maximum Length checkbox is selected. "
p_Netlist="The netlist contains all the elements in the main network. These consist of modeled elements, project elements, data file elements and network elements. Double-clicking on any entry line in the netlist opens the appropriate dialog box which allows you to edit the entry."
p_Xgeom_ElementWin_Browse_NB="Click here to open a browse window which allows you to select a file as your circuit element. Available for Project elements and Data File elements. "
p_Xgeom_ElementEntry_Inherit_RB="Click on this radio button to use the analysis sweep defined in this netlist project when analyzing this subproject.  "
p_Xgeom_ElementWin_Model_Select_LB="Modeled Element: Select the type of modeled element you wish to add to the netlist here. Which parameter text entry boxes are available changes depending which type of modeled element you select. Network Element: Select the network you wish to add from this droplist of existing networks. If you wish to create a new network, see Tools => Add Network. "
p_Xgeom_ElementWin_Node_EC="A node text entry box appears for every port in the element and for ground of the element. Enter the node number to which you wish the port or ground to be connected. The node is a reference point for which any positive integer value may be used.  The character string GND is reserved for ground.  "
p_Xgeom_ElementWin_ParamValue_EC="Modeled Element: Enter the appropriate property of the modeled element here.  Be aware that you must use the scroll bar on the right to access all the parameters for a Transmission Line Physical. Project Element: Enter a value for a parameter defined in the subproject here.  For both cases, values may be floating point numbers or a parameter defined in the netlist.  "
p_Xgeom_ElementEntry_Local_RB="Click on this radio button to use the analysis sweep defined in the subproject rather than the sweep defined in this netlist project when analyzing this subproject. This option is ignored if Hierarchy Sweep is on in the netlist project's analysis setup. "
p_Netlist_Example="This is the netlist in the project editor which represents the network shown.  "
p_Network="This section of the status bar displays which network is presently selected. "
p_Xgeom_EditNetWin_NetName_EC="Enter the name of the network in this text entry box.  "
p_Xgeom_EditNetWin_Node_EC="Enter the node in the netlist to which you wish the port to correspond here.  "
p_Xgeom_EditNetWin_NumPorts_EC="Enter the number of ports in the network here. "
p_Xgeom_EditNetWin_PortTerm_NB="Click on this button to open the Port Terminations dialog box which allows you to set the impedances for all the ports in the network.  "
p_Xgeom_VisWin_SubdividerCB="Displays subdividers. This checkbox is only enabled if the Only Objects Checked Below radio button is selected.  "
p_Xgeom_VisWin_DimCB="Displays dimensions. This checkbox is only enabled if the Only Objects Checked Below radio button is selected.  "
p_Xgeom_VisWin_ParamCB="Displays parameters, both anchored and symmetrical. This checkbox is only enabled if the Only Objects Checked Below radio button is selected.  "
p_Xgeom_OptGoal_Target_Format_LB="Select the format of the desired target response from this drop list. Your choices include DB, Angle, Magnitude, Real and Imaginary. This drop list appears when Network is selected from the Target Type drop list.  "
p_Xgeom_OptGoal_Browse_PB="Click on this button to open a browse window that allows you to select the response file for the target file text entry box. This button appears when File is selected from the Target Type drop list.  "
p_Xgeom_OptGoal_Operation_LB="Select the desired operation between the project response and the target response from the drop list. Your choices are less than (<), equal to (=), or greater than (>). "
p_Xgeom_OptGoal_Source_LB="Select the specific network in your netlist project from which you want to select the project response.  If the present project is a Geometry project, the Network drop list displays the project name and is disabled. "
p_Xgeom_OptGoal_Source_Format_LB="Select the format of the desired project response from this drop list. Your choices include DB, Angle, Magnitude, Real and Imaginary. "
p_Xgeom_OptGoal_Source_Param_LB="Select the specific response you wish to use for your project response. Available choices are S-, Y- and Z- parameters for the network. "
p_Xgeom_OptGoal_Start_EC="Enter the lowest frequency in your range of control frequencies here. The project is analyzed at each frequency in the frequency controls for each iteration of the optimization. "
p_Xgeom_OptGoal_Step_EC="Enter the interval between frequencies in your range of control frequencies here. The project is analyzed at each frequency in the frequency controls for each iteration of the optimization. "
p_Xgeom_OptGoal_Stop_EC="Enter the highest frequency in your range of control frequencies here. The project is analyzed at each frequency in the frequency controls for each iteration of the optimization. "
p_Xgeom_OptGoal_Target_File_EC="Enter the name of the response file which contains your desired target response. You can also click on the browse button to open a window that allows you to select a file. This text entry box appears when File is selected from the Target Type drop list.  "
p_Xgeom_OptGoal_Target_Net_LB="Select the network which contains the desired target response from the drop list of available networks. This drop list is shown when Network is selected in the Target Response drop list. "
p_Xgeom_OptGoal_Target_Param_LB="Select the specific response you wish to use for your target response. Available choices are S-, Y- and Z- parameters for the network. This drop list appears when Network is selected from the Target Type drop list.  "
p_Xgeom_OptGoal_TargetSelect_LB="Select the type of target response from this drop list. Your choices include Value, Network, or a File. The appearance of the dialog box is updated with the appropriate controls for your choice of target response. "
p_Xgeom_OptGoal_Target_Value_EC="Enter the desired value for your target response in this text entry box. This text entry box appears when Value is selected from the Target Type drop list. This value is a floating point number. "
p_Xgeom_OptGoal_Weight_EC="Enter a non-zero value to indicate the importance of this goal. If you have multiple optimization goals, the weight allows you to identify the priority of each goal for em, the analysis engine. The higher the value, the higher the priority placed on the goal. The default value is 1.0. "
p_Xgeom_EditOptParam_OptResult1_NT="The optimized value arrived at by a previous optimization is listed here. To replace the nominal value with this optimized value, click on the update button. "
p_Xgeom_EditOptParam_OptResult4_NT="The optimized value arrived at by a previous optimization is listed here. To replace the nominal value with this optimized value, click on the update button. "
p_Xgeom_EditOptParam_OptResult3_NT="The optimized value arrived at by a previous optimization is listed here. To replace the nominal value with this optimized value, click on the update button. "
p_Xgeom_EditOptParam_OptResult2_NT="The optimized value arrived at by a previous optimization is listed here. To replace the nominal value with this optimized value, click on the update button. "
p_Xgeom_EditOptParam_Min1_EC="Enter the lowest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, listed in the first column, is selected for optimization. "
p_Xgeom_EditOptParam_Min4_EC="Enter the lowest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, listed in the first column, is selected for optimization. "
p_Xgeom_EditOptParam_Min3_EC="Enter the lowest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, listed in the first column, is selected for optimization. "
p_Xgeom_EditOptParam_Min2_EC="Enter the lowest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, listed in the first column, is selected for optimization. "
p_Xgeom_EditOptParam_Max1_EC="Enter the highest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, in the first column, is selected for optimization. "
p_Xgeom_EditOptParam_Max4_EC="Enter the highest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, in the first column, is selected for optimization. "
p_Xgeom_EditOptParam_Max3_EC="Enter the highest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, in the first column, is selected for optimization. "
p_Xgeom_EditOptParam_Max2_EC="Enter the highest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, in the first column, is selected for optimization. "
p_Xgeom_EditOptParam_Opt1_CB="Clicking on this checkbox selects the parameter to be used in the optimization. When this checkbox is on the Minimum and Maximum value entry boxes are enabled. If the parameter is not selected, the present nominal value is used in the analysis. "
p_Xgeom_EditOptParam_Opt4_CB="Clicking on this checkbox selects the parameter to be used in the optimization. When this checkbox is on the Minimum and Maximum value entry boxes are enabled. If the parameter is not selected, the present nominal value is used in the analysis. "
p_Xgeom_EditOptParam_Opt3_CB="Clicking on this checkbox selects the parameter to be used in the optimization. When this checkbox is on the Minimum and Maximum value entry boxes are enabled. If the parameter is not selected, the present nominal value is used in the analysis. "
p_Xgeom_EditOptParam_Opt2_CB="Clicking on this checkbox selects the parameter to be used in the optimization. When this checkbox is on the Minimum and Maximum value entry boxes are enabled. If the parameter is not selected, the present nominal value is used in the analysis. "
p_Xgeom_EditOptParams_Update_PB="Clicking on this button replaces the nominal value of the parameter(s) with the optimization results listed in the last column. The circuit geometry is redrawn using the new nominal value. This button is only enabled if optimization results are available that have not yet been used in an update. "
p_Xgeom_EditOptParam_XCellSize_NT="This is the present size of a cell in the X direction as defined in the Box Settings dialog box. "
p_Xgeom_EditOptParam_YCellSize_NT="This is the present size of a cell in the Y direction as defined in the Box Settings dialog box. "
p_Xgeom_EditOptParam_Nominal1_EC="The present value of the parameter in your circuit geometry. If you wish to start from a different nominal value, change this entry to the desired number. If you change the nominal value, your circuit geometry is redrawn to reflect the change. "
p_Xgeom_EditOptParam_Nominal4_EC="The present value of the parameter in your circuit geometry. If you wish to start from a different nominal value, change this entry to the desired number. If you change the nominal value, your circuit geometry is redrawn to reflect the change. "
p_Xgeom_EditOptParam_Nominal3_EC="The present value of the parameter in your circuit geometry. If you wish to start from a different nominal value, change this entry to the desired number. If you change the nominal value, your circuit geometry is redrawn to reflect the change. "
p_Xgeom_EditOptParam_Nominal2_EC="The present value of the parameter in your circuit geometry. If you wish to start from a different nominal value, change this entry to the desired number. If you change the nominal value, your circuit geometry is redrawn to reflect the change. "
p_Xgeom_OptionalFiles_AddResponse_PB="Click on this button to open the Response File entry dialog box to specify an additional response file you wish to have output from the analysis. "
p_Xgeom_OptionalFiles_AddSpice_PB="Click on this button to open the SPICE File entry dialog box to specify a SPICE file you wish to have output from the analysis. "
p_Xgeom_OptionalFiles_Delete_PB="Click on this button to delete the output file selected in the list of files that appears to the left. "
p_Xgeom_OptionalFiles_Edit_PB="Click on this button to open the appropriate File Entry dialog box to edit the output file selected in the list of files that appears to the left. Which dialog box is opened depends on the type of output file presently selected. "
p_Xgeom_OptionalFiles_FileList_LB="This is a list of the presently specified output files. You edit this list by use of the buttons to the right. To select an item in the list click on it. "
p_Xgeom_PackWin_BrowsePB="Click here to open a Browse for Folder window to select a new directory. The selected directory is shown in the Directory text entry box to the left. "
p_Xgeom_PackWin_JxyCB="Click on this checkbox to include current density data in the archive. "
p_Xgeom_PackWin_LastDirRB="Pack: Select this radio button to save your archive file to a different directory than the one containing the project you are packing. This will enable the directory text entry box and Browse button below. Unpack: Select this radio button to unpack your project in a different directory than the one containing the archive file. This will enable the directory text entry box and Browse button below. "
p_Xgeom_PackWin_SameDirRB="Pack: Select this radio button to save your archive file to the same directory as the one containing the project you are packing. Unpack: Select this radio button to unpack your project to the same directory as the one containing the archive file. "
p_Xgeom_PackWin_ABS_CB="Select this checkbox is you wish to save the ABS caching data in your project as part of your archive.  "
p_Xgeom_PackWin_ExtFiles_CB="Click here to include any external files in your archive file. This does not include optional output files, but only those files needed by the analysis engine, em, to run an analysis. An example would be a subproject referenced by a netlist project.  "
p_Xgeom_EditParamSwp_SwpStop_EC="Enter the highest frequency in your range of control frequencies here. The project is analyzed at each frequency in the frequency controls for each combination of the values of the parameters. "
p_Xgeom_EditParamSwp_SwpStep_EC="Enter the interval between frequencies in your range of control frequencies here. The project is analyzed at each frequency in the frequency controls for each combination of the values of the parameters. "
p_Xgeom_EditParamSwp_Nom1_NT="This is the present value of the parameter as drawn in your circuit geometry. "
p_Xgeom_EditParamSwp_Nom3_NT="This is the present value of the parameter as drawn in your circuit geometry. "
p_Xgeom_EditParamSwp_Nom4_NT="This is the present value of the parameter as drawn in your circuit geometry. "
p_Xgeom_EditParamSwp_Nom2_NT="This is the present value of the parameter as drawn in your circuit geometry. "
p_Xgeom_EditParamSwp_Start1_EC="Enter the lowest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, listed in the first column, is selected for the parameter sweep. "
p_Xgeom_EditParamSwp_Start4_EC="Enter the lowest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, listed in the first column, is selected for the parameter sweep. "
p_Xgeom_EditParamSwp_Start3_EC="Enter the lowest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, listed in the first column, is selected for the parameter sweep. "
p_Xgeom_EditParamSwp_Start2_EC="Enter the lowest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, listed in the first column, is selected for the parameter sweep. "
p_Xgeom_EditParamSwp_Step1_EC="Enter the interval between values you wish to use for the parameter in this text entry box. For example, if you specify a start value of 20 mils, a stop value of 60 mils and a step of 20 mils for the parameter P1, your project is analyzed at P1 = 20, 40, and 60 mils across the frequency range.  This box is only enabled if the parameter, listed in the first column, is selected for the parameter sweep. "
p_Xgeom_EditParamSwp_Step4_EC="Enter the interval between values you wish to use for the parameter in this text entry box. For example, if you specify a start value of 20 mils, a stop value of 60 mils and a step of 20 mils for the parameter P1, your project is analyzed at P1 = 20, 40, and 60 mils across the frequency range.  This box is only enabled if the parameter, listed in the first column, is selected for the parameter sweep. "
p_Xgeom_EditParamSwp_Step3_EC="Enter the interval between values you wish to use for the parameter in this text entry box. For example, if you specify a start value of 20 mils, a stop value of 60 mils and a step of 20 mils for the parameter P1, your project is analyzed at P1 = 20, 40, and 60 mils across the frequency range.  This box is only enabled if the parameter, listed in the first column, is selected for the parameter sweep. "
p_Xgeom_EditParamSwp_Step2_EC="Enter the interval between values you wish to use for the parameter in this text entry box. For example, if you specify a start value of 20 mils, a stop value of 60 mils and a step of 20 mils for the parameter P1, your project is analyzed at P1 = 20, 40, and 60 mils across the frequency range.  This box is only enabled if the parameter, listed in the first column, is selected for the parameter sweep. "
p_Xgeom_EditParamSwp_Stop1_EC="Enter the highest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, listed in the first column, is selected for the parameter sweep. "
p_Xgeom_EditParamSwp_Stop4_EC="Enter the highest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, listed in the first column, is selected for the parameter sweep. "
p_Xgeom_EditParamSwp_Stop3_EC="Enter the highest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, listed in the first column, is selected for the parameter sweep. "
p_Xgeom_EditParamSwp_Stop2_EC="Enter the highest possible value you wish to use for the parameter in this text entry box. This box is only enabled if the parameter, listed in the first column, is selected for the parameter sweep. "
p_Xgeom_EditParamSwp_Swp1_CB="Setting this checkbox to on selects the parameter for the parameter sweep. Selecting the parameter enables the text entry boxes in its row. If the parameter is not selected, the nominal value shown in the last column is used for the analysis. "
p_Xgeom_EditParamSwp_Swp4_CB="Setting this checkbox to on selects the parameter for the parameter sweep. Selecting the parameter enables the text entry boxes in its row. If the parameter is not selected, the nominal value shown in the last column is used for the analysis. "
p_Xgeom_EditParamSwp_Swp3_CB="Setting this checkbox to on selects the parameter for the parameter sweep. Selecting the parameter enables the text entry boxes in its row. If the parameter is not selected, the nominal value shown in the last column is used for the analysis. "
p_Xgeom_EditParamSwp_Swp2_CB="Setting this checkbox to on selects the parameter for the parameter sweep. Selecting the parameter enables the text entry boxes in its row. If the parameter is not selected, the nominal value shown in the last column is used for the analysis. "
p_Xgeom_EditParamSwp_XCell_NT="This is the present size of a cell in the X direction as defined in the Box Settings dialog box. "
p_Xgeom_EditParamSwp_YCell_NT="This is the present size of a cell in the Y direction as defined in the Box Settings dialog box. "
p_Xgeom_EditParamSwp_SwpStart_EC="Enter the lowest frequency in your range of control frequencies here. The project is analyzed at each frequency in the frequency controls for each combination of the values of the parameters. "
p_Xgeom_EditParamSw_AFI_CB="Click on this checkbox to select an adaptive sweep (ABS) for frequency specification for the parameter sweep. An adaptive sweep is performed on the frequency band specified in the Start and Stop text entry boxes below for each parameter combination.  Disable this checkbox to perform a linear frequency sweep for the parameter sweep. This is the default. "
p_Xgeom_ParametersWin_Delete_PB="Clicking on this button deletes the presently selected parameter from your netlist. "
p_Xgeom_ParametersWin_New_PB="Click on this button to define a parameter in your netlist project. Two test entry boxes appear. Enter the desired parameter name and nominal value in these text entry boxes. "
p_Xgeom_ParamWin_NV_EC="Enter the desired nominal value for the parameter entered in the text entry box to the left here. Any modeled elements set equal to this parameter use this nominal value in the netlist analysis. "
p_Xgeom_ParamWin_Name_EC="In a netlist project, enter the desired name for the parameter here. For a geometry project, this field is disabled and may not be changed. Use the command Modify => Parameter Properties to change the name of an existing parameter in a project file. "
p_Xgeom_VarWin_NominalEC="Enter the nominal value of the parameter. The circuit is redrawn in the project editor whenever this value changes. This entry is disabled when you are initially defining the parameter; the present value is shown grayed out. "
p_Xgeom_VarWin_NameLE="Enter the desired name for the parameter in this text entry box. Or select an existing parameter name from the drop list. "
p_Xgeom_TermWin_CapacitanceEC="Enter the capacitance component of the port impedance here. "
p_Xgeom_TermWin_InductanceEC="Enter the inductance component of the port impedance here. "
p_Xgeom_TermWin_Multiport_CB="Turn this checkbox off to use one set of impedance values for all the ports in the network. Turn this checkbox on to have a row of entries for each port so that unique values may be entered for each port's impedance.  "
p_Xgeom_TermWin_ReactanceEC="Enter the reactance component of the port impedance here. "
p_Xgeom_TermWin_ResistanceEC="Enter the resistance component of the port impedance here. "
p_Xgeom_AnalyzeOutside_CB="If you select the command File => MWOffice => Analyze Outside MWOffice, a hint appears on your display explaining how the command works and the follow up actions you need to take. To disable this hint, clear this checkbox. "
p_Xgeom_PrefWin_AskRB="Select this option to specify a directory which contains two or more templates. This allows you to choose among different templates with pre-defined circuit parameters. When you open a new project, a browse window opens on the specified template directory from which you may choose the desired template for the new project. "
p_Xgeom_PrefWin_FileBrowsePB="Select this button to open a browse window which allows you to select the template which you wish to use whenever you open a new project. This button is only enabled when the Always Use This Template radio button is selected. "
p_Xgeom_PrefWin_DirBrowsePB="Select this button to open a browse window which allows you to select the template directory from which you wish to choose a template to use as the new project. This button is only enabled when the Select From My Template Directory radio button is selected. "
p_Xgeom_PrefWin_DirEC="Enter the location of the template directory from which you wish to choose a template to use as a new project. You may directly edit the location or click on the Browse button to the right to open a browse window which allows you to specify the template directory. This is only enabled when the Select From My Template Directory radio button is selected. "
p_Xgeom_PrefWin_AlwaysEC="Enter the location of the template project that you wish to use each time you open a new project. You may directly edit the location or click on the Browse button to the right to open a browse window which allows you to specify the template project. This is only enabled when the Always Use This Template radio button is selected. "
p_Xgeom_PrefWin_AlwaysRB="Select this option to use an existing template project. This option is useful if some of the circuit parameters, such as the dielectric layers, or substrate, are always the same. Every time you open a new project, the template specified in the adjoining text entry box is used. "
p_Xgeom_PrefWin_BlankRB="Select this option if you wish to open a blank project when you open a new project in the project editor. The new project uses the default circuit parameters. This is the default option for a new project. "
p_Xgeom_PrefWin_AutoGenResp_CB="You may click on the Auto Generate Default Response File if you wish your project to automatically create an additional response file when you run an analysis. Clicking on the Default button opens the Response File Entry dialog box which allows you to select the default settings for the autogenerated response file. "
p_Xgeom_PrefWin_AutoGenSpice_CB="Select this checkbox if you wish to automatically create a PI Spice (Lumped Element) Model output file each time you run an analysis on your project. Click on the default button to the right to open the PI Model File Entry dialog box which allows you to specify the default settings for the autogenerated PI Model. "
p_Xgeom_ConformalHint_CB="If this checkbox is selected, then a warning appears when you select Conformal fill type in the Metal Properties dialog box. If you do not wish to see this warning, clear this checkbox.  "
p_Xgeom_PrefWin_CellCalc_CB="If this checkbox is selected, then a dialog box appears when you click on the Cell Size Calculator button which provides you with a choice between the Wizard and the interactive Calculator. If you wish to disable this dialog box and always have the Interactive Cell Size Calculator appear, then clear this checkbox. "
p_Xgeom_PrefWin_QuickStart_CB="If this checkbox is selected, then the Quick Start Guide is opened when you open a geometry file. To disable the Quick Start Guide, clear this checkbox.  "
p_Xgeom_Use_ABS_CB="If this checkbox is selected a hint appears suggesting you use an adaptive sweep (ABS) when you setup an analysis which analyzes at a large number of  frequency points but does not use ABS. "
p_Xgeom_PrefWin_ViaDirNotice_CB="If this checkbox is selected a notice appears when you add a via to your circuit informing you in which direction the via is extending from the present level. If this checkbox is cleared, the message does not appear when you add a via to your circuit. See the Tools => Add Via menu for commands which change the via direction. "
p_Xgeom_ViaPort_CB="If this checkbox is selected a notice appears when you add a port to a via polygon on a metal level which is not the bottom of the via reminding you that the port is only shown on the bottom level of the via. "
p_Xgeom_PerfWin_CacheDirEC="Enter the directory where you wish to store the cache of pre-computed frequency independent data used when the multi-frequency caching run option is used in an analysis. "
p_Xgeom_PrefWin_SetDef_Spice_NB="Click on this button to the right to open the PI Model File Entry dialog box which allows you to specify the default settings for the autogenerated PI Model.  "
p_Xgeom_PrefWin_SetDef_Resp_NB="Click on the this button to open the Response File Entry dialog box which allows you to select the default settings for the autogenerated response file. "
p_Present_Line_Number="Displays the line number of the presently selected line in the netlist in the main window."
