Physna, a Cincinnati-based startup developing an AI-powered 3D modelling platform for industrial engineering, has raised an impressive $20M Series B led by Sequoia. With this new funding round, Physna is well-positioned to become a leader in the industrial engineering space.
This article will discuss how this platform can help industrial engineers.
Overview of Physna
Physna is an AI-powered 3D digital twin platform designed to streamline and simplify the workflow for industrial engineers, enabling them to quickly and accurately visualise, analyse, and optimise their entire product portfolio. Our platform has been developed with a core focus on accelerating your engineering workflows, eliminating guesswork, reducing costs, and improving the customer experience.
From initial specification design to production monitoring, assembly testing, and client feedback tracking in post-production — Physna helps you keep track of all associated information in one streamlined package. In addition, our intuitive visualisation capabilities provide essential insights into your products’ performance. At the same time, our powerful automation solutions are built to help you identify any problems early on and make real-time decisions that can save significant amounts of time and cost.
Through our platform, industrial engineers can access data quickly, improve their customer relationships through responsive customer service solutions based on product insights generated from our AI algorithms, and raise the visibility of their product portfolio by sharing visuals that bring previously hidden potential to life from a single dashboard.
Physna, a Cincinnati-based startup developing an AI-powered 3D modelling platform for industrial engineering, raises $20M Series B led by Sequoia (Kyle Wiggers/VentureBeat)
Physna, a Cincinnati-based startup developing an AI-powered 3D modelling platform for industrial engineering, recently raised $20M Series B led by Sequoia.
With this platform, industrial engineers can quickly and accurately model 3D designs that can be reproduced precisely and accurately.
Let’s take a closer look at the benefits of Physna’s platform.
Automated 3D Modelling
Physna’s platform enables industrial engineers to quickly create and share 3D models of their sites and machines, eliminating tedious manual measurements and creating a virtual as-built environment. The automated modelling approach also minimises errors associated with manual measurement to ensure accuracy. With precise 3D models, industrial engineers can better understand the existing layout of their assets and foresee potential problems before they occur.
Using the automatic modelling feature on Physna’s platform, engineers can generate a virtual clone of their environment in less time than ever. Users can choose from our wide range of CAD-CAM software features or upload point cloud data from handy surveying equipment such as lasers, FARO scanners, and drones for ultra-accurate results. This automated virtual model allows users to accurately measure distances between physical assets like machines for better space utilisation, monitor critical infrastructure like electrical pipelines for collisions or failure points without disruption to production operations, calculate materials needed for design updates beforehand with precision accuracy, review the overall layout of an industrial site without ever stepping foot in it in times when remote work is a necessity, and estimate the time required for each task with exact numbers using blueprints provided by this technology.
Automated Quality Assurance
Physna’s automated quality assurance system allows industrial engineers to implement enterprise-wide workflows for measuring, analysing, and controlling product quality.
With Physna technology, manufacturers can create detailed models from digital sources such as CAD to accurately assess parts and assemblies for nonconformance with quality standards. This eliminates manual measurement, creating more efficient processes for root cause analysis and releasing goods faster.
Physna also features a comprehensive tool suite that allows you to track defects and trends across different manufacturing locations. In addition, comparing production data from the past can help you identify sources of error, allowing you to take corrective measures if needed.
The automated quality assurance system integrates seamlessly with existing engineering applications and platforms, saving time while delivering advanced capabilities in terms of accuracy and reporting options.
Improved Design Efficiency
Improvements in design efficiency are one of the key benefits of using Physna’s platform for industrial engineers. Physna offers a full suite of advanced engineering capabilities, allowing customers to design better products faster. The platform’s robust digital engine enables industrial engineers to automate complex and time-consuming processes. In addition, industrial engineers who use Physna have access to various tools that can help them save time and optimise designs for improved performance.
With Physna, industrial engineers experience more accurate results through the added precision and accuracy in measurements, shapes, configurations, engineering models, and more that the platform can store in its digital twin model. This also helps to speed up the design review process, by making all data readily available on one platform.
Using features such as parametric assembly tree and automated update control, designers can quickly find discrepancies between different versions of their designs and documents like illustrations or drawings and make changes more quickly than with traditional methods. This saves time and money while increasing productivity.
Additionally, the automated version control system within the platform increases security against data loss or theft by tracking all changes across multiple users with date/time stamps for ultimate collaboration among team members on projects with remote access capabilities included for even greater collaboration opportunities anywhere in the world. Finally, Physna integrates CAD systems and provides a digital preview capability to allow customers to see clear representations of their designs before production begins—enabling quicker lead times and faster prototyping than ever before!
