1. Design for Logistics Chap 08 王仁宏 助理教授 國立中正大學企業管理學系 ©Copyright 2001 製商整合科技中心

2. The Manufacturing Environment Rapid Changes –New products rapidly introduced –Short, unknown product life cycles High Variety of Products Long Production Lead Times Increasing storage and transportation costs Difficult to forecast demand

3. The Goals of the Manufacturing Organization Responsiveness Competitive pricing Efficiency Customer service

4. Why Do These Goals Conflict? Forces for keeping low inventory –inventory expensive –low salvage values Forces for keeping high inventory –long lead times –customer service is important –demand is hard to predict –reduction in transportation quantity

5. Design For Logistics Product and process design key cost drivers of product cost Design for Manufacturing used design to decrease manufacturing costs Major supply chain costs include transportation costs, inventory costs, distribution costs

6. Design For Logistics Design for Logistics uses product design to address logistics costs Key Concepts of Design for Logistics –Economic packaging and transportation –Concurrent/Parallel Processing –Postponement

7. Economic Transportation, Storage, and Transportation Design products so that they can be efficiently packed and stored Packed more compactly Design products to efficiently utilize retail space Design packaging so that products can be consolidated at cross docking points

8. Examples Ikea –World’s largest furniture retailer –131 stores in 21 countries –Large stores, centralized manufacturing, compactly and efficiently packed products Rubbermaid –Clear Classic food containers - designed to fit 14x14” Wal-Mart shelves

9. Concurrent / Parallel Processing Objective is to minimize manufacturing lead times Achieved by redesigning products so that several manufacturing steps can take place in parallel Modularity/Decoupling is key to implementation Enables different inventory levels for different parts

10. The Network Printer Example Stage 1 (Europe) Stage 2 Integration (Far East) Customer (Europe) BoardPrinter Stage 1 (Europe) Integration (Europe) Customer (Europe) Board Printer Plastics, motors, etc. Stage 2 (Far East)

11. Traditional Manufacturing Set schedules as early as possible Use large lot sizes to make efficient use of equipment and minimize costs Large centralized facilities take advantage of economies of scale

12. It is hard to be flexible when... Lead times are long Retailers are committed to purchasing early orders Purchasing plans for raw materials are based upon extrapolating from 10% of the orders

13. Postponement Manufacturing process starts by making a generic or family product which is later differentiated into a specific end product. Concepts of implementing delayed differentiation: –resequencing –commonality –modularity –standardization

14. Resequencing: Benetton Old Manufacturing Process Spin or Purchase Yarn Dye Yarn Finish Yarn Manufacture Garment Parts Join Parts

15. Resequencing: Benetton New Manufacturing Process Spin or Purchase Yarn Manufacture Garment Parts Join Parts Dye Garment Finish Garment This step is postponed

16. Benetton Postponement Why the change? –The change enables Benetton to start manufacturing before color choices are made What does the change result in? –Delayed forecasts of specific colors –Still use aggregate forecasts to start manufacturing early –React to customer demand and suggestions Issues with postponement –Costs are 10% higher for manufacturing –New processes had to be developed –New equipment had to be purchased

17. Postponement: Key Concepts Delay differentiation of products in the same family as late as possible Enables the use of aggregate forecasts Enables the delay of detailed forecasts Reduces scrapped or obsolete inventory, increases customer service May require new processes or product design with associated costs

18. Resequencing: HP Disk Drives Manufacturing Process Redesign HP’s disk drive division supplied several customers Customer 1 Customer 2 Customer 3 PCB Insertion tests Customer 1 Customer 2 Customer 3 PCB Insertion tests Coupon Insertion common tests PCB insertion postponed

19. Results Successful implementation Millions saved Service levels increased Packaging won awards Best practice spread to other HP divisions

20. Postponement Considerations Tradeoff increased product cost with decreased inventory Need to decide where to postpone - the push-pull boundary Position in product lifecycle is factor in postponement strategies Inventory value may increase Consider tariffs and duties

21. Dealing With This Conflict Two Examples –Benetton - Italian clothing manufacturer –Hewlett Packard - Printer Division

