Using the Spectrum Management Tools
CBT 3.4 interfaces with the Cisco CMTS to provide return path spectrum analysis. The following tasks allow you to use the spectrum management tool effectively:
•Trace Window—Monitors power and noise levels for a selected modem or upstream port.
•Spectrogram—Monitors power and noise levels over time for a selected modem or upstream port.
•CNR Analysis—Retrieves the carrier-to-noise ratio (CNR) for selected modems or upstream ports.
•CNR Trending—Retrieves CNR trending data for selected modems or upstream ports.
•Data Playback—Reviews a saved Trace Window or CNR Analysis.
•Polling Status—Displays the spectrum analysis in progress on a client machine and to view the scheduled spectrum polling events.
Note CBT 3.4 supports upstream channel bonding. The bonded upstream channel set of the DOCSIS 3.0 modems is listed in the Upstream field.
Each task is covered in the following sections:
•Using the Trace Window, page 4-2
•Trace Window Display
•Viewing Trace Windows, page 4-5
•Sorting Support in the CBT 3.4 Graphical User Interface, page 4-6
•Using Auto-Select in the Trace Window, page 4-6
•Using the Spectrogram, page 4-7
•Analyzing the Carrier-to-Noise Ratio, page 4-9
•Retrieving CNR Trending Data, page 4-11
•Playing Back Data, page 4-12
•Playing Back CNR Analysis, page 4-15
•Playing Back CNR Trending Data, page 4-17
•Displaying Polling Status, page 4-19
•Enabling Instantaneous CPU Assessment for Spectrum Polling, page 4-20
Using the Trace Window
To monitor power and noise levels for a selected modem or upstream port, use the Trace Window. As shown in Figure 4-1, the Trace Window shows the output that you would see in a spectrum analyzer. This output displays in the plot line of the Trace Window.
Figure 4-1 Trace Window Display
In the Trace Window, you can:
•Monitor the power and noise levels two ways:
–Single sweep—Provides a snapshot view of levels at one point in time, as shown in Figure 4-1
–Continuous sweep—Provides a real-time view of data as it changes
•Check two types of power levels and display the data in the results block, which is in the lower right corner as shown in Figure 4-1:
–Burst power analysis—Acquires the upstream channel power
–Band power analysis—Acquires the band power measurement for a start and stop frequency that you select
•View the Modulation profile information as shown in Figure 4-1:
–Modulation profile—Displays the modulation profile number, usage code, and the channel type of an upstream.
•Indicate a variety of lines and points in the plot line and display the data in the annotations block, which is in the upper right corner, as shown in Figure 4-1
–Reference marker—Is a unique marker in the plot line and is indicated by r, as shown in Figure 4-1
–Point markers—Is a way to indicate one or more points in the plot line; each point marker is numbered consecutively beginning with p1, as shown in Figure 4-1
–Amplitude and frequency lines—Display a line marker in the plot line, as shown by the horizontal amplitude line at 0 dBmV and the vertical frequency line just before 14000 kilohertz (kHz) in Figure 4-1
•Show additional plot lines:
–Minimum hold—Display the plot line that shows the minimum power level
–Maximum hold—Display the plot line that shows the maximum power level
•Move a marker that you created to peaks in the plot line:
–Peak
–Next peak
–Left peak
–Right peak
•Customize the placement and position of point markers:
–Text—You can customize a point marker's label by entering a name in the Text box. For example, you could change p1 to Test Point 1 and p2 to Test Point 2, as shown in Figure 4-1.
–Frequency (kHz)—You can specify a frequency in kilohertz for the point marker by entering a number in the Frequency text box. For example, you could enter 20200 instead of clicking on the plot line near 20000.
•Show the delta between the reference marker's power level and that of each point marker.
•Zoom in on a selected frequency range to enlarge the view.
•Save a single sweep of the plot line and play it back.
Working with the Trace Window
Table 4-1 shows several ways to work with data in the Trace Window.
Table 4-1 Keyboard Actions for Working with the Trace Window
|
|
To move a line marker |
Press Shift, click and drag the line to the desired location. |
To zoom in on a selected frequency |
Move your cursor to the area you want to enlarge and press Ctrl, left-click. or Press Ctrl, left-click and drag your cursor to create a box that indicates the area you want to enlarge. |
To return to a full view from a zoom view |
Press r. |
Starting the Trace Window
To use the Trace Window to monitor power and noise levels for a selected modem or upstream port:
Step 1 From the Spectrum Tools menu, choose Trace Window. The Trace Window Criteria dialog box appears, as shown in Figure 4-2.
Step 2 Select an upstream or cable modem for which you want to monitor power and noise levels.
