Assignment Title

Project

Assignment Question:

Smart Tech: A Strategic Cost/Management Accounting

EXECUTIVE SUMMARY:This case is about a multinational corporation that is implementing its strategy from the corporate level to the plant floor. The case requires students to develop a balanced scorecard, cost allocation methods, cost drivers and standard costs in meeting corporate strategy. This is a writing intensive, critical thinking, and creative thinking case. The case requires students to be critical of Smart Tech (S-T) current costing system, to be creative in developing a value chain, balanced scorecard for S-T and its divisions and to integrate concepts presented in the cost managerial accounting textbook.

INTRODUCTION

The objective of these three cases is to challenge students to apply textbook methods to solve cost/managerial accounting issues in a multinational computer company.The case assignments require students to critically study Smart Tech's (S-T's) current costing system and to relate it to textbook costing-methods.S-T's current costing-methods lack a strategic focus and in many instances do not depict S-T's underlying operations.After a critical analysis, students develop a strategy-based balanced scorecard for S-T (S-T's divisions) and develop costing methods that would be useful in monitoring its strategy.Moreover, students are challenged to recommend implementation of alternative costing methods for S-T. These cases have been successfully used to enhance creative thinking and writing skills and to introduce international management accounting issues.

The first case, "Implementing and Monitoring Strategy,"aims at challenging students to develop cost systems based on the strategy of the corporation and its underlying operations.Students must develop a balanced scorecard that puts S-T's strategy into action.The case requires students to be creative in developing a balanced scorecard.Some students have made their scorecards resemble a stereo system with the receiver, tape deck, CD and turntable controls, each a separate scorecard perspective.Others have chosen to have their scorecard resemble the dashboard of a car or the knobs on an oven.The goal is to make students think out of the box.Students are also required to use the value chain as a link between S-T's strategy and balanced scorecard.

The second case, "Are Standard and Activity Based Costing Appropriate for S-T?"suggests that the traditional method of product costing does not reflect the underlying complex and capital-intensive operations of S-T.Students must develop a standard and activity based costing system that reflects S-T's Raleigh division operations.This is challenging because the students must develop cost-drivers that are balanced scorecard targets and they have to be conversant about activity-based-costing (ABC).This assignment requires many faculty office hours.While students can do the ABC computations, they find it difficult to explain ABC.

The third assignment, "Allocating Costs in a Multicultural Company,"requires students to use joint costing and service department cost allocation methods to determine the Essonnes Division's transfer price.This assignment is difficult because accounting students must look at the human side of the numbers.Students are usually taught how to calculate joint costing numbers and not about how the numbers might affect company personnel.Moreover, this case presents students with the multicultural issues of multinational companies.From this case, students get a balanced perspective-quantitative, qualitative, human resources of cost managerial accounting issues in a globally competitive business world.

These cases are designed to make students write about the numbers that they produce in textbook problems.Students find it difficult to explain the numbers.

BACKGROUND

Smart-Tech (S-T) is a computer manufacturer founded in Kuala Lumpur in 1901.S-T originated as a commercial scale, cheese and meat slicing, punch card, tabulating and time recording conglomerate. The company began with 1,300 employees and with sales in Canada, D.C., Michigan, New York and Ohio.The company had a difficult time managing its diversified products in numerous locations.S-T undertook several strategies to overcome its faltering operations.First, S-T increased sales by implementing healthy sales incentives, grooming its salesmen in dark suits, promoting company pride and loyalty in its employees and beefing up customer services. Second, S-T focused on selling tabulating machines, and expanded sales to Asia, Australia, Europe and South America. These strategies helped S-T overcome its sinking operations.While other companies were folding during the depression, S-T continued to grow and began providing employee benefits such as life insurance and paid vacations. Just-in-time inventory control would not have been useful to S-T during the depression. Because S-T had large inventories on hand, they were able to undertake large government contracts during the 1930's.S-T had become so large in the computer industry that they were constantly being sued, but unsuccessfully, for antitrust violations.During World War II, S-T continued to grow through government contracts.S-T used some of its profits to finance orphans and widows of war casualties.This goodwill act helped to foster employee loyalty and demonstrated good community citizenship.

