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The Six Sigma
Revolution by Thomas Pyzdek
Why
Six Sigma?
For Motorola, the originator of Six Sigma, the answer to the
question "Why Six Sigma?" was simple: survival. Motorola came to Six
Sigma because it was being consistently beaten in the competitive marketplace
by foreign firms that were able to produce higher quality products at a lower
cost. When a Japanese firm took over a Motorola factory that manufactured
Quasar television sets in the United States in the 1970s, they promptly set
about making drastic changes in the way the factory operated. Under Japanese
management, the factory was soon producing TV sets with 1/20th the number of
defects they had produced under Motorola management. They did this using the
same workforce, technology, and designs, making it clear that the problem was
Motorola's management. Eventually, even Motorola’s own executives had to admit
“our quality stinks,”[i]
<http://www.pyzdek.com/>
Finally, in the mid 1980s, Motorola decided to take quality seriously.
Motorola’s CEO at the time, Bob Galvin, started the company on the quality path
known as Six Sigma and became a business icon largely as a result of what he
accomplished in quality at Motorola. Today, Motorola is known worldwide as a
quality leader and a profit leader. After Motorola won the Malcolm Baldrige
National Quality Award in 1988 the secret of their success became public
knowledge and the Six Sigma revolution was on. Today it's hotter than ever.
It would be a mistake to think that Six Sigma is about quality in the
traditional sense. Quality, defined traditionally as conformance to internal
requirements, has little to do with Six Sigma. Six Sigma is about helping the
organization make more money. To link this objective of Six Sigma with quality
requires a new definition of quality. For Six Sigma purposes I define quality
as the value added by a productive endeavour. Quality comes in two flavors: potential quality and actual quality. Potential quality is the
known maximum possible value added per unit of input. Actual quality is the
current value added per unit of input. The difference between potential and
actual quality is waste. Six Sigma
focuses on improving quality (i.e., reduce waste) by helping organizations
produce products and services better, faster and cheaper. In more traditional
terms, Six Sigma focuses on defect prevention, cycle time reduction, and cost
savings. Unlike mindless cost-cutting programs which reduce value and quality,
Six Sigma identifies and eliminates costs which provide no value to customers,
waste costs.
For non-Six Sigma companies, these costs are often extremely high. Companies
operating at three or four sigma typically spend between 25 and 40 percent of
their revenues fixing problems. This is known as the cost of quality, or more
accurately the cost of poor quality. Companies operating at Six Sigma typically
spend less than 5 percent of their revenues fixing problems (Figure 1). The
dollar cost of this gap can be huge. General Electric estimates that the gap
between three or four sigma and Six Sigma was costing them between $8 billion
and $12 billion per year.
Infrastructure
A very powerful feature of Six Sigma is the
creation of an infrastructure to assure that performance improvement activities have
the necessary resources. In this author's opinion, failure to provide this
infrastructure is the #1 reason why 80% of all TQM implementations failed in
the past. Six Sigma makes improvement and change the full-time job of a small
but critical percentage of the organization's personnel. These full time change
agents are the catalyst that institutionalizes change. Figure 2 illustrates the
required human resource commitment required by Six Sigma.
Leadership
Six Sigma involves changing major business value streams that cut
across organizational barriers. It is the means by which the organization's
strategic goals are to be achieved. This effort cannot be lead by anyone other
than the CEO, who is responsible for the performance of the organization as a
whole. Six Sigma must be implemented from the top-down.
Champions
and Sponsors
Six Sigma champions are high-level individuals who understand Six
Sigma and are committed to its success. In larger organizations Six Sigma will
be lead by a full time, high level champion, such as an Executive
Vice-President. In all organizations, champions also include informal leaders
who use Six Sigma in their day-to-day work and communicate the Six Sigma message
at every opportunity. Sponsors are owners of processes and systems who help
initiate and coordinate Six Sigma improvement activities in their areas of
responsibilities.
Master
Black Belt
This is the highest level of technical and organizational proficiency.
Master Black Belts provide technical leadership of the Six Sigma program. Thus,
they must know everything the Black Belts know, as well as understand the
mathematical theory on which the statistical methods are based. Master Black
Belts must be able to assist Black Belts in applying the methods correctly in
unusual situations. Whenever possible, statistical training should be conducted
only by Master Black Belts. Otherwise the familiar “propagation of error”
phenomenon will occur, i.e., Black Belts pass on errors to green belts, who
pass on greater errors to team members. If it becomes necessary for Black Belts
and Green Belts to provide training, they should do only so under the guidance
of Master Black Belts. For example, Black Belts may be asked to provide
assistance to the Master during class discussions and exercises. Because of the
nature of the Master’s duties, communications and teaching skills are as
important as technical competence.
