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Saturday, 04 June 2011 22:53

 

Material Requirements Planning

Material requirements planning (MRP) is a production planning and inventory control system used to manage manufacturing processes. Most MRP systems are software-based, while it is possible to conduct MRP by hand as well.

An MRP system is intended to simultaneously meet three objectives:

§  Ensure materials are available for production and products are available for delivery to customers.

§  Maintain the lowest possible material and product levels in store

§  Plan manufacturing activities, delivery schedules and purchasing activities.

History

Prior to MRP, and before computers dominated industry, reorder-point/reorder-quantity (ROP/ROQ) type methods like EOQ had been used in manufacturing and inventory management. In the 1960s, studied a company Manufacturing Program and developed Material Requirements Planning (MRP), and  then developed MRP into manufacturing resource planning (MRP II). MRP was implemented in 150 companies. This number had grown to about 8,000 by 1981. In the 1980s,

The scope of MRP in manufacturing

The basic function of MRP system includes inventory control, bill of material processing and elementary scheduling. MRP helps organizations to maintain low inventory levels. It is used to plan manufacturing, purchasing and delivering activities.

"Manufacturing organizations, whatever their products, face the same daily practical problem - that customers want products to be available in a shorter time than it takes to make them. This means that some level of planning is required."

Companies need to control the types and quantities of materials they purchase, plan which products are to be produced and in what quantities and ensure that they are able to meet current and future customer demand, all at the lowest possible cost. Making a bad decision in any of these areas will make the company lose money. A few examples are given below:

§  If a company purchases insufficient quantities of an item used in manufacturing (or the wrong item) it may be unable to meet contract obligations to supply products on time.

§  If a company purchases excessive quantities of an item, money is wasted - the excess quantity ties up cash while it remains as stock and may never even be used at all.

§  Beginning production of an order at the wrong time can cause customer deadlines to be missed.

MRP is a tool to deal with these problems. It provides answers for several questions:

§  What items are required?

§  How many are required?

§  When are they required?

MRP can be applied both to items that are purchased from outside suppliers and to sub-assemblies, produced internally, that are components of more complex items.

The data that must be considered include:

§  The end item (or items) being created. This is sometimes called Independent Demand, or Level "0" on BOM (Bill of materials).

§  How much is required at a time.

§  When the quantities are required to meet demand.

§  Shelf life of stored materials.

§  Inventory status records. Records of net materials available for use already in stock (on hand) and materials on order from suppliers.

§  Bills of materials. Details of the materials, components and sub-assemblies required to make each product.

§  Planning Data. This includes all the restraints and directions to produce the end items. This includes such items as: Routings, Labor and Machine Standards, Quality and Testing Standards, Pull/Work Cell and Push commands, Lot sizing techniques (i.e. Fixed Lot Size, Lot-For-Lot, Economic Order Quantity), Scrap Percentages, and other inputs.

Outputs

There are two outputs and a variety of messages/reports:

§  Output 1 is the "Recommended Production Schedule" which lays out a detailed schedule of the required minimum start and completion dates, with quantities, for each step of the Routing and Bill Of Material required to satisfy the demand from the Master Production Schedule(MPS).

§  Output 2 is the "Recommended Purchasing Schedule". This lays out both the dates that the purchased items should be received into the facility AND the dates that the Purchase orders, or Blanket Order Release should occur to match the production schedules.

Messages and Reports:

§  Purchase orders. An order to a supplier to provide materials.

§  Reschedule notices. These recommend cancelling, increasing, delaying or speeding up existing orders.

Problems with MRP systems

The major problem with MRP systems is the integrity of the data. If there are any errors in the inventory data, the bill of materials (commonly referred to as 'BOM') data, or the master production schedule, then the output data will also be incorrect (colloquially, "GIGO": Garbage In, Garbage Out). Data integrity is also affected by inaccurate cycle count adjustments, mistakes in receiving input and shipping output, scrap not reported, waste, damage, box count errors, supplier container count errors,production reporting errors, and system issues. Many of these type of errors can be minimized by implementing pull systems and using bar code scanning. Most vendors in this type of system recommend at least 99% data integrity for the system to give useful results.

