In the jewelry industry today, merchandise planners, retail buyers, data analysts, and suppliers need to understand the impact that volatile commodity markets will have on their intake costs for a broad array of products. Typically, their actual cost (the inventory cost for any products ordered) is dependent on the price of gold at the time that the inventory was ordered or shipped.
Traditionally, legacy systems have not been designed to automate any of the overhead associated with enabling this calculus. The industry has been held back by a lack of technology designed specifically for this use case, and as a result data-driven jewelry companies undertake these operations manually in order to truly assess expected profitability, plan retail prices, manage cash flows, etc. This requirement has resulted in merchandising teams spending endless hours repricing the products that make up their assortments. Typically, this is limited to a once or twice a year task. However, given the recent volatility and dramatic increase in gold prices, many retailers may have executed an assortment recosting only to find their updated costs were already out-of-date. This means they would have to re-run the entire analysis again or risk making decisions using incorrect information.
Over the years, many companies in our industry have had to write off significant losses due to a lack of accurate real-time product costing that ultimately drives their intake costs; either over-buying due to lack of understanding of real cost of goods or over-pricing products at retail in a highly competitive, cost-sensitive environment.
Consider the following example:
Enter Loupe. Using our unified PIM/PLM, jewelers can automate gold incrementing across thousands of products in their assortment in a matter of seconds. In addition to the risk of product costs being out-of-date, relying on manual re-costing introduces the risk that prices have been recalculated incorrectly. With Loupe, you can guarantee with 100% accuracy that your costs have been recalculated with surgical precision.
The impact of automating this time-consuming process is a happier and much more productive workforce. Why ask humans to execute monotonous tasks that a computer can complete in an instant, rather than redeploying them to focus on value-add functions that depend on the human touch?