Note To update the cable modem information on the selected CMTS instead of getting data from the cache, click Update CM Info. This real-time update varies according to how many modems are attached to the CMTS. The update depends on the number of modems attached to the Cisco CMTS; the update takes longer if more number of modems are attached to the Cisco CMTS.
Tip When you select the resolution bandwidth (RBW), keep in mind that the smaller the RBW, the less variance and the more accurate the frequency is in the Trace Window is. Specifically, when a single-tone signal that resembles a noise burst appears in the Trace Window, the frequency of the signal gets shifted. This causes the frequency in the Trace Window to be different from the spectrum analyzer output. The variance in frequency increases as the resolution bandwidth increases.
Step 3 Click Start. The Trace Window appears, as shown in Figure 4-1.
Step 4 To view the return path data and activate all options in the Trace Window, click one of the following buttons:
•Single Sweep—Provides a single snapshot of power and noise levels
•Continuous Sweep Start— Starts to monitor for real-time measurements of power and noise levels
Step 5 For a complete description of each field in these dialog boxes, click Help.
Figure 4-2 Trace Window Criteria Dialog Box
Viewing Trace Windows
Some browsers give the user the ability to stop windows from being launched by the browser. CBT 3.4 normally launches a new window to display the trace pop-up spectrum data charts. If the data chart window does not appear and the browser is configured to stop new windows from launching, you can configure CBT 3.4 to display data charts within the browser window.
To display data charts within the browser window:
Step 1 From the Configuration menu, choose System.
Step 2 In the System Configuration screen, uncheck the Use Popup check box.
Sorting Support in the CBT 3.4 Graphical User Interface
CBT 3.4 supports sorting for the List fields in the following GUI pages:
•Spectrum Data Scheduler
•Trace Window Criteria
•Spectrogram Criteria
•CNR Analysis Criteria
•CNR Trending Criteria
To change the order of sorting:
Step 1 Select the desired desired page:
•Configuration > Scheduler > Spectrum Data > Spectrum Data Scheduler
•Spectrum Tools > Trace Window > Trace Window Criteria
•Spectrum Tools > Spectrogram > Spectrogram Criteria
•Spectrum Tools > CNR Analysis > CNR Analysis Criteria
•Spectrum Tools > CNR Trending > CNR Trending Criteria
Step 2 Click on the label of the desired field, and data is sorted in ascending or descending order. Each click of the label reverses the current order displayed.
Using Auto-Select in the Trace Window
CBT 3.3 and later do not support auto-select of any given field in the Trace Window by default. To retrieve and display information for any given field in the Trace Window display, select the desired field.
Using the Spectrogram
To monitor power and noise levels, as you do in the Trace Window, while viewing the added dimension of time, use the Spectrogram. As shown in Figure 4-3, the Spectrogram shows the output that you would see in a spectrum analyzer.
Figure 4-3 Spectrogram
In the Spectrogram, you see the following variables in one easy, 3-D view:
•Power level—Measured in decibels millivolt (dBmV) and depicted according to the color key at the bottom. As shown in Figure 4-3, the power level is cyan, which the color key indicates is in the -30 to -10 dBmV range.
•Frequency—Measured in kilohertz and shown on the X axis. In Figure 4-3, the power level is between 30867 and 34563 kHz.
•Time—Measured in hours, minutes, and seconds (HH:MM:SS) and shown on the Y axis. Figure 4-3 shows the latest time that data was captured is 15:18:39.
When you move your cursor over the Spectrogram, the status bar at the bottom of the window displays the time, frequency, and power level for the current location. In the Spectrogram, you can click Pause or Print at anytime.
Starting the Spectrogram
To use the Spectrogram to monitor power and noise levels for a selected modem or upstream port over time:
Step 1 From the Spectrum Tools menu, choose Spectrogram. The Spectrogram Criteria dialog box appears, as shown in Figure 4-4.
Step 2 Select the Cisco CMTS, the interface, and an upstream or cable modem for which you want to monitor power and noise levels over time.
Note To update the cable modem information on the selected CMTS instead of getting data from the cache, click Update CM Info. This real-time update varies according to how many modems are attached to the CMTS. The update depends on the number of modems attached to the Cisco CMTS; the update takes longer if more number of modems are attached to the Cisco CMTS.
Step 3 Click Start. The Spectrogram appears, as shown in Figure 4-3.
Step 4 After completion of criteria selections, click Start, and the Spectrogram Criteria Confirmation dialog box appears. Click Yes to apply the changes.
Step 5 For a complete description of each field in these dialog boxes, click Help.
