Analyze hardware simulation VCD and GTKWave files for signals, buses, and groups.
Copy the install command and let the AI configure it · recommended for beginners
No copy-paste install info for "mcp-vcd" yet — see the docs or source repo.
Analyze this VCD waveform file, find why data_valid stays 0 within 200ns after rst_n is released, and list the timing changes of related signals.
Returns the key related signals, relevant timestamps, and a likely timing-based explanation for the anomaly.
Read this GTKWave save file and its VCD, then list the bus signals under cpu_top, their bit widths, and organize them by module groups.
Provides bus names, bit widths, hierarchical paths, and grouping structure for easier design inspection.
Based on this simulation waveform, summarize one AXI write transaction, including the ordering of awvalid, awready, wvalid, wready, bvalid, and bready.
Produces a timing summary of one transaction, describing handshake signal order and active intervals.
Control logic analyzers with AI to capture, decode, and export digital traces.
Control Vivado via MCP for FPGA development, debugging, and automated diagnostics.
Enable MCP-compatible models to control desktop apps over VNC remotely.
Analyze videos with frame extraction, scene detection, and metadata retrieval.
Generate precise unified diffs with move detection using VS Code's advanced algorithm.
Let AI assistants operate Vivado for FPGA development tasks directly.