Making minute adjustments to molds and tooling components can be done directly on native or imported geometry, drastically reducing lead times.
Synchronous Technology treats imported data exactly like native data. Because it recognizes geometric relationships (like tangency and concentricity) instantly, you can modify a supplier's part as easily as if you had built it yourself. This makes Solid Edge the ultimate tool for companies operating in a multi-CAD ecosystem. Design Iteration at the Speed of Thought
While both modes coexist in Solid Edge, they serve different primary purposes: Synchronous Mode Ordered Mode History-free; focuses on current geometry History-based; sequential steps Push/pull geometry directly via "Steering Wheel" Edit sketches or feature definitions in the tree Data Handling Treats imported Multi-CAD data like native files Requires full feature reconstruction for imported data Fast concepting, late-stage changes, and imported data Complex free-form surfacing and rigid procedural designs ROI of Solid Edge with Synchronous Technology solid edge synchronous best
Click the center knob to move the wheel to a specific edge or vertex.
The Master Guide to Solid Edge Synchronous Technology: Why It’s the Best for Modern CAD Making minute adjustments to molds and tooling components
Software workflow is useless if the machine lags. Solid Edge Synchronous relies on the , which is multi-threaded but math-heavy.
mode. However, for 80% of design work, Synchronous is faster for rapid iterations. Steep Learning Curve: This makes Solid Edge the ultimate tool for
Edit models up to 100x faster by skipping the "regenerate" wait times.
If you want a specific thickness or distance to remain permanent during surrounding edits, lock the PMI dimension. Unlocked dimensions will change if prompted by Live Rules. 7. Conclusion