American Lighting Products

1. American Lighting Products • What drives inventory in this system? • Safety stock at the MDC’s • Shipping quantities to the MDC’s (Truckload) • Production lot sizes • Number of products • ...

2. Inventory for a product • What is average system inventory for a product?

3. Net System Inventory Objective • “Set for each product item at each MDC based on historical sales levels” • “The NSO is the reorder point for the factory to produce another lot of product” • “the Average system inventory for a product is the NSO + 1/2 a lot size”

4. Is this Consistent? • “The NSO is the reorder point for the factory to produce another lot of product” • “the Average system inventory for a product is the NSO + 1/2 a lot size”

5. System Inventory Inventory NSO Production Time

6. At an MDC Truckload Inventory Base Stock Level Production begins Time

7. What is Base stock level at MDC? • Expected “Lead Time” Demand • Demand from time MDC hits base stock level to time first truck load arrives • Production times • delivery lead times • time till system inventory hits NSO • Safety stock to cover for variability

8. What can distribution do? • Lot sizes? • Expected lead time demand? • Can consolidation affect this? How? • Safety stock?

9. Safety Stock • Customer Service level • 95% to 98% • 1.64 to 2.05 • Variance in lead time demand • Estimating effect of consolidation • Square root law • Poisson Demand • Forecast Error

10. Square Root Law(For Safety Stock!) • Two independent random variables • X with mean  and variance 2 • Y with mean  and variance 2 • What about X+Y? • 2  • 2 2 • Standard Deviation of “Consolidated MDC” • 2 

11. Poisson Demand • If we don’t know variance… • Assume Poisson demand • variance = mean • Std Deviation of Lead Time Demand = square root of Average Lead Time Demand

12. Forecast Error • Forecast errors due to variability of demand • Forecast Accuracy • Product at MDC <50% • Product 50-70% • Product Family 70-90% • Market 90-100%

13. What is the Safety Stock? • Poisson Model • At the very worst all 700 products have the same volume • Safety stock < 2*700*sqrt(Volume/700) • That gives total safety stock of <2 million • That’s less than 8% of inventory!

14. Production Lead Time (Again) Inventory To MDC 3 To MDC 1 Truck load Time

15. Reducing Average Lead Time Demand • Base Stock at MDC depends on how many MDCs carry the same product • With 8 MDCs • Expect to wait till the fourth truck • With 4 MDCs • Expect to wait till the 2nd truck

16. What is Base Stock Level? • Safety Stock • Expected Lead Time Demand • Inbound lead time < 7 days • Guess at time to load a truck • Total Volume = nearly 5,000 truckloads • 2,500 truckload per plant • 50 truckloads per week per plant • 7 truckloads per day • Difference between 2nd truck and 4th is a matter of hours.

17. Conclusions • Safety Stock < 8% of inventory • Expected lead time demand insensitive to consolidation • Distribution cannot get close to 20% inventory reduction without affecting customer service levels

18. How to Reduce Inventory • Smaller lot sizes at the factory • Spread out 3 weeks maintenance and vacations • Trim product line

19. Critique • What did we ignore? • Where else can Distribution look for inventory reductions?

20. NSO vs Base Stock • Time till System reaches NSO after MDC reaches base stock • Interested in the • Mean? • std. Deviation?

21. Guesses • Mean is zero • Std. Dev. grows with the number of MDCs (simple simulation supports this)

22. NSO effects • How big is the effect? • Can we change replenishment policy to eliminate effect? • Can we reduce effect with consolidation?

23. What is NSO? • Estimate NSO due to this delay • Probably significant because we have such poor service levels (as low as 78%) with such high inventory levels. • How to get better numbers? • Ask (not an option here) • Analysis • Simulation