In today’s world, it’s not uncommon for companies to be rich in data but poor in insights. Despite having access to a wealth of information, organizations struggle to properly analyze performance and drive transformational improvements. This is where ThingWorx Digital Performance Management (DPM) steps in to bridge the gap.
This week in your factory, you’ve applied maximum effort, pouring countless hours into perfecting your product. As the work week ends, a feeling of slight disappointment remains.
Could you have accomplished more? Where did it go awry? You may not be able to find the answers on your own, leaving your factory inefficient and operating below its full potential.
If this is you, look no further. With the capabilities of Thingworx Digital Performance Management, you will unleash an untapped potential of data and boost your manufacturing processes.
What is Digital Performance Management?
ThingWorx Digital Performance Management (DPM) is a cutting-edge solution designed to help organizations identify, prioritize, and improve production issues.
By capturing lost production hours and their causes, DPM indicates where to focus for the most critical impact. Also, it optimizes the finite time available, allowing organizations to reclaim lost hours and increase effective time by 20% or more. Thus, directly impacting the bottom line.
How Does DPM Work?
Consider a manufacturing facility that can produce one unit per hour. In a week with 88 hours worked, the facility manages to manufacture only 44 units. Let’s say 12 hours are lost through planned downtime and 14 hours are lost due to changeovers.
That leaves about 18 hours unaccounted for. Where did those come from? With ThingWorx DPM, you can quickly identify issues, and why they happened, and then take appropriate actions to fix them.
Moreover, DPM calculates and analyzes discrepancies, providing valuable insights to improve productivity. DPM is a comprehensive toolset that propels organizations towards peak performance by tracking performance, conducting in-depth analysis, planning, and validating improvements.
The Production Dashboard
One feature included with DPM is the Production Dashboard. The visual dashboard is a crucial tool for supervising shift performance and gathering vital data to inform reporting and analysis. It is designed for supervisors and line managers to track productivity across various production lines.
Some key features of the Production Dashboard include:
Provides insights into shift progress at the production block level
Allows for automated and manual data entry, including reason codes to capture all losses
And offers a simplified interface to minimize disruption
The Bottleneck Analysis tool is designed to automatically detect and monitor the most significant bottlenecks in your factory, providing valuable analysis and insights into OEE and OLE.
One of the challenges that customers face is a lack of visibility into bottlenecks, which leads to a disconnect between continuous improvement efforts and their impact on the business. However, bottlenecks are often dynamic and complex.
To address these challenges, DPM offers key capabilities to help identify and resolve:
Automatically identifying and tracking bottlenecks.
Systematic identification of the top constraints, which can significantly increase factory efficiency by 5-20%.
Management of the dynamic nature of competing bottlenecks.
Overall, DPM works relentlessly, making up for lost time by tracing the root cause of issues and providing precise remedies to ensure smooth and efficient functionality. Consider DPM an invaluable employee, working tirelessly around the clock without additional overtime costs!
Accelerate Problem Solving with DPM
DPM’s capabilities extend beyond surface-level analysis. By combining Pareto analysis and time loss analytics, DPM users can uncover and address a significant percentage of production problems.
For instance, a DPM user noticed quality losses between 3 p.m. and 4 p.m. Thanks to DPM’s automated analysis, the manufacturing team quickly determined that the issue was caused by a glare from the sunset, making the inspection camera unreliable.
All in all, DPM helped accelerate the problem-solving process saving valuable time and resources.
Reap the Benefits
Digital Performance Management is as remarkable as it sounds. DPM holds the secret to your production improvements and is ready to share them with you. Discover the plethora of benefits that are tied to DPM:
Standardized Measurement: DPM provides a consistent and standardized approach to measure losses, ensuring accurate evaluation of bottlenecks, and their impact on performance.
Efficient Root Cause Analysis: Leveraging AI technology, DPM identifies the root causes of bottlenecks and facilitates their permanent resolution, eliminating recurring issues.
Automated Problem Identification: DPM’s powerful AI algorithms automate the process of surfacing common issues, exponentially reducing the time spent on problem-solving.
Real-time Insights: What once took months to identify critical insights now becomes easily accessible through DPM’s intuitive interface, providing teams with immediate access to actionable insights.
Get Started with DPM Today!
In conclusion, if you want to revolutionize your performance management and take your organization to new heights, it’s time to embrace Digital Performance Management.
Remember, in today’s fast-paced world, those who leverage technology to gain insights and make data-driven decisions are the ones who thrive.
Are you ready to unlock the true potential of your organization with Digital Performance Management? Talk with an expert now to take your first steps toward success.
What’s New in Creo 10
Discover Creo 10’s newest improvements and enhancements.
User Interface Enhancements
PTC has made a big splash with the release of Creo 10, including an enhanced user interface.
Split & Trim Tool
Use this tool to quickly and easily split or trim a model, making it painless to work with and modify your model. Additionally, the ability to propagate appearances and references during Boolean operations makes it easier to maintain consistency throughout a project.
Stretch Tool in Warp
Utilize the Stretch Tool to select defined references to stretch models, making it easier to create complex shapes and designs. Users now have the ability to select Datum Planes, Points, Axis, Coordinate Systems, Surfaces, Curves, Facets, and more.
Freestyle and Style Tools
Both tools are enhanced with Rotational Symmetry and Smooth Normal Connection, making it easier to create organic shapes and designs. These tools are perfect for designers who want to create complex, freeform shapes that are difficult to create with traditional CAD tools.
