In the concrete construction industry, costs are everything. To keep costs and processes under control, organizations often rely on enterprise resource planning (ERP) software. These planning and financial management solutions eliminate guesswork and provide answers to the questions that organizations must stay on top of, such as “Are we in the green or the red?” and “Are we manufacturing on time or are we facing capacity problems?” When combined with building information modeling (BIM), ERP software is an invaluable part of the workflow.
The role of ERPs in precast is changing
ERP software is nothing new. For decades, there have been ERP mammoths that can do just about anything—even manage your DVD collection at home, if that’s how you want to use it. But when it comes to precast, a solution that can seemingly do everything might not be the best fit, as it could lack specific key functionalities. This is why ERP systems that are purpose-built for precast - sometimes also called manufacturing execution systems (MES) - have become more and more important over the years.
ERP and BIM systems are natural complements, and together they can create a truly optimized, profitable workflow. ERP is all about the money and numbers, while BIM greatly contributes to overall success by providing the ERP software with the right numbers. Think of it this way: if the ERP is the brain, then the model is the data in the brain. And without that data, you cannot crunch the numbers or do the manufacturing. One depends on the other.
ERP turns information into numbers
This relationship is quite remarkable, not only in the precast industry but within the whole BIM world. Many people who didn’t “get” BIM in the past are now able to clearly understand what all the BIM fuss is about. Information becomes transparent and it just makes sense. Someone creates a model, and once he or she adds a piece into the model, it has characteristics. These characteristics can then be translated into numbers, which can be used in the commercial department to create a tender. The information is there right away.
With real-time information about quantities, you can, for example, know up front how many pieces or how many square meters of mesh a project will need. Organizations that understand the importance and benefits of BIM bring their ERP people to the meeting table early so they can start piecing together the big picture and provide cost estimates as soon as possible.
Accurate numbers equal better profits
When it comes to BIM and ERP integration, things are getting better all the time. For example, thanks to the work of the IFC4Precast project, we’ll have one file format in the future. This means we’ll have both production and ERP in a single information set—previously, they’ve always been parallel, resulting in separate processes. Bundling this meaningful information in one data stream will benefit the industry in a big way. Stakeholders throughout the process will be able to work from the same source of information, eliminating the risk of contradicting information and the costs that can come with it.
That is the power of ERP software: having the numbers at hand to formulate an accurate picture of how much money a project will involve. You can, of course, do this the long way—crunch the numbers using drawings—but when it comes down to it, do you trust those numbers? When you have an accurate 3D model, your numbers are going to be accurate because you’re dealing with reality and not an abstract. Consequently, there’s a higher certainty that, at the end of the day, you’ll walk away from a project with money in your pocket and your company will be more prosperous.
Designing for a manufacture and assembly eco-system
Soilbuild Construction Group Ltd, a leading turnkey construction group in Singapore, has made the use of digital technology to improve work processes the core of their business. Check out this video to see Soilbuild's Integrated Construction and Precast Hub (ICPH). This project represents Soilbuild's commitment toward improving work processes and exploring new approaches in building a robust DfMA (Design for Manufacture and Assembly) eco-system.
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