It acknowledges that not all features are created equal. Base geometry often benefits from the speed of Synchronous, while critical interfaces (holes, patterns, tolerances) benefit from the control of Ordered. You get to decide per feature which methodology wins.
Use the outer ring to rotate the tool, aligning the primary axis with your intended direction of push, pull, or rotation.
One of the most touted—and proven—benefits of Solid Edge with Synchronous Technology is its incredible speed. Because there is no feature tree to rebuild after every edit, changes are nearly instantaneous. Whether you're performing simple modifications or complex Engineering Change Orders (ECOs), tasks that once took minutes or hours can now be completed in seconds. Siemens reports that users can experience up to a 100x faster design workflow when leveraging synchronous capabilities.
In the fast-paced world of engineering and product development, speed, flexibility, and adaptability are crucial. Traditional history-based 3D modeling often imposes rigid constraints, making late-stage design changes time-consuming and frustrating. Siemens Digital Industries Software addressed this directly with , a unique modeling approach that combines the speed and simplicity of direct modeling with the control of feature-based modeling. solid edge synchronous best
Place the Live Rules panel in a prominent location on your screen. It provides real-time feedback on which geometric relationships are currently active. 3. Best Practices for Creating Geometry
: Live Rules act as automatic face relations, allowing for intelligent updates when geometry is moved. A recommended approach is starting with dimensions, then applying face relations, and finally utilizing Live Rules. Assembly Level Edits
Keep in mind that while powerful, Synchronous can be tricky for beginners coming from traditional CAD like SolidWorks or Inventor because it breaks the "history tree" habit. It acknowledges that not all features are created equal
Open an assembly. Insert a new part. Instead of sketching on a plane, right-click a face on the adjacent part and select .
You can modify imported data as easily as if you had created it natively in Solid Edge. 3. "Live Rules" Engine The true magic of Synchronous Technology lies in Live Rules
Creating synchronous models requires a slight shift in mindset from traditional sketching. Use the outer ring to rotate the tool,
One of the most critical adjustments from traditional CAD is how you use dimensions. In Ordered modeling, the best practice is to lock down all geometry. In Synchronous Technology, you should . The rest of your dimensions should remain flexible. Why? Because when you make a design change, you want the non-critical dimensions to adjust automatically to accommodate the new shape. If everything is locked, you lose the fluid, "flexible design" capability. Use PMI (Product Manufacturing Information) dimensions for important features you want to monitor, without necessarily locking them in place.
When you use Synchronous Technology, the software analyzes the model and identifies the relationships between different features. This information is then used to automatically update the model when changes are made. This approach enables users to work more efficiently and makes it easier to collaborate with others.
Furthermore, Synchronous Technology excels in multi-CAD environments. Engineers frequently receive files from suppliers or partners created in different software like SOLIDWORKS or Inventor. Traditionally, these "dumb" files were difficult to edit because they lacked a feature history. Solid Edge treats imported geometry as if it were native. Because it recognizes geometric relationships on the fly, designers can modify imported parts with the same ease as those created from scratch. This interoperability reduces the need for time-consuming re-modeling and streamlines the global supply chain.
: Edits are nearly instant and do not scale in complexity with the size of the model. Assembly Performance
The power of Synchronous Technology extends seamlessly into sheet metal design. With ST for sheet metal, you can achieve faster modeling with less preplanning. The intuitive "grab-n-go" tools allow you to dynamically modify flanges, tabs, and cutouts without being bound by a rigid feature history, drastically reducing the time needed to iterate on complex sheet metal parts.