SCO Chapter 16
finite capacity scheduling
-establishes a work schedule to be produced in a certain time period while considering relevant limitations of resources -creates a sequence of activities with associated times so that no resource is assigned more work time than the time available
master schedule
-specifies the end items or output of the production function -contains specific product configurations or final assembly part numbers -driven by the total of future expected demand, including sales and operations planning (S&OP), forecasts, orders form customers, and orders for finished-goods inventory
shop loading
-used in capacity planning -a full parts explosion is run before capacity planning -the resulting shop orders are loaded against work centers through the use of detailed parts-routing data -workforce and machine hours for each work center are projected into the future - -if sufficient capacity is not available, management should adjust either capacity or the master schedule until it is feasible -at this point, a valid materials plan is available
challenges to implementing an ERP system
1. expensive 2. time-consuming 3. risky 4. non-trivial (significance)
5 elements of MRP success
1. implementation planning 2. adequate computer support 3. accurate data 4. management support 5. user knowledge at all levels
MRP system elements
1. master scheduling 2. bill of materials (BOM) 3. inventory records 4. capacity planning 5. purchasing 6. shop-floor control
order-point system
Inventory control system in which a purchase order is automatically placed when the number of units on hand of an item falls to order point
closed-loop MRP system (type II)
MRP system that controls both inventories and the capacity of resources used to support production contains a feedback loop between the orders launched and the master schedule to adjust for the capacity availability is called a Manufacturing Resource Planning system
MRP vs. Order Point
MRP: -dependent demand -requirements philosophy -based on master schedule -controls all items -objective: meet manufacturing needs -discrete lot sizing -lumpy, but predictable demand -inventory: work-in-process and raw materials Order Point: -independent demand -replenishment philosophy -based on past demand -ABC control system -objective: meet customer needs -EOQ lot sizing -random demand pattern -inventory: finished goods and spare parts
MRP vs. JIT
MRP: -represents a push system -management constructs a master schedule that represents future forecasts/orders and that determines which components and parts are to be ordered and pushed through production -used in situations such as batch production, job shops -non-repetitive mass production JIT: -represents a pull system -materials are provided only when there is subsequent demand -repetitive master schedule
time-phased materials plan
Time-phased MRP begins with the items listed on the Master Production Schedule and determines the quantity of all components and materials required to fabricate those items and the date that the components and material are required
types of MRP systems (3 types)
Type I: an inventory control system (order launching) Type II: a production and inventory control system (closed loop) Type III: enterprise resource planning (ERP) system
enterprise resource planning (ERP) system
a companywide system used to plan and control all resources integrates a basic MRP system with information from marketing, sales, finance/accounting, and human resources through a common database can be the basis for cross-functional and supply chain integration
materials requirements planning (MRP)
a comprehensive computer-based planning system for both factory and purchase orders (major module within ERP systems) information system used to plan and control manufacturing of dependent-demand inventory systems
bill of materials (BOM)
a listing of components, parts, and other items needed to manufacture a product, showing the quantity of each required for each intermediate item
cycle counting
a methodology for counting items in storage that counts more important items more often and systematically improves the record-keeping process -a small percentage of items are counted each day by storeroom personnel -errors are corrected in the records, and an attempt is made to find and correct the procedure that caused them -developing accuracy and adopting daily cycle counting can help firms eliminate most errors in inventory records
order-launching MRP system (type I)
a minimal inventory control system that releases manufacturing and purchase orders for the right quantities at the right time to support the master schedule launches orders to control work-in-process and raw-materials inventories this system does not include capacity planning and shop-floor control
engineering-change-order (ECO) system
a request for a change in a product design needed to keep BOMs up to date
planned order
an MRP term for a recommended purchase order or manufacturing order generated by the planning system
manufacturing execution system (MES)
an information system that collects and presents real-time information on manufacturing operations and prioritizes manufacturing operations from the time a manufacturing order is started until it is completed (also called a shop-floor control system)
safety capacity
capacity that is available in case of an emergency the difference between the planned capacity and the planned demand
parts explosion
determines all the parts and components needed to make a specified number of units 3 principal inputs: master schedule, bill of materials (BOM), and inventory records 2 principal outputs: purchase orders and shop orders parts explosion is at the heart of the MRP system
shop orders
go to the factory
purchase orders
go to vendors
dependent-demand inventories
not subject to market conditions. they are dependent on demand for high-level parts and components up to and including the master production schedule
planned lead times
planned replenishment time for an order
independent-demand inventories
subject to market conditions and are thus independent of operations
net requirement
subtract available inventory from the gross requirements
safety lead time
the difference between the planned and the average time required for a task or manufacturing order "extra" planned lead time used in production planning and purchasing to protect against fluctuations in lead time
materials plan
the set of planned orders and firm orders
shop floor control
the system used to schedule, release, prioritize, track, and report on operations done (or to be done) on orders moving through a factory, from order release to order completion (also called a manufacturing execution system MES)
gross requirements
the total demand quantities for a finished product