Figure 4-4 Spectrogram Criteria Dialog Box
Figure 4-5 Spectrogram Criteria Confirmation Dialog Box
Analyzing the Carrier-to-Noise Ratio
To show the carrier-to-noise ratio for selected cable modems or upstream ports, use the CNR Analysis task. As shown in Figure 4-6, this information displays in the CNR Analysis dialog box, which lets you:
•View the following information:
–CMTS and interface/upstream
–CM MAC address
–Carrier-to-noise ratio
–Collected time
•Save the results to play back later.
Figure 4-6 CNR Analysis Dialog Box
You can set the following SPECTRUM.INI file parameters:
•Set thresholds for acceptable carrier-to-noise ratios
•Specify colors for CNRs that are below two thresholds, floor and ceiling
In Figure 4-6, the CNRs for the selected modems fall into three categories:
•Yellow—The CNR is below the ceiling threshold.
•Red—The CNR is below the floor threshold.
•White—The CNR is above the ceiling threshold.
For more information on the SPECTRUM.INI file, see the "Parameters in the SPECTRUM.INI File" section on page 3-22.
Getting the CNR Analysis
To show the carrier-to-noise ratio for selected cable modems or upstream ports:
Step 1 From the Spectrum Tools menu, choose CNR Analysis. The CNR Analysis Criteria dialog box appears, as shown in Figure 4-7.
Step 2 Select one or more upstreams or cable modems for which you want to see the carrier-to-noise ratio.
Note To update the cable modem information on the selected CMTS instead of getting data from the cache, click Update CM Info. This real-time update varies according to how many modems are attached to the CMTS. The update depends on the number of modems attached to the Cisco CMTS; the update takes longer if more number of modems are attached to the Cisco CMTS.
Tip You specify an upper and lower threshold for carrier-to-noise ratios in the CNRCeiling and CNRFloor parameters of the SPECTRUM.INI file. If you want to specify different thresholds on an analysis-by-analysis basis, you can do that in the Upper Threshold and Lower Threshold fields. For more information on thresholds, see the "Parameters in the SPECTRUM.INI File" section on page 3-22.
Step 3 Click Start. The CNR Analysis dialog box appears, as shown in Figure 4-7.
Step 4 For a complete description of each field in these dialog boxes, click Help.
Figure 4-7 CNR Analysis Criteria Dialog Box
Retrieving CNR Trending Data
To retrieve the CNR trending data for selected cable modems or upstream ports:
Step 1 From the Spectrum Tools menu, choose CNR Trending. The CNR Trending Criteria dialog box appears as shown in Figure 4-8.
Step 2 Select one or more upstreams or cable modems for which you want to see the CNR trending data.
Note To update the cable modem information on the selected CMTS instead of getting data from the cache, click Update CM Info. This real-time update varies according to how many modems are attached to the CMTS. The update depends on the number of modems attached to the Cisco CMTS; the update takes longer if more number of modems are attached to the Cisco CMTS.
Step 3 Click Add to add the upstream or cable modem to the Selected US/CM list.
Step 4 Click Start. The CNR Trending graph is displayed.
Step 5 For a complete description of each field in these dialog boxes, click Help.
Figure 4-8 CNR Trending Criteria Dialog Box
Playing Back Data
You can play back a saved Trace Window or CNR Analysis. This allows you to capture and preserve troubleshooting information and use it later.
Playing Back Trace Window
To play back Trace window:
Step 1 From the Spectrum Tools menu, choose Data Playback > Trace Window. The Trace Window Playback Criteria dialog box appears, as shown in Figure 4-9. Otherwise, Figure 4-10 shows an alternate view of this dialog box, with additional information displayed for illustrative purpose.
Step 2 Select one or more MAC addresses for which you want to see a list of saved traces and click Start. The Trace Window Playback List dialog box appears, as shown in Figure 4-11.
Step 3 From the list of saved traces, select the one you want to play back and click Show. The Trace Window for the saved trace, as shown in Figure 4-1, appears.
Note To remove a saved Trace Window from the database, from the Utilities menu, choose Purge Saved Data, Spectrum Data.
Step 4 For a complete description of each field in these dialog boxes, click Help.
Figure 4-9 Trace Window Playback Criteria Dialog Box
Figure 4-10 Trace Window Playback Criteria Dialog Box, Alternate View
Figure 4-11 Trace Window Playback List Dialog Box
Playing Back CNR Analysis
To play back CNR analysis:
Step 1 From the Spectrum Tools menu, choose Data Playback > CNR Analysis. The CNR Analysis Playback Criteria dialog box appears, as shown in Figure 4-12.
Step 2 To select one or more MAC addresses for which you want to see a saved CNR Analysis, click Start. The CNR Analysis Playback Result dialog box appears, as shown in Figure 4-13.
Note To remove a saved CNR Analysis from the database, from the Utilities menu, choose Purge Saved Data, Spectrum Data.
