1. References: Supply Chain Saves the World. Boston, MA: AMR Research (2006); Designing and Managing the Supply Chain – Concepts, Strategies and Case Studies; D. Simchi-Levi, P Kaminski and E. Simchi-Levi; 3rd Edition; McGraw Hill Designing and Managing the Supply Chain Coordinated Product and Supply Chain Design SCM-655: Global Supply Operations Strategy Summer 2015 Note: Don’t forget to go through Audio Setup Wizard. 1.System Check 2.Administrative Stuff 3.Key Concepts 4.Question & Answer

2. Today’s Journey Design for Logistics Supplier Integration into Design Mass Customization Design V10-00

3. A General Framework Two distinct chains in organizations: –The supply chain which focuses on the flow of physical products from suppliers through manufacturing and distribution all the way to retail outlets and customers, and –The development chain which focuses on new product introduction and involves product architecture, make/buy decisions, earlier supplier involvement, strategic partnering, supplier footprint and supply contracts. V10-01

4. Key Characteristics of Supply Chain Demand uncertainty and variability, in particular, the bullwhip effect Economies of scale in production and transportation Lead time, in particular due to globalization V10-02

5. Technology clock speed –Speed by which technology changes in a particular industry Make/Buy decisions –Decisions on what to make internally and what to buy from outside suppliers Product structure –Level of modularity or integrality in a product –Modular product assembled from a variety of modules each module may have several options Bulk of manufacturing can be completed before the selection of modules and assembly into the final product takes place Key Characteristics of Development Chain V10-03

6. Interaction between the Two Chains Fisher’s concept of Innovative and Functional Products –Functional products characterized by: slow technology clock speed, low product variety, and typically low profit margins –Innovative products characterized by: fast technology clock speed and short product life cycle, high product variety, and relatively high margins. V10-04

7. What Is the Appropriate Strategy for Each? Each requires a different supply chain strategy Development chain has to deal with the differing level of demand uncertainty V10-05

8. Impact of Uncertainty Introduction Frequency V10-06

9. Design for Production and Logistics Product and process design that help to control logistics costs and increase service levels –Economic packaging and transportation –Concurrent and parallel processing –Standardization V10-07

10. Economic Transportation and Storage Design products so that they can be efficiently packed and stored Design packaging so that products can be consolidated at cross docking points Design products to efficiently utilize retail space V10-08

11. Final Packaging Delay until as late as possible Repackaging at the cross-docking point is common for many products V10-09

12. Concurrent/Parallel Processing Objective is to minimize 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 V10-10

13. 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 V10-11

14. Recall: aggregate demand information is more reliable We can have better forecasts for a product family (rather than a specific product or style) How to make use of aggregate data ? Designing the product and manufacturing processes so that decisions about which specific product is being manufactured (differentiation) can be delayed until after manufacturing is under way Standardization V10-12

15. Part Standardization Common parts used across many products. Common parts reduce: –inventories due to risk pooling –costs due to economies of scale Excessive part commonality can reduce product differentiation May be necessary to redesign product lines or families to achieve commonality V10-13

16. Process Standardization Standardize as much of the process as possible for different products Customizing the products as late as possible Decisions about specific product to be manufactured is delayed until after manufacturing is under way –Starts by making a generic or family product –Differentiate later into a specific end-product Postponement or delayed product differentiation V10-14

17. Modularity in Product and Process Modular Product: –Can be made by appropriately combining the different modules –It entails providing customers a number of options for each module Modular Process: –Each product undergo a discrete set of operations making it possible to store inventory in semi-finished form –Products differ from each other in terms of the subset of operations that are performed on them V10-15

18. Modularity in Product and Process Semiconductor wafer fabrication is modular since the type of chip produced depends on the unique set of operations performed Oil refining is not modular since it is continuous and inventory storage of semi-finished product is difficult V10-16

19. Modularity in Product and Process Modular products are not always made from modular processes –Bio-tech and pharmaceutical industries make modular products but use non-modular processes; many products are made by varying the mix of a small number of ingredients V10-17

20. Delayed Differentiation May be necessary to redesign products specifically for delayed differentiation May be necessary to resequence the manufacturing process to take advantage of process standardization Resequencing –modify the order of product manufacturing steps –resequenced operations result in the differentiation of specific items or products are postponed as much as possible V10-18

21. Point of differentiation Postponement V10-19

22. 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 V10-20

23. 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 V10-21

24. 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 V10-22

25. 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 V10-23

26. Benetton - Original Manufacturing Process Spin or Purchase Yarn Dye Yarn Finish Yarn Manufacture Garment Parts Join Parts V10-24

27. Benetton - New Manufacturing Process Spin or Purchase Yarn Manufacture Garment Parts Join Parts Dye Garment Finish Garment This step is postponed V10-25

28. 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 V10-26

29. Product Standardization Downward Substitution –Produce only a subset of products (because producing each one incurs high setup cost) –Guide customers to existing products –Substitute products with higher feature set for those with lower feature set –Which products to offer, how much to keep, how to optimally substitute ? V10-27

