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Introduction to SIX - SIGMA

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Title: Introduction to SIX - SIGMA


1
Introduction toSIX - SIGMA
  • Presented by http//www.QualityGurus.com

2
Agenda
0750 - 0800 Participants introduction
0800 - 0930 Introduction to Six Sigma concept Key Concepts
0930 - 0945 Tea / Coffee Break
0945 - 1200 Forms of waste What is Sigma Components of Six Sigma
1200 - 0100 Lunch Break
0100 - 0200 Selecting a Project
0200- 0300 Open session / QA
3
Participants Introduction
  • Your Name
  • Department
  • Your job profile
  • Your exposure to Quality Management/ Six Sigma

4
Ground Rules
  • Program success depends on your participation.
    Actively participate.
  • Please avoid cross-talks.
  • Observe specified timings.
  • Please keep your mobile phones switched off.
  • Feel free to ask question at any point of time.
  • - Restrict question to specific issue being
    discussed, while general
  • questions can be discussed during Q A
    session.
  • Enjoy the program !

5
Introduction to Six Sigma
Purpose of six sigma To make customer happier
and increase profits
6
Origin of Six Sigma
  • 1987 Motorola Develops Six Sigma
  • Raised Quality Standards
  • Other Companies Adopt Six Sigma
  • GE
  • Promotions, Profit Sharing (Stock Options), etc.
    directly tied to Six Sigma training.
  • Dow Chemical, DuPont, Honeywell, Whirlpool

7
Time Line
Allied Signal
Johnson Johnson, Ford, Nissan, Honeywell
Motorola
General Electric
2002
1995
1992
1987
1985
Dr Mikel J Harry wrote a Paper relating early
failures to quality
8
Pilots Six-Sigma Performance
9
Current Leadership Challenges
  • Delighting Customers.
  • Reducing Cycle Times.
  • Keeping up with Technology Advances.
  • Retaining People.
  • Reducing Costs.
  • Responding More Quickly.
  • Structuring for Flexibility.
  • Growing Overseas Markets.

10
Six Sigma Benefits?
  • Generated sustained success
  • Project selection tied to organizational strategy
  • Customer focused
  • Profits
  • Project outcomes / benefits tied to financial
    reporting system.
  • Full-time Black Belts in a rigorous,
    project-oriented method.
  • Recognition and reward system established to
    provide motivation.

11
Management involvement?
  • Executives and upper management drive the effort
    through
  • Understanding Six Sigma
  • Significant financial commitments
  • Actively selecting projects tied to strategy
  • Setting up formal review process
  • Selecting Champions
  • Determining strategic measures

12
Management Involvement?
  • Key issues for Leadership
  • How will leadership organize to support Six Sigma
    ? (6 ? council, Director 6 ?, etc)
  • Transition rate to achieve 6 ?.
  • Level of resource commitment.
  • Centralized or decentralized approach.
  • Integration with current initiatives e.g. QMS
  • How will the progress be monitored?

13
What can it do?
  • Motorola
  • 5-Fold growth in Sales
  • Profits climbing by 20 pa
  • Cumulative savings of 14 billion over 11 years
  • General Electric
  • 2 billion savings in just 3 years
  • The no.1 company in the USA
  • Bechtel Corporation
  • 200 million savings with investment of 30
    million

14
GE Six Sigma Economics
6 Sigma Project Progress
Source 1998 GE Annual Report, Jack Welch Letter
to Share Owners and Employees - progress based
upon total corporation cost/benefits attributable
to Six Sigma.
15
Overview of Six Sigma
16
Overview of Six Sigma
  • It is a Process
  • To achieve this level of performance you need to
  • Define, Measure, Analyse, Improve and Control
  • It is a Philosophy
  • Anything less than ideal is an opportunity for
    improvement
  • Defects costs money
  • Understanding processes and improving them is the
    most efficient way to achieve lasting results
  • It is Statistics
  • 6 Sigma processes will produce less than 3.4
    defects per million opportunities

17
Philosophy
  • Know Whats Important to the Customer (CTQ)
  • Reduce Defects (DPMO)
  • Center Around Target (Mean)
  • Reduce Variation (Standard Deviation)

