Traditional FPGA debugging solution and EXOSTIV Probe hardware debugger
I believe that every electronic engineer will inevitably debug the solution in the process of project development. In addition to the simulation debugging, we must also perform real machine debugging to ensure the normal function. Generally, we use two debugging methods: first The second is to use the hardware logic analyzer, the second is to use the embedded logic to analyze the IP, and the IDE is debugged through the JTAG connection. However, as the FPGA design becomes more and more complex and faster, the two solutions become more and more Struggling, the logic analyzer will take up too much FPGA I/O interface, and the embedded logic analysis IP will consume valuable FPGA logic resources, so Exostiv Labs has introduced a new debugging tool EXOSTIV Probe.
Figure 1: Traditional FPGA Debugging Solution: Hardware Logic Analyzer and Embedded Logic Analysis IP
EXOSTIV Probe is superior to traditional solutions in all aspects. It supports all Xilinx All Programmable series, using high-speed SerDes interface for data acquisition and communication, EXOSTIV Probe can capture up to 32768 internal signal nodes, and EXOSTIV IP provides dynamic multiplexing. Control function, able to dynamically acquire more data sets without recompiling.
Figure 2: EXOSTIV Probe Hardware Debugger
EXOSTIV Probe provides 8GB of storage for storing data collected from the FPGA. The high-speed USB 3.0 interface is used to communicate between the EXOSTIV application host computer and EXOSTIV. It integrates four SFP/SFP+ transceiver interfaces, each interface. The speed can reach 6.6Gbps. In addition, the EXOSTIV Dashboard is composed of Core Inserter and Analyzer. The Core Inserter can dynamically configure the EXOSTIV IP. The Analyzer realizes the management of the collected data, display analysis and export. The MYRIAD waveform display plug-in supports the display of TB-level waveform data.
EXOSTIV Pobe combined with Xilinx Virtex UltraScale VCU108 development board, we see that many emerging industries, such as cloud computing, 5G communication, artificial intelligence (AI), machine learning, autopilot, etc., require powerful computing power to support More and more FPGA applications, these designs are not only complex, take up more logic resources, but also increase the signal speed exponentially. The emergence of EXOSTIV Probe provides more powerful signal visualization capabilities, no doubt convenient for electronics. The commissioning work of the engineers will deliver the FPGA design solution faster.
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