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Posted on Aug 01, 2024

3-49 Choice of Cost Driver Study Appendix 3. Richard Ellis, the director of cost operations of American Micro Devices, wishes to develop an accurate cost

3-49 Choice of Cost Driver Study Appendix 3. Richard Ellis, the director of cost operations of American Micro Devices, wishes to develop an accurate cost function to explain and predict support costs in the company's printed circuit board assembly operation. Mr. Ellis is concerned that the cost function that he currently uses- based on direct labor costs-is not accurate enough for proper planning and control of support costs. Mr. Ellis directed one of his financial analysts to obtain a random sample of 25 weeks of support costs and three possible cost drivers in the circuit-board assembly department: direct labor hours, number of boards assembled, and average cycle time of boards assembled. (Average cycle time is the average time between start and certified completion-after quality testing of boards assembled during a weck.) Much of the effort in this assembly operation is devoted to testing for quality and reworking defective boards, all of which increase the average cycle time in any period. Therefore, Mr. Ellis believes that average cycle time will be the best support-cost driver. Mr. Ellis wants his analyst to use regression analysis to demonstrate which cost driver best explains support costs. Week 1 2 3 5 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Circuit Board Assembly Support Costs, Y 566,402 56,943 60,337 50,096 64,241 60.846 43.119 63,412 59,283 60.070 53.345 65,027 58.220 65.406 35,268 46,394 71,877 61,903 50,009 49,327 44,703 45,582 43,818 62.122 52,403 Direct Labor Number of Boards Hours, X, Completed, X2 7,619 2.983 7,678 2,830 7,816 2,413 7,659 2,221 7,646 2,701 7,765 2,656 7,685 2,495 7.962 2,128 7.793 2,127 7.732 2,127 7.771 2,338 7.842 2,685 7.940 2,602 7.750 2,029 7.954 2,136 7.768 2,046 7.764 2,786 7,635 2,822 7.849 2,178 7.869 2,244 7.576 2,195 7.557 2,370 7.569 2,016 7,672 2,315 7.653 2.942 Average Cycle Time (Hours), X, 186,44 139.14 151.13 138.30 158.63 148.71 105.85 174.02 155.30 162,20 142.97 176.08 150.19 194.06 100.51 137.47 197.44 164.69 141.95 123.37 128.25 106.16 131.41 154.88 140.07 Instructions: 1- Determine the cost function using the High-low method for each cost driver (X1, X2, and X3) to prepare a prediction of the Assembly support cost. 2- Determine the cost function using the visual analysis method for each cost driver to predict the assembly cost. You need to plot support costs (y) versus each possible cost driver, X1, X2, and X3 using excel. 3. Use the regression analysis method to measure cost function using each of the cost driver. Which is the best cost driver for support cost? 4. Which prediction method you prefer? Why? [10 Marks] 3-49 Choice of Cost Driver Study Appendix 3. Richard Ellis, the director of cost operations of American Micro Devices, wishes to develop an accurate cost function to explain and predict support costs in the company's printed circuit board assembly operation. Mr. Ellis is concerned that the cost function that he currently uses- based on direct labor costs-is not accurate enough for proper planning and control of support costs. Mr. Ellis directed one of his financial analysts to obtain a random sample of 25 weeks of support costs and three possible cost drivers in the circuit-board assembly department: direct labor hours, number of boards assembled, and average cycle time of boards assembled. (Average cycle time is the average time between start and certified completion-after quality testing of boards assembled during a weck.) Much of the effort in this assembly operation is devoted to testing for quality and reworking defective boards, all of which increase the average cycle time in any period. Therefore, Mr. Ellis believes that average cycle time will be the best support-cost driver. Mr. Ellis wants his analyst to use regression analysis to demonstrate which cost driver best explains support costs. Week 1 2 3 5 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Circuit Board Assembly Support Costs, Y 566,402 56,943 60,337 50,096 64,241 60.846 43.119 63,412 59,283 60.070 53.345 65,027 58.220 65.406 35,268 46,394 71,877 61,903 50,009 49,327 44,703 45,582 43,818 62.122 52,403 Direct Labor Number of Boards Hours, X, Completed, X2 7,619 2.983 7,678 2,830 7,816 2,413 7,659 2,221 7,646 2,701 7,765 2,656 7,685 2,495 7.962 2,128 7.793 2,127 7.732 2,127 7.771 2,338 7.842 2,685 7.940 2,602 7.750 2,029 7.954 2,136 7.768 2,046 7.764 2,786 7,635 2,822 7.849 2,178 7.869 2,244 7.576 2,195 7.557 2,370 7.569 2,016 7,672 2,315 7.653 2.942 Average Cycle Time (Hours), X, 186,44 139.14 151.13 138.30 158.63 148.71 105.85 174.02 155.30 162,20 142.97 176.08 150.19 194.06 100.51 137.47 197.44 164.69 141.95 123.37 128.25 106.16 131.41 154.88 140.07 Instructions: 1- Determine the cost function using the High-low method for each cost driver (X1, X2, and X3) to prepare a prediction of the Assembly support cost. 2- Determine the cost function using the visual analysis method for each cost driver to predict the assembly cost. You need to plot support costs (y) versus each possible cost driver, X1, X2, and X3 using excel. 3. Use the regression analysis method to measure cost function using each of the cost driver. Which is the best cost driver for support cost? 4. Which prediction method you prefer? Why? [10 Marks]