18
Critical Elements
  • Genuine Focus on the Customer
  • Data and Fact Driven Management
  • Process Focus
  • Proactive management
  • Boundary-less Collaboration
  • Drive for Perfection Tolerance for failure

19
Data Driven Decision
f(X)
Y
  • Y
  • Dependent
  • Output
  • Effect
  • Symptom
  • Monitor
  • X1 . . . Xn
  • Independent
  • Input-Process
  • Cause
  • Problem
  • Control

The focus of Six sigma is to identify and control
Xs
20
Two Processes
DMAIC
DMADV
  • Existing Processes
  • New Processes
  • DFSS
  • Define
  • Measure
  • Analyze
  • Improve
  • Control
  • Define
  • Measure
  • Analyze
  • Design
  • Verify

21
  • Key Concepts

22
COPQ (Cost of Poor Quality)
- Inspection - Warranty - Scrap - Rework - Rejects
  • Traditional Quality Costs
  • Tangible
  • Easy to Measure

- More Setups - Expediting Costs - Lost Sales -
Late Delivery - Lost Customer Loyalty - Excess
Inventory - Long Cycle Times - Costly Engineering
Changes
  • Hidden Costs
  • Intangible
  • Difficult to Measure

- Lost Opportunities - The Hidden Factory
Average COPQ approximately 15 of Sales
23
COPQ v/s Sigma Level
Cost of Quality Sales
Sigma Level
24
CTQ (Critical-To-Quality)
  • CTQ characteristics for the process, service or
    process
  • Measure of What is important to Customer
  • 6 Sigma projects are designed to improve CTQ
  • Examples
  • Waiting time in clinic
  • Spelling mistakes in letter
  • of valves leaking in operation

25
Defective and Defect
  • A nonconforming unit is a defective unit
  • Defect is nonconformance on one of many possible
    quality characteristics of a unit that causes
    customer dissatisfaction.
  • A defect does not necessarily make the unit
    defective
  • Examples
  • Scratch on water bottle
  • (However if customer wants a scratch free bottle,
    then this will be defective bottle)

26
Defect Opportunity
  • Circumstances in which CTQ can fail to meet.
  • Number of defect opportunities relate to
    complexity of unit.
  • Complex units Greater opportunities of defect
    than simple units
  • Examples
  • A units has 5 parts, and in each part there are 3
    opportunities of defects Total defect
    opportunities are 5 x 3 15

27
DPO (Defect Per Opportunity)
  • Number of defects divided by number of defect
    opportunities
  • Examples
  • In previous case (15 defect opportunities), if 10
    units have 2 defects.
  • Defects per unit 2 / 10 0.2
  • DPO 2 / (15 x 10) 0.0133333

28
DPMO (Defect Per Million Opportunities)
  • DPO multiplies by one million
  • Examples
  • In previous case (15 defect opportunities), if 10
    units have 2 defects.
  • Defects per unit 2 / 10 0.2
  • DPO 2 / (15 x 10) 0.0133333
  • DPMO 0.013333333 x 1,000,000 13,333

Six Sigma performance is 3.4 DPMO
13,333 DPMO is 3.7 Sigma
29
Yield
  • Proportion of units within specification divided
    by the total number of units.
  • Examples
  • If 10 units have 2 defectives
  • Yield (10 2) x 100 /10 80
  • Rolled Through Yield (RTY)
  • Y1 x Y2 x Y3 x . x Yn
  • E.g 0.90 x 0.99 x 0.76 x 0.80 0.54

30
  • Forms of Waste

31
What are the forms of waste?
  1. Waste of Correction
  2. Waste of Overproduction
  3. Waste of processing
  4. Waste of conveyance (or transport)
  5. Waste of inventory
  6. Waste of motion
  7. Waste of waiting

32
1. Waste of correction
  • Repairing a defect wastes time and resources
    (Hidden factory)

Hidden Factory
Rework
Rework
Failure Investigation
Failure Investigation
Product
Operation 1
Test
Test
Operation 2
33
2. Waste of Overproduction
  • Producing more than necessary or producing at
    faster rate than required
  • Excess labor, space, money, handling

34
3. Waste of processing
  • Processing that does not provide value to the
    product
  • Excess level of approvals
  • Tying memos that could be handwritten
  • Cosmetic painting on internals of equipment
  • Paint thickness more than specific values

35
4. Waste of conveyance
  • Unnecessary movement of material from one place
    to other to be minimized because -
  • It adds to process time
  • Goods might get damaged
  • Convey material and information ONLY when and
    where it is needed.

