Chapter 5 Activity-Based Costing Undercosting and Overcosting • Consider the costing of a bill for four friends who go for dinner. • Each diner orders separate entrees, desserts, and drinks. • Bill details are as follows: Emma James Jessica Matthew Total Entrée $11 20 15 14 $60 Dessert $0 8 4 4 $16 Drinks $4 14 8 6 $32 Total $15 42 27 24 $108 Average $15 $4 $8 $27 Over- and Undercosting • Overcosting – a product consumes a low level of resources (costs) but is allocated high costs per unit • Undercosting – a product consumes a high level of resources (costs) but is allocated low costs per unit Plastim Corporation • Manufactures lenses for rear taillights of automobiles • Makes two types of lenses for Giovanni Motors – A complex lens, CL5 – A simple lens, S3 • Processes at Plastim include: – Design products – Manufacture lenses – Distribute lenses Some Basic Data at Plastim • Simple S3 lenses – 60,000 units (sales) budgeted for 2010 – Uses 30,000 DLH’s – Sells for $63 each – Competitor has offered this product for $53 to Giovanni • Complex CL5 lenses – 15,000 units (sales) budgeted for 2010 – Uses 9,750 DLH’s – Sells for $137 each – No price pressure exists Product Costing at Plastim • To guide pricing and cost-management decisions, Plastim assigns all costs (both mfg. and non-mfg.) to its products • Plastim’s simple costing system traces direct materials and direct labor costs to products (CL5 and S3 lenses) • All other costs in the value chain are allocated to products using a single overhead rate using DLH as the allocation base Overview of Plastim’s Simple Costing System Allocation Rate per DLH (Step 5) Budgeted indirect-cost rate = = Budgeted total costs in indirect-cost pool Budgeted total quantity of cost-allocation base $2,385,000 39,750 direct manufacturing labor-hours $60 per direct = manufacturing labor-hour Allocation of Indirect Costs to Products (Step 6) • Plastim expects to use 30,000 total direct manufacturing labor-hours to make the 60,000 S3 lenses, and • 9,750 total direct manufacturing laborhours to make the 15,000 CL5 lenses. • Thus, indirect costs of $1,800,000 are allocated to the simple lens, and • $585,000 are allocated to the complex lens. Plastim’s Product Costs Using Simple Costing Product Profitability Using Simple Costing 60,000 Simple Lenses (S3) Total Per Unit Revenues Costs Operating Income Profit margin percentage 15,000 Complex Lenses (CL5) Total Per Unit Total $3,780,000 $63.00 $2,055,000 $137.00 $5,835,000 3,525,000 58.75 1,455,000 97.00 4,980,000 $ 255,000 $ 4.25 6.75% $ 600,000 $ 40.00 29.20% $ 855,000 Guidelines for Refining a Cost System • Direct-cost tracing - categorize as many of the overall costs as direct costs (as economically feasible) • Divide indirect-cost pool into several homogeneous groups (pools) with cause-andeffect relationships between the cost driver and indirect cost • Define cost-allocation bases (cost drivers) for each cost pool using cause-and-effect criterion Activity-Based Costing Systems Assignment to Other Cost Objects Fundamental Cost Objects Activities Costs of Activities Costs of: * Products * Services * Customers Plastim's ABC System - Activities a. Design products and processes b. Set up molding machines to ensure that the molds are properly held in place and parts are properly aligned before manufacturing starts c. Operate molding machines to manufacture lenses d. Clean and maintain the molds after lenses are manufactured e. Prepare batches of finished lenses for shipment f. Distribute lenses to customers g. Administer and manage all processes at Plastim Setup Data For Products Quantity of lenses produced Number of lenses produced per batch Number of batches Setup time per batch Total setup-hours Simple S3 Lens Complex CL5 Lens 60,000 15,000 240 50 250 300 2 hours 5 hours 500 hours 1,500 hours Total 2,000 hours Alternative Allocation Rates For Setup Cost to Products • Of the $2,385,000 in the total indirect-cost pool, Plastim identifies the total costs of setups to be $300,000. • Of the $60 total rate per direct manufacturing labor-hour, the setup cost per direct manufacturing labor-hour amounts to $7.54717 ($300,000/39,750 total direct manufacturing labor-hours). • The setup cost per setup-hour equals $150 ($300,000 / 2,000 total setup-hours). Allocation of Setup Costs to Products Simple S3 Lens Setup cost allocated using direct manufacturing Complex CL5 Lens Total $ 226,415 $ 73,585 $ 300,000 $ $ 225,000 $ 300,000 labor-hours: $7.54717 X 30,000; $7.54717 X 9,750 Setup cost allocated using setup-hours: $150 X 500; $150 X 1,500 75,000 Cost Hierarchies • A cost hierarchy defines each activity cost pool as falling into one of four categories • The four categories in ABC systems are as follows: – – – – Unit-level (output-level) costs Batch-level costs Product-sustaining-level costs Facility-sustaining-level costs Definitions • Unit-level – activities undertaken for every part made (machining operations) • Batch-level – activity is related to a group of units produced (setup, move material) • Product-sustaining – activity supports individual products regardless of the number of units or batches produced • Facility-sustaining – activities that support the organization as a whole. Assigned costs cannot be traced to any particular product (administrative costs, building rent, landscaping services) Overview of Plastim’s ABC System Direct Costs Using ABC Costing Description Cost Hierarchy Category 60,000 15,000 Simple Lenses (S3) Complex Lenses (CL5) Total Per Unit Total Total Per Unit Direct Materials Output unitlevel $1,125,000 $18.75 $675,000 $45.00 $1,800,000 Direct Manuf. Labor Output unitlevel 600,000 10.00 195,000 13.00 795,000 Mold cleaning & Batch-level maintenance $ 120,000 $ 2.00 $ 150,000 $ 10.00 $ Total direct costs $1,845,000 $ 30.75 $ 1,020,000 $ 68.00 $ 2,865,000 270,000 Activity-Cost Rates for Plastim’s Indirect Costs Pools Plastim’s Product Costs Using ABC Plastim: Simple & ABC Compared Activity-Based Management • A method of management that used ABC as an integral part in critical decision-making situations, including: – Pricing and product-mix decisions – Cost reduction and process improvement decisions – Design decisions – Planning and managing activities