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CHAPTER NO. 8 INVENTORY MANAGEMENT
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INVENTORY MANAGEMENT The dictionary meaning of inventory is “stock of goods, or a list of goods” consisting of various forms.Inventory serves as a link between production & distribution processes. It serves the link between production & distribution processes. The investments In Inventories constitutes the most significant part. It also provides cushion for future price fluctuations. One of the most expensive assets of many Companies inventory system representing as much as 50% of total invested capital. Operations managers must balance inventory investment and customer service.
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INVENTORY VARIOUS FORMS OF INVENTORY Raw material Work in progress
Consumables Finished goods spares PURPOSE/ BENEFITS OF HOLDING INVENTORIES Transaction motive Precautionary motive Speculative motive
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TYPES OF INVENTORY Raw material Work-in-process
Purchased but not processed Work-in-process Undergone some change but not completed A function of cycle time for a product Maintenance/repair/operating (MRO) Necessary to keep machinery and processes productive Finished goods Completed product awaiting shipment
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Types of Inventory Work in process Raw Materials Work in process
Finished goods Vendors Customer Work in process
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TYPES OF INVENTORY Inputs Outputs In Process Raw Materials Process
Purchased parts Maintenance and Repair Materials Outputs Finished Goods Scrap and Waste Process (in warehouses, or “in transit”) In Process Partially Completed Products and Subassemblies (often on the factory floor)
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FUNCTIONS OF INVENTORY
To decouple or separate various parts of the production process To decouple the firm from fluctuations in demand and provide a stock of goods that will provide a selection for customers To take advantage of quantity discounts To hedge against inflation To decouple or separate various parts of the production process To decouple the firm from fluctuations in demand and provide a stock of goods that will provide a selection for customers To take advantage of quantity discounts To hedge against inflation
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REASONS TO HOLD INVENTORY
Meet variations in customer demand: Meet unexpected demand Smooth seasonal or cyclical demand Pricing related: Temporary price discounts Hedge against price increases Take advantage of quantity discounts Process & supply surprises Internal – upsets in parts of or our own processes External – delays in incoming goods Transit Reasons To NOT Hold Inventory Carrying cost Financially calculable Takes up valuable factory space Especially for in-process inventory Inventory covers up “problems” … That are best exposed and solved
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Two Forms of Demand Dependent Independent
Demand for items used to produce final products Tires stored at a Goodyear plant are an example of a dependent demand item Independent Demand for items used by external customers Cars, appliances, computers, and houses are examples of independent demand inventory
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INVENTORY HIDES PROBLEMS
Bad Design Poor Quality Lengthy Setups Machine Breakdown Inefficient Layout Unreliable Supplier
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TO EXPOSE PROBLEMS: REDUCE INVENTORY LEVELS
Bad Design Poor Quality Lengthy Setups Machine Breakdown Inefficient Layout Unreliable Supplier
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Remove Sources of Problems & Repeat the Process
Poor Quality Lengthy Setups Bad Design Machine Breakdown Inefficient Layout Unreliable Supplier
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Typical Inventory Carrying Costs
Costs as % of Inventory Value Housing cost: Building rent or depreciation Building operating cost Taxes on building Insurance Material handling costs: Equipment, lease, or depreciation Power Equipment operating cost Manpower cost from extra handling and supervision Investment costs: Borrowing costs Taxes on inventory Insurance on inventory Pilferage, scrap, and obsolescence Overall carrying cost 6% (3% - 10%) 3% (1% - 4%) (3% - 5%) 10% (6% - 24%) 5% (2% - 10%) (15% - 50%)
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The Material Flow Cycle
Cycle time 95% 5% Input Wait for Wait to Move Wait in queue Setup Run Output inspection be moved time for operator time time Figure 12.1
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RISK & COSTS OF HOLDING INVENTORIES
CAPITAL COSTS STORAGE & HANDLING COSTS RISK OF PRICE DECLINE RISK OF OBSOLESCENCE RISK OF DETERIORATION IN QUALITY
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Nature of Inventory: Adding Value through Inventory
Quality - inventory can be a “buffer” against poor quality; conversely, low inventory levels may force high quality Speed - location of inventory has gigantic effect on speed Flexibility - location, level of anticipatory inventory both have effects Cost - direct: purchasing, delivery, manufacturing indirect: holding, stock out.
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INVENTORY MANAGEMENT The investment in inventory is very high than in other assets, in most of the undertakings engaged in manufacturing, whole-sale & retail trade .In India study of 29 major industries has revealed that the average cost of materials is 64 paisa & labour and overheads is 36 paisa in a rupee. In sugar industries, raw material cost is 68.75% of the total costs. About 90% of the working capital is invested in inventories. A proper planning of purchasing ,storing & accounting should form a part of inventory management. An efficient system of inventory management will determine What to purchase How much to purchase From where to purchase Where to store.
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INVENTORY MANAGENENT To ensure continuous supply
To avoid over stocking & under stocking Maintain investment in inventories To keep material cost under control To eliminate duplication in ordering stocks To minimize the losses To design proper organization for inventory management To ensures perpetual inventory control To ensure right quality goods at reasonable prices To facilitate furnishing of data for short-term & long term.