p_Project_Name="The name of the project presently open in the project editor appears here."
p_Xgeom_PackWin_DirEC="Enter the directory in which you wish to create the archive for your project  (Pack) or unpack the archive (Unpack) here. You may click on the Browse button to the right which opens a Browse window which allows you to select the desired directory. "
p_Xgeom_QSG_Dont_ShowCB="Clicking on this checkbox disables the Quick Start Guide. The Quick Start Guide will no longer appear when you create a new file. You may still open the Quick Start Guide by selecting Help => Quick Start Guide. You may reset this checkbox in File => Preferences.  "
p_qsg_help_buttons="Clicking on one of these question marks takes you to the appropriate topic in help to provide detailed information about how to complete the step. If you would like a brief, simple set of instructions, click on the step itself. "
p_qsg_steps="Clicking on one of these steps provides a brief set of instructions for completing the step. If you wish more detailed information click on the ? to the right of the step. "
p_Xgeom_QSG_SwitchGuidesPB="Click here if you wish to change the mode of the Quick Start Guide from Import to Manual or Manual to Import. "
p_Xgeom_ViaElm_XDimEC="Enter the desired width of the via rectangle in the x dimension here. "
p_Xgeom_ViaElm_YDimEC="Enter the desired height of the via rectangle in the y dimension here. "
p_Xgeom_CalLen_ItemsLB="Click on the box wall in the list for which you wish to define a reference plane or calibration length. Each of the four box walls are listed here. The radio buttons below the list affect whichever box wall is presently selected. The reference plane extends from the selected box wall to the end point specified in the radio group below. "
p_Xgeom_CalLen_FixedEC="Enter the desired length for a fixed length reference plane in the text entry box. This box is enabled when the Fixed radio button is selected. "
p_Xgeom_CalLen_FixedPB="Click on this button to use your mouse to select the distance from the box wall in your circuit to which to set the reference plane. This button is only enabled when the Fixed radio button is selected. "
p_Xgeom_CalLen_LinkedRB="Select this radio button if you wish to add a linked reference plane to the box wall selected in the list above. Selecting this radio button enables the adjacent Mouse button. Click on the Mouse button, then click on the point in your circuit to which you wish to link the reference plane. As that point on the polygon moves, as part of a reshape or a new value for a parameter, the length of the reference plane also changes.  "
p_Xgeom_CalLen_CalLenEC="Enter the desired length for the calibration length for the selected box wall in this text entry box. This is only enabled when there is no reference plane for the selected box wall and the Use fixed Cal. length checkbox is on. "
p_Xgeom_CalLen_CalLenCB="Setting this checkbox to on allows you to input a fixed calibration length for the selected box wall. This checkbox is only enabled if there is no reference plane for the box wall. "
p_Xgeom_CalLen_LinkedPB="Click on this button to use your mouse to select a point on a polygon in your circuit to which to link the reference plane. This button is only enabled when the Linked radio button is selected. "
p_Xgeom_CalLen_FixedRB="Select this radio button if you wish to add a fixed length reference plane to the box wall selected in the list above. The reference plane extends a fixed distance from the box wall into your circuit. Selecting this radio button enables the adjacent Mouse button and length text entry box. You can enter this length in one of two ways. Click on the Mouse button, then click in your circuit. The distance from the box wall to that point appears in the text entry box. Or you can enter the desired length directly into the text entry box.  "
p_Xgeom_CalLen_NoneRB="Selecting this radio button means that no reference plane is used at all. Only the port discontinuity is de-embedded. If you wish to use a calibration length for that box wall click on the Use fixed cal. length checkbox and enter the calibration length in the text entry box that is enabled by selecting the checkbox. "
p_Xgeom_ResponseFile_Filename_EC="Enter the desired filename for the file you are specifying in the File Name text entry box. You may specify an absolute or relative path. "
p_Xgeom_ResponseWin_HighPrecision_CB="Click here to output high precision (16 figures) data for the response file. "
p_Xgeom_ResponseFile_Remember_CB="Click here to save any selections you made for the next time this dialog box is accessed. "
p_Xgeom_ResponseFile_ComplexForm_LB="Select the format of the complex numbers in your output response data. The choices are: DB - Angle, Magnitude - Angle, Magnitude - Radians, and Real - Imaginary. "
p_Xgeom_ResponseFile_DataType_LB="Select de-embedded or non-de-embedded data for your output file. De-embedding is the process whereby the port discontinuity is removed from your responses. For more detail, refer to the chapter on ''De-embedding'' in the Sonnet User's Guide. "
p_Xgeom_ResponseFile_Format_LB="Select the format of the response data from the drop list. The choices include Touchstone, Data Bank, SCompact, Spreadsheet, Agilent Microwave Data Interchange Format (s2p) and Agilent Microwave Data Interchange Format (ebridge). "
p_Xgeom_ResponseWin_ABS_CB="Click on this checkbox to include all the discrete and adaptive data from an Adaptive Band Synthesis (ABS) analysis. If you wish to  export only the discrete data points, disable this checkbox. The checkbox is set by default for all new projects. "
p_Xgeom_ResponseFile_Network_LB="If this project is a Netlist project, you may select for which network you wish to specify an output file from the drop list which contains all the networks in your project. If the project is a geometry project, then this drop list is disabled. "
p_Xgeom_ResponseFile_Param_LB="Select the parameters for your output file from this drop list. Choices include S-, Y- or Z-parameters. "
p_Xgeom_SelWin_DimCB="Allow selection of dimensions. This checkbox is only enabled if the Only Objects Checked Below radio button is selected. "
p_Xgeom_SelWin_ParamCB="Allow selection of parameters, both anchored and symmetrical. This checkbox is only enabled if the Only Objects Checked Below radio button is selected. "
p_Xgeom_PolyWin_ViasToo_CB="Click here if you wish to select all vias whose metal shares the characteristics specified in this dialog box.  "
p_Xgeom_PolyWin_Invert_CB="Click on this checkbox if you wish to select all polygons in your circuit which do NOT have the properties specified in this dialog box. "
p_Xgeom_SelWin_SubdividerCB="Allow selection of subdividers. This checkbox is only enabled if the Only Objects Checked Below radio button is selected. "
p_Xgeom_SnapToWin_RefPointPB="Click on this button to select the reference point to be used during the snap command. This reference point is only needed if you select the Preserve shape and spacing option above. When you click on the button a ''+'' cursor appears on your display. Click on the desired reference point. When you select the reference point, the Snap Objects dialog box appears again on your display. "
p_Xgeom_SnapToWin_RefPointRB="Select this radio button is you wish to snap a reference point contained in the selected polygon(s) to the grid with all other vertices maintaining their position relative to the reference point. For example, if a vertex is 3 mils below the reference point, it will still be 3 mils below the reference point after the snap is completed. If you select this option, you must click on the Select Reference Point button below to select a reference point for the snap to command. "
p_Xgeom_SnapToWin_AllPointsRB="Select this radio button to snap all the vertices in the selected polygon(s) to the grid when you perform the snap command. "
p_Xgeom_SnapWin_ObjSnapCB="Select here if you wish to use object snap. When you are drawing new polygons or when you are in reshape mode and moving a vertex of a polygon, you will snap to an existing object. This is useful when trying to ensure that there is no gap between polygons when you are using a fine resolution grid or that polygons are positioned correctly relative to each other. If both grid snap and object snap are on, object snap takes precedence.  "
p_Xgeom_AnSpeed_Estimate_PB="Click on this button to obtain an estimate of memory use and subsectioning for this project. "
p_Xgeom_AnSpeed_SpeedSelect_SB="Use this slide bar to control the memory usage for an analysis by controlling the subsectioning of your circuit. The high memory settings produce a more accurate answer and usually increase processing time. Conversely, low memory settings run faster but do not yield as accurate an answer. There are presently three settings. "
p_Xgeom_SpiceFile_ABS_CB="Click on this checkbox to include all the discrete and adaptive data from an Adaptive Band Synthesis (ABS) analysis. If you wish to  export only the discrete data points, disable this checkbox. The checkbox is set by default for all new projects. "
p_Xgeom_SpiceWin_HighPrecision_CB="Click here to output high precision (16 figures) data for the PI model output file. "
p_Xgeom_SpiceFile_CMin_EC="Enter the minimum allowed capacitance (pF) for your PI Model output file. The default value is 0.1 pF. "
p_Xgeom_SpiceFile_DataType_LB="Select De-embedded or Non-De-embedded data from the drop list. De-embedded data is the default. De-embedding is the process whereby the effect of the port discontinuity is removed  "
p_Xgeom_SpiceFile_Filename_EC="Enter the desired filename for the file you are specifying. You may specify an absolute or relative path. "
p_Xgeom_SpiceFile_Format_LB="Select the SPICE format you wish to use for your output Model from this drop list. "
p_Xgeom_SpiceFile_KMin_EC="Enter the minimum allowed mutual inductance (dimensionless ratio) for your SPICE PI Model output file. The default value is 0.01 "
p_Xgeom_SpiceFile_LMax_EC="Enter the maximum allowed inductance (nH) for your SPICE PI model output file. The default value is 100.0 nH. "
p_Xgeom_SpiceFile_Network_LB="Select for which network you wish to specify an output file from the drop list which contains all the networks in your project. If the project is a geometry project, then this drop list is disabled. "
p_Xgeom_SpiceFile_Remember_CB="Click here to save any selections you make for the next time this dialog box is accessed. "
p_Xgeom_SpiceFile_RMax_EC="Enter the maximum allowed resistance (ohms) for your SPICE PI model output file. The default value is 1000.0 ohms."
p_Xgeom_SpiceFile_RZero_EC="Enter the resistor to go in series with all lossless inductors (resistance in ohms) for your SPICE PI model output file. The default value is 0.0. "
p_Xgeom_SpiceFile_SeparationEC="This value is a percentage used to select the gap between frequencies used to generate a SPICE PI model. The default value is 10%. In this case, a SPICE model is generated using the first frequency and the next highest frequency which provides a 10% gap. This continues until there are no more frequencies. "
p_Xgeom_ImpStruct_DefaultRB="Select this radio button if the structure you wish to convert is the default structure in your GDSII file. "
p_Xgeom_ImpStruct_Specify_PB="Clicking on this button opens the Choose Structure dialog box in which you can select a structure other than the default to convert in your import. "
p_Xgeom_ImpStruct_SpecifyRB="Select this radio button if you wish to convert a structure other than the default in the GDSII file. Selecting the Specify Structure radio button enables the Specify button.  "
p_Xgeom_SubdivDirection_Horizontal_RB="Click on this radio button if you wish subdividers to be horizontal (left-right). All the subdividers in a project must have the same orientation. "
p_Xgeom_SubdivDirection_Vertical_RB="Click on this radio button if you wish subdividers to be vertical (up-down). All the subdividers in a project must have the same orientation. "
p_XGEOM_SD_NO_SYMMETRY_ALLOWED_HELP_PB="You may not use horizontal subdivision lines in a circuit in which symmetry is turned on. If you wish to turn symmetry off, the symmetry setting is controlled in the Circuit Box Settings dialog box, invoked by selecting  Circuit => Box ."
p_Xgeom_ExtWin_ApplyToAllPB="Click on this button to apply the Common Destination entered in the text entry box above to all the external files in the list. This is useful if you wish to extract all the external files to the same location. "
p_Xgeom_ExtWin_DirEC="If you wish to write all the external files to the same location, enter the desired location in this text entry box, then click on the Apply to All button. The destination entered here will appear in the list above for all the locations. You may click on the Browse button to the right to open a browse window that allows you to select a location. "
p_Xgeom_ExtWin_EditPB="Click on this button to open the Edit Extraction Options dialog box which allows you to select a unique destination for the selected file or delete the selected file.  "
p_Xgeom_ExtWin_ItemsLB="This is a list of files which were not extracted during the unpack. The destination to which the file should be written appears after it in the list. Initially, this destination is the location recorded in the archive file which needs to be changed before the file can be extracted. You may select a unique destination for each file, delete the file, or write all the files to the same location by using the controls in this dialog box.  "
p_Xgeom_FinishSubdiv_FixedLength_EC="If you select the Fixed Length option for the added feedline, enter the desired length of feedline you wish to add to the generated geometry subprojects here. "
p_Xgeom_FinishSubdiv_FixedLength_RB="Select this radio button to enter the desired feedline length you wish to add to the generated ports of the geometry subprojects. "
p_Xgeom_FinishSubdiv_None_RB="Select this button if you do not wish to add any feedline to the generated subprojects. "
p_Xgeom_FinishSubdiv_SectionName_EC="There is a text entry box for each section of your circuit. Each section corresponds to a generated geometry subproject which will be created when you execute the subdivide command; enter the desired subproject name for each section. A default name which consists of the main netlist name with the section number appended appears in each text entry box. You may use this name or enter your own.  "
p_Xgeom_FinishSubdiv_Subdiv_PB="Click on this button to execute the subdivide command. The geometry subprojects and the master netlist are generated using the subdivision lines and project names specified by you. The master netlist is opened in the project editor. "
p_Xgeom_FinishSubdiv_SuggestedLength_RB="Select this radio button to use the feedline length calculated by the software as the length for the feedline to be added to generated ports in the geometry subprojects. "
p_Xgeom_Units_Capacitance_LB="Select a unit of Capacitance from the drop list. This drop list is only enabled for Netlist project. "
p_Xgeom_Units_Freq_LB="Select a frequency unit from the drop list. Choices include Hz, KHz, MHz, GHz, THz, and PHz. "
p_Xgeom_Units_Inductance_LB="Select a unit of Inductance from the drop list. This drop list is only enabled for Netlist projects. "
p_Xgeom_Units_Length_LB="Select the desired unit of length from the drop list. Choices include mil, micron, mm, cm, inches, meters. "
p_Xgeom_Units_KeepRB="Maintain Physical: When changing units, you keep your circuit the same physical size. For instance if a cell is 10 mils by 10 mils and you change the unit to inches, it now measures 0.01 inches by 0.01 inches. "
p_Xgeom_UnitsWin_RememberSet_CB="Click here to save any selections you make for the next time this dialog box is accessed. "
p_Xgeom_Units_Resistance_LB="Select a unit of Resistance from the drop list. This drop list is only enabled for Netlist projects.  "
p_Xgeom_ViaProp_DownRB="Click on this radio button to extend the via downward from the starting level displayed in the From Level drop list. This radio button is selected automatically if a number of levels is selected which could only occur in a downward direction from the From Level. "
p_Xgeom_ViaProp_FromLB="Select the starting level of the via from this drop list. The number of Level(s) droplist and direction radio buttons are updated to reflect the number of levels and direction that the via transverses.  "
p_Xgeom_ViaProp_MetalLB="Select a new metal type for the via from this drop list. To add a metal type, see Circuit => Metal Types. This drop list is disabled for edge vias. The metal type of an edge via is the same metal type as the polygon to which it is attached. "
p_Xgeom_ViaProp_ToLB="Select the ending level of the via from this drop list. The number of Level(s) droplist and direction radio buttons are updated to reflect the number of levels and direction that the via transverses.  "
p_Xgeom_ViaProp_UpRB="Click on this radio button to extend the via upward from the starting level displayed in the From Level drop list. This radio button is selected automatically if a number of levels is selected which could only occur in a upward direction from the From Level. "
p_Xgeom_ViaProp_NumLevelsLB="Select the number of levels the via crosses from this droplist. The choices available in this drop list reflect the number of metal levels in your circuit, the Level selected in the From Level droplist and the presently selected direction of the via. When you select a new value in this droplist, the To Level droplist is updated. "
p_Xgeom_SelWin_FilterNoneRB="Make all items in your circuit available for selection. "
p_Xgeom_SelWin_BrickCB="Allow selection of dielectric bricks. This checkbox is only enabled if the Only Objects Checked Below radio button is selected. "
p_Xgeom_SelWin_MetalizationCB="Allow selection of metal polygons. This checkbox is only enabled if the Only Objects Checked Below radio button is selected. "
p_Xgeom_SelWin_FilterSpecRB="Choose items for editing selection. Enables all the checkboxes in this dialog box. "
p_Xgeom_SelWin_ViaCB="Allow selection of vias. This checkbox is only enabled if the Only Objects Checked Below radio button is selected. "
p_Xgeom_SelWin_PortCB="Allow selection of ports. This checkbox is only enabled if the Only Objects Checked Below radio button is selected. "
p_Xgeom_CommentWin_CommentST="Mini-editor for adding file comments. If comments already exist, you may edit them or add to them. "
p_Xgeom_MetalWin_DefaultLB="Default metal used for all new polygons. "
p_Xgeom_MetalWin_DeletePB="Remove the selected metal type from your project. "
p_Xgeom_ResizeWin_PercentageEC="The scaling factor for the resize. Percentages over the value of 100 will enlarge the object; below 100 will shrink the object. "
p_Xgeom_RotateWin_AngleEC="Angle of rotation based on the coordinate system shown.   "
p_Xgeom_RotateWin_BoxCenterRB="Use the box center, the center of the substrate, as the pivot point for the rotation. "
p_Xgeom_RotateWin_IndividualCentersRB="Each selected polygon rotates about its own center. "
p_Xgeom_RotateWin_LeftPB="Rotate the selected polygon(s) about the selected pivot point in a counterclockwise direction. "
p_Xgeom_RotateWin_MTPositionRB="This option is only available if the measuring tool is active when Modify => Rotate is selected. The polygon rotates with the measuring tool origin position as a pivot point. "
p_Xgeom_RotateWin_PivotPointRB="The polygon rotates about the custom point set after clicking the Set Pivot button. "
p_Xgeom_RotateWin_RightPB="Rotate the selected polygon(s) about the selected pivot point in a clockwise direction. "
p_Xgeom_RotateWin_SelectionCenterRB="Selected objects rotate around the center of the area enclosing all the selected objects. "
p_Xgeom_RotateWin_SetPivotPB="Select the pivot point using the mouse. This will enable the Pivot Point selection in the Pivot Point field. "
p_Xgeom_SnapToWin_BottomRB="This option is enabled only if you are in Reshape mode and have selected points on a polygon. All selected points move to correspond to the bottom box wall. This can be used to ensure that your metalization extends to the box wall. "
p_Xgeom_SnapToWin_Cells_XRB="The X coordinate of each point in the selected polygon(s) corresponds to a cell edge. The Y coordinate of the points does not change. "
p_Xgeom_SnapToWin_Cells_XYRB="Both the X and Y coordinates of each point in the selected polygon(s) corresponds to a cell edge. "
p_Xgeom_SnapToWin_Cells_YRB="The Y coordinate of each point in the selected polygon(s) corresponds to a cell edge. The X coordinate of the points does not change. "
p_Xgeom_SnapToWin_Grid_X_RB="The X coordinate of each point in the selected polygon(s) corresponds to a grid edge. The Y coordinate of the points does not change. If the current Snap Grid is set to the cell size, then this option is not enabled. "
p_Xgeom_SnapToWin_Grid_XY_RB="Both the X and Y coordinates of each point in the selected polygon(s) corresponds to a grid edge. If the current Snap Grid is set to the cell size, then this option is not enabled. "
p_Xgeom_SnapToWin_Grid_Y_RB="The Y coordinate of each point in the selected polygon(s) corresponds to a grid edge. The X coordinate of the points does not change. If the current Snap Grid is set to the cell size, then this option is not enabled. "
p_Xgeom_SnapToWin_LeftRB="This option is enabled only if you are in Reshape mode and have selected points on a polygon. All selected points are moved to correspond to the left box wall. This can be used to ensure that your metalization extends to the box wall. "
p_Xgeom_SnapToWin_RightRB="This option is enabled only if you are in Reshape mode and have selected points on a polygon. All selected points are moved to correspond to the right box wall. This can be used to ensure that your metalization extends to the box wall. "
p_Xgeom_SnapToWin_TopRB="This option is enabled only if you are in Reshape mode and have selected points on a polygon. All selected points are moved to correspond to the top box wall. This can be used to ensure that your metalization extends to the box wall. "
p_Xgeom_ParaSubWin_BottomLengthEC="Specify a distance from the Bottom Box wall over which subsections are removed from the analysis computations. "
p_Xgeom_ParaSubWin_BottomUseMousePB="Use the mouse to set the distance from the Bottom Box wall for which subsections are removed. "
p_Xgeom_ParaSubWin_LeftLengthEC="Specify a distance from the Left Box wall over which subsections are removed from the analysis computations. "
p_Xgeom_ParaSubWin_LeftUseMousePB="Use the mouse to set the distance from the Left Box wall for which subsections are removed. "
p_Xgeom_ParaSubWin_RightLengthEC="Specify a distance from the Right Box wall over which subsections are removed from the analysis computations. "
p_Xgeom_ParaSubWin_RightUseMousePB="Use the mouse to set the distance from the Right Box wall for which subsections are removed. "
p_Xgeom_ParaSubWin_TopLengthEC="Specify a distance from the Top Box wall over which subsections are removed from the analysis computations. "
p_Xgeom_ParaSubWin_TopUseMousePB="Use the mouse to set the distance from the Top Box wall for which subsections are removed. "
p_Xgeom_ParaSubWin_UnitsText="Length units presently in use. "