Black
Belt
Candidates for Black Belt status are technically oriented
individuals held in high regard by their peers. They should be actively
involved in the process of organizational change and development. Candidates
may come from a wide range of disciplines and need not be formally trained
statisticians or engineers. However, because they are expected to master a wide
variety of technical tools in a relatively short period of time, Black Belt
candidates will probably possess a background in college-level mathematics, the
basic tool of quantitative analysis. Coursework in statistical methods should
be considered a strong plus or even a prerequisite. As part of their training,
Black Belts receive 160 hours of classroom instruction, plus one-on-one project
coaching from Master Black Belts or consultants.
Successful candidates will be comfortable with computers. At a minimum, they
should understand one or more operating systems, spreadsheets, database
managers, presentation programs, and word processors. As part of their training
they will be required to become proficient in the use of one or more advanced
statistical analysis software packages. Six Sigma Black Belts work to extract
actionable knowledge from an organization’s information warehouse. To assure
access to the needed information, Six Sigma activities should be closely
integrated with the information systems (IS) of the organization. Obviously,
the skills and training of Six Sigma Black Belts must be enabled by an
investment in software and hardware. It makes no sense to hamstring these
experts by saving a few dollars on computers or software.
Green Belt
Green Belts are Six Sigma project leaders capable of forming and
facilitating Six Sigma teams and managing Six Sigma projects from concept to
completion. Green Belt training consists of five days of classroom training and
is conducted in conjunction with Six Sigma projects. Training covers project
management, quality management tools, quality control tools, problem solving,
and descriptive data analysis. Six Sigma champions should attend Green Belt
training. Usually, Six Sigma Black Belts help Green Belts define their projects
prior to the training, attend training with their Green Belts, and assist them
with their projects after the training.
Staffing
Levels and Expected Returns
As stated earlier in this article, the number of full time
personnel devoted to Six Sigma is not large. Mature Six Sigma programs, such as
those of Motorola, General Electric, Johnson & Johnson, AlliedSignal, and
others average about one-percent of their workforce as Black Belts. There is
usually about one Master Black Belts for every ten Black Belts, or about 1
Master Black Belt per 1,000 employees. A Black Belt will typically complete 5
to 7 projects per year. Project teams are lead by Green Belts, who, unlike
Black Belts and Master Black Belts, are not employed full time in the Six Sigma
program. Black Belts are highly prized employees and are often recruited for
key management positions elsewhere in the company. After Six Sigma has been in
place for three or more years, the number of former Black Belts tends to be about the same as the number of active Black Belts.
Estimated savings per project varies from organization to organization.
Reported results average about US$150,000 to US$243,000. Note that these are
not the huge mega-projects pursued by Re-engineering. Still, by completing 5 to
7 projects per year per Black Belt the company will add in excess of US$1
million per year per Black Belt to its bottom line. For a company with 1,000
employees the numbers would look something like this:
Master Black Belts: 1
Black Belts: 10
Projects: = 50 to 70 (5 to 7 per Black Belt)
Estimated saving: US$9 million to US$14.6 million (US$14,580 per employee)
Do the math for your organization and see what Six Sigma could do for you.
Because Six Sigma savings impact only non-value added costs, they flow directly
to your company's bottom line.
Implementation
of Six Sigma
After over two decades of experience with quality improvement,
there is now a solid body of scientific research regarding the experience of
thousands of companies implementing major programs such as Six Sigma.
Researchers have found that successful deployment of Six Sigma involves
focusing on a small number of high-leverage items. The steps required to
successfully implement Six Sigma are well-documented.
1. Successful performance improvement must begin with senior leadership. Start
by providing senior leadership with training in the principles and tools they
need to prepare their organization for success. Using their newly acquired
knowledge, senior leaders direct the development of a management infrastructure
to support Six Sigma. Simultaneously, steps are taken to "soft-wire"
the organization and to cultivate an environment for innovation and creativity.
This involves reducing levels of organizational hierarchy, removing procedural
barriers to experimentation and change, and a variety of other changes designed
to make it easier to try new things without fear of reprisal.
2. Systems are developed for establishing close communication with customers,
employees, and suppliers. This includes developing rigorous methods of obtaining and evaluating customer, employee and
supplier input. Base line studies are conducted to determine the starting point
and to identify cultural, policy, and procedural obstacles to success.
3. Training needs are rigorously assessed. Remedial basic skills education Is
provided to assure that adequate levels of literacy and numeracy are possessed
by all employees. Top-to-bottom training is conducted in systems improvement
tools, techniques, and philosophies.
4. A framework for continuous process improvement is developed, along with a
system of indicators for monitoring progress and success. Six Sigma metrics
focus on the organization's strategic goals, drivers, and key business
processes.
5. Business processes to be improved are chosen by management, and by people
with intimate process knowledge at all levels of the organization. Six Sigma
projects are conducted to improve business performance linked to measurable
financial results. This requires knowledge of the organization's constraints.
6. Six Sigma projects are conducted by individual employees and teams lead by
Green Belts and assisted by Black Belts.
Although the approach is simple, it is by no means easy. But the results
justify the effort expended. Research has shown that firms that successfully
implement Six Sigma perform better in virtually every business category,
including return on sales, return on investment, employment growth, and share
price increase. When will you be ready to join the Six Sigma revolution?
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