The Model Tree
Creo’s Model Tree tool has been improved, making it easier to restructure and reorder assemblies to reduce confusion and improve the management of complex projects.
New Pattern Parameters
Finally, the pattern capability in Creo 10 enables users to drive pattern member count for nested patterns. Create complex patterns quickly and easily, saving you time and improving overall productivity.
Optimize Your Design
Take your design process to the next level with Creo 10’s newest additions.
Designing composite materials has never been easier with the new features in Creo. The software now offers a broad set of functionalities for defining ply layup, ply sections, transitions, and ply order. This allows you to create a resulting solid geometry and inner mold line (IML) quilt that meets your exact specifications.
In addition, Creo’s new Splicing and Darting operations, makes it easier to create complex composite designs. Once a design is complete, you can automatically generate a complete plybook documentation of the final layup sequence.
With new composite design features in Creo 10, you can easily create high-quality composite materials that meet your needs and specifications. Whether you’re designing for aerospace, automotive, or any other industry, Creo’s composite design tools can help you create the perfect product.
Creo 10 presents new features that streamline and enhance the process of designing for electrification.
Split/Merge Harness Tool for Cabling
One of the most significant additions is the Split/Merge Harness Tool for Cabling. This tool allows users to split a harness into two separate pieces and later merge them back together. This feature is particularly useful when working on complex designs that require multiple harnesses.
Simultaneous Harness Design
Another key feature of Creo 10 is the ability for multiple users to work on the same harness design simultaneously. This collaborative design approach saves time and ensures that everyone is on the same page. The application-centric tree is another useful addition, which provides three different views, including Cables, Bundles, and Connectivity, to make it easier to navigate.
New ECAD Capabilities
Creo 10 includes new ECAD capabilities, such as paste masks and hole parameters. These features make it easier to create accurate designs that meet the specific needs of each project with greater precision and accuracy.
Creo 10 optimizes and simplifies the design process for ergonomics.
The Visual Field
Perform Reflection Analysis to analyze the reflective properties of objects in the environment and how they impact the user’s visual experience. The reflective object orientation can be controlled by adding a rotation value around one or two axes, giving you greater control over the design process.
Another key feature of Creo 10 is the Manikin, which now support multiple reach envelopes, including the index and middle finger, thumb, and center of the palm. Creo Manikin allows designers to create more accurate models of human movement and reach, making it easier to design products that are comfortable and easy to use. Additionally, the Manikin libraries are now stored as inseparable assemblies to provide better management and user access.
Enhancing Model-Based Definition and Implementing the Digital Thread
Enhanced 3D Model Annotations
One of the most significant additions is the ability for users to relate symbols or surface finishes to other annotations in the 3D model. This feature allows designers to create more accurate and detailed models, making it easier to communicate design intent to other stakeholders and downstream activities.
Creo 10 adds the ability for annotations to inherit their annotation plane from the parent during placement. This feature ensures that annotations are placed correctly and in the right location, saving time and improving accuracy. Additionally, any movement of the related parent annotation would also be applied to related symbols, behaving as a group when being assigned to other combination states.
GD&T Advisor Updates
Creo 10 includes improvements to GD&T semantic behaviors, including general profile tolerances and enhanced compliance with detailing standards. These changes make it easier for designers to create accurate and detailed models, ensuring that the design intent is communicated effectively throughout the product lifecycle.
Furthermore, any changes made to GD&T annotations will automatically update the corresponding semantic references of general profile tolerance. Additionally, Creo 10 now supports straightness and profile of Line Geometrical Characteristics for ISO GPS models. Create more accurate and detailed models, ensuring that the design intent is communicated effectively.
Advanced Simulation and Optimization Capabilities
Creo 10 presents a range of new features that enhance and streamline the process of simulation and optimization.
Support for Non-Linear Materials
Combined Thermal & Structural Analysis
Support for non-linear contact, including new contact types such as frictional and rough, helps to create more accurate simulations of real-world contact.
Expanded Contact Simulation Options
Allows designers to create more accurate simulations of rotational components.
Point Mass & Remote Loads
Finally, Creo 10 introduces the ability to add Point Mass and Remote Loads to create more accurate simulations of real-world loads.
Creo 10: Additive and Subtractive Manufacturing
With Creo 10’s latest features, manufacturing processes are now more efficient and effortless. One of the most significant additions is the support for additive manufacturing.
New Lattice Types
This enables your designers to create new beam-based lattice types, including rhombic, rhombic+diamond, dodecahedron, and elongated dodecahedron. For formula-driven lattices, Creo 10 supports simulation-based variable wall thickness and highly efficient I-graph-wrapped (IWP) lattice cell. Additionally, Creo 10 supports Auxetic Cells Structures for 3D printing. Auxetic Cell Lattices produce geometry that exhibit a negative Poisson ratio.
High-Speed Milling supports barrel tools for both wall and floor 5-axis finish, reducing tool path time and improving surface finish quality. Additional control for CUTCOM and clearance has been added to Area Turning, making it easier to create accurate and efficient toolpaths for subtractive manufacturing processes.
Get started with Creo 10 Today
Creo 10 is an exciting new release from PTC that brings a plethora of new features to the design table. Whether you’re a designer or an engineer, Creo 10 is a game-changing tool that will help you create complex shapes and designs, manage projects, and improve productivity for more innovative products.
Curious to see how Creo 10’s features compare to other versions of Creo? Check out how Creo is continually enhancing its tools to provide you with the most up to date features for your design process.