Step 3 For a complete description of each field in these dialog boxes, click Help.
Figure 4-12 CNR Analysis Playback Criteria Dialog Box
Figure 4-13 CNR Analysis Playback Result Dialog Box
Playing Back CNR Trending Data
To play back CNR trending data:
Step 1 From the Spectrum Tools menu, choose Data Playback > CNR Trending. The CNR Trending Playback Criteria dialog box appears, as shown in Figure 4-14.
Step 2 Select the MAC addresses for which you want to see the saved CNR trending data and then click Add.
Step 3 Click Start to view the CNR Trending Playback result dialog box. (See Figure 4-15.)
Step 4 Click Print to create a printer-friendly version of the chart and print it at your local printer.
Step 5 For a complete description of each field in these dialog boxes, click Help.
Figure 4-14 CNR Trending Playback Criteria Dialog Box
Figure 4-15 CNR Trending Playback Result Dialog Box
Displaying Polling Status
To get a list of each spectrum analysis in process on a client machine and to view the details of the scheduled spectrum polling events, use the Polling Status tool.
Real Time Polling Status
To see a list of clients currently using CBT's spectrum management tools:
Step 1 From the Spectrum Tools menu, choose Polling Status > Real Time. The Spectrum Data Clients dialog box appears, as shown in Figure 4-16.
Step 2 Perform one of the following:
1. Refresh - Refreshes the screen.
2. Launch Trace Window - Launches the trace window.
3. Launch Spectrogram - Launches the spectrogram.
4. Generate HTML - Generates the HTML file that can be printed and saved.
Step 3 For a complete description of each field in these dialog boxes, click Help.
Figure 4-16 Spectrum Data Clients Dialog Box
Scheduled Polling Status
To view the details of the scheduled spectrum polling events:
Step 1 From the Spectrum Tools menu, choose Polling Status > Scheduled. The Spectrum Event Status dialog box appears, as shown in Figure 4-17.
Step 2 Perform one of the following:
1. Refresh - Polls the database for the latest events.
2. Details - Displays a pop-up window with the details for the scheduled collection.
3. Stop - Cancels the scheduled collection.
4. Remove - Cancels the scheduled collection.
5. Show - Displays the data collection.
6. Play - Shows the actual trace.
7. Generate HTML - Generates the HTML file that can be printed and saved.
Step 3 For a complete description of each field in these dialog boxes, click Help.
Figure 4-17 Spectrum Event Status Dialog Box
Enabling Instantaneous CPU Assessment for Spectrum Polling
CBT 3.4 enables the option of preventing excessive CPU consumption, in circumstances in which the Trace Window, Spectrogram functions, or Scheduled Polling features might otherwise exceed CPU bandwidth.
CBT has provisions to instantaneously check the CPU utilization and prevents the spectrum operation if the CPU utilization exceeds the CPU thresholds (value of SpecDataMaxCPU parameter).
Perform these steps to enable or disable CPU assessment in the Trace Window Criteria dialog box, the Spectrogram Criteria dialog box, or the Spectrum Data Scheduler dialog box before launching the spectrum event.
Step 1 Launch CBT 3.4.
Step 2 Log in to CBT as admin.
Step 3 Launch the desired window in which to configure this change.
•For Trace Window changes, from the Spectrum Tools menu, choose Trace Window. The Trace Window Criteria dialog box appears. Proceed to the next step.
•For Spectrogram changes, from the Spectrum Tools menu, choose Spectrogram. The Spectrogram Criteria dialog box appears. Proceed to the next step.
Step 4 Select the checkbox Check CPU Util. This setting defines the number of sweeps for every CPU utilization check. Only when the check box is selected is the text box enabled to enter the number of spectrum sweeps that should be done for every CPU utilization check. If periodic check of CPU utilization is not necessary, then deselect this option and proceed. If not selected, the CPU utilization is checked only once before the launch of the spectrum operation. Refer to Figure 4-18.
Figure 4-18
Check CPU Util Dialog Box
Step 5 When the Check CPU Util check box is selected, enter the number of sweeps in which CPU utilization should be checked. The default value is 10.
This setting means that the CPU utilization is checked and compared with the SpecDataMaxCPU parameter. Upon positive results, the spectrum operation gets started. The spectrum data is collected continuously with the specified poll interval.
One sweep corresponds to a single polling of spectrum data. After 10 such polling events, CBT again checks the CPU Utilization and compares it with the SpecDataMaxCPU parameter. If the results are positive, the spectrum operation continues; otherwise, the continuous query is stopped. If the number of sweeps is 1, then the CPU utilization is checked before every polling of spectrum data.
Step 6 Continue with the launch of the spectrum operation.