p_Xgeom_Units_ChangeRB="Maintain Value: When changing units, the size of your circuit changes. For instance if a cell is 10 mils by 10 mils and you change your units to inches, the cell now measures 10 inches by 10 inches. This is particularly useful if you have entered in your circuit with the wrong units selected. "
p_Xgeom_PortWin_CalLengthEC="Define the Calibration Length for the selected Autogrounded port whose origin is the autogrounded port. "
p_Xgeom_PortWin_CapacitanceEC="The normalizing impedance is represented by four numbers. The capacitance is the capacitive  part of the impedance in picofarads. To see how the port is modeled, click on the Help button in this dialog box. "
p_Xgeom_PortWin_InductanceEC="The normalizing impedance is represented by four numbers. The inductance is the inductive part of the impedance in nanohenries. To see how the port is modeled, click on the Help button in this dialog box. "
p_Xgeom_PortWin_NumberEC="Use this field to change the port number. If multiple ports are selected, all will be set to the number input. Ports with identical numbers are electrically connected together. In the case of negative port numbers, em sums the total current going into all the positive ports with the same port number and sets that equal to the total current going out of all the ports with that same negative port number. "
p_Xgeom_PortWin_ReactanceEC="The normalizing impedance is represented by four numbers. The reactance is the reactive part of the impedance in ohms. To see how the port is modeled, click on the Help button in this dialog box. "
p_Xgeom_PortWin_RefPlaneEC="Define the length of a reference plane for the selected Autogrounded port whose origin is the autogrounded port. "
p_Xgeom_PortWin_ResistanceEC="The normalizing impedance is represented by four numbers. The resistance is the real part of the impedance in ohms. To see how the port is modeled, click on the Help button in this dialog box. "
p_Xgeom_PortWin_TypeLB="There are two types of ports available: Standard Box Wall or Auto-Grounded. A standard box wall port is a grounded port, with one terminal attached to a polygon edge coincident with a box wall, and the second terminal attached to ground. An auto-grounded port has one terminal attached to the edge of a metal polygon inside the box and the other terminal attached to the ground plane through all the intervening dielectric layers. "
p_Xgeom_PortWin_UseMousePB="Set the reference plane length by clicking at the desired length with the mouse. The calibration length must be entered in the text entry box. "
p_Xgeom_PrefWin_AutoSticky_CB="Cause the project editor to operate in Version 4.0 style. You remain in a given mode until you explicitly exit it by pushing the Escape key or selecting another mode. "
p_Xgeom_PrefWin_AutoSaveCB="Automatically create a backup of your circuit at the time interval entered in the Minutes between saves text entry box. "
p_Xgeom_PrefWin_AutoSaveEC="The time interval used to make automatic backups of your file when Autosave is on. "
p_Xgeom_PrefWin_DXFSimple_CB="Simplify the format for DXF export so it can be read more easily by DXF users. "
p_Xgeom_SnapWin_CellSizeRB="Set the snap coordinates to match the cell grid. If the cell size is changed and this option is in effect, the snap coordinates change to match the new cell grid. The current cell size is displayed following the button. "
p_Xgeom_SnapWin_CustomYGridEC="The snap interval for the Y coordinate when entering a custom snap grid. "
p_Xgeom_SnapWin_CustomRB="Any arbitrary snap grid is specified by entering the desired values in the X and Y Custom text boxes. "
p_Xgeom_SnapWin_CustomXGridEC="The snap interval for the X coordinate when entering a custom snap grid. "
p_Xgeom_SnapWin_DivisionPerCellEC="The number of divisions per cell when setting the snap grid to a subdivision of cell size.  "
p_Xgeom_SnapWin_DivideCellRB="Set the snap coordinates to match a subdivision of cell size. Enter the number of divisions per cell in the Divisions field. "
p_Xgeom_SnapWin_NoSnapRB="Captured coordinates are exactly at the cursor position. This actually means all coordinates snap to the nearest pixel. "
p_Xgeom_SnapWin_XNoSnapCB="Turn off the snap in the x-direction. This option allows you to snap in the y-direction only.  "
p_Xgeom_SnapWin_YNoSnapCB="Turn off the snap in the y-direction. This option allows you to snap in the x-direction only. "
p_Xgeom_AspectWin_XEC="To obtain a wider image, enter a greater value in the X text entry box than in the Y text entry box. A value of X=1.0, Y=1.0 displays the circuit in its true proportions on any CRT. "
p_Xgeom_AspectWin_YEC="To obtain a taller image, you enter a greater value in the Y text entry box than in the X test entry box. A value of X=1.0, Y=1.0 displays the circuit in its true proportions on any CRT. "
p_Xgeom_VisWin_FilterNoneRB="Make all items in your circuit visible. "
p_Xgeom_VisWin_BrickCB="Displays dielectric bricks. This checkbox is only enabled if the Only Objects Checked Below radio button is selected.  "
p_Xgeom_VisWin_MetalizationCB="Display metal polygons. This checkbox is only enabled if the Only Objects Checked Below radio button is selected.  "
p_Xgeom_VisWin_FilterSpecRB="Choose items for display. Enables all the checkboxes in this dialog box. "
p_Xgeom_VisWin_ParaSubCB="Display parallel subsections. This checkbox is only enabled if the Only Objects Checked Below radio button is selected.  "
p_Xgeom_VisWin_PortCB="Display ports. This checkbox is only enabled if the Only Objects Checked Below radio button is selected.  "
p_Xgeom_VisWin_RefPlaneCB="Display reference planes. This checkbox is only enabled if the Only Objects Checked Below radio button is selected.  "
p_Xgeom_VisWin_ViaCB="Display vias. This checkbox is only enabled if the Only Objects Checked Below radio button is selected.  "
p_Zoom_Level="Indicates the present magnification of the circuit. This number is updated whenever a zoom command is executed. "
p_Emgraph_SelectCurves_Collection_LB="Select Standard or Optimized from the drop list. This drop list is only enabled for an optimization analysis. If Standard is chosen then the Parameter Combinations list and Select Parameters button are displayed in the dialog box. If Optimized is chosen, then the Optimization Iterations list and Select Iterations button are displayed in the dialog box.  "
p_Emgraph_SelectCurves_ParamType_LB="Select De-Embedded or Not De-Embedded from the drop list to pick the type of data to display. This drop list is only enabled if both types of data are available. "
p_Emgraph_SelectCurves_DataFormat_LB="Select the desired data format. Choices include: Magnitude in dB, Magnitude, Phase in degrees, Real component, Imaginary component. "
p_Emgraph_SelectCurves_GroupName_EC="You may input a custom curve group name here. If not the default name is used. The default name is the name of the project with an incremental number added if multiple curve groups have been selected from the same project. "
p_Emgraph_SelectCurves_Left_RB="Clicking on the Left radio button uses the left Y axis on which to display this curve. Note : Each curve group is associated with only one y-axis. If you wish to display data on both axes, you must create at least two curve groups. "
p_Emgraph_SelectCurves_MoveLeft_CB="Clicking on this button moves any selected items in the Selected list to the Unselected list. To select an item, click on it. "
p_Emgraph_SelectCurves_MoveRight_CB="Clicking on this button moves any selected items in the Unselected list to the Selected list. To select an item, click on it. "
p_Emgraph_SelectCurves_Project_LB="If you have opened multiple projects in the response viewer, select the desired project file from the drop list for which you wish to set up a curve group. "
p_Emgraph_SelectCurves_Right_RB="Clicking on the Right radio button uses the right Y axis on which to display this curve. Note : Each curve group is associated with only one y-axis. If you wish to display data on both axes, you must create at least two curve groups. "
p_Emgraph_SelectCombinations_PB="Select Parameters: This button appears when Standard is selected in the Data Collection drop list. The presently selected parameter combinations are shown in the scroll list. To change the parameter combinations, click on this button. This will open the Select Parameters dialog box and allow you to add and/or delete parameter combinations from the curve group. You may choose multiple parameter combinations. Select Iterations: This button appears when Optimized is selected in the Data Collection drop list. The presently selected iteration values are shown in the scroll list. To change the iteration values, click on this button. This will open the Select Parameters dialog box and allow you to add and/or delete iteration values from the curve group. You may choose multiple parameter combinations. "
p_Emgraph_SelectCurves_Selected_List="This scroll list contains a list of curves in the project file which are presently displayed on the graph. TIP: To quickly move an item from the selected list to the unselected list, double-click on the item. "
p_Emgraph_SelectCurves_Unselected_List="This scroll list contains a list of curves in the project file which are not presently displayed on the graph. TIP: To quickly move an item from the unselected list to the selected list, double-click on the item. "
p_Emgraph_SelectCurves_DataType_LB="Select the desired data type from the drop list. Choices include: S-Parameters, Y-Parameters, Z-Parameters, Zin, Loss Factor, GMAX, VSWR, Port Impedance, and Port Effective Dielectric Constant. "
p_Emgraph_ChooseEquationWin_EqnBody_ST="The operations performed on the arguments are listed here but cannot be changed. Any equations created by you may be changed using the Equation => Manage Equations command. The pre-defined equations supplied with your software may not be modified. "
p_Emgraph_ArgumentDefWin_NAME_EC="Enter the desired name for the argument here. Be aware that you will be using the argument in the body of your equation, so it is recommended that the name be fairly short. "
p_Emgraph_ArgumentDefWin_PARAMS_LB="Select the type of parameters which are permissible for this argument. The selection you make here controls which parameters are available to select for the argument in the Argument Entry dialog box.  "
p_Emgraph_ArgumentDefWin_DESC_EC="Enter a description of the argument here. This allows you to explain the meaning of the argument in detail and enter any important assumptions or constraints which should be kept in mind when using this argument. "
p_Emgraph_ArgumentDefWin_PORTS_LE="Select or enter which ports are permissible for this argument. The entry you make here controls which responses are available to select for the argument in the Argument Entry dialog box. You may specify any desired ports by directly editing the entry as long as you use the correct syntax or select a choice in the drop list.  "
p_Emgraph_ArgumentEditWin_DataColl_LB="Select Standard or Optimized from the drop list. This drop list is only enabled for a project which has been optimized. If Standard is chosen then the Parameter Combination and Select Parameters button are displayed in the dialog box. If Optimized is chosen, then the Optimization Iteration and Select Iterations button are displayed in the dialog box.  "
p_Emgraph_ArgumentEditWin_DataType_LB="Select the type of data you wish to use for your argument here. If you have chosen optimized data, this drop list is disabled, but the type of data, embedded or de-embedded, is displayed.  "
p_Emgraph_ArgumentEditWin_EditParam_PB="Click on this button to open the Select Parameters dialog box which allows you to select the desired parameter combination or optimization iteration for your argument. "
p_Emgraph_ArgumentEditWin_ParamPort_LE="Select the specific parameter you wish to use as the argument from this drop list. This list may include S-, Y- and Z-parameters. Only those parameters valid for the selected equation appear in this list. "
p_Emgraph_ArgumentEditWin_PROJECT_LB="Select the project from which you wish to select a response for this argument. This drop list contains any projects which have been added to the plot. If only one project is used in the plot, this drop list is disabled. "
p_Emgraph_ArgumentEditWin_Values_ST="This is the presently selected parameter combination or optimization iteration which will be used for the argument. A parameter combination only appears if the selected project has parameters and Standard is selected. An optimization iteration only appears if the selected project has been optimized and Optimized is selected. "
p_Emgraph_AxisSetup_AxisSelect_LB="Select which axis you wish to modify by selecting from the list. If no data is displayed using the right-axis then that choice is unavailable. "
p_Emgraph_AxisSetup_NumberOfTicks_EC="This text entry box is enabled when autoscaling is turned off. This text boxes allows you to define the tics by specifying the number of tics. The data range is divided up into that many intervals and the Interval text entry box is updated accordingly. "
p_Emgraph_AxisSetup_TickInterval_EC="This text entry box is enabled when autoscaling is turned off. This text boxes allows you to define the tics by specifying the interval between tics. The data range is divided up into that many intervals and the Number of Divisions text entry box is updated accordingly. "
p_Emgraph_AxisSetup_AutoScale_CB="Set this check box if you wish the axis to be scaled automatically by the response viewer program. Automatic scaling disables the Min, Max, and Divisions text entry boxes. "
p_Emgraph_AxisSetup_MinValue_EC="Enter the minimum value which you wish displayed on the axis in this text entry box. Autoscaling must be off, for this text entry box to be enabled. "
p_Emgraph_AxisSetup_TickLabels_CB="Set this check box if you wish the tick labels displayed on the plot. "
p_Emgraph_ChooseEquationWin_Arguments_TLB="The arguments for the equation you wish to plot appear in this list. If you wish to change an argument, select the argument by clicking on it in the list, then select the Edit button which appears at the top of the right end of the list. This opens the Argument Entry dialog box which allows you to edit the argument. You may also open this dialog box by double-clicking on an argument entry.  "
p_Emgraph_ChooseEquationWin_DETAILS_PB="Click here for a detailed description of the meaning of the equation you wish to plot. "
p_Emgraph_ChooseEquationWin_EDIT_PB="If you wish to change an argument in the equation, select the argument by clicking on it in the list, then click here. This opens the Argument Entry dialog box which allows you to edit the argument. You may also open this dialog box by double-clicking on an argument entry.  "
p_Emgraph_ChooseEquationWin_Equation_LB="You select the type of equation you wish to plot from this drop list. A brief description of the presently selected equation appears below the drop list. For a detailed description of the meaning of the equation, click on the Equation Details button to the right of this list. The pre-defined equations are Inductance1, Inductance2, Capacitance1, Capacitance2, Q Factor, Phase Difference, dB Difference, and Group Delay. Additional names appear in this list if you have defined your own equations. "
p_Emgraph_ChooseEquationWin_Label_EC="Enter the desired label for the equation curve here. This name is displayed in the legend on the left side of the response viewer window.  "
p_Emgraph_ChooseEquationWin_LeftAxis_RB="Click on this radio button to display the equation curve on the left axis of your plot. If another equation curve or data curve is already being displayed on this axis, it will be replaced by this equation curve. If the already displayed curve is an equation curve for the same equation, it will not be replaced. You can display multiple curves that use the same equation. A message appears if the equation curve is going to replace an existing curve. "
p_Emgraph_ChooseEquationWin_RightAxis_RB="Click on this radio button to display the equation curve on the right axis of your plot. If another equation curve or data curve is already being displayed on this axis, it will be replaced by this equation curve. If the already displayed curve is an equation curve for the same equation, it will not be replaced. You can display multiple curves that use the same equation. A message appears if the equation curve is going to replace an existing curve. "
p_Emgraph_SExportProjectData_Spice_PB="If you have selected Spice for the format, click on this button to open the Spice Options dialog box which allows your to set the Rmin, Cmax, Lmax, Kmin and Rzero for the Spice file output. "
p_Emgraph_EquationEditWin_ADD_ARG_PB="Click here to open the Add Argument Definition dialog box which allows you to add a new argument to your equation. Once you have added a new argument, it appears in the argument list displayed below.  "
p_Emgraph_EquationEditWin_Argument_TLB="This list contains the arguments which have been defined for this equation. To select an argument, click on its entry in this list. "
p_Emgraph_EquationEditWin_NAME_EC="Enter the desired name for the equation here. This is the name which appears in the Equation list in the Equation Management dialog box and in the Add Equation Curve dialog box. You may not change this name once the equation has been created; therefore, this field is disabled when you view or edit an equation. "
p_Emgraph_EquationEditWin_DELETE_ARG_PB="Click here to delete the argument presently selected in the argument list from your equation. "
p_Emgraph_EquationEditWin_DESC_EC="Enter a brief description of the equation here. This description appears in the Add/Edit Equation Curve dialog box when the equation is selected. "
p_Emgraph_EquationEditWin_DETAILS_ST="Enter a detailed description of the equation here. This allows you to explain the meaning of the equation in detail and enter any important assumptions or constraints which should be kept in mind when using this equation. "
p_Emgraph_EquationEditWin_EDIT_ARG_PB="Click here to open the Edit Argument Definition dialog box which allows you to change the argument presently selected in the argument list. "
p_Emgraph_EquationEditWin_BODY_ST="Enter the desired operations on the arguments here. See Equation Functions and Constants for a list of available functions and constants. To see an example of an equation's syntax, select a Sonnet provided equation in the Equation Management dialog box and click on the View button.  "
p_Emgraph_EquationEditWin_LABEL_EC="Enter the axis label you wish to have appear on your plot when this equation is used to add an equation curve to your plot. If you do not enter a label, the name of the equation is used. You may also enter a label on your plot using the Axis Properties command.   "
p_Emgraph_EquationMgmtWin_ADD_PB="Click here to open an equation file and add its contents to the present session of the response viewer while retaining any equations previously loaded from another equation file. A browse window appears which you use to select the equation file you wish to add. If there are duplicate names in the equations being loaded and those already available, the extension of ''_2'' is added to the equation name from the file you are adding. "
p_Emgraph_EquationMgmtWin_COPY_PB="Click here to open the Add Equation dialog box to make a copy of the selected equation. You may make a copy of any existing equation including those provided with your software. The dialog box displays all the fields of the equation you are copying and allows you to make changes to the equation before saving it. A default name is provided; you may change the Equation name in the Add Equation dialog box.  "
p_Emgraph_EquationMgmtWin_DELETE_PB="Click here to delete the equation presently selected in the equation list. You are not permitted to delete any of the Sonnet provided equations; if a Sonnet provided equation is selected, this button is disabled. "
p_Emgraph_EquationMgmtWin_EDIT_PB="Edit: This button only appears when a user defined equation is selected in the equation list. Click here to open the Edit Equation dialog box to edit a user defined equation. If you wish to retain these changes for subsequent use in the response viewer, you must perform a Save on the equation file. View: This button only appears when a Sonnet provided equation is selected in the equation list. Click on this button to open the View Equation dialog box which allows you to view all the fields entered for this equation but does not allow you to modify them. If you wish to modify an equation supplied by Sonnet, use the Copy button and save the equation under a different name. "
p_Emgraph_EquationMgmtWin_NEW_PB="Click here to open the Add Equation dialog box which allows you to define a new equation. Once you complete defining the equation, it appears in the Equation list to the left. If you wish to retain this equation for the next time you use the response viewer, you must perform a Save on the equation file. "
p_Emgraph_EquationMgmtWin_OPEN_PB="Click here to load an equation file. A browse window is opened which allows you to select an equation file on your computer. Once the file is opened, the equations contained in the file are displayed in the equation list in this dialog box replacing any equations, aside from the Sonnet equations, on display from the previous equation file. If you wish to retain the present set of equations and add equations from another equation file, use the Add button.  "
p_Emgraph_EquationMgmtWin_SAVE_PB="Clicking here saves all the user generated equations in the present session to the presently selected equation file. This should be done after adding new equations, editing existing equations, copying equations or adding an equation file if you wish to retain the changes made in this session for future sessions of the response viewer. "
p_Emgraph_EquationMgmtWin_STARTUP_CB="Select this checkbox is you wish to load the equation file specified below into the response viewer the next time it is invoked. To open a new equation file in this session of the response viewer, click on the Open button. "
p_Emgraph_EquationMgmtWin_BROWSE_PB="Click on this button to open a browse window which allows you to select the equation file you wish to load on startup.  "
p_Emgraph_EquationMgmtWin_STARTUP_FILE_EC="The name of the presently selected equation file appears here when you open the dialog box. If you use the Open button to open a new equation file, this entry is updated. You may edit this entry directly or click on the Browse button to open a browse window which allows you to select an equation file on your computer. Note If you edit this entry or use the Browse button to change the name, the equation file is only loaded the next time the response viewer is invoked when the Load this file on startup checkbox is selected. If you wish to change the equation file for the present response viewer session, click on the Open button. "
p_Emgraph_SExportProjectData_Complex_LB="Your response data is output as a complex number. Choose the format of the complex data from this list. Your choices are Max-Angle, DB-Angle and Real-Imaginary. "
