Visible to Intel only — GUID: mwh1410384680121
Ixiasoft
Visible to Intel only — GUID: mwh1410384680121
Ixiasoft
5.4.5.2. State-Based Triggering
Custom state-based triggering grants control over triggering condition arrangement. Because the Logic Analyzer only captures samples of interest, custom state-based triggering allows for more efficient use of the space available in the acquisition buffer.
To help you describe the relationship between triggering conditions, the state-based triggering flow provides tooltips within the flow GUI. Additionally, you can use the Signal Tap Trigger Flow Description Language, which is based upon conditional expressions.
Each state allows you to define a set of conditional expressions. Conditional expressions are Boolean expressions that depend on a combination of triggering conditions, counters, and status flags. You configure the triggering conditions within the Setup tab. The Signal Tap Logic Analyzer custom-based triggering flow provides counters and status flags.
Within each conditional expression you define a set of actions. Actions include triggering the acquisition buffer to stop capture, a modification to either a counter or status flag, or a state transition.
Trigger actions can apply to either a single segment of a segmented acquisition buffer or to the entire non-segmented acquisition buffer. Each trigger action provides an optional count that specifies the number of samples the buffer captures before the logic analyzer stops acquisition of the current segment. The count argument allows you to control the amount of data the buffer captures before and after a triggering event occurs.
Resource manipulation actions allow you to increment and decrement counters or set and clear status flags. The logic analyzer uses counter and status flag resources as optional inputs in conditional expressions. Counters and status flags are useful for counting the number of occurrences of certain events and for aiding in triggering flow control.
The state-based triggering flow allows you to capture a sequence of events that may not necessarily be contiguous in time. For example, a communication transaction between two devices that includes a hand shaking protocol containing a sequence of acknowledgments.