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Fullsope’s new series of Process Accelerators makes it easy for manufacturers to employ potency pricing procedures.
With potency pricing, a manufacturer sets purchase pricing and inventory value based on the received material’s active concentration (i.e., potency) or some other quality-controlled values (fat content, protein content, etc). This is a key requirement for process industries where low margins require costing and margin analysis at the lot level. It’s required in industries such as dairy and feed which measure and pay based on butterfat content or protein content, and is standard business practice for pricing precious metals. This is equally applicable to any process industries company that manufactures or distributes high valued, active ingredient based products.
Common enterprise resource planning (ERP) solutions price materials according to linear pricing schedules, but in process industries, multiple factors come into play in determining compensation for a supplier. The Fullscope Process Accelerators:
Using milk again as an example, a typical dairy producer will send a tanker with paperwork specifying that this tanker of milk has a certain stated butterfat and protein content. But the manufacturer, the buyer of the milk, wants to run their own tests because the agreement is that payment will be made based on the manufacturer’s quality analysis result. Or, payment could be based on the average of the milk vendor’s value and the manufacturer’s value: the buyer and supplier can meet halfway.
A typical ERP solution pricing scheme won’t address that scenario.
Fullscope Process Accelerators use an advanced pricing formula that gives the manufacturer the ability to define which characteristics are going to drive the price. It can be the concentration alone or multiple characteristics of an incoming shipment. The formula applies equally well to chemicals, food, or metals. The system will calculate a price and hence the inventory value based on those user‑defined characteristics.
A large part of our Process Accelerators’ elegance and utility comes from flexibility: even though the metals industry will use a different formula than those used by the dairy or chemical industries, each can build their own formulas easily.
Lot Genealogy and Traceability
Lot genealogy is the ability to automatically transfer properties of a raw material lot to a manufactured item’s lot. An effective lot genealogy system must transfer key lot characteristics. For example, a manufacturer may use a metal coil that has a certain alloy content and mechanical strength. If this coil is cut into a smaller one, those properties need to follow the smaller coil as well. Sometimes this is referred to as parent-child inheritance. A manufacturer wants the characteristics from the original coil to carry over into the product that ultimately contains the small coil. They also want to be able to transfer shelf life information. There are rules about combining materials with different shelf lives into one package. One should take the earliest individual material shelf life and make that the expiration date for the overall product.
Genealogy applies to two things: first, the attributes or characteristics, and second, the shelf life. Both need to be carried over. In a formula where the raw material defines the shelf life or the characteristics, the finished good, which will consume the raw materials, needs to inherit the properties of its raw materials.
Here’s a bit of terminology: an end item is a typical formula where something is consumed and made into a finished good. A co‑product occurs when an end item is produced, but there is also a co‑product that can be used for some other purpose—either to resell or to use in another production process. Take, for example, a jumbo roll of paper 60 inches wide. A manufacturer may cut five 11-inch rolls out of it, leaving 5 inches of trim. That trim is a co-product. It’s still good and can be reused or re-blended to make more paper.
Fullscope Process Accelerators set lot genealogy at the formula level and allows inheritance for both end items and co-products.
The Process Accelerators also add key capabilities to Dynamics AX in this arena. It adds functionality that considers demand for a product having a certain characteristic such as color, flavor, or package size that can prove problematic if produced out of sequence; or, conversely, it may prove more cost effective if sequenced properly.
Consider paint production. Sequencing from light to dark (white-yellow-green-blue-red-black) can minimize cleanup and setup during changeover. The Fullscope Process Accelerators allow manufacturers to define an optimum sequence based on prioritization of simple or complex characteristics of the product.
So What’s the Takeaway?
Process manufacturers focus their business activities around the development, manufacturing, assembling, and selling of products and the delivery of related services. The defining characteristic of process manufacturing—namely, that once a process manufacturer produces a product, that product cannot be reduced back to its constituent parts—makes control of the manufacturing process critical and risk-intense.
By providing more powerful functionality to Microsoft Dynamics AX ERP, Fullscope Process Accelerators help strengthen the already strong position of Dynamics AX among mid- to large-sized process manufacturers in the chemical, pharmaceutical, food processing, pulp and paper, metals, and cosmetics/health and beauty segments. It does so by leveraging three key areas—potency, lot genealogy, and product sequencing—to mitigate risk, provide more efficient and effective control of the manufacturing process, and improve both asset valuation and margins to better compete in a demanding global marketplace.