30. Selecting the Standardization Strategy If process and product are modular, process standardization will help to maximize effective forecast accuracy and minimize inventory costs. If the product is modular, but the process is not, it is not possible to delay differentiation. However, part standardization is likely to be effective. If the process is modular but the product is not, procurement standardization may decrease equipment expenses. If neither the process nor the product is modular, some benefits may still result from focusing on product standardization. V10-28

31. Important Considerations Strategies designed to deal with demand uncertainty and/or inaccurate forecasts Changes suggested in the strategies may be too expensive to implement –Redesign related costs should be incurred at the beginning of the product life cycle –Benefits cannot be quantified in many cases: increased flexibility, more efficient customer service, decreased market response times V10-29

32. Re-sequencing causes: –level of inventory in many cases to go down –per unit value of inventory being held will be higher Tariffs and duties are lower for semi-finished or non-configured goods than for final products –Completing the manufacturing process in a local distribution center may help to lower costs associated with tariffs and duties. Important Considerations V10-30

33. Push-Pull Boundary Pull-based systems typically lead to: –reduction in supply chain lead times, inventory levels, and system costs –making it easier to manage system resources Not always practical to implement a pull-based system throughout the entire supply chain –Lead times may be too long –May be necessary to have economies of scale in production or transportation. Standardization strategies can combine push and pull systems –Portion of the supply chain prior to product differentiation is typically a push-based supply chain –Portion of the supply chain starting from the time of differentiation is a pull-based supply chain. V10-31

34. Traditional Design Process – Sequential V10-32 MarketingR&DProduction Customer Care

35. Optimal Design Process – Concurrent V10-33 Marketing R&D Production Customer Care Customer Requires concurrency of function and cross-functional participation

36. Supplier Integration into Product Development Traditionally suppliers have been selected after design of product or components However, firms often realize tremendous benefits from involving suppliers in the design process. Benefits include: –a decline in purchased material costs –an increase in purchased material quality –a decline in development time and cost –an increase in final product technology levels. V10-34

37. The Spectrum of Supplier Integration No single “appropriate level” of supplier integration None –Supplier is not involved in design. –Materials/subassemblies supplied as per customer specifications/design White box –Informal level of integration –Buyer “consults” with the supplier informally when designing products and specifications –No formal collaboration Grey box –Formal supplier integration –Collaborative teams between buyer’s and supplier’s engineers –Joint development Black box –Buyer gives the supplier a set of interface requirements –Supplier independently designs & develops the required component V10-35

38. Appropriate Level Depends on the Situation Process Steps to follow: –Determine internal core competencies. –Determine current and future new product developments. –Identify external development and manufacturing needs. V10-36

39. Black Box –If future products have components that require expertise that the firm does not possess, and development of these components can be separated from other phases of product development, then taking Grey Box –If separation is not possible White Box –If buyer has some design expertise but wants to ensure that supplier can adequately manufacture the component Appropriate Level Depends on the Situation V10-37

40. Keys to Supplier Integration Making the relationship a success: –Select suppliers and build relationships with them –Align objectives with selected suppliers Which suppliers can be integrated? –Capability to participate in the design process –Willingness to participate in the design process –Ability to reach agreements on intellectual property and confidentiality issues. –Ability to commit sufficient personnel and time to the process. –Co-locating personnel if appropriate –Sufficient resources to commit to the supplier integration process. V10-38

41. Absence of Trade-Offs Two types meant inherent trade-offs –Low-cost, low-variety strategy may be appropriate for some products –For others, a higher-cost, higher-variety, more adaptable strategy was more effective Development of mass customization implies it is not always necessary to make this trade-off Mass customization –delivery of a wide variety of customized goods or services quickly and efficiently at low cost –captures many of the advantages of both the mass production and craft production systems –not appropriate for all products –gives firms important competitive advantages –helps to drive new business models V10-39

42. Making Mass Customization Work Highly skilled and autonomous workers, processes, and modular units Managers can coordinate and reconfigure these modules to meet specific customer requests and demands V10-40

43. Key Attributes Instantaneous –Modules and processes must be linked together very quickly –Allows rapid response to various customer demands. Costless –Linkages must add little if any cost to the processes –Allows mass customization to be a low-cost alternative. Seamless –Linkages and individual modules should be invisible to the customer Frictionless –Networks or collections of modules must be formed with little overhead. –Communication must work instantly V10-41

44. Mass Customization and SCM Many of the advanced SCM approaches and techniques essential if mass customization is to be successfully implemented IT critical for effective SCM is also critical for coordinating different modules Concepts like strategic partnerships and supplier integration essential for the success of mass customization. Postponement can play a key role in implementing mass customization V10-42

45. Summary of Key Principles Design for logistics concepts –Efficient packaging and storage –Certain manufacturing steps can be completed in parallel –Standardization Integrating suppliers into the product design and development process Advanced supply chain management facilitating mass customization V10-43

46. Wrap-Up Questions – Module 10 How does the proliferation of Products, Models and Options make the supply chain more difficult to manage? How do standardization strategies help managers deal with variability and the difficulty of making accurate forecasts? What are the advantages and disadvantages of integrating suppliers into the product development process? You are the CEO of a medium sized apparel manufacturer and you are considering a mass customization strategy for some of your products. How will you decide which, if any, of your products are appropriate candidates for mass customization? V10-44