Synopsys extends HAPS debug visibility by 100X in FPGA-based prototypes

Synopsys extends HAPS debug visibility by 100X in FPGA-based prototypes

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Synopsys has released a new Deep Trace Debug feature for users of its HAPS FPGA based prototyping systems. With HAPS Deep Trace Debug, prototypers can take advantage of approximately 100 times more signal storage capacity than the traditional memory storage employed by on chip FPGA logic debuggers.
By eeNews Europe


The new Deep Trace Debug feature enhances both capacity and fault isolation capabilities while freeing up the on chip FPGA memory required for validating complex system on chip (SoC) designs. “The Qualcomm Atheros’ Wi-Fi/Bluetooth combo products use leading edge Wi-Fi standards to achieve gigabit per second throughput, requiring advanced hardware software validation techniques like those available in Synopsys’ HAPS systems,” said Manoj Unnikrishnan, director of engineering at Qualcomm Atheros. “Our traditional approach required multiple runs with a lot of trial and error. The high capacity sample storage available with HAPS Deep Trace Debug allows us to quickly identify bugs and speed full system validation. In addition, HAPS Deep Trace Debug will help us improve state machine coverage, prototyping coverage, and test pattern generation.”

Confirming correct functionality of high speed interface designs often requires sampling at dozens of frequencies for several milliseconds at a time. Traditionally, designers have had to make a choice between capturing long signal trace histories that consume extensive FPGA memory resources or saving FPGA memory resources but losing detailed visibility into signal trace history. By pairing the Synopsys Identify Intelligent Integrated Circuit Emulator (IICE) with a HAPS Deep Trace Debug SRAM daughter board, HAPS Deep Trace Debug allows many unique signal probes with complex triggers to be recorded and provides deeper memory to store extensive state history as the system executes. The SRAM daughter board also frees up the FPGA’s on chip RAM for prototyping an SoC design’s memory blocks.

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