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Capacity planning is the process of determining the production capacity needed by an organization to meet changing demands for its products. [1] In the context of capacity planning, design capacity is the maximum amount of work that an organization or individual is capable of completing in a given period.
Calculate the yield (number out of step/number into step) of each step. Multiply these together. For example: (# units leaving the process as good parts) / (# units put into the process) = FTY 100 units enter A and 90 leave as good parts. The FTY for process A is 90/100 = 0.9000; 90 units go into B and 80 leave as good parts.
Role of Production Planning in the Production Cycle. Production planning is the planning of production and manufacturing modules in a company or industry. It utilizes the resource allocation of activities of employees, materials and production capacity, in order to serve different customers. [1]
Manufacturing resource planning (MRP II) [1] is a method for the effective planning of all resources of a manufacturing company. Ideally, it addresses operational planning in units, financial planning, and has a simulation capability to answer "what-if" questions and is an extension of closed-loop MRP (Material Requirements Planning). [2]
S&OP is the result of planning activities and it is composed of 5 main steps: data gathering, demand planning, supply planning, pre-meeting and executive meeting [7] with the addition of a preliminary step at the beginning (event plans), [8] two additional steps at the end of the process in case of a multinational company (global roll-up and ...
Capacity utilization or capacity utilisation is the extent to which a firm or nation employs its installed productive capacity (maximum output of a firm or nation). It is the relationship between output that is produced with the installed equipment, and the potential output which could be produced with it, if capacity was fully used. [ 1 ]
Traditional production planning and scheduling systems (such as manufacturing resource planning) use a stepwise procedure to allocate material and production capacity. This approach is simple but cumbersome, and does not readily adapt to changes in demand, resource capacity or material availability.
Step 2) Find the bottleneck in the system and identify its surplus capacity. Step 3) Fill the bottlenecks surplus capacity. Step 4) Find out the release time of the material as a result of the new bottlenecks scheduling. Through following these steps, the order production will be completed in the shortest possible time frame. [24]