PTC Creo Tolerance Analysis Extension (TAE), is an extension to PTC Creo Parametric. With PTC Creo Tolerance Analysis Extensionyou can evaluate the impact of tolerances and dimensioning on product designs before the product reaches either prototyping or manufacturing.
PTC Creo Tolerance Analysis Extensionprovides two analysis tools: worst-case analysis and statistical analysis. Worst-case analysis, often used for critical components, considers what happens when each of the components in the stack-up reaches the maximum acceptable measurement. In statistical analysis each component's variation is modeled as a statistical distribution. These distributions then are added together to predict the distribution of the assembly measurement.
Using these tools, designers can produce products that meet customer requirements within acceptable margins. The result: shorter product development cycles, lower product cost, and higher product quality.
Evaluate the impact of tolerances on the manufacturability of designs
Enable concurrent engineering to ensure designs meet manufacturing requirements
Six Sigma design methodologies to ensure design quality
Streamline design processes, improve productivity, and reduce time-to-market
Capabilities and specifications
Integrated graphical user interface is easy to learn and use
1D tolerance loops
Automatic validation of dimensions and dimension loop
Interactive visualization of the tolerance loop
Profile and position GTOLS supported
Tolerance analyses can be saved as a feature in PTC Creo
Part of assembly-level management of tolerance analyses
Quickly edit analysis inputs by deleting or substituting components and dimensions
Contribution and sensitivity analysis
Configurable biasing of pin/hole joints
Worse-case and statistical analysis
Reference driving as well as annotation dimensions
Placeholder components enable simulation of dimension properties that are not accounted for in the CAD model
Automatically closes gaps in the model
Contribution and sensitivity output plots
Automatically generated HTML results report
View worst case and statistical distributions
Mean and standard deviation
Dynamic display of results within the Tolerance Analysis Feature
Results such as sigma defects per million units (DPMU) and % yield can be saved as parameters in the Tolerance Analysis feature
In order to work properly, your copy ofPTC Creo Tolerance Analysis1-Year Subscriptionrequires:
Download and test PTC Creo before you make your purchasing decision.
Recommended System Specification
Manufacturer's system requirements are generally the bare minimum that you need to run the software and insufficient for effective and productive operation of the product.
Our suggested "real world" mid-range desktop system key specifications to properly runCreoare as follows:
CPU: Intel Core i7
Graphics Card: NVIDIA QUADRO RTX4000
Hard Drive: 1TB NVMe
Operating System: Windows 10 Pro
Novedge, in partnership withHigh Speed Computing, can also provide the perfect hardware for your design needs,pre-installed with your software, at a very competitive price. Contact us to discuss custom-configured workstations and laptops.