1.4 The Big Picture: Operations is a Transformation Process
In OSCM, your goal is to use inputs—labor, plant and equipment, component parts, and services—to "make" something customers want and are willing to pay for. If customers won't pay more to possess products than you paid to produce them, you go out of business—usually in a hurry! Let's reiterate this fact: Your ability to make "things" efficiently and effectively determines how long you stay in business. Thus, as Figure 1.5 highlights, "Make" is at the heart of the ASCM Supply Chain Council Supply Chain Operations Reference (SCOR) model! The SCOR model is a tool used by leading companies around the world to improve operations and enhance value creation.
An Open Systems View
Figure 1.6 models your firm as a simple input-output model within the context of an open system. What does this mean? Let’s emphasize a few key points that you need to grasp.
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Open Systems. All businesses, including yours, compete to survive in an open system. Each change in the environment—e.g., a new rival starts up or a new technology emerges—impacts your strategy and your ability to compete. To prosper, you need to recognize opportunities and threats, be quick to respond, and create more value than your rivals.
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Resource Access. Everyone—including your toughest rivals—has pretty much the same access to inputs.
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Empowered Customers. On the output side, you need to remember that your customers have information and options. They can buy from someone else—and will—if you don't meet their needs.
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How, Not What. In the marketplace described by the previous three bullet points, success is driven more by how you use resources than by what you make. Rivals can, and will, copy products and services. It is much harder to copy processes and culture. This is the secret of the Toyota Production System (better known today as lean manufacturing).
The bottom line: You need to take ownership of what takes place within the "black box" of operations management. If you cultivate the right culture and provide the right structure, you can bring human and technology systems together to create value rivals can't copy. This is the key to enduring prosperity!
You need to know one more thing before we investigate operations' key decision areas: There is no such thing as the "perfect" way to make things. The things we make are too distinct and novel for a single process to handle efficiently. Consider four production-process types:
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Hand Crafted: Orrefors, the Swedish producer of fine leaded crystal, uses an artisan-based glass-blowing process.
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Assembly Line: Toyota mastered the pull system to automate massive assembly lines to build automobiles.
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Fixed Location: Embraer, the Brazilian aircraft manufacturer, uses a semi-fixed assembly process to produce regional jets.
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Customer Engagement: Benihana engages customers in the preparation of delicious meals.
These exemplar companies employ unique, value-added resources (human and technology) to perform different activities arranged in distinctive physical layouts. They are all successful because they align their value-added processes to the specific products or services they produce and deliver. The goal: To create outstanding customer value. What is common across these—and almost all operations processes—is a set of core decisions that you must manage in order to achieve world-class results. Figure 1.7 classifies these core decisions into two groups: design decisions and control decisions.
Design Decisions
Design decisions determine where and how you deploy your assets—especially plant and equipment (i.e., your infrastructure)—to create value over the long haul. These decisions are resource-intensive, hard to change in the short term, and have a long-term impact on your firm's competitiveness. You want to make these decisions very carefully.
Product Design
What should you make? What you need to remember here is that you need to identify and develop products that meet customers' unmet needs. To produce these products efficiently—at a competitive cost—you need to consider product and process design at the same time. You want to design products so that they can be easily and inexpensively made. We call this design for manufacturability (DFM). You also want to design products so that you can switch production from one model or product to another quickly, helping you be more responsive to customer needs and shifts in market demand.
Sustainability is a big deal. So big that many companies push their supply chains to produce more environmentally friendly products. For example, in 2005, Walmart's CEO, Lee Scott, announced it would "sell products that sustain our resources and environment." This announcement was huge since 90% of Walmart's sustainability impact comes from its supply chain. 1
Almost immediately, Walmart showcased All Small and Mighty® as a perfect example of a sustainable product. As a super-concentrated laundry detergent, All Small and Mighty® was a third the size of its predecessor. Less water was used in production and less packaging was required for shipping. The result: More units fit on a pallet, reducing carbon footprint and transportation costs. Walmart was confident more sustainable product hits would follow.
But, Walmart found it difficult to persuade suppliers to develop truly sustainable products. Why, you ask? First, suppliers incur a lot of up-front costs and may even need to change manufacturing processes. Second, determining what is—and is not—sustainable is not as easy as it sounds. For example, which is more sustainable—paper or foam cups? If you answered paper, you are not alone. Most people do. However, polystyrene foam is composed 95% out of air. The result: less material and less energy are used to make it and less bulk waste results. Moreover, recyclability favors foam. Among the 50 largest U.S. cities, 16% of the population can recycle foam. Only 11% of U.S. recycling plants can recycle paper cups. So, which is the more sustainable product? 2
Until we agree on a definition of what constitutes sustainable, Walmart will find it difficult to persuade supply partners to design and manufacture sustainable products.
Process Design
How should you make things? Part I: Process design focuses on the technology and work design you use to make things. Think about your kitchen. When it is time to cook something, you can bake, broil, boil, fry, or microwave. To clean up you can wash by hand in the sink or use the dishwasher. To cook an entire dinner, you might use a variety of other technologies, including blenders, mixers, and toasters (which is just scratching the surface of technology choice). The same is true in a factory. You choose technology based on the following:
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Production volumes
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Financial resources
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Labor cost
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The inter-changeability of capital and labor
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The technology used by competitors
Your choice of technology will affect work design, especially how you group different tasks to promote efficiency and quality. Your goal in work design is to increase process efficiency and worker motivation. Poorly designed jobs—comprised of tedious, narrowly defined tasks—alienate workers, reduce productivity, and stifle learning. To remedy this, you may emphasize job enlargement, job enrichment, and employee involvement programs.