36
5. Waste of inventory
  • Any excess inventory is drain on an organization.
  • Impact on cash flow
  • Increased overheads
  • Covers Quality and process issues
  • Examples
  • Spares, brochures, stationary,

37
6. Waste of Motion
  • Any movement of people, equipment, information
    that does not contribute value to product or
    service

38
7. Waste of Waiting
  • Idle time between operations
  • Period of inactivity in a downstream process
    because an upstream activity does not deliver on
    time.
  • Downstream resources are then often used in
    activities that do not add value, or worst result
    in overproduction.

39
Some more sources of Waste
  • Waste of untapped human potential.
  • Waste of inappropriate systems
  • Wasted energy and water
  • Wasted materials
  • Waste of customer time
  • Waste of defecting customers

40
  • What is Sigma?

41
Have you ever
  • Shot a rifle?
  • Played darts?

What is the point of these sports? What makes
them hard?
42
Have you ever
  • Shot a rifle?
  • Played darts?

Who is the better shooter?
43
Variability
  • Deviation distance between observations and the
    mean (or average)

Observations Deviations
10 10 - 8.4 1.6
9 9 - 8.4 0.6
8 8 - 8.4 -0.4
8 8 - 8.4 -0.4
7 7 - 8.4 -1.4
averages 8.4 0.0
44
Variability
  • Deviation distance between observations and the
    mean (or average)

Observations Deviations
7 7 - 6.6 0.4
7 7 - 6.6 0.4
7 7 - 6.6 0.4
6 6 - 6.6 -0.6
6 6 - 6.6 -0.6
averages 6.6 0.0
45
Variability
  • Variance average distance between observations
    and the mean squared

Observations Deviations
10 10 - 8.4 1.6
9 9 8.4 0.6
8 8 8.4 -0.4
8 8 8.4 -0.4
7 7 8.4 -1.4
averages 8.4 0.0
Squared Deviations
2.56
0.36
0.16
0.16
1.96
1.0
Variance
46
Variability
  • Variance average distance between observations
    and the mean squared

Observations Deviations
7 7 - 6.6 0.4
7 7 - 6.6 0.4
7 7 - 6.6 0.4
6 6 6.6 -0.6
6 6 6.6 -0.6
averages 6.6 0.0
Squared Deviations
0.16
0.16
0.16
0.36
0.36
0.24
Variance
47
Variability
  • Standard deviation square root of variance

Jack
Average Variance Standard Deviation
Jack 8.4 1.0 1.0
Jill 6.6 0.24 0.4898979
Jill
48
Variability
The world tends to be bell-shaped
49
Variability
Here is why
Even outcomes that are equally likely (like
dice), when you add them up, become bell shaped
50
Normal bell shaped curve
Normal distributions are divide up into 3
standard deviations on each side of the
mean Once your that, you know a lot about what
is going on
?
And that is what a standard deviation is good for
51
Causes of Variability
  • Common Causes
  • Random variation within predictable range (usual)
  • No pattern
  • Inherent in process
  • Adjusting the process increases its variation
  • Special Causes
  • Non-random variation (unusual)
  • May exhibit a pattern
  • Assignable, explainable, controllable
  • Adjusting the process decreases its variation

52
Limits
  • Process and Control limits
  • Statistical
  • Process limits are used for individual items
  • Control limits are used with averages
  • Limits µ 3s
  • Define usual (common causes) unusual (special
    causes)
  • Specification limits
  • Engineered
  • Limits target tolerance
  • Define acceptable unacceptable

53
Usual v/s Unusual, Acceptable v/s Defective
Another View
Off-Target
Large Variation
USL
LSL
LSL
USL
On-Target
Center Process
Reduce Spread
LSL Lower spec limit USL Upper spec limit
LSL
USL
The statistical view of a problem
54
More about limits
Poor quality defects are common (Cpklt1)
Good quality defects are rare (Cpkgt1)
µ target
µ target
Cpk measures Process Capability
If process limits and control limits are at the
same location, Cpk 1. Cpk 2 is exceptional.
55
Process capability
  • Good quality defects are rare (Cpkgt1)
  • Poor quality defects are common (Cpklt1)