p_Emgraph_SExportProjectData_Format_LB="Select the desired data format for the external file here. Choices include: - Touchstone - Default extension is sNp where N is the number of ports - Data Bank - - Default extension is sNp where N is the number of ports - Super Compact - Default extension is flp  - Spreadsheet (comma separated values) - Default extension is csv - MDIF (S2P) - Default extension is mdf  - This format allows you to store a parameter sweep in one file and is intended to be used with the Agilent element S2PMDIF. This format is limited to circuits with 2 ports. - MDIF (ebridge) - Default extension is mdf . - This format allows you to store a parameter sweep in one file and is intended to be used in Agilent with a DAC which can be created with the Agilent Interface, ebridge. This format allows circuits which use up to 6 ports. Note that you may edit the filename and use any file extension you wish such as .d, .rsp, sNp, etc. "
p_Emgraph_SExportProjectData_IncComments_CB="Click here if you wish to export the comments. The comments are generated by the software and include the file type, software version, project name and modification dates. "
p_Emgraph_SExportProjectDataNCoup_IncComments_CB="Click here if you wish to export the comments. The comments are generated by the software and include the file type, software version, project name and modification dates. "
p_Emgraph_SExportProjectDataPi_IncComments_CB="Click here if you wish to export the comments. The comments are generated by the software and include the file type, software version, project name and modification dates. "
p_Emgraph_SExportProjectData_OUTSCROLL="This scroll displays the data in the format selected using the drop lists above. This is the data which is exported to the external file when you execute the save. "
p_Emgraph_SExportProjectDataNCoup_OUTSCROLL="This scroll displays the data in the format selected using the drop lists above. This is the data which is exported to the external file when you execute the save. "
p_Emgraph_SExportProjectDataPi_OUTSCROLL="This scroll displays the data in the format selected using the drop lists above. This is the data which is exported to the external file when you execute the save. "
p_Emgraph_SExportProjectData_Param_LB="Select the type of response parameter you wish to output to the external data file. Your choices include S-, Y- or Z-Parameters. "
p_Emgraph_SExportProjectData_Print_PB="Click on this button to Print the project data presently displayed in the output window. "
p_Emgraph_SExportProjectDataNCoup_Print_PB="Click on this button to Print the project data presently displayed in the output window. "
p_Emgraph_SExportProjectDataPi_Print_PB="Click on this button to Print the project data presently displayed in the output window. "
p_Emgraph_SExportProjectData_Remember_CB="Click here if you wish to save your choices for future exports. The next time you access this dialog box, these settings are used as the default settings for the data. "
p_Emgraph_SExportProjectDataNCoup_Remember_CB="Click here if you wish to save your choices for future exports. The next time you access this dialog box, these settings are used as the default settings for the data. "
p_Emgraph_SExportProjectDataPi_Remember_CB="Click here if you wish to save your choices for future exports. The next time you access this dialog box, these settings are used as the default settings for the data. "
p_Emgraph_SExportProjectData_Save_PB="Click on this button to execute the Save Project Data command. The data specified in this dialog box is output to an external data file. A Browse window appears which allows you to enter the desired filename. "
p_Emgraph_SExportProjectData_Spice_LB="Select which type of Spice format you wish to use for your data. Choices include LCSpice, PSpice, LCT Spice. "
p_Emgraph_SpiceOptions_CMin_EC="This values specifies the smallest capacitor allowed for inclusion in a SPICE PI model in pF. The default value is 0.1 pF. "
p_Emgraph_SpiceOptions_KMin_EC="This values specifies the smallest mutual inductance allowed for inclusion in a SPICE PI model; it is a dimensionless ratio. The default value is 0.01. "
p_Emgraph_SpiceOptions_LMax_EC="This values specifies the largest inductor allowed for inclusion in a SPICE PI model, in nH. The default value is 100.0 nH. "
p_Emgraph_SpiceOptions_Remember_CB="Turn this on if you wish to retain the values entered above for the next time the dialog box is opened. "
p_Emgraph_SpiceOptions_RMax_EC="This value specifies the largest resistor allowed for inclusion in the SPICE PI model, in ohms. The default value is 1000.0 ohms. "
p_Emgraph_SpiceOptions_RZero_EC="This value specifies the resistor to go in series with all lossless inductors, in ohms. This parameter is provided for those versions of SPICE which require inductors with some small loss, to avoid numerical difficulties. The default value of 0.0 disables this capability. "
p_Emgraph_SExportProjectData_HighPecision_CB="Click on this checkbox if you wish to export high precision (16 characters) data. "
p_Emgraph_SExportProjectDataNCoup_HighPecision_CB="Click on this checkbox if you wish to export high precision (16 characters) data. "
p_Emgraph_SExportProjectDataPi_HighPecision_CB="Click on this checkbox if you wish to export high precision (16 characters) data. "
p_GMAX="GMax is the maximum available or maximum stable gain depending on the value of K. Valid only for two-ports. Gmax for a passive device calculates the minimum dissipation loss, i.e., the loss when both ports are terminated for minimum loss.  Equations used by the response viewer are based on ''Microwave Transistor Amplifiers'', by Guillermo Gonzalez, page 114. Published in 1984 by Prentice-Hall."
p_Emgraph_SAttributesWin_LEGEND_CB="Setting this check box on, causes the Plot Legend and Curve Group Legend to appear in the response viewer window. "
p_Emgraph_AttributesWin_Freq_Unit_LB="Select the desired frequency unit for your plot. The frequency axis label is updated with the chosen frequency unit. "
p_Emgraph_SAttributesWin_GRID_CB="Setting this check box on causes the grid to be displayed on the plot. The grid is always tied to the left axis. "
p_Emgraph_SAttributesWin_TITLE_EC="Enter the plot title. The plot title appears above your graph. "
p_Loss_Factor="The loss factor can be used to help understand the source of the loss in your circuit. It is computed as follows for an N-port circuit: Loss Factor (magnitude) = sqrt( |S11|^2 + |S21|^2 + ... + |SN1|^2 ) Loss Factor (dB) = 10.0 * log10( |S11|^2 + |S21|^2 + ... + |SN1|^2 ) The loss factor for a lossless circuit will be 1.0 in magnitude or 0.0 dB. The loss factor is often useful when looking at impedance match. For a two-port, the loss factor will be equal to the insertion loss of a perfectly matched circuit."
p_Emgraph_SParamComboPickWin_Select_LB="Click on the desired parameter combination in this list. The selected parameter combination is highlighted. The data for this parameter combination is output to the external data file. "
p_Plot_Window="The plot window in the response viewer is where your plot appears. This plot is either a Cartesian graph or a Smith chart. Clicking on any point in the plot will display the response data in the status bar. Right-clicking in the plot window over the graph causes a pop up menu to appear as shown below.   You may select the type of plot you desire from the pop up menu by selecting Type => Cartesian for a Cartesian graph or Type => Smith for a Smith chart. The plot is updated accordingly. These commands are the equivalent of selecting  Graph => Type => Cartesian  and  Graph => Type => Smith  from the main menu. Selecting Options from the pop up menu executes the  Graph => Options  command and opens the Graph Options dialog box. Selecting Axis Properties from the pop up menu executes the  Graph => Set Axes  command and opens the Axis Setup dialog box. "
p_Port_Effective_Dielectric_Constant="Port Eeff, the effective dielectric constant of the line connected to the port."
p_Port_Impedance_1="Port Z0, the normalizing impedance of the line connected to the port."
p_Emgraph_PrefWin_CartesianMeas_NT="This is a list of the measurements presently selected to be displayed in on the left axis of the initial Cartesian graph.  "
p_Emgraph_PrefWin_CartesianMeas_NT2="This is a list of the measurements presently selected to be displayed in on the right axis of the initial Cartesian graph.  "
p_Emgraph_PrefWin_CurveDeletionPrompt_CB="Select this checkbox to cause a warning message to appear when plotting an equation curve will delete an existing curve from your plot. If this checkbox is not selected, the warning message does not appear. This is selected by default. "
p_Emgraph_PrefWin_EquationFile_EC="Enter the equation file you wish to load in the response viewer upon startup of the program here. You may click on the Browse button to the right to open a browse window which allows you to select the desired equation file. If an equation file is entered in the Equation Management dialog box and the Load file upon startup checkbox is selected, this entry is updated with the equation file. "
p_Emgraph_PrefWin_AutoUpdate_CB="Select this checkbox to have the response viewer automatically check your project(s) for updates when you have a plot open. "
p_Emgraph_PrefWin_SetByPref_RB="If you wish to always use the same default frequency unit, click on this radio button. When you select this radio button the units drop list to your right is enabled. Select the desired default frequency unit from the drop list. This setting can be changed using the Graph => Options command. "
p_Emgraph_PrefWin_FreqUnit_LB="Select the frequency units you wish to use in your initial plot from this drop list. This drop list is only enabled if the Always use these units radio button is selected.  "
p_Emgraph_PrefWin_GraphTitle_EC="If you wish to have a default title appear on your initial plots, enter the desired title here. Once a plot is opened, this title can be changed using the Graph => Options command. "
p_Emgraph_PrefWin_GraphType_LB="Select what type of plot you want as your default from this drop list. You may choose a Cartesian graph or a Smith chart. Once a plot is opened, this setting can be changed using the Graph => Type commands. "
p_Emgraph_PrefWin_SetByProject_RB="If you wish to use the frequency units of the first project input to the response viewer, click on this radio button. After the plot is open, you can change the frequency units using the Graph => Options command. "
p_Emgraph_PrefWin_ShowGrid_CB="If you wish to have the grid appear on your default Cartesian plot, select this checkbox. The initial default for a Cartesian graph is to not display the grid. Once a plot is opened, this setting can be changed using the View => Grid command. "
p_Emgraph_PrefWin_ShowGridSmith_CB="If you wish to have the grid appear on your default Smith chart, select this checkbox. The initial default for a Smith chart is to display the grid. Once a plot is opened, this setting can be changed using the View => Grid command. "
p_Emgraph_PrefWin_ShowLegend_CB="Select this checkbox if you wish to display the legend on an initial plot. Once a plot is opened, this setting can be changed using the View => Legend command. "
p_Emgraph_PrefWin_CurveGroupStyle_LB="Since a curve group may include multiple curves, you may select a property of the curve plots that all the curves in a curve group will share. Select the property you wish the curves to share in a curve group from this drop list. Your choices are Symbol, Color and Line Style. For example, if you choose symbol, then the curves in a curve group can be different colors but data points will be represented with the same symbol. The default common property is the symbol. "
p_Emgraph_PrefWin_PrintBW_CB="Select this checkout if you wish to always print pictures of your plots in black and white. "
p_Emgraph_PrefWin_DataFormat_LB="Select the desired data format for a Cartesian graph from this drop list. Choices include: Magnitude in dB, Magnitude, Phase in degrees, Real component, Imaginary component. "
p_Emgraph_PrefWin_ParamType_LB="Select the type of data you wish displayed in your initial plot: S-Parameters, Y-Parameters, Z-Parameters, Port Impedance (Port Z0), and Port Effective Dielectric Constant (Port Eeff). "
p_Emgraph_PrefWin_AddCartesianMeas_PB="Click on this button to open the Requested Measurements dialog box which allows you to select which measurements you wish to display in your initial plot in the Response Viewer. "
p_Emgraph_PrefWin_AddSmithMeas_PB="Click on this button to open the Requested Measurements dialog box which allows you to select which measurements you wish to display in your initial plot in the Response Viewer. "
p_Emgraph_PrefWin_SmithMeas_NT="This is a list of the measurements presently selected to be displayed in an initial Smith chart. "
p_Emgraph_PrefWin_UpdateInterval_EC="Enter the desired time between automatic updates of project files here. This time is used if the Always Check for Updated Files checkbox is selected or if Auto Freshen Files is selected in the menu. "
p_Emgraph_LineProperties_Color_RB="Click on this radio button to choose the color for the line representing the presently selected curve group. Choose using the controls to the right.  "
p_Emgraph_LineProperties_LineStyle_RB="Select this radio button to change the line style for the selected curve group. Choose using the controls to the right.  "
p_Emgraph_LineProperties_SpinDown1_PB="Click on this button to see the previous choice. "
p_Emgraph_LineProperties_SpinDown2_PB="Click on this button to see the previous choice. "
p_Emgraph_LineProperties_SpinUp1_PB="Click on this button to see the next choice. "
p_Emgraph_LineProperties_SpinUp2_PB="Click on this button to see the next choice. "
p_Emgraph_LineProperties_Symbol_RB="Click on this radio button to change the symbol used to represent data points. Choose using the controls to the right.  "
p_Emgraph_RequestedMeasWin_Request_PB="Click on this button to move the selected measurements from the Available list to the Requested list. Click on a measurement to select it. "
p_Emgraph_RequestedMeasWin_NumPorts_EC="Enter the number of ports you expect a project to possess here. Be aware that if the project which is loaded when the response viewer is opened has less ports than the number entered here, default measurements could be specified which do not exist. For example, if you enter 4 as the number of ports and specify S21, S31 and S41 be displayed upon startup and the project you load has only two ports then only S21 is displayed on the plot. After you enter the number of ports, click on the adjacent Update Lists button to update the contents of the two list below.  "
p_Emgraph_RequestedMeasWin_Available_LB="This is a list of measurements from which you may choose those you wish to display upon startup. The contents of this list is dependent upon the number of ports entered above and the data type and format selected on the Measurements default tab from which you invoked this dialog box.  "
p_Emgraph_RequestedMeasWin_Unrequest_PB="Click on this button to move the selected measurements from the Requested list to the Available list. Click on a measurement to select it. "
p_Emgraph_RequestedMeasWin_Requested_LB="This is a list of the measurements you wish to display in the initial plot when the response viewer is invoked. You select measurements from the Available Measurements list and click on the right arrow button to move them to this list. If you no longer wish to display a measurement listed here, select the entry and click on the left arrow to move the measurement back to the available measurements list.  "
p_Emgraph_RequestedMeasWin_Update_PB="Click on this button when you enter a new number of ports to update the contents of the Available and Requested Measurements lists below.  "
p_Emgraph_SelectParam_ClosestF_EC="Enter the desired frequency here when you have selected the Closest To radio button. When you click on the Update button to the right, the list of available data in the Unselected list is limited to the entered frequency or the closest available frequency.  "
p_Emgraph_SExportProjectData_IncludeABS_CB="Click on this checkbox to include all the discrete and adaptive data from an Adaptive Band Synthesis (ABS) analysis. If you wish to only export the discrete data points, disable this checkbox. This checkbox is set by default for all new projects. "
p_Emgraph_SExportProjectDataNCoup_IncludeABS_CB="Click on this checkbox to include all the discrete and adaptive data from an Adaptive Band Synthesis (ABS) analysis. If you wish to only export the discrete data points, disable this checkbox. This checkbox is set by default for all new projects. "
p_Emgraph_SExportProjectDataPi_IncludeABS_CB="Click on this checkbox to include all the discrete and adaptive data from an Adaptive Band Synthesis (ABS) analysis. If you wish to only export the discrete data points, disable this checkbox. This checkbox is set by default for all new projects. "
p_Emgraph_SelectParam_UpdateF_PB="Click on this button to update the list of available data in the Unselected list below. The data is limited to the closest available frequency to that entered in the text entry box to the left.  "
p_Emgraph_SelectParam_XAxis_LB="Select from this drop list what values you want on the bottom axis of your graph. If Parameter is selected in the Graph => Plot Over command, then you must select which parameter you wish to plot on the bottom axis. "
p_Emgraph_SelectParam_ClosestF_RB="Click on this radio button to limit the available frequency data displayed. Enter the desired frequency in the text entry box to the right. Then click on the Update button to update the data listed in the unselected list just below. The unselected list now displays only the parameter combinations closest to the frequency specified. You may move any desired combinations to the Select Parameter Combinations list to display the data in your plot. The Show Closest to option is especially useful when the parameterization was performed using an ABS analysis. "
p_Emgraph_SelectParam_ShowAllF_RB="Select this radio button if you wish to display all available frequency data in the Unselected Parameter Combinations list.  "
p_Emgraph_SelectParam_Unselected_ST="Available parameter values which are not presently displayed appear in this list. "
p_Emgraph_SelectParam_SelectAll_UP_PB="Clicking on this button selects all the parameter combinations in the unselected list. "
p_Emgraph_SelectParam_Unselect_PB="Clicking on this button moves any parameter combinations selected in the bottom selected combinations list to the top unselected (not displayed) parameter combinations list. TIP: You may move any single parameter combinations between lists by double-clicking on the combination in either list. "
p_Emgraph_SelectParam_Select_PB="Clicking on this button moves any parameter combinations selected in the top unselected combinations list to the bottom selected (displayed) parameter combinations list. TIP: You may move any single parameter combinations between lists by double-clicking on the combination in either list. "
p_Emgraph_SelectParam_Selected_ST="Available parameter values which are presently displayed appear in this list. "
p_Emgraph_SelectParam_SelectAll_SP_PB="Clicking on this button selects all the parameter combinations in the selected list. "
p_Emgraph_AxisSetup_AxisLabel_EC="Enter the desired label in the text entry box. This label appears next to the axis selected from the Axis drop list on your plot. "
p_Emgraph_SAxisSWin_ADMITANCE_RB="Displays the admittance in the Smith Chart. "
p_Emgraph_SAxisSWin_SCALE_LB="Select the maximum radius allowed in the display. Values available are 0.3, 0.5, 1.0, 3.0, and 5.0. The standard Smith chart is 1.0. "
p_Emgraph_SAxisSWin_START_EC="Enter the minimum frequency you wish displayed on the Smith chart. If the Limit Frequency check box is off, this text entry box is disabled. "
p_Emgraph_SAxisSWin_STOP_EC="Enter the maximum frequency you wish displayed on the Smith chart. If the Limit Frequency check box is off, this text entry box is disabled. "
p_Emgraph_SAxisSWin_IMPEDANCE_RB="Displays the impedance in the Smith Chart. "
p_Emgraph_SAxisSWin_LIMIT_FREQ_CB="If you wish to limit the frequency range of the Smith chart, set this check box to on. The minimum frequency is then entered in the Start text entry box, and the maximum frequency desired is entered in the Stop text entry box. Only data points which fall within this range will be displayed "
p_Emgraph_SmithWin_ScaleType_LB="This list box controls the grid which appears on your Smith chart. Selecting Fine from the drop list places a finer grid on your plot. Coarse displays a grid with less intervals. "
p_Emgraph_SAxisSWin_ShowVSWR_CB="Select this checkbox if your wish to highlight the Voltage Standing Wave Ratio (VSWR) circle. Selecting this checkbox enables the ratio text entry box to the right. Enter the desired ratio. The VSWR circle for that ratio will be highlighted in red.   "
p_Emgraph_SAxisSWin_VSWR_EC="The VSWR ratio you wish highlighted should be entered in this text entry box. This text entry box is only enabled when Show VSWR Circle is selected. "
p_Emgraph_TermWin_Multiport_CB="If this check box is off, then there is one entry row for the normalizing impedance. If this check box is on, then each port has its own entry line, consisting of four text entry boxes in which you enter the four numbers which represent the normalizing impedance. For details on how the port is modeled, see the Terminations Setup dialog box. "
p_VSWR="Voltage Standing Wave Ratio "
p_Zin="Zin is the input impedance at the selected port given the loading on the other ports set up using the Graph => Terminations command. "
p_Emstatus_NewServer_COMMENT_EC="Enter information about the server in this text entry box. The contents of this field are displayed in the Server List. "
p_Emstatus_NewServer_HOST_NAME_RB="Click here to identify the remote server by host name. The host name should be entered in the adjacent Host Name text entry box which is enabled when this radio button is selected. "
p_Emstatus_NewServer_HOST_NAME_EC="Enter the host name of the remote server here. This is only enabled if the Specify by Host Name radio button is selected. "
p_Emstatus_NewServer_IP_ADDRESS_RB="Click here to identify the remote server by IP Address. The IP address should be entered in the adjacent  text entry boxes which are enabled when this radio button is selected. "
p_Emstatus_NewServer_IP_ADDRESS_1_EC="Enter the IP Address of the remote server here. This is only enabled if the Specify by IP address radio button is selected. "
p_Emstatus_NewServer_IP_ADDRESS_4_EC="Enter the IP Address of the remote server here. This is only enabled if the Specify by IP address radio button is selected. "
p_Emstatus_NewServer_IP_ADDRESS_3_EC="Enter the IP Address of the remote server here. This is only enabled if the Specify by IP address radio button is selected. "
p_Emstatus_NewServer_IP_ADDRESS_2_EC="Enter the IP Address of the remote server here. This is only enabled if the Specify by IP address radio button is selected. "
p_Emstatus_NewServer_PORT_EC="Enter the port number on the remote server which is used to communicate with the remote server. "
p_Emstatus_NewServer_TEST_CONNECTION_PB="Once you have specified the remote server and its port, you may click here to test the ability to communicate with the remote server. A window appears on your display which contains the communication status. It is important to remember that emserver must be running on the remote server before communications can be established. "