Another major problem with MRP systems is the requirement that the user specify how long it will take for a factory to make a product from its component parts (assuming they are all available). Additionally, the system design also assumes that this "lead time" in manufacturing will be the same each time the item is made, without regard to quantity being made, or other items being made simultaneously in the factory.

A manufacturer may have factories in different cities or even countries. It is not good for an MRP system to say that we do not need to order some material, because we have plenty thousands of miles away. The overall ERP system needs to be able to organize inventory and needs by individual factory, and inter-communicate the needs in order to enable each factory to redistribute components, so as to serve the overall enterprise.

This means that other systems in the enterprise need to work properly, both before implementing an MRP system and in the future. For example , systems like variety reduction and engineering , which makes sure that product comes out right first time (without defects), must be in place.

Production may be in progress for some part, whose design gets changed, with customer orders in the system for both the old design, and the new one, concurrently. The overall ERP system needs to have a system of coding parts such that the MRP will correctly calculate needs and tracking for both versions. Parts must be booked into and out of stores more regularly than the MRP calculations take place. Note, these other systems can well be manual systems, but must interface to the MRP. For example, a 'walk around' stock intake done just prior to the MRP calculations can be a practical solution for a small inventory (especially if it is an "open store").

The other major drawback of MRP is that takes no account of capacity in its calculations. This means it will give results that are impossible to implement due to manpower or machine or supplier capacity constraints. However this is largely dealt with by MRP II.

Generally, MRP II refers to a system with integrated financials. An MRP II system can include finite / infinite capacity planning. But, to be considered a true MRP II system must also include financials.

In the MRP II (or MRP2) concept, fluctuations in forecast data are taken into account by including simulation of the master production schedule, thus creating a long-term control.[3] A more general feature of MRP2 is its extension to purchasing, to marketing and to finance (integration of all the function of the company), ERP has been the next step.

Solutions to data integrity issues

Bill of material - The best practice is to physically verify the bill of material either at the production site or by un-assembling the product.

Cycle count - The best practice is to determine why a cycle count that increases or decreases inventory has occurred. Find the root cause and correct the problem from occurring again.

Scrap reporting - This can be the most difficult area to maintain with any integrity. Start with isolating the scrap by providing scrap bins at the production site and then record the scrap from the bins on a daily basis. One benefit of reviewing the scrap on site is that preventive action can be taken by the engineering group.

Receiving errors - Manual systems of recording what has been received are error prone. The best practice is to implement the system of receiving by ASN from the supplier. The supplier sends an ASN (Advanced Shipping Notification). When the components are received into the facility, the ASN is processed and then company labels are created for each line item. The labels are affixed to each container and then scanned into the MRP system. Extra labels reveals a shortage from the shipment and too few labels is an over shipment. Some companies pay by ASN reducing the time in processing accounts payables.

Shipping Errors - The container labels are printed from the shipper. The labels are affixed to the containers in a staging area or when they are loaded on the transport.

Production reporting - The best practice is to use bar code scanning to enter production into inventory. Product that is rejected should be moved to an MRB (material review board) location. Containers that require sorting need to be reversed received.

Replenishment - The best replenishment practice is replacement using bar code scanning, or via pull system. Depending upon the complexity of the product, planners can actually order materials using scanning with a min-max system.

Demand Driven MRP

In 2011, the third edition of  Material Requirements Planning" introduced a new type of MRP called Demand Driven MRP(DDMRP). Demand Driven MRP is a multi-echelon formal planning and execution technique with five distinct components:

1.     Strategic Inventory Positioning

2.     Buffer Profiles and Level

3.     Dynamic Adjustments

4.     Demand Driven Planning

5.     Highly Visible and Collaborative Execution.

 

Last Updated on Friday, 07 October 2011 21:47
 
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