Facility Layout
How should you make things? Part II: Facility layout focuses on how you will use your plant and equipment to make things efficiently. Again, think about your kitchen. When you are cooking, where you place everything determines how easy and efficient it is to prepare an elegant meal or a delicious dessert. Ideally, you want to have everything within reach to minimize movement. This is the idea behind the u-shaped efficiency kitchen.
The same principles apply in a manufacturing facility. Where you position equipment defines the flow of materials and the number of times you must handle each item. The ideal layout minimizes movement and handling, creating a simple and smooth flow of materials through the facility. Unfortunately, over time, once-efficient layouts become circuitous as the products you produce and the technologies used to produce them change. Simply put, you need to reevaluate facility design from time to time to make sure your layout still makes sense.
Facility Location
Where should you make things? You want to locate your operations in places that give you access to either factor inputs (low-cost labor or materials) or consumer markets. For example, companies locate to China for both. Labor rates are comparatively low and the Chinese market has over 1.4 billion potential consumers. As you evaluate potential locations, you will probably focus extensively on labor costs or resource proximity. Almost every company does. However, you really need to take a broader, total-cost focus and consider all of the following:
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The cost of land, construction, and energy
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Tax rates
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Transportation rates and availability
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Labor availability and productivity
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Materials cost
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The location of customers and competitors
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Lifestyle considerations
If you work for a service company, you will pay more attention to where your customers are located.
If you are a famous German luxury brand and the world's largest truck maker with dominant positions in the Americas and Europe, how do you compete against hungry, uber low-cost rivals from China? If you are Daimler AG, you set up shop in India to manufacture a stripped-down line of trucks!
In 2012, Daimler opened its growing BharatBenz operation in India. The goal: Establish a development and manufacturing hub to fend off fierce Chinese expansion in Asia and Africa. To put Daimler's plans in context consider the following:
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Daimler sold 484,200 trucks in 2013, generating $40.4 billion in sales and $2.24 billion in operating profit.
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The global truck market is expected to reach 3.7 million vehicles by 2020.
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India is the world's fastest-growing commercial vehicle market. Sales are expected to reach 410,000 trucks by 2020.
Operating in India is more than just about reducing labor costs. It's about learning what customers in developing markets want—and are willing to pay for. An early lesson for Daimler was that "less truck could mean more business." Customers in India and across Southeast Asia and Africa simply don't need the brawn and speed Daimler is used to delivering. Did you know that the average speed on highways in India is only 15 miles (25 km) per hour?
So far, the strategy seems to be working. The BharatBenz factory sold almost 10,000 trucks in 2014. Sometimes, if you want to really be in touch with the market, you have to build where you sell!
Control Decisions
Control decisions are the day-to-day decisions you make that define how you make things. Your focus is to have the materials you need, move them efficiently through the production process, and assure that your transformation processes deliver exceptional quality.
Forecasting
Will you have the right materials when you need them? Forecasting helps you estimate what products you need to produce and when you need to produce them. Forecasting is your tool for guessing what products are going to sell. If your guesses are accurate, you can make sure you produce the right products in the right quantities to meet customer needs. You use forecasts to determine capacity needs, plan production, refine workforce plans, and determine inventory levels.
You need to be familiar with a range of forecasting techniques from simple moving averages to advanced econometric models. Most techniques use historical data, looking specifically at sales trends. One point you want to remember is that forecasts are almost always wrong. To remedy this flaw, you want to obtain the best, most recent information possible. You also want to build flexible operations. Flexibility helps you compensate if demand exceeds your forecast.
Inventory Control
Will you have enough materials when you need them? Inventory decisions help you decide how much and when to make specific products. You answer the question of "how much to produce" by calculating an economic order quantity. The economic order quantity balances the cost of setting up production with the cost of storing goods. Larger production runs yield lower unit costs, but increase your holding costs. Your goal is often to reduce inventories. Remember, however, that if your inventories are too low, you may stock out, missing out on sales and frustrating customers. In other words, inventory fits the Goldilocks rule: You don't want too much or too little. You want just the right amount.
You answer the question of when to produce by calculating a reorder point, which compares the amount of inventory currently available to the rate of demand.
Scheduling
How will you use your resources? Scheduling helps you prioritize what you will produce. You schedule at two levels. First, you use aggregate planning to decide what needs to be produced and more or less when you need to produce it. To develop your aggregate plan, you need the following:
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Knowledge regarding your production capacity
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A demand forecast
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Cost data for different resources.
Second, you schedule the work to be done at any point in time. In other words, you assign different priorities to each job/product/project. You will use different tools depending on the type of product you make. For example, consider the following.
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Low-volume Job Shop. In a low-volume setting where multiple jobs might be waiting to be processed at a workstation, you sequence jobs based on customer demand and production efficiencies.
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High-volume Assembly. For high-volume assembly operations, you define product routing when you design your assembly line. You will mix products based on customer demand.
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Project Management. In one-of-a-kind projects such as the construction of an apartment complex, you use project-planning tools to schedule resources and activities.
What you need to remember now is that how you schedule will determine your costs and your ability to deliver what your customers want—when they want it!
Quality Control
Will your product meet customer expectations? Quality control helps you design, build, and inspect quality into both the transformation process and the product. You need to remember two points:
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Quality has many definitions. Consider three common definitions:
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Fitness for use
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Conformance to specifications
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Meeting customer expectations
Ultimately, quality really is nothing more or less than meeting customer expectations!
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No amount of inspection can make a bad product into a good one. 4
Your goal is to make things right the first time, every time. You can use a variety of statistical tools to guide product design, monitor process quality, and evaluate the quality of finished products. Remember, quality control is equally important in the delivery of services. However, you may find measurement to be more difficult. After all, service quality is often viewed from the perspective of customer satisfaction.
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