p_Emstatus_AddMenuButton="Add Project(s): Clicking on this button opens a browse window which allows you to select projects to add to the batch list. The projects are always appended to the end of the batch list.  Equivalent to File => Add Project(s) or pushing the Add Project(s) button to the right of the batch list.   "
p_Emstatus_CopyMenuButton="Copy: Clicking on this button copies any selected text in the output window to the clipboard to allow you to export it to other programs under Windows. This command is not available in Batch mode. To select text in the output window, click and drag your mouse over the desired text. "
p_Emstatus_EmgraphMenuButton="Response Viewer: Clicking on this button launches the response viewer with the presently selected file open. Equivalent to Project => View Graph. "
p_Emstatus_EmvuMenuButton="Current Density Viewer: Clicking on this button launches the current density viewer with the presently selected file open. Equivalent to Project => View Current. "
p_Emstatus_NewMenuButton="New Batch: Clicking on this button opens a new analysis monitor window in batch mode with a new empty batch list. The equivalent of File => New. "
p_Emstatus_PatvuMenuButton="Far Field Viewer: Clicking on this button launches the far field viewer with the presently selected file open. Equivalent to Project => View Far Field. "
p_Emstatus_PauseMenuButton="Pause: Clicking on this button pauses an analysis run. This command is only available if the project that is selected in the batch list is being analyzed. Equivalent to Run => Pause. "
p_Emstatus_StartMenuButton="Start: Clicking on this button starts the analysis of the project file which is presently selected in the batch list. If the status of the selected project is finished, then this command is disabled. Equivalent of Run => Start. "
p_Emstatus_StopMenuButton="Stop: Clicking on this button stops an analysis run. If the status of the selected project is finished, then this command is disabled. Equivalent of Run => Stop. "
p_Emstatus_XgeomMenuButton="Project Editor: Clicking on this button launches the project editor with the presently selected project file open. Equivalent to Project => Edit. "
p_Emstatus_JobInfo_SV="The project name of the project presently selected in the batch list. The data that appears in the output window in each mode applies to the project listed here. In addition, if an analysis is running, the number of subsections and memory required for the project is also displayed here. "
p_Emstatus_Output_Bar="This section of the analysis monitor window displays information about all analysis types except optimization. This information includes a progress bar which monitors the overall progress of the analysis as well as messages that detail such things as the present analysis frequency and the present em calculation. The data that is displayed applies to the presently selected project in the batch list. "
p_Emstatus_Output_Opt="This section of the analysis monitor window allows you to observe the progress of an optimization. Information includes the error in reference to your goal on the initial run, the run with the least error, and the last run as well as information about frequency, parameters and em functions. The iteration information also provides you with the total number of iterations and the number of iterations that have been completed.  The data that is displayed applies to the presently selected project in the batch list. "
p_Emstatus_BatchInfoWin_REMOTE_STATUS_PB="Clicking on this button provides status information on the remote em server. This button is only enabled when the analysis is being performed on a remote server. "
p_Emstatus_BatchList_NButton="Clicking on this button places the Analysis Monitor in Batch mode, which allows you to manipulate the batch list which is displayed in the output window in this mode. You can add and delete projects to the batch list as well as change their position.  "
p_Emstatus_BatchViewWin_SV="These buttons are used to modify the batch list. "
p_Emstatus_BatchViewWin_TLB="The batch list consists of the name of each project in the batch list and the status of their electromagnetic analysis. To select a project, click on its name in the list. To modify the batch list, use the buttons to the right. "
p_Emstatus_MoveDown_NButton="Clicking on this button moves the selected project down one position in the batch list. "
p_Emstatus_MoveToLast_NButton="Clicking on this button moves the selected project to the last position in the batch list. This button is disabled if the selected project is currently running an analysis. "
p_Emstatus_MoveToNext_NButton="Clicking on this button moves the selected project up in the batch list so that it is in position to be run first, if no entry is presently being executed, or next, after a presently executing analysis. "
p_Emstatus_MoveUp_NButton="Clicking on this button moves the selected project up one position in the batch list. "
p_Emstatus_RemoveProject_NButton="Clicking on this button removes the selected project from the batch list. Unlike the Edit => Cut command, the project is not placed on the clipboard. "
p_Emstatus_BatchSelectWin_TLB="This is a list of all the batch lists presently open in the analysis monitor. Click on a batch list to select it. To obtain a complete list of projects, and their status, in the batch list, click on the More Info button. "
p_Emstatus_BatchSelectWin_MORE_INFO_PB="This button opens a display window which lists all the projects, and their respective status, in the selected batch list. "
p_Emstatus_StartStopTimesWin_START_DATE_LB="Select the month and day on which you wish to start the analysis run of this batch window. This is only enabled if the Automatically start this batch at checkbox is selected. "
p_Emstatus_StartStopTimesWin_START_CB="Click on this checkbox if you wish to specify a start time for jobs specified in this batch window. Use the drop lists to the right to specify at what time you wish the analysis run to start. If this checkbox is not selected the analysis job starts when you select Run => Start or click on the Run button on the analysis monitor tool bar. "
p_Emstatus_StartStopTimesWin_START_TIME_LB="Use these drop lists to select the time of day at which you wish to start the analysis run of this batch window. These are only enabled if the Automatically start this batch at checkbox is selected. Be aware that you still need to select the Run => Start command in order for the batch to execute at the specified time. "
p_Emstatus_StartStopTimesWin_STOP_DATE_LB="Select the month and day on which you wish to stop the analysis run of this batch window. This is only enabled if the If this batch is not completed, stop it at checkbox is selected. "
p_Emstatus_StartStopTimesWin_STOP_CB="Click on this checkbox if you wish to specify a stop time for jobs specified in this batch window. Use the drop lists to the right to specify at what time you wish the analysis run to stop. If this checkbox is not selected the analysis job stops when it is completed or you select Run => Stop.  "
p_Emstatus_StartStopTimesWin_STOP_TIME_LB="Use these drop lists to select the time of day at which you wish to stop the analysis run of this batch window. These are only enabled if the If this batch is not completed, stop it at checkbox is selected.  "
p_Emstatus_AddProject_NButton="Clicking on this button opens a browse window which allows you to select a project or projects to add to the batch list. The project(s) are always appended to the end of the batch list.  "
p_Emstatus_ResponseViewBoxRes_CB="Setting this check box to on displays displays any box resonance along with the response data. The box resonance is only available if you are using the Box Resonance Info run option available in the Advanced Options dialog box in the project editor. "
p_Data_Checkboxes="If the check box is on, that data type is shown in the output window below. If the check box is off, that data is not shown. "
p_Edit_Server_Graphic="The Edit Server dialog box after adding a remote server.  "
p_Emstatus_Pref2Win_ADD_SERVER_PB="Click here to open the Add/Edit Server dialog box to define a new remote server. "
p_Emstatus_Pref2Win_DELETE_SERVER_PB="Click here to delete the remote server presently selected in the server list below. "
p_Emstatus_Pref2Win_EDIT_SERVER_PB="Click here to open the Add/Edit Server dialog box which allows you to change the properties of the remote server presently selected in the server list below. "
p_Emstatus_Pref2Win_BROWSE_PB="Click here to open a browse window which allows you to select an emhosts file. "
p_Emstatus_Pref2Win_EMHOST_FILENAME_EC="Enter the emhosts filename here. The emhosts file defines remote servers in an external file. These servers appear in the server list but may only be modified by editing the emhosts file.  You may enter the address manually or click on the adjacent Browse button to open a browse window which you may use to select the emhosts file. "
p_EMstatus_Pref2Win_INCLUDE_LOCAL_CB="Select this checkbox to include your local computer in the server list which appears in the New Batch Creation dialog box. This allows you to select your local computer to run an analysis even when your system is configured to run remotely. "
p_Emstatus_Pref2Win_SERVER_TLB="This list contains all the defined remote servers available to you for analysis runs. Servers may be defined using this dialog box or input from the emhosts file. Click on the server entry in the list to select it. "
p_Em_Activity="This message indicates the task that the analysis engine, em, is presently performing. "
p_Emserver_status_control_graphic="The Emserver Status/Control window with emserver running and no jobs presently being run.   "
p_Emstatus_ErrorViewParameters_CB="Setting this check box to on displays the parameter values along with the errors and warnings. This is only available when you are performing a parameter sweep or an optimization using parameters. "
p_Emstatus_ErrorViewWarnings_CB="When this check box is on, any warnings received from the analysis engine, em, are displayed in the output window.  "
p_Emstatus_ErrorsWarnings_NButton="If any errors or warnings occur during an analysis, they are displayed in the output window. Em does not stop processing due to a warning, but it does indicate that the accuracy of the data may be questionable. "
p_Estimated_Time="The analysis time is displayed here. If the analysis is now in progress, the estimated time to completion is displayed. If the analysis is complete, the date and finish time is displayed. "
p_Emstatus_BatchSelectWin_EXISTING_BATCH_RB="Selecting this radio button allows you to select an existing batch list to which to add your project. "
p_Emstatus_JobRecoveryWin_COMPUSER_RB="Clicking on this radio button limits the list of disconnected jobs below to those submitted from this computer by the present user. "
p_Emstatus_JobRecoveryWin_COMP_RB="Clicking on this radio button limits the list of disconnected jobs below to those submitted from this computer. "
p_Emstatus_JobRecoveryWin_DELETE_PB="Clicking on this button deletes the disconnected job from the analysis server with no attempt to reconnect or recover the analysis job. "
p_Emstatus_JobRecoveryWin_LEAVE_OPEN_CB="The Job Recovery dialog box, by default, closes when the reconnect or recover is complete. If you wish this dialog box to remain open to allow you to reconnect to another job or recover another job, click on this checkbox. "
p_Emstatus_JobRecoveryWin_LIST_TLB="This is a list of disconnected jobs on the analysis server. The contents of this list are filtered by the radio buttons which appear above the list. "
p_Emstatus_JobRecoveryWin_RECOVER_PB="Reconnect to Job: Click on this button to reconnect to a disconnected job that is still running on the analysis server. The analysis monitor appears on your display and shows the ongoing status of the analysis job as it normally would. The analysis continues and terminates in a normal manner. Recover: Click on this button to recover a disconnected job whose status is Finished. The disconnected project is copied from the temporary data directory on the analysis server to the original location on the analysis client. The analysis monitor shows a status line indicating that the selected job is presently being recovered. Once recovery is complete, the job is placed into the batch list. From there you may select it, then launch other Sonnet applications such as the response viewer or current density viewer. "
p_Emstatus_JobRecoveryWin_USER_RB="Clicking on this radio button limits the list of disconnected jobs below to those submitted by the present user. "
p_Emstatus_JobRecoveryWin_ADD_INFO_PB="Clicking on this button opens an output window with detailed information about the disconnected job selected in the list to the left. "
p_Emstatus_ViewButtons_SV="These buttons select the mode of the analysis monitor. The data displayed in the output window to the right changes based on the selection of these buttons. Click on a button for more details about that mode. "
p_Emstatus_NewBatchWin_REMOTE_STATUS_PB="Clicking on this button provides status information on the remote em server. This button is only enabled when a server is selected in the server list below. "
p_Emstatus_BatchSelectWin_NEW_BATCH_RB="Selecting this radio button opens a new analysis monitor window with your project in the batch list. "
p_Emstatus_TimingViewWin_OUTSCROLL="Data output from the analysis engine, em, is output here during the analysis. The contents of the window depends upon the mode of the analysis monitor and the settings of the appropriate check boxes which appear just above the window. "
p_Emstatus_ResponseViewWin_OUTSCROLL="Data output from the analysis engine, em, is output here during the analysis. The contents of the window depends upon the mode of the analysis monitor and the settings of the appropriate check boxes which appear just above the window. "
p_Emstatus_ErrorViewWin_OUTSCROLL="Data output from the analysis engine, em, is output here during the analysis. The contents of the window depends upon the mode of the analysis monitor and the settings of the appropriate check boxes which appear just above the window. "
p_Emstatus_CompositeViewWin_OUTSCROLL="Data output from the analysis engine, em, is output here during the analysis. The contents of the window depends upon the mode of the analysis monitor and the settings of the appropriate check boxes which appear just above the window. "
p_Emstatus_PrefWin_DEFAULT_SERVER_LB="Select the default remote server from this drop list. This list contains all the remote servers which have been defined for this client machine. If the Prompt for server instead of using default checkbox is not selected, then this is the remote server used for analyses. "
p_Emstatus_PrefWin_EDIT_SERVER_LIST_PB="Click on this button to open the Edit Server List window which allows you to add new remote servers, to change the properties of existing remote servers and to delete remote servers. "
p_Emstatus_PrefWin_BATCH_TYPE_MIXED_RB="Click here to enable analyses on remote computers. When this is selected, the New Batch Creation dialog box and Remote Path Entry Window appear on your display when you run an analysis. Note that if the Prompt for server instead of using default checkbox is not checked, then the New Batch Creation dialog box does not appear. The default server is used instead. "
p_Emstatus_PrefWin_BATCH_TYPE_LOCAL_RB="Click here to run all your em analyses on your local computer. This is the default setting. "
p_Emstatus_PrefWin_PROMPT_SERVER_CB="Click here if you wish the New Batch Creation dialog box to appear when you run an analysis. The New Batch Creation dialog box allows you to choose the computer on which to run your analysis. If this is not selected, your analysis is performed on the default server selected in the drop list above. "
p_Preferences_Graphic="The Preferences dialog box configured to use a remote server and  provide the user a choice of servers when an analysis is started.   "
p_Presently_selected_project="The project presently selected in the batch list is highlighted in blue. The status in the top half of the window pertains to this project. To select a project in the batch list, click on it. "
p_Emstatus_OutputProgressBar="For an optimization, the iterations and their corresponding error are displayed here. For frequency and parameter sweeps, the progress bar indicates how much of an analysis is completed. A statement detailing how many total frequencies are to be analyzed and how many have been completed appears just above the progress bar. "
p_Project_Legend="The Project Legend displays the presently selected project whose data is displayed as well as the number of subsections and amount of memory used in analyzing the project. "
p_Emstatus_RecoverJobWin_ADD_INFO_PB="Clicking on this button opens an output window with detailed information about the disconnected job being recovered. "
p_Emstatus_RecoverJobWin_BROWSE_PB="Click on this button to open a browse window which allows you to select the location on the client machine to which you wish to save the recovered project. "
p_Emstatus_RecoverJobWin_PROJECT_EC="Enter the location on the client machine to which you wish to save the recovered job. This text entry box initially displays the original project location on the client of the disconnected job. You may edit this entry directly or click on the Browse button to the right to enter a new location. "
p_Emstatus_RecoverJobWin_RECOVER_PB="Click on this button to copy the disconnected job from the temporary data storage on the analysis server to the location on the client machine specified in the Local Project text entry box. If the original location is used, the project on the client machine is overwritten with the recovered job from the analysis server which contains the analysis results. "
p_Emstatus_RecoverJobWin_STATUS3_NT="This is the completion date and time of the analysis on the analysis server. "
p_Emstatus_RecoverJobWin_STATUS1_NT="This is the name of the project which was submitted for remote em analysis and the name of the analysis server to which it was submitted. "
p_Emstatus_RecoverJobWin_STATUS2_NT="This is the starting date and time of the analysis on the analysis server. "
p_Emstatus_RecoverJobWin_STATUS4_NT="This is the date and time at which the analysis server lost contact with the analysis client. "
p_Emstatus_ServerSelectWin_REMOTE_STATUS_PB="Clicking on this button provides status information on the remote em server. This button is only enabled when a server is selected in the server list below. "
p_Emstatus_RemotePath_RemotePath_EC="Enter the path from the remote server to the project file to be analyzed here.  "
p_Remote_Status_graphic="Remote Server Status Window   "
p_Emstatus_ResponseData_NButton="This button places the analysis monitor in response data mode. As each frequency is analyzed, the response data appears in the output window. The analysis frequencies are also output at the beginning of an analysis run. This button is disabled if there are no projects in the batch list. This is the default mode when the analysis monitor is automatically launched for an analysis. "
p_Emstatus_ResponseViewParameters_CB="Setting this check box to on displays the parameter values along with the response data. This is only available when you are performing a parameter sweep or an optimization using parameters. "
p_Emstatus_ResponseViewSParameters_CB="Setting this check box to on displays the S-Parameters output from em as the analysis progresses.  "
p_Emstatus_StatusBar_SV="This section of the analysis monitor window displays the analysis status of the project presently selected in the batch list. The contents vary according to the type of analysis. "
p_Emstatus_ChangeDisplay_NButton="Clicking on this button removes the output window from the Analysis Monitor's window. Only the top of the window with the status is supplied. If only the Status is displayed, this button reads ''Details''. Clicking on the Details command button displays the output window once again. "
p_Emstatus_TimingInfo_NButton="Timing information for the analysis on a per frequency basis is displayed in the output window. For the first frequency, the timing for each part of the em analysis is detailed. At the end of the analysis, the total processing time is displayed. "
p_Emstatus_TimingViewDetailed_CB="Set this check box to on, if you wish to view detailed timing information. The detailed timing information provides more detail of the em analysis and the amount of processing each part took. "
p_Emstatus_TimingViewParameters_CB="Setting this check box to on displays the parameter values along with the timing information. This is only available when you are performing a parameter sweep or an optimization using parameters. "
p_Emstatus_CompositeView_CToolBar="This is the analysis monitor tool bar. These buttons allow you to quickly access commonly used functions of the analysis monitor as well as easily launching other programs in the Sonnet em Suite. "
p_Emstatus_WarningsOrErrors_NIcon="The appearance of this icon indicates that an error has occurred in the analysis. Click on the Error/Warnings button in the Analysis monitor to view the error. "
p_Current_Density_Plot="The current density plot shows the current density in amps/meter at the frequency displayed on the tool bar. You can also display a plot of the charge at Coulombs/square meter by selecting Parameters => Response => Charge. "
p_Emvu_AniCont_ContPlayPB="Selecting this button places the current density animation in continuous mode. The animation continues playing until you select stop. Executes the Animation => Continuous Play command. "
p_Emvu_AniCont_ExitAniPB="Selecting this button exits the animation mode. The animation controls disappear from your display. Executes the Animation => Exit Animation command. "
p_Emvu_AniCont_GotoEndPB="Selecting this button displays the last frame of the animation. Executes the Animation => Go to End command. "
p_Emvu_AniCont_GoToStartPB="Selecting this button displays the first frame of the animation. Executes the Animation => Go to Start command. "
p_Emvu_AniCont_PlayPB="Selecting this button displays successive frames starting at the present and continuing until the last frame. If the present frame is the last, then the play command will start with the first frame and continue until the last is reached. If continuous play mode is set, then the display will wrap around to the first frame and continue until a stop command is received. Executes the Animation => Play command. "
p_Emvu_AniCont_PlayRevPB="Selecting this button displays successive frames in reverse order starting at the present and continuing back until the first frame. If the present frame is the first then the play command will start with the last frame and continue until the first is reached. If continuous play mode is set, then the display will wrap around to the last frame and continue until a stop command is received. Executes the Animation => Play Reverse command. "
p_Emvu_AniCont_StepBackwardPB="Selecting this button displays the previous frame. If the present frame is the first, then the Step Backward command will display the last frame. Executes the Animation => Step Backward command. "
