3 Once you have acquired some measurement data, it's time to have a look and see what
4 insights you can gain from it. Usually, the first step is to look at the data as a
5 whole, achieved by clicking the _Zoom to Fit_ button:
7 image::pv_analysis.png[]
10 <2> Zoom in/zoom out buttons
12 <4> Time scale (used to set up and show markers, see below)
14 If you have located an area of interest (maybe with the help of decoders, more about
15 that later), you can zoom in on it using the _zoom in_/_zoom out_ buttons, using the
16 scroll wheel of your mouse or the pinch/expand gestures on your touch panel.
19 When a data capture is ongoing, the Zoom-to-Fit button stays active if you click it,
20 meaning that PulseView automatically fits all data to the views until either the
21 capture is finished or the Zoom-to-Fit button is clicked again.
22 If you want this feature but don't want to always have to click the button, you
23 can enable the "Always Zoom-to-Fit" option in the settings.
25 === Cursors and Markers
27 Just looking at the signal data however is usually not sufficient. A lot of times,
28 you'll want to make sure that timings are honored and the bit times are like what
29 you'd expect. To do so, you'll want to use cursors and markers.
31 In the picture above, you can enable the cursor by clicking on the cursor button.
32 You can move both of its boundaries around by clicking on the blue flags in the
33 time scale area. The area between the two boundary lines shows the time distance
34 and its inverse (i.e. the frequency). If you can't see it, just zoom in until it
35 shows. You can also move both boundaries at the same time by dragging the label
36 where this information is shown.
38 image::pv_cursors_markers.png[]
40 <1> Cursors button, showing enabled state
44 Markers are movable indicators that you can create wherever you like on the
45 time scale - just double-click on it and it'll create one for you where your
46 mouse cursor is at the time, or use the context menu when right-clicking on
47 the ruler or a signal trace.
48 You can click on its label and you'll have the option to change its name, or
49 drag it to reposition it.
52 For timing comparison purposes, you can also enable a vertical marker line that
53 follows your mouse cursor: _Settings_ -> _Views_ -> _Highlight mouse cursor_
56 There is also a special kind of marker that appears for each time the data
57 acquisition device has triggered. It cannot be moved and appears as a vertical
60 === Special-Purpose Decoders
62 There are some decoders available that analyze the data instead of decoding it.
63 You can make use of them to examine various properties of the signals that are
68 * Counter - counts pulses and/or groups of pulses (i.e. words)
69 * Guess bitrate - guesses the bitrate when using a serial protocol
70 * Jitter - determines the jitter (variance) of a signal
71 * Timing - shows the time passing between the chosen signal edges
75 Trace Views also allow you to maximize the viewing area by minimizing the area
76 occupied by the label area on the left. To do this, simply position the mouse
77 cursor at the right edge of the label area (or left edge of the viewing area).
78 Your mouse cursor will change shape and you now can drag the border.
80 This way, you can give signals long, expressive names without clogging up the
83 Also, you can create multiple views by clicking on the "New View" button on
84 the very left of the toolbar. Those can be rearranged as you wish.