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Because features do not rely on a sequential timeline, modifying a bracket at the bottom of your assembly will not cause unrelated components to recalculate. This keeps your software responsive and eliminates lag. 4. Unmatched Design Intent Control via Live Rules solid edge synchronous best
Apply 3D driving dimensions directly to the model faces. Lock them to ensure vital clearances or thicknesses never change during global modifications. Related search suggestions follow
If you are moving a face on a part with thousands of faces, turn off "All Live Rules" temporarily to eliminate the calculation lag during the drag. Turn it back on once the rough positioning is complete. If you are moving a face on a
In a synchronous environment, features are independent. You can edit a base feature without recalculating or breaking subsequent cuts, holes, or blends. This eliminates regeneration delays and frees engineers from the mental overhead of planning the "perfect" feature history before they even start sketching. 2. Live Rules: Automated Design Intent
In conclusion, Solid Edge Synchronous Technology provides a superior design experience by prioritizing flexibility and speed. It liberates engineers from the administrative burden of managing a feature history tree, allowing them to focus on innovation rather than software logic. Whether dealing with native designs or imported geometry, the ability to make rapid, reliable changes makes Synchronous Technology an essential tool for modern manufacturing excellence.
The 2026 iteration pushes synchronous technology further into the realm of intelligent automation.