p_Emvu_AniCont_StepForwardPB="Selecting this button displays the next frame. If the present frame is the last, then the Step Forward command will display the first frame. Executes the Animation => Step Forward command. "
p_Emvu_AniCont_StopPB="Selecting this button stops at the present frame being displayed. Executes the Animation => Stop command. "
p_Emvu_SAnimSettings_TIME_STEP_EC="The number of steps per cycle determines the angles displayed in the time animation frames. For instance, the value of 18, with Full Cycle selected, will display the circuit at the following angles: 0, 36, 72, 108, 144, 180, 216, 252, 288, and 324. A value of 6 with Half Cycle selected, will use the following phase values: 0, 30, 60, 90, 120, 150. Both these examples assume a source phase of 0. "
p_Emvu_SAniFrameTime_EC="Frame duration is the amount of time in seconds that each frame is displayed during animation. "
p_Emvu_SAnimSettings_FREQUENCY_RB="Animate as a function of Frequency. Animation displays each frequency in the project file in order. "
p_Emvu_SAnimSettings_MEMORY_LB="Setting for Memory Use for animation. There are two choices: High or Low. High Memory: Generates all of the necessary data for each frequency plot in memory, creating the fastest animation possible. This option is recommended as long as memory resources are sufficient. Low Memory: Reduces memory requirements by generating some of the plotting information only when it is needed. When using this option, the animation will be slower due to additional computational time. This option is recommended if memory resources are not sufficient to execute the High Memory option. "
p_Emvu_SAnimSettings_TIME_CYCLE_LB="Type of cycle for time animation. Full cycle allows phase values of 0 to 360. For Half Cycle, the phase is limited to a range of 0 to 180. For Quarter Cycle, the range is 0 to 90. This drop list is only enabled when Time Animation is selected. "
p_Emvu_SAnimSettings_TIME_RB="Animate as a function of time.  The current density for a given frequency is displayed in subsequent frames for each phase angle. The phase angle is determined by the type of cycle and number of steps entered. "
p_Emvu_PrefWin_BackgroundLB="Color for the window background The default is white. "
p_Emvu_PrefWin_GrayPrintCB="Selects the gray palette for use with print commands. Setting this option causes the highest current density values to be printed in white and the lowest values in black. "
p_Emvu_PrefWin_PaletteLB="Two color maps are available to display current density: Spectrum, which is the default, or Grayscale "
p_Emvu_PrefWin_ShowPortsCB="Ports will be displayed upon the startup of the current density viewer. This check box does not affect the present state of the current density viewer display. To change the present display, see View => Ports. "
p_Emvu_PrefWin_ShowSubsectionsCB="Subsections will be displayed upon the startup of the current density viewer. This check box does not affect the present state of the current density viewer display. To change the present display, see View => Subsections. "
p_Emvu_PrefWin_SubsectionColorLB="Color for the subsectioning The default is black. "
p_Emvu_PrefWin_SubstrateColorLB="Color for the substrate The default is light gray. "
p_Emvu_Scale_AutoScaleEC="The autoscale factor entered changes the minimum and maximum values for the scale. When this option is used, first the current density viewer calculates the standard deviation and average current density over the entire metal region on the present level. It then sets the maximum scale according to the following formula:  maximum = average + (autoscale factor) * (standard deviation) For example, entering in an autoscale factor of “3” sets the maximum value to the average plus 3 standard deviations. The minimum scale value is set to zero.  "
p_Emvu_Scale_AutoScaleRB="The current density viewer automatically sets up the scale from zero current density to the maximum current density for the displayed frequency. Every time a new frequency is selected for display, the scale is updated. "
p_Emvu_Scale_MaxValueEC="Value of the maximum current density in the scale. Current densities of this value or above are displayed as red in the current density plot. Only enabled when User Scale is selected. "
p_Emvu_Scale_MinValueEC="Value of the minimum current density in the scale. Current densities of this value or below are displayed as blue in the current density plot. Only enabled when User Scale is selected. "
p_Emvu_Scale_UserScaleRB="The User scale allows you to set up a fixed scale with maximum and minimum values input by you. "
p_Emvu_RespWin_FrequencyLE="The frequency to be displayed. The frequencies available are dependent on your project file. You may also enter the frequency directly by editing the Frequency text entry box. The closest calculated frequency to the entered value will be displayed. "
p_Emvu_RespWin_LevelLE="The circuit level to be displayed. The levels available on the drop list are dependent on the circuit. You may also enter the level number directly by editing the Level text entry box. If the project contains thick metal polygons, then ''sublevels'' are available for display such as 2a and 2b where 2a is the top of the thick metal structure. "
p_Emvu_RespWin_WhatToPlotLE="Determines the type of response which is displayed. There are four choices, JXY Magnitude, JX magnitude, JY magnitude and Charge.  For more details, see Parameters => Response. "
p_Scale="The scale provides you with a key to your plot indicating the current density or charge level associated with each display color. You can use the current density viewer's autoscaling or user-defined scaling in which you define the minimum and maximum values represented in the scale. "
p_Status_Bar="The status bar displays user instructions, the magnification level and the operating mode. If you click on the plot, the data for that point in the plot is displayed here. "
p_Substrate="The outline around the plot represents the substrate shown in the project editor. "
p_Patvu_AngleSetup_EC_0_0="You specify a set of angles by entering a start, stop and step value in the appropriate text entry boxes. The start value specifies at which angle to start your calculations. "
p_Patvu_AngleSetup_EC_1_0="You specify a set of angles by entering a start, stop and step value in the appropriate text entry boxes. The stop value provides the last angle for which to perform calculations. "
p_Patvu_AngleSetup_EC_2_0="You specify a set of angles by entering a start, stop and step value in the appropriate text entry boxes. The step value specifies the interval between angles. "
p_Patvu_SetupWin_ViewSelect_LB="This drop list controls which page of the Calculation Setup box is presently displayed. There are three pages: Angles, Frequencies and Ports "
p_Patvu_AngleSetup_Delete_PB="Eliminates the entry row, for either a theta or phi data range, which is presently selected. "
p_Patvu_AngleSetup_NewPhi_PB="Adds an additional row to specify angles of analysis for another phi This allows you to retain a set of previously calculated data while generating a new set.  "
p_Patvu_AngleSetup_NewTheta_PB="Adds an additional row to specify angles of analysis for another theta. This allows you to retain a set of previously calculated data while generating a new set.  "
p_Patvu_SetupWin_NEXT_PB="Changes the Calculation Setup dialog box to the next category. If the present category is Angles, then the Ports category is displayed. If the present category is Ports, then the Frequencies category is displayed. If the present category is Frequencies, then the Angles category is displayed. "
p_Patvu_SetupWin_PREV_PB="Changes the Calculation Setup dialog box to the previous category. If the present category is Angles, then the Frequencies category is displayed. If the present category is Frequencies, then the Ports category is displayed. If the present category is Ports then the Angles category is displayed. "
p_Patvu_FreqTemp_AvailableFreq_LB="This scroll list contains the frequencies available in the current density file for which a far field pattern has not been calculated. "
p_Patvu_FreqTemp_CalculatedFreq_LB="This scroll list contains the frequencies available in the current density file for which you wish to calculate a far field pattern. "
p_File_Name="The name of the file whose plot appears in this window. "
p_Patvu_Freq2_All_RB="Calculates data for all the frequencies in the current density file upon startup. "
p_Patvu_Freq2_First_RB="Calculates data for the first frequency in the current density file upon startup. "
p_Patvu_Freq2List_LB="The list of frequencies available for calculation upon startup; used when the Frequencies in List radio button is selected. Frequencies are entered in this list when the Set to Top Window Settings button in the Preferences dialog box is selected. "
p_Patvu_Freq2_Last_RB="Calculates data for the last frequency in the current density file upon startup. "
p_Patvu_Freq2_List_RB="The frequencies in the Frequency list to the right of the dialog box are calculated upon startup. Frequencies are entered in this list when the Set to Top Window Settings button in the Preferences dialog box is selected. "
p_Patvu_Freq2_None_RB="The Far Field viewer does not perform a calculation at startup. "
p_Patvu_PortSetupRectangle="The parameters which define the ports for the circuit upon startup. For details about how ports are modeled, see Port Properties. "
p_Patvu_PortsUseXgeom_CB="The impedance values from the project editor which include the resistance, reactance, inductance and capacitance, are used for the port parameters in the initial calculation. "
p_Patvu_SPrefWin_GraphLayout_PB="Opens the Graph Options Preferences dialog box which allows you to setup the appearance of your plot. "
p_Patvu_SPrefWin_Calculate_PB="Opens the Calculate Preferences dialog box which allows you to setup your initial calculations. "
p_Patvu_PrefWin_MinDB_EC="Sets the lower limit for the plot as a value of Gain in dB. Enter the minimum in the text entry box. "
p_Patvu_SPrefWin_GraphType_PB="Opens the Graph Type Preferences dialog box which allows you to setup your initial plot type, polarization and normalization. "
p_Patvu_PrefWin_BlackLines_CB="When this checkbox is on, a print command is executed in black and white rather than color, the default. "
p_Patvu_SPrefWin_SetToDefaults_PB="Clicking on the Default Window Settings button in the Preferences dialog box sets the graph type, calculation input, normalization and polarization preferences to the original startup default state. "
p_Patvu_SPrefWin_SetToWindow_PB="Once a graph type, calculation input, normalization and polarization are set to the desired state, it is possible to use these conditions as your default. Clicking on this button sets the preferences to the state of the settings of the active Far Field Viewer window. "
p_Patvu_FreqTemp_Add_PB="Moves the selected frequencies from the Available list to the Frequencies to Calculate list. "
p_Patvu_FreqTemp_SelectAllAvail_PB="Selects all the frequencies in the Available list. "
p_Patvu_FreqTemp_SelectAllCalc_PB="Selects all the frequencies in the Frequencies to Calculate list. "
p_Patvu_FreqTemp_Subtract_PB="Moves the selected frequencies from the Frequencies to Calculate list to the Available list. "
p_Patvu_AxisSetup_AutoScale_CB="The Far Field Viewer automatically scales the axis which appears in the Axis drop list to fit the data being plotted. Note that this feature is turned ''on'' whenever you switch plot types. "
p_Patvu_AxisSetup_AxisLabel_EC="The desired name for the axis presently selected in the Axis drop list. The label appears on your plot. This text entry box is disabled for polar plots. "
p_Patvu_AxisSetup_AxisSelect_LB="The axes available for the present graph. The axes available for each type of plot are listed below. Cartesian: X-axis and Y-axis Polar: Radius Axes only. Note that the Drop list and label text entry box are not enabled for a polar plot Surface: Theta axis, Phi axis and Z-axis. The label for the Z-axis is limited to four characters. "
p_Patvu_AxisSetup_MaxValue_EC="Maximum value you wish displayed for the axis presently selected in the Axis drop list. "
p_Patvu_AxisSetup_MinValue_EC="Minimum value you wish displayed for the axis presently selected in the Axis drop list. "
p_Patvu_AxisSetup_NumberOfTicks_EC="The number of divisions determines how many tick marks are on your graph for the axis selected in the Axis drop list. The interval is updated based on dividing the data range from minimum to maximum into an equal number of divisions. Only enabled when Autoscale is off. "
p_Patvu_AxisSetup_TickInterval_EC="The tick interval determines how many tick marks are on your graph for the axis selected in the Axis drop list. The number of ticks is updated based on dividing the data range from minimum to maximum by the interval between tick marks. Only enabled when Autoscale is off. "
p_Patvu_AxisSetup_TickLabels_CB="Tick labels will appear on your plot for whichever axis is selected in the Axis drop list. "
p_Patvu_GraphLayout_FreqUnit_LB="Frequency Units for your plot. "
p_Patvu_GraphLayout_ShowGrid_CB="Only active when the type of plot is Cartesian. A grid appears on your plot which corresponds to the values of the tick marks on the axes "
p_Patvu_GraphLayout_ShowLegend_CB="The legend is displayed to the left of the plot and includes up to four areas: right-clicking in any section of the legend causes a pop-up menu to appear. "
p_Patvu_GraphLayout_Title_EC="Plot title. The title appears at the top of the plot. "
p_Patvu_GraphType_Absolute_RB="Displays the power at a given angle. "
p_Patvu_SGraphType_Normalization_LB_2="For absolute gain, you may display the power in Watts/Steradian, Volts/Meter at a distance of 3 M, and Volts/Meter at a distance of 10 M.  "
p_Patvu_SGraphType_ETotal_CB_2="The total radiated electric field including both components, the left-hand circular polarized (LHCP) component and the right-hand circular polarized (RHCP) component. "
p_Patvu_SGraphType_ELHP_CB="The left-hand circular polarized (LHCP) component of the radiated field. "
p_Patvu_GraphType_DirectiveG_RB="The directive gain is defined as the radiation intensity from an antenna in a given direction divided by the uniform radiation intensity for an isotropic radiator with the same total radiation power.[ 2 ]  For more details, see Directive Gain. "
p_Patvu_SGraphType_EPhi_CB="The E-theta component of the total electrical field. Close to the horizon, phi polarization corresponds to horizontal polarization. "
p_Patvu_SGraphType_ETheta_CB="The theta component of the total electrical field. Close to the horizon, theta polarization corresponds to vertical polarization. "
p_Patvu_SGraphType_ECross_Pole_CB="The Cross polarization component of the total radiated field. "
p_Patvu_GraphType_Gain_RB="The power gain is defined as the radiation intensity divided by the uniform radiation intensity that would exist if the total power supplied to the antenna were radiated isotropically.  "
p_Patvu_GraphType_LB="Three types of plot are available upon startup: Cartesian, Polar or Surface. "
p_Patvu_SGraphType_LudwigAngle_EC="Reference angle, in degrees. This angle is the angle of the polarization at beam center. Thus, at beam center there is zero cross-polarization by definition. "
p_Patvu_SGraphType_ECoPole_CB="The Cross polarization component of the total radiated field. "
p_Patvu_SGraphType_ETotal_CB_3="Ludwig’s third definition allows the analysis of polarization and cross-polarization in much the same manner as it is often measured. The total electric field composed of both Copolarization and Cross polarization. "
p_Patvu_Graph_Type_Preferences_Normalization="Provides the reference point in dB for the normalization when using the Arbitrary setting. "
p_Patvu_SGraphType_Polarization_LB="Three types of polarization are available: Theta/Phi, Circular, Ludwig-3.  "
p_Patvu_SGraphType_Normalization_LB_1="The reference point from which the gain is calculated for power gain and directive gain. Isotropic normalizes the data to a theoretical isotropic antenna in free space. Arbitrary normalizes the data to an arbitrary value which you enter in the Reference Value text entry box. Max normalizes the data by using the maximum value of radiation for the plot as the 0 dB point.  "
p_Patvu_SGraphType_ETotal_CB_1="The total radiated electric field including both components, E-theta and E-phi. The theta and phi directions are shown in the figure in the Spherical Coordinate System.   "
p_Patvu_SGraphType_Axis1_LB="The x-axis can be a function of theta, phi or frequency. This list box is disabled for surface plots and frequency is only available for Cartesian plots. "
p_Legend="The legend contains information on what is displayed in the plot window including the frequencies, angles of phi or theta and the types and components of polarization. Right-clicking in any pane of the legend produces a pop-up menu which allows you to select display data. "
p_Patvu_Normalization_Absolute_RB="Displays the power at a given angle. "
p_Patvu_Normalization_Type_LB_2="For absolute gain, you may display the power in Watts/Steradian, Volts/Meter at a distance of 3 M, and Volts/Meter at a distance of 10 M.  "
p_Patvu_SGraphType_Normalization_EC="Enter the value in this text entry box which you wish to use as a reference point for normalization. "
p_Patvu_Normalization_DirectiveG_RB="The directive gain is defined as the radiation intensity from an antenna in a given direction divided by the uniform radiation intensity for an isotropic radiator with the same total radiation power.[ 2 ]  For more details, see Directive Gain. "
p_Patvu_Normalization_Gain_RB="The power gain is defined as the radiation intensity divided by the uniform radiation intensity that would exist if the total power supplied to the antenna were radiated isotropically.  "
p_Patvu_Normalization_RefVal_EC="Provides the reference point in dB for the normalization when using the Arbitrary setting. "
p_Patvu_Normalization_Type_LB_1="The reference point from which the gain is calculated for power gain and directive gain. Isotropic normalizes the data to a theoretical isotropic antenna in free space. Arbitrary normalizes the data to an arbitrary value which you enter in the Reference Value text entry box. Max normalizes the data by using the maximum value of radiation for the plot as the 0 dB point.  "
p_Patvu_SGraphType_ERHP_CB="The right-hand circular polarized (RHCP) component of the radiated field. "
p_Plot_Window_1="This section of the window contains the plot of your data, The far field viewer can display three types of plots, Cartesian, Polar or Surface. "
p_Patvu_Polarization_ETotal_CB_2="The total radiated electric field including both components, the left-hand circular polarized (LHCP) component and the right-hand circular polarized (RHCP) component. "
p_Patvu_Polarization_ELHP_CB="The left-hand circular polarized (LHCP) component of the radiated field. "
p_Patvu_Polarization_ERHP_CB="The right-hand circular polarized (RHCP) component of the radiated field. "
p_Patvu_Polarization_ECoPole_CB="The Copolarization component of the total radiated field. "
p_Patvu_Polarization_ECrossPole_CB="The Cross polarization component of the total radiated field. "
p_Patvu_Polarization_ETotal_CB_3="Ludwig’s third definition allows the analysis of polarization and cross-polarization in much the same manner as it is often measured. The total electric field composed of both Copolarization and Cross polarization. "
p_Patvu_Polarization_RefAngle_EC="Reference angle, in degrees. This angle is the angle of the polarization at beam center. Thus, at beam center there is zero cross-polarization by definition. "
p_Patvu_Polarization_ETheta_CB="The theta component of the total electrical field. Close to the horizon, theta polarization corresponds to vertical polarization. "
p_Patvu_Polarization_EPhi_CB="The E-phi component of the total electrical field. Close to the horizon, phi polarization corresponds to horizontal polarization. "
p_Patvu_Polarization_ETotal_CB_1="The total radiated electric field including both components, E-theta and E-phi. The theta and phi directions are shown in the figure in the Spherical Coordinate System.   "
p_Patvu_Polarization_Type_LB="Three types of polarization are available in the far field viewer: Theta/Phi, Circular, Ludwig-3.  "
p_Patvu_PortSetup_Capacitance_EC="Enter the capacitance part in picofarads of the port impedance to be used for the port shown on the left end of the row. "
p_Patvu_PortSetup_Inductance_EC="Enter the inductance part in nanoHenries of the port impedance to be used for the port shown on the left end of the row. "
p_Patvu_PortSetup_Magnitude_EC="Enter the magnitude in Volts of the source for the port shown on the left end of the row. "
p_Patvu_PortSetup_Phase_EC="Enter the phase in degrees of the source for the port shown on the left end of the row. "
p_Patvu_PortSetup_Reactance_EC="Enter the reactance part in ohms of the port impedance to be used for the port shown on the left end of the row. "
p_Patvu_PortSetup_Resistance_EC="Enter the resistance part in ohms of the port impedance to be used for the port shown on the left end of the row. "
p_Reference_1="Simon Ramo, John R. Whinnery and Theodore Van Duzer, Fields and Waves in Communication Electronics, John Wiley & Sons, Inc., 1994, pg. 601. "
p_Reference_2="Constantine A. Balanis, Antenna Theory Analysis and Design, New York, Harper & Row, 1982, section 4.7.3. "
p_Patvu_GraphData_Calculate_PB="Opens the Calculation Setup dialog box which can be used to calculate data for additional items For details, see Graph => Calculate. "
p_Patvu_GraphData_Deselect_PB="Any selected items in the plotted list are moved to the calculated list so that they will no longer be displayed. "
p_Patvu_GraphData_LeftSelectList_LB="Items for which data has been calculated but is not presently displayed.  "
p_Patvu_GraphData_Select_PB="Any selected items in the calculated list are moved to the plotted list so that they will now be displayed. "
p_Patvu_GraphData_RightSelectList_LB="Items for which data has been calculated and is presently displayed. "
p_Patvu_GraphData_SelectAllLeft_PB="Selects all the items in the calculated list. "
p_Patvu_GraphData_SelectAllRight_PB="Selects all the items in the plotted list. "
p_Patvu_LineProperties_SpinDown_PB="Click on the arrow keys to go through the choices available for the color, symbol or line style. "
p_Patvu_LineProperties_SpinUp_PB="Click on the arrow keys to go through the choices available for the color, symbol or line style. "
p_Patvu_LineProperties_Color_RB="When this radio button is selected you may change the color of the line by clicking on the arrow keys to the right of the dialog box to advance through the choices available. "
p_Patvu_LineProperties_LineStyle_RB="When this radio button is selected you may change the type of line by clicking on the arrow keys to the right of the dialog box to advance through the choices available. "
p_Patvu_LineProperties_Symbol_RB="Each data point may be represented by a symbol on the plot. When this radio button is selected you may change the symbol for each data point by clicking on the arrow keys to the right of the dialog box to advance through the choices available. "
p_Help_LicenseInfo_Get_PB="Sonnet attempts to check out a license of the type selected in the License type drop list from the license manager."