How Physna’s Platform Can Help Industrial Engineers
Physna, a Cincinnati-based startup that has developed an AI-powered 3D modelling platform for industrial engineering, recently raised $20 million in a Series B round of funding led by Sequoia.
This platform, which uses AI-driven processes to reduce the costs and complexities of product design and engineering, can greatly help industrial engineers. In this article, we will look at how Physna’s platform can benefit industrial engineers.
Streamline Design Processes
Physna’s software platform can streamline design processes for industrial engineers. The platform provides easy-to-use CAD geometric evaluation and comparison functionality that allows industrial engineers to quickly compare designs and review tolerances to ensure accuracy and efficiency within the product development process. This can save valuable time and reduce costly trial-and-error cycles during the conceptualization, prototyping and production stages.
The platform also supports rapid visualisation and editing capabilities that enable industrial engineers to hierarchically view each component in a product or system, visualise several versions of a 3D model side by side, quickly evaluate them for compatibility or clashes, identify critical differences, make instantaneous edits and changes with ease, and generate new versions or assemblies of the design. This helps decrease manufacturers’ time-to-market while maintaining high quality engineering standards.
In addition, Physna’s platform offers faster in-depth analysis of product performance characteristics such as stress force distribution, torque load capacities and vibrational frequencies— without requiring access to any physical samples. This enables industrial engineers to collaboratively develop products from design inception through completion in one cohesive environment— minimising errors from multiple sources generated from different departments or services firms.
Finally, Physna’s platform can create detailed results reports that are easily read and interpreted without specialised knowledge or expertise. In addition, these reports provide bidirectional data tracking, allowing users to trace any design change replicated through the life cycle management process on multiple versions of different models used for comparisons.
Industrial engineers are tasked with finding innovative ways to improve efficiency, reduce costs and ultimately increase profitability for their organisation. Physna’s unique reverse engineering platform helps engineers understand their manufacturing processes better, allowing them to quickly identify and resolve any bottlenecks or process flaws. Streamlining the production process can also offer insights into reducing material and labour costs.
Physna’s platform has various features designed to help industrial engineers find cost savings opportunities in manufacturing. These include:
- Reverse Engineering allows engineers to quickly create digital models of existing parts and assemblies that can be used for analysis.
- Geometric Tolerance Analysis, a visual quality control tool that helps identify size and position errors in any parts or assemblies before they go into production.
- CAD Optimization automates design modifications, making it easier for engineers to accurately create complex surface features within tolerances without adding excess time or cost during design stages.
- Process Simulation helps determine the most efficient order of operations to reduce time and materials during production and simulates assembly progress for further optimization.
Furthermore, Physna’s platform offers an AI-driven DFM (Design For Manufacturing) feature that considers all these insights and makes intelligent recommendations that ensure products are produced by quality constraints while reducing overall costs throughout the entire product development and manufacturing lifecycle.
Industrial engineering capabilities are becoming increasingly important to the success of many businesses, from manufacturing companies to service providers. Physna’s platform provides various analytics and workflow tools to help Industrial Engineers streamline operations and simplify mundane tasks. With Physna’s platform, industrial engineers can unlock unprecedented productivity, effortlessness, and accuracy in their processes.
By combining integrated search features with powerful mapping and measurement functionalities, Physna’s platform helps industrial engineers quickly prioritise critical insights relevant to the task. This means that process improvements can be made accurately, reducing expenses associated with labour-intensive practices such as manual data entry or error-prone calculations. Moreover, the mappings provided by Physna’s infrastructure provide an easy way for industrial engineers to visualise 3D models in a more readable environment, enabling them to gain deep insights about their operations from a different angle. Such visualisations allow process optimization decisions to be made more accurately and rapidly than ever before.
Further aiding operational longevity and scalability is Physna’s Natural Language Processing technology which can extract key numerical values from text documents such as regulatory reports or project specifications. Automation enabled via NLP enables industrial engineers to spend less time manually collecting data which can then be used for strategic decision-making processes — freeing up resources for more valuable work such as innovation or customer engagement efforts.
With all these features combined into one intuitive solution, industrial engineers everywhere will enjoy great benefits when using Physna’s robust platform — increasing productivity while optimising cost savings by streamlining operations across design through manufacture or even post-delivery maintenance works.
tags = Physna, Cincinnati-based, AI-powered 3D, raises $20M, industrial engineering, Sequoia, physna aipowered 3d sequoiawiggersventurebeat, physna aipowered 20m sequoiawiggersventurebeat, Kyle Wiggers/VentureBeat