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TOOLS & TECHNIQUES OF INVENTORY MANAGEMENT
1. DETERMINATION OF STOCK LEVELS 2.DETERMINATION OF SAFETY STOCKS 3. PROPER SYSTEM OF ORDERING FOR INVENTORIES 4. ECONOMIC ORDER QUANTITY 5. ABC ANALYSIS 6. VED ANALYSIS 7. INVENTORY TURNOVER RATIO 8. AGING SCHEDULE OF INVENTORIES 9. CLASSIFICATION & CODIFICATION OF INVENTORIES 10. INVENTORY REPORTS 11. PREPETUAL INVENTORY SYSTEM 12. JIT CONTROL SYSTEM 13. LEAD TIME
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ABC ANALYSIS The materials are divided in to a number of categories for adopting a selective approach for material control. Classification of items as a, b, or c Purpose: set priorities for management attention. ‘A’ items: 20% of the items contributes, 80% value ‘B’ items: 30 % of Items contributes , 15% Value ‘C’ items: 50 % of Items contributes , 5% value Three classes is arbitrary; could be any number. Percents are approximate.
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ABC Analysis Example Percentage of dollar value Percentage of items 10
20 30 40 50 60 70 80 90 100 Percentage of items Percentage of dollar value 100 — 90 — 80 — 70 — 60 — 50 — 40 — 30 — 20 — 10 — 0 — +Class C Class A +Class B
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DETERMINATION OF ECONOMIC ORDER QUANTITY (EOQ)
Economic order quantity is the size of the lot to be purchased which is economically viable. This the quantity of materials which can be purchased at minimum costs. ASSUMPTIONS Demand rate D is constant, recurring, and known Amount in inventory is known at all times Ordering (setup) cost S per order is fixed Lead time L is constant and known. Unit cost C is constant (no quantity discounts) Annual carrying cost is i time the average RUPEE value of the inventory No stock outs allowed. Material is ordered or produced in a lot or batch and the lot is received all at once
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EOQ Lot Size Choice There is a trade-off between lot size and inventory level. Frequent orders (small lot size): higher ordering cost and lower holding cost. Fewer orders (large lot size): lower ordering cost and higher holding cost.
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EOQ Inventory Order Cycle
Demand rate Order qty, Q Inventory Level ave = Q/2 Reorder point, R Lead time Lead time Time As Q increases, average inventory level increases, but number of orders placed decreases Order Placed Order Received Order Placed Order Received
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Total Cost of Inventory – EOQ Model
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EOQ Cost Model Co - cost of placing order D - annual demand
Cc - annual per-unit carrying cost Q - order quantity Annual ordering cost = CoD Q Annual carrying cost = CcQ 2 Total cost = .
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CALCULATION OF ECONOMIC ORDER QUANTITY WHERE- A= ANNUAL CONSUMPTION S= COST OF REPLACING AN ORDER I= INVENTORY CARRYING COSTS OF ONE UNIT EOQ= 2AS I TC = Q CoD 2 CcQ = Q2 Cc Q TC 0 = C0D Qopt = 2CoD Deriving Qopt
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EOQ Cost Model (cont.) Order Quantity, Q Annual cost Total Cost
Ordering Cost = CoD Q Slope = 0 Minimum total cost Optimal order Qopt Carrying Cost = CcQ 2
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ECONOMIC ORDER QUANTITY
ORDERING COSTS Cost of staff Transportation expenses Inspection costs Cost of stationary, typing, postage etc. CARRYING COSTS Cost of capital invested Cost of storage Cost of loss of material due to natural factors Insurance cost Cost of spoilage in handling of material
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Holding, Ordering, and Setup Costs
Holding costs - the costs of holding or “carrying” inventory over time Ordering costs - the costs of placing an order and receiving goods Setup costs - cost to prepare a machine or process for manufacturing an order
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Production Quantity Model
An inventory system in which an order is received gradually, as inventory is simultaneously being depleted Non-instantaneous receipt model assumption that Q is received all at once is relaxed p - daily rate at which an order is received over time d - daily rate at which inventory is demanded
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PRODUCTION QUANTITY MODEL
Q(1-d/p) Inventory level (1-d/p) Q 2 Time Order receipt period Begin order receipt End Maximum inventory level Average
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SAFETY STOCKS Safety stock Stockout Service level
buffer added to on hand inventory during lead time Stockout an inventory shortage Service level probability that the inventory available during lead time will meet demand
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Safety Stock Reorder point, R Q LT Time Inventory level Safety Stock
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Reorder Point Quantity to which inventory is allowed to drop before replenishment order is made Need to order EOQ at the Reorder Point: ROP = D X LT D = Demand rate per period LT = lead time in periods
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P-System Periodic Review Method
an alternative to ROP/Q-system control is periodic review method Q-system - each stock item reordered at different times - complex, no economies of scope or common prod./transport runs P-system - inventory levels for multiple stock items reviewed at same time - can be reordered together higher carrying costs - not optimum, but more practical
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VALUATION OF INVENTORIES
1. FIRST IN FIRST OUT METHOD 2. LAST IN FIRST OUT METHOD 3. AVERAGE PRICE METOD 4. BASE STOCK METHOD 5. STANDARD PRICE METHOD 6. MARKET PRICE METHOD
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