USL x 3s
24 20 3(2)


.667
Cpk min

x - LSL 3s
20 15 3(2)


.833


3s (UPL x, or x LPL)
56
A Six Sigma Process Predictably twice as good
as what the customer wants
57
3 s v/s 6 s
6 Sigma curve
LSL
USL
3 Sigma curve
3
4
5
6
8
9
12
10
16
15
14
13
11
1
2
7
58
Process shift allowed
1.5 SD
1.5 SD
LSL
USL
SD 1
2
3
4
5
6
7
8
9
12
10
16
15
14
13
11
1
59
Six Sigma Measurement
On one condition Calculate the defects and
estimate the opportunities in the same way...
60
Six Sigma Measurement
61
  • Components of Six Sigma

62
Components
Two components of Six Sigma1. Process
Power2. People Power
63
Process Power
64
P-D-C-A
Plan
Act
A
P
Plan the change
Act on what was learned
C
D
Check
Do
Check the results
Implement the change on a small scale.
65
Approach
Practical Problem

Statistical Problem

Statistical Solution

Practical Solution
66
DMAIC - simplified
  • Define
  • What is important?
  • Measure
  • How are we doing?
  • Analyze
  • What is wrong?
  • Improve
  • Fix whats wrong
  • Control
  • Ensure gains are maintained to guarantee
    performance

67
DMAIC approach
D Define
Identify and state the practical problem
M Measure
Validate the practical problem by collecting data
A Analyze
Convert the practical problem to a statistical
one, define statistical goal and identify
potential statistical solution
I Improve
Confirm and test the statistical solution
C Control
Convert the statistical solution to a practical
solution
68
Define
D Define
VoC - Who wants the project and why ?
M Measure
The scope of project / improvement (SMART
Objective)
A Analyze
Key team members / resources for the project
I Improve
Critical milestones and stakeholder review
C Control
Budget allocation
69
Measure
D Define
Ensure measurement system reliability
- Is tool used to measure the output variable
flawed ?
M Measure
A Analyze
Prepare data collection plan
  • - How many data points do you need to collect ?
  • How many days do you need to collect data for ?
  • What is the sampling strategy ?
  • Who will collect data and how will data get
    stored ?
  • What could the potential drivers of variation be
    ?

I Improve
C Control
Collect data
70
Analyze
D Define
M Measure
How well or poorly processes are working compared
with - Best possible (Benchmarking) -
Competitors Shows you maximum possible
result Dont focus on symptoms, find the root
cause
A Analyze
I Improve
C Control
71
Improve
D Define
  • Present recommendations to process owner.
  • Pilot run
  • Formulate Pilot run.
  • Test improved process (run pilot).
  • Analyze pilot and results.
  • Develop implementation plan.
  • Prepare final presentation.
  • Present final recommendation to Management Team.

M Measure
A Analyze
I Improve
C Control
72
Control
D Define
Dont be too hasty to declare victory.
M Measure
A Analyze
How will you maintain to gains made?
I Improve
  • - Change policy procedures
  • - Change drawings
  • Change planning
  • Revise budget
  • Training

C Control
73
Omitting a step in DMAIC?
Step Consequences if the step is omitted
1. Define
2. Measure
3. Analyze
4. Improve
5. Control
74
Tools for DMAIC
Define What is wrong?
Measure Data Process capability
Analyze When and where are the defects
Improve How to get to six sigma
Control Display key measures
Benchmark Baseline Contract / Charter Kano Model Voice of the Customer Quality Function Deployment Process Flow Map Project Management Management by Fact 4 Whats 7 Basic Tools Defect Metrics Data Collection, Forms, Plan, Logistics Sampling Techniques Cause Effect Diagrams Failure Models Effect Analysis Decision Risk Analysis Statistical Inference Control Charts Capability Reliability Analysis Root Cause Analysis 5 Whys Systems Thinking Design of Experiments Modelling Tolerancing Robust Design Process Map Statistical Controls Control Charts Time Series Methods Non Statistical Controls Procedure adherence Performance Mgmt Preventive activities Poke yoke
75
Components
Two components of Six Sigma1. Process
Power2. People Power
Tell me, I forget. Show me , I remember. Involve
me, I understand.
76
6 s Training
Mentor, trainer, and coach of Black Belts and
others in the organization.
Master Black Belt
Leader of teams implementing the six sigma
methodology on projects.
Black Belts
Champions
Delivers successful focused projects using the
six sigma methodology and tools.
Green Belts
Participates on and supports the project teams,
typically in the context of his or her existing
responsibilities.
Team Members / Yellow Belts
77
Six Sigma Organization
78
6 s Training
Position in Six Sigma Organisation
Typical Training
Expected Role Post Training
Executive overview 2/3 Days
Senior Executives Champions / Process
owners Black-Belt Green
Belt Employees (Yellow-Belt)
Provide Leadership
Champions Training - I 2 days
Champions Training II 3 days

