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OPERATIONS MANAGEMENT OPRE 6260 Raymond Lutz
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Products, Processes, and Performance - Chapter 1 Learning Objectives An operation as a transformation process Product attributes / Operational capabilities Process drivers / Operations structure
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Operations and Strategy - Chapter 2 –Operational focus Learning Objectives Link between business strategy, operations strategy, and operations structure –Strategy vs. Operational effectiveness –Process drivers / Operations structure –How to do an operational audit
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Operations and Strategy - Chapter 2 Link between business strategy, operations strategy, and operations structure –Process classification and relationship with strategy –Tradeoffs of price vs. variety competition: trade off scale economies with variety diseconomies
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Process Flow Measures - Chapter 3 Learning Objectives Process measures: time, inventory, and throughput What is an improvement? –Link financial and operational measures –Good operational measures are leading indicators of financial performance Using Little’s Law for process flow analysis: CRU Rental
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Flow Time Analysis - Chapter 4 Learning Objectives Process measures: –Flow time - manages critical activities –Capacity manages critical resources Levers for improving –Flow time - manages critical activities –Capacity and throughput Process capacity depends upon a zillion things
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Flow Rate and Capacity Analysis - Chapter 5 Learning Objectives Effect of product mix decisions on process capacity –Marginal contribution per unit of bottleneck capacity used Process flow charts with multiple products
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Flow Rate and Capacity Analysis - Chapter 5 Backups may not occur in front of a bottleneck Bottlenecks may shift on adding capacity, diminishing returns to capacity investment
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Inventory Analysis - Chapter 6 Learning Objectives Increasing batch size of production or purchase increases average inventories and thus cycle time Average inventory for a batch of size Q is Q/2 The optimal batch size trades off setup cost and holding cost
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Inventory Analysis - Chapter 6 To reduce batch size, one has to reduce setup time (cost) Square-root relationship between Q and (R,S) –If demand increases by a factor of 4, it is optimal to increase batch size by a factor of 2 and produce twice as often –To reduce a batch size by a factor of 2, setup cost has to be reduced by a factor of 4
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Managing Flow Variability: Safety Inventory - Chapter 7 Learning Objectives Postponement can be used to better match supply and demand Accurate response for “fashion” goods –Trade-off cost of over and understocking
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Managing Flow Variability: Safety Capacity - Chapter 8 Learning Objectives Queues build up due to variability Reducing variability improves performance If service cannot be provided from stock, safety capacity must be provided to cover for variability
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Managing Flow Variability: Safety Capacity - Chapter 8 Pooling servers improves performance Demand and supply management in servers
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Process Control and Capability - Chapter 9 Learning Objectives Every process displays variability - normal or abnormal Control charts monitor processes to identify abnormal variability Local control yields early detection and correction of abnormal variability Process “in control” indicates only its internal stability
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Process Control and Capability - Chapter 9 Process capability is its ability to meet external customer needs Improving process capability involves changing the mean and reducing normal variability, requiring a long term investment
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Process Control and Capability - Chapter 9 Robust, simple, standard, and mistake- proof design improves process capability Joint, early involvement in design improves quality, speed, and cost
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