Technological development escalated beginning in the 1950s.S-T first developed a five ton 50-foot by eight-foot calculator.This calculator was replaced with vacuum tubes and later replaced with a mainframe transistor that was faster and smaller than the vacuum tube.By 1957, S-T had a spinning disk storage system that could assess and process accounting data on as many as 50 disks and introduced the FORTRAN computer language.S-T was so large that they supplied 90% of Europe's computers, had $80 billion in sales and 270,000 employees.From 1970-80, S-T became the leading manufacturer of mainframe computers, hardware, software, and services.By the 1980s, S-T was manufacturing floppy disks, bank automatic teller machines and PCs for small businesses, schools and home use.S-T now has manufacturing plants located in Raleigh, NC and Essonnes, France.In Raleigh, NC, S-T manufactures low-end servers and personal computer systems and in Essonnes they manufacture logic and memory chips.S-T is now vertically integrated and produces, services, and sells products exclusively in the computer industry.More recently, S-T has experienced a downturn in earnings resulting from a very competitive computer industry.

System Information

S-T's corporate strategy is to get multi-year cooperative agreements with SAP adopters to increase S-T's share of the computer hardware market.S-T uses a normal costing system where manufacturing overhead is applied and estimated annually and quarterly and all other costs are recorded at actual using a stand-alone weighted-average accounting information and inventory system. Stand-alone implies that the cost accounting system is not integrated with financial accounting, finance or logistics ledgers. They hope to install SAP, an electronic resource planning system, but that has not happened yet.Because cost accounting is stand alone, at the end of each quarter considerable accounting effort is spent integrating cost data with financial accounting and logistics data.Each production location (Raleigh and Essonnes) is managed separately and within each location, there is decentralization of functions.The cost accountants focus solely on budgeting, recording and analyzing costs.S-T's financial statements - income statement and balance sheet-appear below.

Smart-Tech Corporation

Income Statement

At December 31

(Dollars in millions except per share amounts)

2002

2001

Revenues:

Hardware Sales

36,500

35,700

Services revenues

15,000

12,000

Software sales

13,000

13,000

Maintenance revenues

7,000

7,000

Rentals and financing income

1,600

1,500

Total Revenues

73,100

69,200

Cost of sales:

Hardware Sales

24,000

22,000

Services expenses

12,000

10,000

Software expenses

4,000

4,400

Maintenance expenses

3,600

3,600

Rentals and financing expenses

1,600

1,500

Total Cost of Sales

45,200

41,500

Gross Profit

27,900

27,700

Selling expense

15,000

15,200

Research & Development expense

4,000

4,000

Operating Income

8,900

8,500

Other income

9,000

8,000

Other expenses

710

720

Earnings before income taxes

17,190

15,780

Income tax expense

3,100

3,600

Net income

14,090

12,180

Dividends paid

22

60

Net income to common stockholder

s

14,068

12,120

Smart-Tech Corporation

Balance Sheet

At December 31

(Dollars in millions except per share amounts)

2002

2001

2002

2001

Assets

Liabilities

Current Assets:

Current Liabilities:

Cash and cash equivalents

7,680

7,260

Taxes payable

3,000

2,600

Marketable securities

500

450

Short term payables

13,000

11,500

Notes and accounts receivable

16,500

16,400

Accounts payable

5,000

4,500

Sales lease receivables

5,700

6,000

Compensation and benefits

3,000

3,000

Other receivables

900

1,000

Deferred income

3,700

3,500

Inventories

6,000

6,000

Other liabilities

6,600

6,500

Prepaid expenses

3,500

3,200

Total current liabilities

34,300

31,600

Total Current Assets

40,780

40,310

Long term liabilities

10,000

10,000

Property, plant and equipment

41,200

44,000

Other debt

14,000

14,300

Less:Accumulated Depreciation

-25,000

-27,000

Deferred income taxes payable

1,600

1,800

Net property, plant and equipment

16,200

17,000

Total liabilities

59,900

57,700

Software - net

2,000

2,500

Stockholder's equity

Investments & miscellaneous acct

22,500

20,600

Preferred Stock

353

353

Common Stock

8,500

8,400

Total Assets

81,480

80,410

Retained Earnings

10,327

10,657

Translation adjustment

2,400

3,300

Total stockholder's equity

21580

22710

Total liabilities and stockholder's

equity

81,480

80,410

RALEIGH, NC

The product development cycle for low-end servers and personal computer systems is three months.This means that faster and cheaper computers are developed at least three to four times a year.The computer industry experiences a 2-3% decline in raw material costs and selling prices each quarter.Therefore, product costs are changing constantly.While head count is high at Raleigh, this cost is stable and represents only about 5% of product cost.70% of product cost is materials and 25% is manufacturing overhead.Traditionally, for manufacturing overhead in production, direct labor dollars have been the allocation base.Examples of servers produced by S-T appear on the following page.

