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Extensions and Configuration |
Thanks to the modularity concept of Lauterbach, the tools are designed around base modules which are universal and architecture-independent. PowerTrace PX as a trace module will then be connected to the target via architecture-specific Preprocessors. In order to obtaining the connection to the host PowerTrace PX is supposed to be extended with the PowerDebug PRO. The following picture shows the extensions of PowerTrace PX and configuration examples.
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Supported Trace Ports |
Select your trace port to get an overview of all the TRACE32 features available for it:
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Extensions |
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- Support for over 80 microprocessor architectures, e.g. ARM, Cortex, Power Architecture, Intel x86/x64, etc.
- Universal debug module, connect to target via architecture-dependent debug cables
- USB3.0 or Gigabit Ethernet Interface to all hosts
- PODBUS and PODBUS Express interfaces to Logic Analyzer modules, e.g. PowerProbe, PowerIntegrator
- PODBUS Express interface to trace modules, e.g. PowerTrace PX, PowerTrace II and PowerTrace Serial for fast upload of trace data
- Trigger connector to send and receive trigger pulses
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- Timing Analyzer up to 400 MHz
- State Analyzer up to 100 MHz
- 64 Input Channels
- Transient Recording
- Time Correlation with RISC Trace
- Clock Qualifier for State Clock
- Mixed State and Timing Mode
- 4 State Clock Inputs
- Optional FPGA Onchip Trace
- Optional Pattern Generator
- Protocol Support for CAN, USB, etc.
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- Timing Analyzer with 500 MHz on all Channels
- State Analyzer up to 200 MHz DDR
- 204 Input Channels
- Transient Recording
- Time Correlation with other Tracetools
- Clock Qualifier for State Clock
- Mixed State and Timing Mode
- 4 Clock Inputs
- MICTOR and Standard Probes (single ended)
- MICTOR differential Probes
- Analog Voltage and Current Probe
- 3G/DigRF Protocol Support
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Extensions and Configuration
