Solid Edge Synchronous Best Direct
Fast, intuitive, and excellent for rapid prototyping or working with imported data.
Siemens continues to refine and expand Synchronous Technology with each release. Solid Edge 2025 brings several key enhancements that make the workflow even more "best-in-class."
: Synchronous Technology facilitates better collaboration among team members. Since designs can be modified and updated quickly, teams can work more cohesively, exploring and settling on a design faster.
While Synchronous Technology is a unique feature of Solid Edge, it can be used in conjunction with other CAD systems, making it a great choice for collaborative design environments.
This article is your roadmap to extracting the out of Solid Edge Synchronous Technology. solid edge synchronous best
[Imported Non-Native File] │ ▼ [Traditional CAD] ──► No history tree; editing requires tedious remodeling. │ ▼ [Solid Edge Synchronous] ──► Recognizes design intent instantly; edits like native data. History-Free Editing
: Master the Solid Edge Live Rules window. This tool manages geometric relationships (like tangency and symmetry) on the fly as you move parts. Getting Started
that lack a feature history, allowing you to edit geometry directly. Simultaneous Updates
With Solid Edge, dimensions are applied directly to the 3D geometry rather than the underlying 2D sketch. These 3D driving dimensions can be locked or unlocked at any time. If you need to change a part width, you simply click the dimension on the 3D model, type a new value, and the geometry updates instantly. You can also change the direction of the edit on the fly, deciding whether the left side, right side, or both sides move to accommodate the new dimension. 4. Unrivalled Multi-CAD and Imported Data Editing Fast, intuitive, and excellent for rapid prototyping or
In traditional CAD, if you want to move a hole at the end of a design process, you have to hope the "parent" features don't break when the model regenerates. Synchronous Technology eliminates this "feature-tree" anxiety.
Highly complex, stylized consumer products requiring organic, lofts, and advanced surface styling.
While other CAD systems rely heavily on add-ons or cumbersome workarounds for direct editing, Siemens built Synchronous Technology into the foundational architecture of Solid Edge.
What in your current design process are you hoping to solve? Since designs can be modified and updated quickly,
Do you regularly receive models from customers using different CAD systems? This is where Synchronous Technology truly shines. It allows you to edit imported models (STEP, IGES, JT) exactly the same way you would a native file, without needing any feature history. In fact, it is often to edit outsourced CAD data in Solid Edge than it is in the original system that created it. This capability is a game-changer for supply chain collaboration.
Before diving into techniques, it is critical to understand why Siemens' approach is widely considered the best solution on the market. Traditional History-Based (Ordered) modeling is like a recipe: you perform steps in sequence, and the model is a sum of its history. If you want to change the first step, you often have to fix or rebuild the entire meal. Direct Modeling gives you a block of clay: you can push and pull geometry instantly, but maintaining precise design intent can be challenging.
Supply chains are complex, and engineers often have to work with data from different CAD systems (SolidWorks, Inventor, CATIA, etc.). History-based systems struggle with imported data because they lack the "recipe" (history tree) of the original model. Synchronous Technology excels here. It treats imported geometry as native, allowing engineers to modify STEP or Parasolid files immediately upon import. This capability alone makes Solid Edge the best choice for companies working in multi-CAD environments.
One of the biggest pain points in parametric CAD is "model failure." A change to an early feature can break the entire chain of subsequent features. Because Synchronous Technology is history-independent, it eliminates the fragility of complex feature trees. Designers can make drastic changes to a model's size or shape without fearing that the model will collapse or fail to regenerate.