Case is divided into three parts; requirements are to:

 

Part I: Write a case synopsis. This is a concise relevant summary of the case study. Limit

the synopsis to 350 words.

 

• Part II: Discuss and answer the questions from the case submitted as numbered Q&A.

Limit each question response to 250 words (not including graphs, charts, equations,

tables, etc.) unless a different word limit is specifically noted. Note: The 250 word limit

applies to each numbered question separately.

 

• Part III: Provide a student opinion of the case study that demonstrates mature

understanding of the situation; provides insights and lessons learned, notes issues or

potential conflicts, and relates to work and community experience, going beyond the

obvious and digger deeper into the implications of the case study. Limit the student

opinion to 550 words (not including graphs, charts, equations, tables, etc.).

 

 

CASE STUDY

 

 

 

This was technically Alissa Jones’ second Division Plant Manager Quarterly Plant Performance

Meeting. Her first was three months ago when she was informed that she was to be the new

plant manager of the Minneapolis facility, Midwest Manufacturing. When she had been

summoned to that first meeting she was the chief operational analyst at the division and, as

such, was fairly aware of the performance problems with the Minneapolis plant. The facility

was missing on performance measures in virtually every category. Their labor costs were

constantly above budget. Their average due date performance was 70% with late deliveries

often being by as much as a month or more in spite of incurring huge overtime hours. Several

major accounts had left or threatened to go elsewhere due to the inconsistent delivery issues.

Their efficiency and utilization numbers were abysmal. Work in process, finished goods and

raw material inventories were climbing with no apparent end in sight and she had been

informed by a friend in accounting that even with that inventory they were constantly

requesting overrides for expedited shipping on both the incoming and outgoing sides of the

facility.

So, if everything was this bad why would she have even been interested in the job? Don Jones,

her predecessor, had been “asked” to retire early creating the vacancy she was being “asked” to

fill. She knew the road to a division vice presidency was through plant manager not through

corporate operations and that that position was likely to become available in 1-2 years. Even

though the job looked to be almost impossible she felt it was her only opportunity as many of

the other current plant managers were already vying for the VP opportunity. So, a week after

the meeting in which she was offered the position she found herself in Minneapolis at the

plant.

Her first task was to call a meeting with all the senior staff. In preparation for the meeting she

had it asked each staff member to look at the numbers for the last three years and be prepared

to explain what was happening and what they believed needed to be done to correct the

situation. After a quick introduction Alissa asked each in turn to provide their feedback.

Susan Alen, the materials manager said they had no choice but to continue ordering additional

raw materials as the parts needed to produce firm orders were often missing. When pressed

she said that they actually weren’t missing but they had already been process for or assembled

into other subassemblies and finished goods that were not appropriate for the items being

ordered.

Bob Johnson, the comptroller said that the reason that costs were spiraling out of control was

the additional labor being thrown into all the parts exceeding what was planned and quoted.

Ben Jacobs, the production supervisor, said that didn’t make sense as they constantly tried to

combine orders across different customers and even reached far into the forecast to create

large quantities of the same parts to reduce set ups and increase efficiencies. He had also

moved work from the more manual equipment to the machine centers as well to take

 

 

 

 

advantage of their efficiencies to the point that those pieces of equipment were constantly

busy and backlogged.

Ken Fraser the plant engineer shared that they had redesigned the processes for a number of

parts to accommodate the switch from manual equipment to more automated and to increase

the amount of common purchased materials and components from product to product. The

belief was that the increase in common parts would allow them to reduce the total inventory of

raw materials but still have the right materials for production.

The one thing they all seemed to agree on was that the numbers they were required to report

to division certainly could not be accurate and representative of what was actually happening

at the plant.

When asked what each thought needed to be done, Susan said that they obviously needed to

upgrade their old Enterprise Requirements Planning (ERP) system and the data bases as the

material problems and labor hour variances certainly must be tied to inaccurate and/or

incomplete data.