Raleigh tries to trace most of its costs directly to the product.Labor and materials are traced directly to the product through bar codes.Each material input component is bar-coded and traced directly to the unit to which it is attached.As materials move through assembly, assemblers indicate which unit of output they are assembling through bar codes.For each product produced, a diskette includes the serial number assigned to the finished server, the assembler I.D. number and the identification number of parts used to make the server. Since the market fixes the price of labor and materials, S-T hopes to increase profit margins by reducing manufacturing overhead costs.S-T believes that it can reduce costs by reducing throughput time. Throughput is defined as follows:

S-T's strongest competitors reduce throughput time by eliminating the dealer.Their competitors sell directly to the final or end customer.However, the dealers provide a level of immediate service to end customers at the end customer's location that is not provided by its competitors.Competitors' customers have to call an 800 number and sometimes wait 30 minutes on the phone before a technician can answer their question.Many customers who have software installation problems must see a computer specialist at their own cost, or for other problems they may have to return their equipment to the vendor and wait 2-3 weeks before the computer is replaced or repaired.Therefore, S-T must weigh the benefits of selling through dealers to its end customers as opposed to reducing throughput time by eliminating dealers.Lead-time from dealer order to receipt of goods by the dealer is usually three to four weeks.

Dealers generally hold five-week inventory levels to avoid stock-out costs and to compensate for goods that may be damaged during shipment.If not sold immediately, dealers have unsold obsolete inventory on hand.In the past S-T has provided rebates to dealers for obsolete inventory.This way, dealers can offer obsolete inventory at discounted prices to their customers.S-T is concerned that this policy sends the wrong message to dealers.That is, if dealers don't move their inventory fast, the dealer doesn't lose because S-T will discount the merchandise.Therefore, dealers are not motivated to buy from S-T in small quantities or to sell their inventories quickly.S-T wants dealers to more accurately estimate their sales so that they don't end up with large quantities of obsolete inventory on hand.S-T's competitors not only reduce dealer costs by not having dealers, but also reduce costs related to storing outdated inventory at the dealer's location.

S-T records procurement parts costs when invoiced.So if they invoice a purchase in March, they use February costs because March costs are not known at the time of invoicing. At the end of March, when S-T knows the actual cost of March purchases, they record the under- or over-applied materials/parts cost as the difference between actual and recorded parts cost.Variances are investigated at the top end of the organization, outside of the cost accounting department.Some variance is tolerated/expected due to the rapidly decreasing parts cost in the computer industry.Similarly, when dealers are billed for computers purchased, they are billed at the previous month's price and the invoice price is adjusted the following month to reflect the actual selling price.That is, S-T does not know the cost of producing the computers and therefore the selling price of the computers until a month later when their vendors invoice raw materials.This is when S-T knows the actual cost of parts procurement.Sizing or the comparison of ledger to physical inventory is done annually.

On the manufacturing floor, the flow of production of low-end servers is as follows:

Upon arrival, parts are debugged for defects.Non-defective items go in the storage bins until a unit of output is demanded.Once demanded, components needed to complete the order are placed in a basket.The basket (kit) contains the parts, and a diskette that has the part numbers, order number and debugger's identification number (I.D.) recorded on it.Upon leaving the kitting area, the order is debugged for errors in parts selected to complete the order.The debugger's ID is entered on the diskette.The assembler, one person, then assembles the server.The assembler must enter their I.D. on the diskette and verify the parts received.After assembling, the assembler checks the machine for mechanical failure.Once completed, the machine, its invoice order number and diskette go to the assembly inspection station.The inspector enters their I.D. on the diskette and inspects the completed server.The inspector inserts software into the machines to conduct the appropriate tests.If a defect is detected, the inspector flags the assembler and stops that assembler's operations until the problem is fixed.Goods cannot move to the next station (i.e., from parts selection, to kitting to assembly to shipping) until the previous station has quality output.Servers are the high profit margin products for S-T so they stress quality (< 2% defect rate) in production. The inspector indicates on the diskette which quality-tests have been conducted and removes all testing software not requested by the customer.Finally, the server is boxed and sent to shipping.A history of the production and inspection of the machine is kept on diskette and mailed to the central office.Information from this diskette is used to trace materials and labor costs directly to output.In production, all overhead is allocated to products using number of parts as the cost driver.A server could require from twenty to thirty parts, depending on the customer's specifications.All servers are packed in identical size boxes and manufacturing time depends on the number of parts tested.