22. Postponement: Example Demand for black t-shirts –50% probability 100 –50% probability 200 Same for white t-shirts Production alternatives  Produce 150 of each color ahead of time  Produce 300 which can be dyed after demand is observed

23. Postponement: Example  First Alternative –25% probability -- short 50 of each –25% probability -- extra 50 of each –50% probability -- short 50 of one, extra 50 of the other  Second Alternative –25% probability -- short 50 of each –25% probability -- extra 50 of each –50% probability -- no shortage or extra

24. Benetton Background A world leader in knitwear Massive volume, many stores Logistics –Large, flexible production network –Many independent subcontractors –Subcontractors responsible for product movement Retailers –Many, small stores with limited storage

25. Benetton Supply Cycle Primary collection in stores in January –Final designs in March of previous year –Store owners place firm orders through July –Production starts in July based on first 10% of orders –August - December stores adjust orders (colors) –80%-90% of items in store for January sales Mini collection based on customer requests designed in January for Spring sales To refill hot selling items –Late orders as items sell out –Delivery promised in less than five weeks

26. Benetton Flexibility Business goals –Increase sales of fashion items –Continue to expand sales network –Minimize costs Flexibility important in achieving these goals –Hard to predict what items, colors, etc. will sell –Customers make requests once items are in stores –Small stores may need frequent replenishments

27. Hewlett-Packard: LaserJets LaserJets are manufactured in Japan Previously, the printers had two different power supplies (110, 220 volts) Differentiation had to happen immediately An improved design enables a single power supply to work for both voltages. 5% Cost Savings

28. HP DeskJet Case: Background High volume, high speed manufacturing in Vancouver Many different models, all completed in Vancouver Three distribution centers –North American –Asian –European Manufacturing time one week Transportation lead times: – Europe: 4-5 weeks –US At distribution centers, simple standardized process

29. HP DeskJet Case: Analysis Problems –High inventory levels –Inventory imbalance in Europe Causes –Uncertainty about correct inventory levels –Many geographic options (localization) –Long lead times –Uncertain market –Difficulty at getting divisions to work together What are HP’s options?

30. HP DeskJet Case: Options Short Term –Rationalize safety stock Long Term –Air shipment –European factory –More inventory –Better forecasting –DC localization

31. Safety Stock Rationalization: Example Europe AB Recall: Safety Stock = z  STD *  LT

32. Evaluating Alternatives Air Shipment -- Expensive European Factory -- Not sufficient volume Better Forecasting -- How? More Inventory -- More problems DC Localization -- What will savings be?

33. Evaluating DC Localization In DC localization, risk pooling can be used to reduce total inventory while maintaining service levels To evaluate inventory, compare total safety stock held if individual localized units are held in inventory or if generic units are held Other costs must also be evaluated

34. Evaluating DC Localization

35. DC Localization Safety Stock Reduction –Current 19,089 units (3.55 weeks) –With localization 12,792 units (2.4 weeks) Other benefits –Lower value of transit inventory –Freight reductions –Local presence of “manufacturing” –Customs implications –Local procurement of localization materials But there are costs –Product redesign –DC modifications

36. Implementation R&D Support –“The product is working, so why bother?” DC Support –“Not our core competency” New packaging Capital investment

37. Supplier Integration into New Product Development Benefits from involving suppliers in the design process: –decline in purchased material costs –increase in purchased material quality –decline in development time and cost –decline in manufacturing cost –increase in final product technology

38. The Spectrum of Supplier Integration None Whit Box: informal integration Grey Box: formal integration, collaborative teams are formed, joint development Black Box: the buyer gives the supplier a set or interface requirements and the supplier independently designs and develops the required component

39. Selecting Supplier : Manufacturing capacity Response time Capability to participate in the design process Willingness to participate in the design process Ability to commit sufficient personnel and time to the process Sufficient resources to commit to the supplier integration process

40. Mass Customization Skilled and autonomous workers processes modular units Dynamic network: –instantaneousness –costless –seamless –frictionless

41. Memo