Ben agreed but said they also needed to invest in several more of the high-end machine centers

to be able to get more work off of the older manual machines and onto the more efficient

machines.

Ken was noticeably quiet. Alissa asked him why he was hesitant to share his ideas. Ken set for a

minute then slowly started to speak. “I do have some ideas but they’re very different”.

Before Ken could say more Ben rolled his eyes and said, “Here we go again”.

Susan chimed in, “We’ve been over this before. The things that we’re doing are what everyone

does, we just need more time and to find a way to do it better”.

Bob jumped in, “I know you’re in this new master’s program and you’re learning all these things

that you think are going to light the world on fire but these are just academics and books and

this is the real world”.

Ken was getting tired of this. “First of all”, he said, “The Engineering and Technology

Management program at Washington State University isn’t just a bunch of academics and

books. The entire faculty has significant business experience and brings real world situations to

the classroom. We have students from all over the world attending the classes and sharing

knowledge of what is working and what isn’t.”

Alissa interrupted, “OK, OK. I’m a supporter of education and I’m not here to debate the

program. What I’m interested in is what can we do to turn this plant around and it seems like

the things we’ve been trying aren’t accomplishing the job. So far what I’ve heard is what

everybody else is doing and that we just need to do it better but I do not believe that will be

sufficient to solve our problems and get us out of the hole that we’re in. Ken, please continue”.

 

 

 

 

 

 

Ken said, “One of the things that is really different about the program is that the assignments in

the classes often aren’t just questions at the end of chapters in the textbooks, they are

assignments to use the concepts we’re learning in our workplaces. As a result I have had a

chance to look at a lot of things we’re doing here and see some things that we need to change.”

“OK” said Alissa, “give me some examples.”

Ken started with, “In an effort to get efficiency and utilization numbers high we try to keep

everything and everyone busy all the time. What I’ve learned is that because of the high mix of

products that we produce and the high level of shared resources it’s not possible for all things

to be busy all the time in fact that makes us very inefficient as a system.”

Ben pounced,” see what we mean, this is crazy, we have to be efficient. We can’t have people

and equipment sitting idle all over the place. That’s why we pull work forward from the

forecast in anticipation of future orders to allow all that work to be put into the system to keep

the efficiencies up.”

“Exactly”, said Ken, “and as a result we end up drawing materials today to do work that is for

the future and then tomorrow when we have current work that needs to be done we are

missing materials to do that work with. We end up with massive mounds of work in process

and finished goods that we can’t use or sell and we have to buy even more materials and pay

expedited shipping so we can try to not miss the promises made to customers. And because

we don’t have those materials to do the work as scheduled we constantly change the schedule

and reprioritize the work which means it takes longer for everything to get through our system

so our lead times keep going up and our due date performance keeps going down. We also

hurt those measures by grouping different customers’ orders together to reduce the number of

setups and now everyone’s parts are waiting for everyone else’s that’s part of the same mega

batch.”

“Then, because we are so late on orders, we constantly go from the large batches we’ve talked

about to breaking them up into multiple small batches because we need to get specific parts

through the system to complete orders which means we’re spending much more time than

planned on changes and setups and often relying on overtime to expedite that work.”

“I’ve also learned that every system is limited by at least some factor or it would perform to

infinity. It doesn’t make sense to push more work into the system than that limiting resource

can process. The unavoidable result is just piles of work which is what we are experiencing. I

believe we have two primary resources that are overloaded. I’m not sure how much of that

overload is just in trying to meet the actual demand from firm orders versus all the extra work

we continue to release trying to keep everything and everyone busy.”

“I also believe we’ve made some major errors and assumptions in our calculations regarding

the efficiency of some of our high-end machine centers versus the work being done on the

manual standalone machines. For example, if we used to use four different machines in

sequence to produce a part and now do it all in one massive operation on one of the machine

 

 

 

 

centers we assume that the total time for the four separate operations is what we’re comparing

to the total time in the machine center and as long as that machine center time is less then

we’re being more efficient.”