p_Help_LicenseInfo_LicenseType_LB="Select the type of license you wish to check out from this drop list. Choices include all the license types available in your license manager. "
p_Help_LicenseInfo_PrefLicense_CB="Selecting this check box sets the license presently displayed in the License Type as the default license type you check out. The next time you start the Sonnet program, this is the license type you check out. "
p_Help_LicenseInfo_Release_PB="Clicking on this button releases your license back to the license manager, FLEXlm, which makes it available for other users. This option is useful if you are not presently running but do not wish to exit the Sonnet program. "
p_Help_LicenseInfo_Users_ST="This is a list of all users who presently have a license checked out. "
p_Project_LogView_DataList_ST="This scroll list contains the type of output data from the project's analyses selected in the Log Type drop list.  "
p_Project_LogView_LogType_LB="Select the type of data you wish to display in the window above from the project's analysis run log. Choices include Response Data, Errors/Warnings, Timing Info and Composite. Composite displays data for all three of the prior choices. "
p_Emgraph_AxisSetup_SigDig_EC="Enter the desired number of significant digits for the display data here."
p_No_Help_Available="There is presently no help available on this feature."
p_All_S3dColorWin_BackgroundLB="Select the desired color for the background of the 3D viewer window from this drop list."
p_All_S3dColorWin_BoxLB="Select the desired color for the substrate and box outline from this drop list."
p_All_S3dColorWin_LevelRB="Select this radio button if you wish all the objects on any given level to be the same color. Each level uses a unique color."
p_All_S3dColorWin_MaterialRB="Select this radio button if you wish different materials, no matter where they are placed in your circuit, to be indicated by color. Each type of material uses a unique color."
p_All_S3dColorWin_PortBackLB="Select the desired color for the background of the ports from this drop list."
p_All_S3dColorWin_PortTextLB="Select the desired color for the display of the port text in the 3D viewer from this drop list. "
p_All_S3dOptWin_PortsCB="Selecting this checkbox displays any ports in your circuit. If this checkbox is cleared, then the ports are not displayed. The shortcut key to toggle this checkbox is r. "
p_All_S3dOptWin_RememberCB="Selecting this checkbox will retain your settings in this dialog box for the next time that the 3D viewer is opened."
p_All_S3dOptWin_SolidViaCB="Clicking this checkbox draws the vias so that they appear to have a physical thickness. If this checkbox is cleared, the vias are drawn as having zero thickness. The shortcut key to toggle this checkbox is s."
p_All_S3dOptWin_SubsCB="Selecting this checkbox displays the subsectioning used in the analysis of your circuit. If this checkbox is cleared, then the subsectioning is not shown. The shortcut key to toggle this checkbox is s. "
p_All_S3dOptWin_TransparentCB="Selecting this checkbox draws the metalization and vias so that they are transparent and it is possible to see objects which appear behind them in the present view. Clearing this checkbox causes the vias and metalization to be drawn as opaque objects. The shortcut key to toggle this condition is t."
p_All_S3dOptWin_ViasCB="Selecting this checkbox displays any vias in your circuit. If this checkbox is cleared, then the vias are not displayed. The shortcut key to toggle this checkbox is v. "
p_All_S3dOptWin_WireframeCB="Selecting this checkbox renders your circuit as a wireframe drawing. The shortcut key for this checkbox is w."
p_All_S3dOptWin_ZDownPB="Clicking on this button decreases the Z scaling factor for the dielectric layers. If the present value of the scaling factor is less than or equal to 10, the scaling factor decreases by one. If the present value of the scaling factor is greater than 10, then the scaling factor decreases by 10. Once the desired value is displayed, click on the Set button to apply the scaling factor to the rendering of your circuit."
p_All_S3dOptWin_ZEC="You may directly edit this entry to enter the desired Z scaling factor or use the Arrow buttons to the left to change the value. Once the desired value is displayed, click on the Set button to apply the scaling factor to the rendering of your circuit."
p_All_S3dOptWin_ZUpPB="Clicking on this button increases the Z scaling factor for the dielectric layers. If the present value of the scaling factor is less than 10, the scaling factor increases by one. If the present value of the scaling factor is equal to or greater than 10, then the scaling factor increases by 10. Once the desired value is displayed, click on the Set button to apply the scaling factor to the rendering of your circuit."
p_All_S3dOptWin_AutoScalePB="Click on this button to autoscale your circuit. All the Z-scale factors both in this dialog box and in the Layers Z-scale dialog box are set to one and the present view of the circuit is re-drawn."
p_Emvu_S3dOptWin_AverageRB="Clicking on this radio button uses the Average method for shading. Average displays the average current density of the subsection over the whole subsection. This setting updates the fastest but provides the least accurate picture of the current density."
p_Emvu_S3dOptWin_SmoothRB="Clicking on this radio button uses the Smooth method for shading. Smooth uses the current density data at the edges of the subsections and provides a gradient between subsections which updates faster but is less accurate than Textured."
p_Emvu_S3dOptWin_TexRB="Clicking on this radio button uses the Textured method for shading. The Textured setting displays the current density calculated at each point in a subsection. This is the most accurate view of the current density, but takes the longest to update as you change your view."
p_All_3dLayerWin_MultiEC="Enter the desired Z scaling factor for the adjoining dielectric layer here. This factor will be multiplied by the Z scaling factor which appears in the Options dialog box. The larger the factor, the thicker the dielectric layer is drawn in your circuit."
p_All_S3dOptWin_BoxCB="Selecting this checkbox displays the substrate and edges of the box. If this checkbox is cleared, then the box is not displayed. The shortcut key to toggle this checkbox is b. "
p_All_S3dOptWin_BrickCB="Selecting this checkbox displays any dielectric bricks in your circuit. If this checkbox is cleared, then the dielectric bricks are not displayed. The shortcut key to toggle this checkbox is k. "
p_All_S3dOptWin_FastRotateCB="Selecting this checkbox turns on Fast Rotate. When this setting is selected, a wireframe view of the circuit is displayed while you are rotating it, which allows for faster processing of any changes made in the view. The shortcut key to toggle this checkbox is f. "
p_All_S3dOptWin_LayersPB="Click on this button to open the Layers Z-scale dialog box which allows you to apply a scaling factor to individual dielectric layers."
p_All_S3dOptWin_LevelsCB="Selecting this checkbox displays an outline of the box wall around each metal level in your circuit. If this checkbox is cleared, then the outlines are not displayed. The shortcut key to toggle this checkbox is l. "
p_All_S3dOptWin_LightingCB="Selecting this checkbox turns on lighting for the view of your circuit. As you rotate your view, the lighting will light up part of your circuit and cast other parts into shadow. If the Fixed Lighting checkbox is selected, the light source remains stationary while you rotate your circuit. If the Fixed Lighting checkbox is cleared, then the light source stays stationary relative to your circuit. The shortcut key for this option is i."
p_All_S3dOptWin_LightsMoveCB="Selecting this checkbox fixes the lighting for the view of your circuit; the light source remains stationary. As your circuit rotates the shadows change since the light appears to emanate from a fixed position. If this checkbox is cleared, then the light source moves as you rotate your circuit so that the light always casts the same shadows This option is only used when the Lighting checkbox is selected. The shortcut key for this option is g."
p_All_S3dOptWin_MetalCB="Selecting this checkbox displays any metal polygons in your circuit. If this checkbox is cleared, then the metal polygons are not displayed. The shortcut key to toggle this checkbox is m. "
p_All_S3dOptWin_PerspectiveCB="Selecting this checkbox allows you to view the circuit in perspective. A perspective view is one which allows you to view an object in such a way, using converging lines, as it would appear to your eye. The shortcut key that toggles this condition is p."
p_All_S3dOptWin_ZPB="Once the desired value is displayed, click here to apply the scaling factor to the rendering of your circuit."
p_All_S3dLayerWin_EqualPB="Click here if you wish to display all the dielectric layers drawn as if they were the same height. The factor necessary to achieve this is shown in the text entry boxes for each layer above."
p_Xgeom_CmplxSwpWin_DC_Freq_EC="Enter the frequency you wish to use for the DC Frequency sweep here. This text entry box is only enabled when the Manual radio button is selected. "
p_Xgeom_CmplxSwpWin_Auto_RB="Click on this button if you wish to use the DC frequency automatically calculated by em as the analysis frequency for the DC Frequency sweep. The frequency calculated by em is displayed to the right of the button but may not be edited. "
p_Xgeom_CmplxSwpWin_Manual_RB="Click on this button if you wish to specify the DC frequency to be used for the DC Frequency sweep. Clicking on this radio button enables the text entry box to the right. Enter the desired frequency in this text entry box."
p_Emgraph_PackGraph_IncludeJData_CB="Click on this checkbox to include any calculated Current Density data in your archive file. Current Density data produced when the Compute Current Density option was selected for the analysis is stored as part of your project. When you are packing your graph you can choose whether to include this data, which can be sizable, in the archive file. "
p_Emgraph_PackGraph_BrowseTo_PB="Click on this button to open a browse window which allows you to select a destination directory for your graph archive file. The selected directory is displayed in the dialog box. The archive files are created in the destination directory using the basename of the source project with the extension ''.zgr''. If there are two projects open in a graph, the basename of the first project opened in the response viewer is used as the basename. For example, if your graph contains the project ''steps.son'' and the project ''filter.son'', the graph archive file, ''steps.zgr'' is produced in the destination directory."
p_Emgraph_PackGraph_Details_PB="Clicking on this button provides you details about the packing operation including its success or failure."
p_Emgraph_PackGraph_Pack_PB="Click on this button to execute the pack command on the selected graph. The curve group specifications along with the packed projects which supplied the analysis data are placed in an archive file with the extension .zgr. This file is saved in the Directory specified in the dialog box. Messages indicating the progress of the pack are displayed in the Pack Graph dialog box."
p_Emgraph_PackGraph_IncludeABSData_CB="Click on this checkbox to include to include the ABS cache data in your archive. This will save on subsequent processing time for this project but be aware that including cache data increases the size of your archive."
p_Emgraph_PackGraph_IncludeExternalFiles_CB="Click on this checkbox to include any external files in your archive file. This does not include optional output files, but only those files needed by the analysis engine, em, to run an analysis. An example would be a subproject referenced by a netlist project. "
p_Emgraph_PackGraph_ToFile_EC="Enter the directory here in which you wish to generate the archive file. The resulting archive file is written here. You may enter the directory by editing the entry or by clicking on the Browse button to the right which opens a Browse window which allows you to select the desired destination directory."
p_EmgraphUnpackGraph_Unpack_PB="Click on the Unpack button to unpack the graph archive file in the specified directory. Messages indicating the progress of the unpack are displayed in the Unpack Graph dialog box. The graph file and projects which provide the data for the graph are restored. If the unpack is successful, then the graph appears in the response viewer."
p_EmgraphUnpackGraph_Details_PB="Clicking on this button provides you details about the unpacking operation including its success or failure."
p_EmgraphUnpackGraph_DeleteWhenDone_CB="Click on this checkbox is you wish to delete any unpacked files when the graph is closed. "
p_EmgraphUnpackGraph_BrowseTo_PB="Clicking on this button opens a browse window which allows you to select the directory in which you wish to unpack the graph archive file."
p_EmgraphUnpackGraph_UseFrom_RB="Select this radio button if you wish to place the unpacked graph in the same directory as the source graph archive file."
p_EmgraphUnpackGraph_UseThis_RB="Select this radio button if you wish to unpack your graph archive in a different directory than the one in which the source archive file is located. This enables the text entry box just below where the desired directory may be specified."
p_EmgraphUnpackGraph_DirectoryTo_EC="Enter the directory here in which you wish to unpack the graph archive file. The resulting graph file and source project(s) are written here. This text entry is only enabled when the Use This Directory radio button is selected."
p_Emgraph_PackGraph_Status_NText="Messages indicating the progress and completion of the pack operation appear here."
p_Emgraph_PackGraph_Warnings_NIcon="The presence of this Warning icon indicates that there were problems with the packing operation. Click on the View Details button to find out the specifics of the errors."
p_Emgraph_PackGraph_CancelClose_PB="Clicking on this button closes the dialog box once you have completed the desired operation(s)."
p_EmgraphUnpackGraph_Cancel_PB="Clicking on this button exits the dialog box. If you did not press the Unpack button before closing the dialog box then no action is taken."
p_EmgraphUnpackGraph_ThisDir_NT="This is the source directory in which the graph archive file resides. The archive file is unpacked in this directory if the 'Use Packed Graph' Directory radio button is selected."
p_EmgraphUnpackGraph_Status_NText="Messages indicating the progress and completion of the unpack operation appear here."
p_EmgraphUnpackGraph_Warnings_NIcon="The presence of this Warning icon indicates that there were problems with the unpacking operation. Click on the Details button to find out the specifics of the errors."
p_EmgraphUnpackGraph_From_NT="This is the pathname of the graph archive file being unpacked that you selected with the Browse window that appeared when you selected the Unpack Graph command."
p_Emgraph_BBSpice_DataType_LB="To use de-embedded data, select De-Embedded from this drop list. To use non-de-embedded data, select Not De-Embedded. This drop list is only enabled if both types of data are available in the project file."
p_Emgraph_BBSpice_Advanced_PB="Click here to access the Broadband Spice Advanced Options dialog box which allows you to specify additional frequencies for the predicted S-parameter data and set the maximum complexity of the model."
p_Emgraph_BBSpice_ModelFilename_EC="Enter the desired path and file name for the output Spice model file here. The default is the source project's directory with the project basename and the ''.lib'' extension for PSpice and the ''.scs'' for Cadence. If there are multiple parameter or iteration combinations then the default is the project basename with ''_n'' added where n is the number of the parameter or iteration combination. For example, if you were creating a broadband Spice model file for a project named ''steps.son'' which had three parameter combinations, you would produce three output files: steps_1.lib, steps_2.lib, steps_3.lib. If you wish to change the default file name and you have multiple parameter or iteration combinations, use the following syntax: <filename>_*.lib where <filename> is the file name you wish to use and the ''_*'' is a wildcard which becomes the number of the parameter or iteration combinations. For example, ''bp_filter_*.scs''  "
p_Emgraph_BBSpice_Format_LB="Select PSpice or Spectre from this drop list. The output file will be formatted for the chosen vendor. The file extension for PSpice is ''.lib'' and for Spectre is ''.scs.''"
