PLS_Live - Presentations and Demos at embedded world 2021 DIGITAL
PLS_Live is our complementary event to our presence at the embedded world 2021 DIGITAL. In live presentations and demos we covered all aspects of debugging, trace and test with UDE.
The recordings are now available.
Recorded Presentations and Demos
Universal Debug Engine UDE at a glance. This presentation will give a general introduction into the PLS tool for debugging, tracing and testing of microcontrollers and multicore SoCs.
Learn all about multicore debugging for Infineon AURIX. Discover synchronized debugging of cores, multicore breakpoints and more.
Discover multicore debugging for Arm Cortex-A53 and Cortex-R52 SoCs. Learn all about UDE's multicore features with examples using NXP S32 Automotive Platform (S32G, S32S) and ST Stellar.
Learn how to automate your daily tasks with UDE's powerful scripting capabilities. Use your favorite scripting languages along with UDE's flexible and powerful software API. Using real live examples, we will demonstrate how to control the target system, obtain the target state and finally manipulate it - all for automated testing.
This presentation gives you a general overview of the trace features of UDE. You will learn how to use trace for debugging, e.g. to investigate the misbehavior of an application, and how to use trace to analyze the runtime behavior of your multicore application.
The software architecture of embedded systems is often based on a real-time operating system (RTOS). Its objects and functions provide a higher level of abstraction for the program code. To take full advantage of this, the debugging tool should also know and visualize the objects and states of the RTOS. This presentation shows how the Universal Debug Engine fulfills this important requirement.
You need to prove the quality of your test cases? Discover UDE's trace-based code coverage capabilities. We show you how to measure the code coverage without any code instrumentation and without affecting the runtime behavior of your application.
In this presentation you will learn all about the UDE's extensive options for visualizing target variables.