Again, Ben jumped in, “of course it’s more efficient.”

Ken said, “not necessarily. Because we tend to do things in large batches there is a time to set

up each machine that is incurred once for the batch and then a cycle time per part for each

machine to do its particular task. The way we tend to do the work with the manual machines is

to set up all the machines so we can completely produce the part. That means that once the

setups are complete and we start processing, all the machines are running at the same time

doing their particular part of the work and the rate at which parts exit the system is driven by

the longest single cycle time on any one of the particular individual machines.” As he looks at

everyone in the room he can see they are not understanding.

“Let me give you an example. Let’s say we have a part that takes four steps in different

standalone machines and the various cycle times are 10, 15, 20, and 10 minutes each for the

respective machines for total of 45 minutes for each part. But say we can do the same work on

a single machine center in 30 minutes.”

“Exactly”, says Bob, “about a 33% increase in efficiency and corresponding lowered cost per

part.”

Ken smiles. “It looks that way, doesn’t it? Remember, the manual machines are running

concurrently so once the setups are done and the first part has made it all the way through the

four processes, based on the numbers I provided, we would see a new part exit every 20

minutes from that point on which is equal to three parts per hour. This compares to 30

minutes each or two parts per hour for the machine center.”

Ben jumps in again. “Ken, you also need to remember that those set up times are often an

hour or more on the old machines where is it is oftentimes 15 minutes or less on the machine

centers since the tooling is standardized and we simply have to load a new program.”

“You ‘re right Ben, Ken replies, “ but we still seem to do the work in very large batches even on

the machine centers meaning that we aren’t taking advantage of that fast setup time to do

multiple small batches and make things move faster through the system. Let’s go back to the

example I provided and assume that it takes 2 hours to set the four machines up and then

another 45 minutes to get the first part completely through the four steps but again, from that

point on we get a new finish part every 20 minutes. While that’s happening our machine center

would have been set up in 15 minutes and after another 30 minutes produced the first part and

continued to produce parts at the rate of one every 30 minutes or two per hour. Let’s compare

the two environments.” Ken created a table on the whiteboard:

 

 

 

 

 

 

 

 

Ken says, “he thought that at first as well but as he examined the data he realized that

It isn’t the hour to hour rate that matters it’s the total time and because the machine centers

take a much longer time to produce the same total number of parts, the hour to hour labor

advantage is quickly consumed. Bob, do you agree?”

“Based on your example, the math is correct and it does explain some of the variances we’ve

been seeing in lead times, labor content, and costs.”

Ken continued, “This is also one example of a much bigger problem. We tend to look at all the

pieces of the system independently and assume that if each piece is doing well the system is

doing well when in reality we need to be looking at the system as a whole.”

“So Ken”, said Alissa, “If we assume that what you are saying makes sense, what do you

propose that we do?”

Ken goes back to the whiteboard and begins writing a list of his suggested changes:

1. Stop releasing work to keep everything busy and only release the work that is needed

for real orders and even that work should only be released at a rate equal to what the

system can actually process.

2. Use the machine centers for small batches where we can leverage their fast setup time

and go back to running the larger batches on the old machines.

3. Don’t start any job that we don’t have all the needed inputs for (materials, drawings,

information, etc.), a concept called full kit.

4. On the resources that have become bottlenecks let’s not waste what we have.

Let’s make sure that we’re working on the right things by making be sure that we’re

using today’s capacity to produce today’s demand.

Let’s inspect the work coming into those centers prior to the working on it and make

sure that we have no quality issues.

All the workers take breaks at the same time meaning those critical work centers are

shut down for as much as an hour per 8-hour shift. That means we’re losing over 12%

of their capacity right off the top. Let’s stagger the brakes around those machines so

that they continue to run the full 8 hours.