p_Emgraph_BBSpice_SelectCombinations_PB="Click on this button to open the Select Parameters dialog box which allows you to select parameter combinations or iterations to be used in generating the Broadband Spice model. A file is generated for each combination or iteration that you select. "
p_Emgraph_BBSpice_ParamList_ST="Parameter Combinations:  The presently selected parameter combinations are shown here when available in the project. To change the parameter combinations, click on the Select Combinations button below. This will open the Select Parameters dialog box and allow you to add and/or delete parameter combinations from the desired output. An output file will be created for each selected parameter combination. Optimization Iterations: The presently selected optimization iterations are shown here when available in the project. To change the optimization iterations, click on the Select Iterations button. This will open the Select Parameters dialog box and allow you to add and/or delete optimization iterations from the desired output. "
p_Project_EmailSetupWin_Email_EC="Enter your email address here. A reply will be sent to this address. Please be careful when entering this field to ensure that any reply from Sonnet reaches you. "
p_SonDiag_EmailSetupWin_Email_EC="Enter your email address here. A reply will be sent to this address. Please be careful when entering this field to ensure that any reply from Sonnet reaches you. "
p_PackedGraph_EmailSetupWin_Email_EC="Enter your email address here. A reply will be sent to this address. Please be careful when entering this field to ensure that any reply from Sonnet reaches you. "
p_Project_EmailSetupWin_Name_EC="Enter your name here."
p_PackedGraph_EmailSetupWin_Name_EC="Enter your name here."
p_SonDiag_EmailSetupWin_Name_EC="Enter your name here."
p_Project_EmailSetupWin_Country_LB="Select your country from this list. If your country does not appear in the list, please select Other."
p_SonDiag_EmailSetupWin_Country_LB="Select your country from this list. If your country does not appear in the list, please select Other."
p_PackedGraph_EmailSetupWin_Country_LB="Select your country from this list. If your country does not appear in the list, please select Other."
p_Project_EmailSetupWin_Message_ST="Enter a description of your problem here and any additional information you think it important for Sonnet support personnel to know."
p_SonDiag_EmailSetupWin_Message_ST="Enter a description of your problem here and any additional information you think it important for Sonnet support personnel to know."
p_PackedGraph_EmailSetupWin_Message_ST="Enter a description of your problem here and any additional information you think it important for Sonnet support personnel to know."
p_Project_EmailSetupWin_Include_CB="Select this checkbox if you wish to include the Sonnet project presently being edited in the project editor as part of your email to Sonnet support. The name of the project appears to the right of the checkbox. If you do not wish to send the project, clear this checkbox. By default, this checkbox is selected."
p_Sonnet_ProjectPack_AddFiles_PB="Click here to open the Additional Files dialog box which allows you to include additional files in the Sonnet archive file. This is useful if you have packed graph files or text files which you wish to send along with the project. All file types are allowed."
p_Sonnet_AddFiles_Add_PB="Click here to open a Browse window which allows you to select files on your computer to include in the archive file. You may add one or multiple files. Any files you select appear in the list of this dialog box. You may add any number of files to be included."
p_Sonnet_AddFiles_Remove_PB="Click on this button when files in the list of additional files are selected to remove them from the list. You may select one or more entries in the list at a time. This button is only enabled when at least one file is selected in the list."
p_Sonnet_AddFiles_Files_LB="This list contains the files which you have selected to be included in the Sonnet archive file produced by the Pack Project command. Click on an item in the list to select it. "
p_Emgraph_BBSpice_ErrorThreshold_EC="Enter the desired error threshold here. The error is calculated as the summation of the differences between the source S-parameter value and the predicted S-parameter data at each frequency point divided by the number of frequency points. (Clicking on the Help button in this dialog box will open the topic which contains the error equation.) The calculation of the Broadband Spice model stops when this error threshold is reached or when it proves impossible to improve the error. Processing time increases as you decrease the error threshold. The default value is 0.5 and we recommend that the error threshold not be set lower than 0.1."
p_Emgraph_BBSpice_PredictedSParamFile_CB="Selecting this checkbox creates a file which contains the predicted S-Parameter data generated by the rational polynomial from which the Broadband Spice model was created. The file to which the Predicted S-Parameter data is written appears just below and may not be changed. This file allows you to visually inspect how close a fit your broadband Spice model is to your source data."
p_Emgraph_BBSpice_Details_PB="Click here to open a window which displays a detailed log of the last Broadband Spice model generation."
p_Emgraph_BBSpice_PredictedSParamFile_NT="This is the name of the file to which the Predicted S-Parameter data will be written when the Generate Predicted S-Parameter data file checkbox is selected. The Predicted S-Parameter data is generated by the rational polynomial from which the Broadband Model was created. You may not edit this filename. It is written to the same directory to which the Spice model file is written."
p_model_name="This section shows the name of the model, the number of frequency points in the response data used to generate the model and the number of ports in the circuit."
p_model_options="This section of the log identifies the setting of the error threshold and the name of the file to which the predicted S-Parameter data was written. You should compare the predicted S-Parameter data against your original response data in the response viewer to check the accuracy of your model."
p_model_results="This section of the log contains the results on a parameter by parameter basis. The error for each S-parameter is listed here. You should examine the predicted S-Parameter data versus the original response data for each parameter that you consider critical whose error is greater than 0.1. If the error threshold is not achieved for a given parameter, its error value is followed by a warning message. "
p_model_summary="This section of the log contains the log summary. The parameter with the largest error is identified here. The predicted S-Parameter data for this parameter should be compared to the original response data for that parameter to help you determine the accuracy of your model. If the model attained the error threshold set by you, then the message \"Model <model name> successful\" appears here. It is a good idea to compare your predicted S-Parameter data to your original response data even if your error threshold is achieved.  If this message does not appear in the summary section than the error threshold was not achieved for your model. Note that if the error threshold is not achieved the processing time for creating the model is much longer than if the model is successful. "
p_Sonnet_AdminEmserverAdvWin_INFO_EC="Enter a brief description of the server machine here."
p_Emgraph_PrefWin_ShowSymbolsCart_CB="If you wish to have the symbols which represent data points appear on your default Cartesian graph, select this checkbox. The default is to display the symbols. Once a plot is opened, this setting can be changed using the View => Symbols command."
p_Emgraph_PrefWin_ShowSymbolsSmith_CB="If you wish to have the symbols which represent data points appear on your default Smith chart, select this checkbox. The default is to display the symbols. Once a plot is opened, this setting can be changed using the View => Symbols command. "
p_Emstatus_ResponseViewDetails_CB="Setting this check box to on displays the transmission line parameters along with the response data. If this checkbox is not selected than the transmission line parameters are not included in the response data but may still be found in the log file. "
p_Emvu_ExportDataWin_AllData_RB="Select this radio button if you wish to export values for the whole window which is presently displayed in the current density viewer. All of the values representing the current density of the presently displayed metalization level are placed in the output file. If there is no circuit at any given point in the display, then a value of zero is output for that data point."
p_Emvu_ExportDataWin_Horizontal_RB="Click on this radio button if you wish to select a line of data in the Horizontal plane. When this radio button is selected the Y-position text entry box appears below. This radio button is only enabled when the Export Type is Line.  "
p_Emvu_ExportDataWin_Line_RB="Click on this radio button to output only a line of data from your window. Use the controls below which are enabled when you select this option to specify the location of the line. Only the values which fall on this line are output to the file. "
p_Emvu_ExportDataWin_Position_EC="Enter the location of the line for which you wish to export data here. This entry may be edited directly or you may use the mouse to select a location.  "
p_Emvu_ExportDataWin_UseMouse_PB="Click on this button to use the mouse to select the location of the line on your display from which you wish to export data. Once you select a location, the dialog box re-appears on your display with the location entered in the Position text entry box. "
p_Emvu_ExportDataWin_Vertical_RB="Click on this radio button if you wish to select a line of data in the Vertical plane. When this radio button is selected the X-position text entry box appears below. This radio button is only enabled when the Export Type is Line. "
p_Emgraph_CartAxesPref_AutoScale_CB="Set this check box if you wish the axis to be scaled automatically by the response viewer program. Automatic scaling disables the Min, Max, and Divisions text entry boxes."
p_Emgraph_CartAxesPref_MinValue_EC="Enter the minimum value which you wish displayed on the axis in this text entry box. Autoscaling must be off, for this text entry box to be enabled."
p_Emgraph_CartAxesPref_MaxValue_EC="Enter the maximum value which you wish displayed on the axis in this text entry box. Autoscaling must be off, for this text entry box to be enabled."
p_Emgraph_CartAxesPref_TickLabels_CB="Set this check box if you wish the tick labels displayed on the plot."
p_Emgraph_CartAxesPref_TickInterval_EC="This text entry box is enabled when autoscaling is turned off. This text boxes allows you to define the tics by specifying the interval between tics. The data range is divided up into that many intervals and the Number of Divisions text entry box is updated accordingly."
p_Emgraph_CartAxesPref_NumberOfTicks_EC="This text entry box is enabled when autoscaling is turned off. This text boxes allows you to define the tics by specifying the number of tics. The data range is divided up into that many intervals and the Interval text entry box is updated accordingly. "
p_Emgraph_CartAxesPref_SigDig_EC="Enter the desired number of significant digits for the display data here."
p_Emgraph_SmithAxesPref_IMPEDANCE_RB="Displays the impedance in the default Smith Chart. "
p_Emgraph_SmithAxesPref_ADMITANCE_RB="Displays the admittance in the default Smith Chart. "
p_Emgraph_SmithAxesPref_LIMIT_FREQ_CB="If you wish to limit the frequency range of the Smith chart, set this check box to on. The minimum frequency is then entered in the Start text entry box, and the maximum frequency desired is entered in the Stop text entry box. Only data points which fall within this range will be displayed. If no data is available in this range, then the default Smith chart will contain no data."
p_Emgraph_SmithAxesPref_ScaleType_LB="Select Fine from this drop list use a finer grid on your plot. Selecting Coarse displays a grid with less intervals."
p_Emgraph_SmithAxesPref_START_EC="Enter the minimum frequency you wish displayed on the Smith chart. If the Limit Frequency check box is off, this text entry box is disabled."
p_Emgraph_SmithAxesPref_STOP_EC="Enter the maximum frequency you wish displayed on the Smith chart. If the Limit Frequency check box is off, this text entry box is disabled. "
p_Emgraph_SmithAxesPref_ShowVSWR_CB="Select this checkbox if your wish to highlight the Voltage Standing Wave Ratio (VSWR) circle. Selecting this checkbox enables the ratio text entry box to the right. Enter the desired ratio. The VSWR circle for that ratio will be highlighted in red."
p_Emgraph_SmithAxesPref_SCALE_LB="Select the maximum radius allowed in the display. Values available are 0.3, 0.5, 1.0, 3.0, and 5.0. The standard Smith chart is 1.0. "
p_Emgraph_SmithAxesPref_VSWR_EC="The VSWR ratio you wish highlighted should be entered in this text entry box. This text entry box is only enabled when Show VSWR Circle is selected."
p_PackedGraph_EmailSetupWin_Include_CB="Select this checkbox if you wish to include the graph presently being displayed in the response viewer as part of your email to Sonnet support. The size of the graph archive file appears to the right of the checkbox. If you do not wish to send the graph, clear this checkbox. By default, this checkbox is selected."
p_Emgraph_SAxisSWin_ScaleType_LB="Select Fine from this drop list use a finer grid on your plot. Selecting Coarse displays a grid with less intervals."
p_Emgraph_SExportProjectData_DataType_LB="Select de-embedded or non-de-embedded data for your output file. De-embedding is the process whereby the port discontinuity is removed from your responses. For more detail, refer to the chapter on ''De-embedding'' in the Sonnet User's Guide."
p_Emgraph_SExportProjectData_SelPar_PB="Click here to open the Select Parameters dialog box which allows you to select for which parameter combination you wish to export data. You may only select one combination per output file. This button only appears if your project contains parameters. "
p_Emgraph_SExportProjectDataNCoup_SelPar_PB="Click here to open the Select Parameters dialog box which allows you to select for which parameter combination you wish to export data. You may only select one combination per output file. This button only appears if your project contains parameters. "
p_Emgraph_SExportProjectDataPi_Format_LB="Select the desired format for your Spice model file here."
p_Emgraph_SExportProjectDataNCoup_Format_LB="Select the desired format for your Spice model file here."
p_Emgraph_SExportProjectDataPi_DataType_LB="Select de-embedded or non-de-embedded data from this droplist. For a discussion of de-embedding, see the  Advanced Options dialog box ."
p_Emgraph_SExportProjectDataNCoup_DataType_LB="Select de-embedded or non-de-embedded data from this droplist. For a discussion of de-embedding, see the  Advanced Options dialog box ."
p_Emgraph_SExportProjectDataPi_SelPar_PB="Click here to open the Select Parameters dialog box which allows you to select for which parameter combination you wish to extract a Spice Model. You may only select one combination per output file. This button only appears if your project contains parameters. "
p_Emgraph_SExportProjectDataPi_Options_PB="Click on this button to open the PI Model Options dialog box which allows you to set up parameters for the Spice model such as Rmax and Cmin."
p_Emgraph_SExportProjectDataNCoup_Options_PB="Click on this button to open the PI Model Options dialog box which allows you to set up parameters for the Spice model such as Rmax and Cmin."
p_Emgraph_SExportProjectDataPi_Save_PB="Click on this button to execute the Save PI Model command. The data specified in this dialog box is output to an external data file. A Browse window appears which allows you to enter the desired filename."
p_Emgraph_SExportProjectDataNCoup_Save_PB="Click on this button to execute the Save N-Coupled Line Model command. The data specified in this dialog box is output to an external data file. A Browse window appears which allows you to enter the desired filename."
p_Emgraph_SpiceOptions_FactoryDefaults_PB="Clicking here changes all the settings in this dialog box to the defaults used upon installation of the software."
p_Emgraph_BBSpiceDetails_Close_PB="Click here to close the Broadband Spice Details window. To open the window again, click on the Log button in the Output Broadband Model File dialog box."
p_Emgraph_BBSpiceDetails_Toggle_PB="Click here to switch between the full log and the summary of the log."
p_Emgraph_BBSpiceDetails_Details_OUTSCROLL="This section of the dialog box contains the log of the model creation. For details about the contents, click on the Help button in this dialog box."
p_Emgraph_BBSpice_GenerateSeparateFiles_CB="Select this checkbox to create a Broadband Spice model file for each unique parameter combination or optimization iteration listed above. If this checkbox is cleared then multiple models will be written in the specified Broadband Spice model file. "
p_Emgraph_BBSpice_RememberSettings_CB="Click here if you wish to save your choices for future exports. The next time you access this dialog box, these settings are used as the default settings for the data."
p_Emgraph_BBSpice_FactoryDefaults_PB="Click here to change all the settings in this dialog box to the defaults used upon installation of the software."
p_SonDiag_EmailSetupWin_Include_CB="Select this checkbox if you wish to include the diagnostics file produced as a result of the Trouble Report command as part of your email to Sonnet support. The size of the diagnostics file appears to the right of the checkbox. If you do not wish to send the trouble report, clear this checkbox. By default, this checkbox is selected."
p_Sonnet_BBSpiceAdv_Start_EC="Enter the starting frequency for additional frequency points to be added to the predicted S-Parameter data file here. If you wish only to specify one frequency, enter it here."
p_Sonnet_BBSpiceAdv_Stop_EC="Enter the ending frequency for additional frequency points to be added to the predicted S-Parameter data file here."
p_Sonnet_BBSpiceAdv_DCPoint_CB="Click here if you wish to include response data at a DC frequency point in your predicted S-parameter output file."
p_Sonnet_BBSpiceAdv_Order_EC="Enter the desired maximum order of the rational polynomial which produces the Broadband Spice model here. This entry may be used to limit the complexity of the model."
p_Sonnet_BBSpiceAdv_AddOptions_EC="This field should only be used at the direction of Sonnet support personnel."
p_Xgeom_PrefWin_TurnAllOn_PB="Clicking on this button turns on all hints, notices and reminders that have been turned off by the user. All hints, notices and reminders are on by default when you install the software. This includes the Show Via Direction notice, the Adaptive Sweep hint, the Via Port Reminder, Conformal Mesh notice, and the Analyze Outside of Microwave Office notice."
p_Xgeom_AdvOptWin_Q_Acc_CB="Select this option to force a higher accuracy for ABS convergence. This is done to increase the Q-factor of the ABS analyses. The result is higher accuracy from the ABS sweep, but. this accuracy comes at the cost of requiring more discrete frequencies to be analyzed before conversion is reached."
p_Xgeom_BBSpiceWin_Error_EC="Enter the desired error threshold here. The error threshold is the difference between the source response data and the predicted S-parameter data. Click on the Help button in this dialog box to view the equation used to calculate error. "
p_Xgeom_BBSpiceWin_Advanced_PB="Click here to access the Broadband Spice Advanced Options dialog box which allows you to specify additional frequencies for the predicted S-parameter data and set the maximum complexity of the model."
p_Xgeom_BBSpiceWin_MakeData_CB="Selecting this checkbox creates a file which contains the predicted S-parameter data used to generate the Broadband Spice model. The file to which the predicted data is written appears just below and may not be changed. This file is created in the same directory in which the output Spice model file is created. This file allows you to visually inspect how close a fit your broadband model is to your source data."
p_Xgeom_BBSpiceWin_Separate_CB="Selecting this checkbox creates a Broadband Spice model file for each unique parameter combination when the analysis type is a parameter sweep. If this checkbox is cleared and the analysis is a parameter sweep, multiple models will be written in the specified Broadband Spice model file. "
p_Sonnet_BBSpiceAdv_Step_EC="Enter the interval between frequencies for additional frequency points to be added to the predicted S-Parameter data file here."
p_Xgeom_PrefWin_AutoGen_NLineModel_CB="Select this checkbox if you wish to automatically create a N-Coupled Line (Transmission Line) Spice Model output file each time you run an analysis on your project. Click on the default button to open the N-Coupled Line Model File Entry dialog box which allows you to specify the default settings for the autogenerated N-Coupled Line Model."
p_Xgeom_PrefWin_SetDef_NLineModel_NB="Click on this button to open the N-Coupled Line Model File Entry dialog box which allows you to specify the default settings for the autogenerated N-Coupled Line Model."
p_Xgeom_OptionalFiles_NLineModel_PB="Click here to open the N-Coupled Line (Transmission Line) Model File Entry dialog box which allows you to specify a N-Coupled Line Spice model file for output from your analysis."
p_Xgeom_OptionalFiles_PIModel_PB="Click here to open the PI (Lumped Element) Model File Entry dialog box which allows you to specify a PI Spice model file for output from your analysis."
p_Xgeom_OptionalFiles_BBModel_PB="Click here to open the Broadband Model File Entry dialog box which allows you to specify Broadband Spice Model to be output from your analysis. "
p_Xgeom_OutFile_FactoryDefaults_PB="Click here to change all the settings in this dialog box to the defaults used upon installation of the software."
p_Emgraph_BBSpiceDetails_Plot_PB="Click here to open a graph in the response viewer which plots your project's response data versus the predicted S-Parameter data to determine the accuracy of your Broadband Spice model."
p_Sonnet_RestrictSuite_BroadbandSpice_CB="This option, which may be added to some Sonnet products, provides the ability to extract Broadband Spice models from your project's response data. You may set up a default Broadband Spice model to be output at the end of the analysis, or you extract the model from response data previously calculated."
p_Sonnet_RestrictSuite_MWOfficeInt_CB="This option, which may be added to some Sonnet products, provides a completely integrated “solver on request” interface between AWR’s Microwave Office and Sonnet software. The interface allows you to stay completely in the Microwave Office environment using Sonnet as your EM analysis engine, or you may choose to edit your circuits in the Sonnet environment before running the EM analysis. Either way your results are easily integrated back into the Microwave Office environment. A third option allows you to export and import Sonnet projects to be used as EM structures in your Microwave Office project."
p_Emgraph_BBSpiceDetails_CopyAll_PB="Click on this button to copy the contents of the window to your clipboard so that you may paste the contents into other applications."
p_xgeom_project_name="The name of the project presently open and selected in the project editor appears here. If the project is new and has not yet been named, then \"untitled\" appears here."
p_xgeom_geo_main_window="This is the main window which displays your circuit or part of your circuit in geometry mode. When you execute a command in the project editor, the main window's contents are updated to reflect the changes."