Shipment of almost all of S-T's products (servers, PCs and mainframes) is out of Raleigh.In addition to the production area, Raleigh has 450,000 square feet of warehousing space.Inventory is in the warehouse for an average of 10-15 days before shipping.S-T uses activity-based-costing (ABC) to allocate annual warehousing and shipping costs to each product as follows (in millions):

Cost Driver

HoursHours

ActivitiesIndirectSquare FootScanning Out-Information

Head CountFloor SpaceBound FreightSystems

Receiving (from mfg.)$50$15.5

Shipping parts to

shipping lane$120

$ 12.0

Storage$700.5

$ 10.5

Transportation out$185$30

Annual allocation of expenses to products is then conducted as follows:

$ 10.0

Desk TopServerMonitorLap Tops

Receiving

Options

Head Count1,0005006001,200

400

Info. Systems (hrs)600120100800

Shipping parts to lane

60

Head Count800100100800

20

Info. Systems (hrs)8010608015

Storage

Floor Space1,0002,000600800400

Info. Systems (hrs)100100100100100

Trans-out

Head Count70120508020

Info. Systems (hrs)201510205

Scanning Hours1055102

For some parts, transportation-out is the highest cost (servers).For example, servers have high transportation-out costs because they are heavy.For other products, order filling is the highest cost (desktops).For example, desktops absorb high order filling costs because desktops are composed of multiple individual parts.The desktops may have 10-15 pieces to a box so it takes more time to fill a desktop order than a server order, which is composed of one or two parts.Examples of desktops produced appear on the following page.

ESSONNES, FRANCE

In Essonnes, France, S-T manufactures logic and memory chips from a silicon wafer. The silicon wafers are sliced from a silicon cylinder.The silicon cylinders are $400 each.Each working day S-T manufactures approximately 1,200 wafers.(An example of a silicon wafer appears below.)In Essonnes, production takes places 24 hours a day, seven days a week and 52 weeks a year.The only days off are May 1 because the French law of 1936 requires it and December 25.However, accounting executives' working hours are generally 8:30 a.m. to 6:00 p.m., five days a week.

S-T purchases silicon cylinders for $400 each. Approximately 125 wafers can be sliced from each cylinder.During slicing, there is a loss of 20% of the silicon cylinder. They have quality assurance contracts with their vendors to assure the quality and on-time delivery of their production parts (silicon cylinders).After an order is received, S-T slices the silicon cylinders into wafers.

After slicing the cylinder into wafers, these wafers are cleaned and chemically coated during joint processing. Also, in joint processing, S-T incurs monthly property plant and equipment-depreciation expense, taxes, patent amortization, and other factory overhead costs of $120,000.S-T's salaried engineers in the joint processing department earn a total annual payroll of $2,070,000 a year.The joint processing of the wafer results in two distinct products, memory chips and logic chips.Quality control is very important in processing the wafer, even the air is filtered and controlled and the equipment used to make the chips is monitored closely by engineers for quality of production.It takes 250 steps of processing and 150 quality control steps to produce a finished wafer.Rooms full of tools and expensive high tech equipment are used in the production area.Manufacturing includes using an ultraviolet light to project the memory chip images onto the wafer.During the testing phase, each wafer is tested and visually inspected.Materials cost beyond joint processing is negligible.However, manufacturing overhead is substantial and includes information systems, utilities, and maintenance and quality assurance.End-of-line includes dicing the wafer and picking the good memory and logic chips from the wafer.Each chip is charged to S-T's internal customers at cost plus ten percent.

From each wafer S-T can usually get a total of 100 logic chips and 400 memory chips of which 5% of the good output is loss.The loss is detected at the end of production.To minimize costs, S-T is currently focusing on increasing the yield from each cylinder and wafer.Some waste is expected because square chips are being manufactured on a round wafer.Production cost and time flows are as follows:

After end-of-line, the chips go to production control where they are distributed to their internal customers at a transfer price of 10% above total production cost.