Ken turned back to the group saying, “I have other ideas but this is a good start.”

Bob said, “Look, if we do this we have a major problem with the efficiency and utilization

numbers that we are required to report to the division. You’re basically proposing that we

intentionally idle large numbers of people and other resources for significant periods of time.

These are the only numbers division seems to be concerned about and we are already on their

radar.”

 

 

 

 

 

 

Ken thought for a moment and then said, “would you agree that we have a lot of past due

work?”

“Don’t waste our time with questions you know the answer to” said Ben. “We have weeks of

backlog that needs to be finished and shipped.”

“I’m not trying to waste our time I just want to make sure we’re on the same page. If we switch

our focus to getting work that we promised finished instead of starting work that isn’t needed

we aren’t working less we’re just working on the right things. Our efficiency numbers may go

down on some resources but I think overall, they will stay the same or maybe even get better

and, more important we will be shipping more finished goods. We should also see our

overtime hours drop off and not be expediting raw materials or finished goods shipments

nearly as much.”

Ben says looking at Bob, “But with your smaller batches and more frequent setups our labor

cost per part are going to go up which is another metric the division is infatuated with.” Bob

and Susan are both nodding in agreement.”

Ken says, “On paper they may, but in reality if we’re not adding any labor cost, because we’re

not hiring more people, and we are actually shipping more, which means our revenues are

going up, isn’t our actual cost per unit going down not up?”

The conversation went on for a few more hours but in the end Alissa was able to get them all to

agree that it was worth a try.

One thing that had surprised Alissa was how fast and significant the impacts were from some of

even the simplest changes. It took a couple of days to logistically prepare for staggering the

breaks at the 2 bottleneck resources that Ken had identified but once in place there was an

immediate increase of at least 10% capacity and it wasn’t in just the bottleneck areas it was in

shipped product. The big concern about large amounts of people and equipment sitting idle

also seemed to be unwarranted as the smaller batches resulted in product moving much faster

through the system so that even when there were idle times they were small and intermittent.

In just two months they had almost completely caught up on their past due backlog, were

shipping orders on time and had also significantly increased plant profitability. The raw

material and work in process inventories had dropped considerably yet materials needed

seemed to be available. It had been three weeks since they had expedited either a purchased

item or a finished good shipment. There had not been much drop in the finished goods

inventories however as those items required new orders to have the opportunity to be sold.

The good news was that at least those finished goods inventories weren’t going to come back

to bite them as they had already been counted in previous quarters.

Unfortunately, the predictions about efficiencies, and cost per part metrics had become true in

terms of individual work area efficiencies for some parts of the plant going down which created

the perception of cost per part going up. It seemed that the time being used for the additional

 

 

 

 

 

 

Discussion items:

Discuss and answer the numbered questions below as they pertain to the case. Reminder: The

250 word per question limit is per numbered question element, not cumulative across all

questions.

1. Define and differentiate Strategy and Tactics. Identify an example of a strategy from the

case material and one corresponding tactic being proposed to support that strategy.

2. Answer the appropriate sub questions below

 

2.3.1 Using the information in the case provide an outline of how you would approach

conducting an audit of the strategic management of technology and innovation within

the organization.

2.3.2 Using the ideas and concepts presented in EM 591, discuss how you as a manager

at Midwest Manufacturing would approach analyzing the need and use of the machining

centers being discussed in the case.

2.3.3 Discuss how both traditional and modern views of strategy, as typified by Michael

Porter and Jay Barney, might apply to this case.

3. Pick a direction and defend it based on the current circumstances at Midwest

Manufacturing. Picking a middle ground is not an option, you must either agree with Alissa in

the direction she wishes to pursue or with the other plant managers and the direction they

think she should pursue? How would you strategically and tactically present your case to

convince the other side?

 

 

 

Source material

 

Schilling, Melissa A. Strategic Management of Technological Innovation Fourth Edition.  McGraw Hill