Product Lifecycle Management (PLM) software integrates cost effective solutions to manage the useful life of a product.
PLM software tools allow you to:
- Keep aligned with customer’s requirements
- Optimize cost and resources through simulated risk analysis
- Reduce complexity with a single interconnecting database
- Improve and maintain quality of a product throughout the lifecycle
The areas of PLM include: five primary areas:
- Systems engineering
- Product and portfolio m² (PPM)
- Product design (CAx)
- Manufacturing process management (MPM)
- Product data management (PDM)
Let’s look at each area in more detail.
A PLM tool should support the system engineer throughout the lifecycle by integrating requirements analysis and management (Requirements View and checker), with functional analysis and allocation (all the SysML diagrams, along with LML, IDEF0, N2, and others), with solution synthesis (SysML, LML, Layer Diagram, Physical I/O, etc.), test and evaluation (Test Plans, Test Center), and simulation (discrete event and Monte Carlo). Many PLM tools lack the combination of all these capabilities in this area. Innoslate® was made by systems engineers for systems engineers and is designed for the modern cloud environment that enables massive scalability and collaboration. No other PLM tool has Innoslate’s combination of capabilities in this area.
Product and Portfolio Management
PPM includes pipeline, resource, financial, and risk management, as well as change control. Innoslate® provides all these capabilities and a simple easy to use modeling diagram to capture the business processes, resource and cost load them, and then produce Gantt charts for the timeline. The Monte Carlo simulation also enables the exploration of the schedule and cost risks due to the variation of timing, costs, and resources. This approach is called Model-Based Program Management (MBPM); consider it an important adjunct to the systems engineering work.
Innoslate® also captures risks, decisions, and other program management data completely within the tool using Risk Matrices, and other diagrams. Change control is provided through the baselining of documents, the branching/forking capability, and the object-level history files.
Innoslate® provides a means to develop a program plan that can be linked to the diagrams and other information within the database This feature enables you to keep all your information and documents together in one place.
The Product Design area focuses on the capability to capture and visualize product design information from analysis to concept to synthesis. The Asset Diagram enables the addition of pictures to the standard boxes and lines diagrams. This capability enables the development of the high-level concept pictures that everyone needs. Innoslate’s CAD viewer feature allows you to not only view the STL and OBJ files it can create the equivalent Asset Diagram entities through the OBJ file, but this feature also makes the integration between the two tools more seamless. Other physical views, such as the layer diagram and physical I/O help view the physical model in ways that usually required a separate drawing tool.
Manufacturing Process Management
Innoslate provides great process planning and resource planning capabilities using the Action Diagram and other features discussed above. Direct interface from Innoslate® to other tools can be accomplished using the software development kit (SDK) application programmer interfaces (APIs). If the MPM tools have Internet access, you can use the Zapier Integration capability, which provides an interface to over 750 tools, ranging from GitHub to PayPal to SAP Jam Collaboration. In addition, Innoslate is routinely used for Failure Modes and Effects Analyses (FMEA), which is critical to MPM.
Product Data Management
Capturing all the product data, such as the part number, part description, supplier/vendor, vendor part number and description, unit of measure, cost/price, schematic or CAD drawing, and material data sheets, can easily be accomplished using Innoslate. Most of the entities and attributes have already been defined in the baseline schema, but you can easily add more using the Schema Editor. You can develop a complete library of product drawings and data sheets by uploading electronic files can be uploaded as part of the “Artifacts” capture in the tool. Construction of a Work Breakdown Structure (WBS) and Bill of Materials (BOM) is also simply a standard report from the tool.
As a systems engineer, it’s important to allow information to drive your decisions. This can only be obtained through detailed functional analysis and an underlying scalable database. And is best accomplished with a PLM software tool that encompasses all 5 areas illustrated above. Innoslate meets or excels in every area, so you are better equipped to face high-risk decisions.