Search results for "la-2727"
Analyze Intel® SoC designs with both the x86 and other Instruction Sets, from a single core Intel® Quark™ to multicore Core™ or Xeon™ application processors.
Converter from Intel MIPI60-Cv2 to MIPI34 pin-out on target Converts termination scheme Intel (50 Ohm parallel termination at receiver) to termination scheme ARM (50 Ohm series termination at sender) Support for JTAG/SWD Maps Intel specific debug signals to MIPI34 pins. Default mapping: Intel PREQ -> DBGREQ (pin 18 on MIPI34) Intel PRDY -> DBGACK (pin 20 on MIPI34) Intel HOOK6 (PMODE) -> RTCK (pin 12 on MIPI34) Intel HOOK0 (PowerGood) -> BCE (pin 14 on MIPI34) Intel HOOK7 (ResetOut) -> RESET (pin 10 on MIPI34) TVREF (trace reference voltage) == DVREF (debug reference voltage) For other possible options, please contact Lauterbach.
We provide a complete suite of tools for all Arm®-based microprocessors. All of these allow you to get the best out of your Arm® based embedded design.
MIPS - Lauterbach TRACE32 Debugger and Trace Solutions
Mico32 - Lauterbach TRACE32 Debugger and Trace Solutions
The IDC20A Debug Probe provides maximum flexibility. It is featuring the most common pin-out in the embedded market with a wide input voltage range.
TriCore has become the de-facto processor for modern automotive systems. We offer a number of debug and trace solutions for all TriCore devices.
A variety of specialized debug probes dedicated to specific target platforms have in common that they ensure your best possible debugging experience.
PowerTrace Serial trace modules cover all high-speed serial trace ports up to the highest lane count and fastest bit rate available in the embedded industry.
i8051 - Lauterbach TRACE32 Debugger and Trace Solutions