S-T spends considerable effort in developing and implementing its budget.S-T prepares five-year strategic plans from which flow yearly budgets and quarterly budgets.The annual budgets begin with actual data that is negotiated with production managers to produce annual and quarterly budgets.Budgeting involves a cross-functional team to insure optimal corporate goal congruence (as opposed to unit-focused goals that may be suboptimal to the corporation as a whole). Upper management has weekly technical meetings with production regarding yield, lead-time, and quality of shipped output.Each quarter (3 months), S-T compares actual with monthly budgets.Usage of the service department centers during 2002 follows.

2002 JOINT PROCESSING COST CENTER

S-T's Actual Usage for the Year

Information

Quality

SuppliersSystems

Utilities

MaintenanceAssurance

(Computer

(Square

(labor hours

(# people on

hours)

Users of joint processingservice departments

kilometers)

used)

production line)

Utilities500

70,000

100

Maintenance1,200

1,000

60,000

100

Memory Chip500

2,000

12,000

500

Logic Chip500

1,000

60,000800

The budgeted charge-out rate for information systems is $10,000/hour, for utilities is $20,000/square kilometer, for maintenance is $80/labor hour and for quality assurance is $52,000/person.Information systems include the salaries of personnel, accounting and budgeting costs and costs associated with the mainframe central processing unit.Utilities include building repairs, electricity, water, fuel, property taxes, and building depreciation.Maintenance involves servicing the machinery used in production and computers and mainframe systems used throughout S-T.Quality assurance represents those personnel who measure quality and who conduct surveys on supplier, employee and customer satisfaction.Full absorption costing is used to determine product costs.For the French definition of full absorption costing, see Bescos and Mendoza (1995).

S-T wants to assign costs so that managers maximize the quality of output and reduce the percentage of spoiled chips from each cylinder and wafer (yield).Currently S-T uses a traditional normal costing system and allocates all processing costs to the good chips only.S-T also wants a cost system that accurately allocates overhead costs to chips.

To monitor quality, S-T continuously queries its suppliers, employees and customers.Employee satisfaction is important because they believe the more satisfied the employee, the more likely the employee will seek to achieve quality output efficiently.In France, the employees are very concerned about job stability as a result of the downsizing that has taken place.S-T has reduced the number of buildings occupied by 60%, the number of employees by 40% and has increased production 100% over the past five years as a result of increased technology in its production facilities.Thus, employees are working harder to achieve corporate goals in a competitive environment. Customer surveys include questions about on-time delivery.S-T strives to have a 98-99% on-time delivery rate.

QUESTIONS

1. For the purpose of implementing and monitoring strategy S-T is designing a balanced scorecard for the company overall for its plant.Management's overall corporate goal is to get multi-year cooperative agreements with SAP adopters to increase S-T's share of the computer hardware market.

1. Explain functions of balance scorecard and how balanced scorecard monitors how well the corporation is meeting its objective(s).
2. Provide objective measures for each of the four perspectives of the balanced scorecard.
3. Recommend whether S-T should use the balanced scorecard for Raleigh as well as the balanced scorecard for corporate headquarters
4. In the value chain and why the chains are similar or dissimilar between the corporate office and the Raleigh plant site.

2. With regard to Raleigh, NC, S-T is contemplating using activity based costing (ABC). You are required to answer the following questions:

1. Would you recommend that consider using activity-based-costing throughout the Raleigh plant site which is currently using ABC in the warehousing area only.
2. What costing system is S-T using in the production area: actual, normal or standard?What costing system would you recommend that S-T use and why?
3. Identify activities and cost drivers for which standards should be developed.

3. Answer the following questions about the Essonnes plant site.

1. Recommend a method that S-T should use in allocating its joint production costs.Explain how this method would be useful in monitoring company strategy.
2. Use your recommended joint cost allocation method to allocate joint production costs.Provide an illustration of the computations used to allocate joint production costs.
3. What method did you use to allocate service department costs to the production departments?
4. Explain why you recommend your selected service department cost allocation method.

Note: Your answer will be assessed based on the following aspects:

1. Clarity

20%

1. Cost-accounting terminology

25%

1. Creativity or critical thinking

15%

1. Documentation

15%

1. Grammar

25%

Total

100%