Process Mgmt. Project champion
(Total 5 days)
Training / Facilitation skills
Master Black-Belt -As Trainer -Coach
teams -Facilitateimprovement projects
Week 1
Week 2
Week 3
Week 4
Project-work
Black-Belt
  • Part of project teams
  • Sometime lead the teams

Project work
1 Week Green-Belt Training
  • General process control improvement
  • Project Team Member

1 / 2 Days core training on Six-Sigma
79
Champion
  • Plans improvement projects
  • Charters or champions chartering process
  • Identifies, sponsors and directs Six Sigma
    projects
  • Holds regular project reviews in accordance with
    project charters
  • Includes Six Sigma requirements in expense and
    capital budgets

80
Champion
  • Identifies and removes organizational and
    cultural barriers to Six Sigma success.
  • Rewards and recognizes team and individual
    accomplishments (formally and informally)
  • Communicates leadership vision
  • Monitors and reports Six Sigma progress
  • Validates Six Sigma project results
  • Nominates highly qualified Black Belt and/or
    Green Belt candidates

81
Master Black Belt
Roles Responsibilities
Enterprise Six Sigma expert Permanent full-time change agent Certified Black Belt with additional specialized skills or experience especially useful in deployment of Six Sigma across the enterprise - Highly proficient in using Six Sigma methodology to achieve tangible business results. Technical expert beyond Black Belt level on one or more aspects of process improvement (e.g., advanced statistical analysis, project management, communications, program administration, teaching, project coaching) Identifies high-leverage opportunities for applying the Six Sigma approach across the enterprise Basic Black Belt training Green Belt training Coach / Mentor Black Belts
82
Black Belt
Roles Responsibilities
Six Sigma technical expert Temporary, full-time change agent (will return to other duties after completing a two to three year tour of duty as a Black Belt) Leads business process improvement projects where Six Sigma approach is indicated. Successfully completes high-impact projects that result in tangible benefits to the enterprise Demonstrated mastery of Black Belt body of knowledge Demonstrated proficiency at achieving results through the application of the Six Sigma approach Coach / Mentor Green Belts Recommends Green Belts for Certification
83
Green Belt
Roles Responsibilities
Six Sigma Project originator Part-time Six Sigma change agent. Continues to perform normal duties while participating on Six Sigma project teams Six Sigma champion in local area Recommends Six Sigma projects Participates on Six Sigma project teams Leads Six Sigma teams in local improvement projects
84
Yellow Belt
Roles Responsibilities
Learns and applies Six Sigma tools to projects Actively participates in team tasks Communicates well with other team members Demonstrates basic improvement tool knowledge Accepts and executes assignments as determined by team
85
Financial Analyst
  • Validates the baseline status for each project.
  • Validates the sustained results / savings after
    completion of the project.
  • Compiles overall investment vs. benefits on Six
    Sigma for management reporting.
  • Will usually be the part of Senior Leadership
    Team.

86
Thought of the day
  • We don't know what we don't know
  • We can't act on what we don't know
  • We won't know until we search
  • We won't search for what we don't question
  • We don't question what we don't measure
  • Hence, We just don't know

87
  • Project Selection

The first step to implement Six Sigma
88
Sources of Projects
  • External Sources
  • Voice of Customer
  • What are we falling short of meeting customer
    needs?
  • What are the new needs of customers?
  • Voice of Market
  • What are market trends, and are we ready to
    adapt?
  • Voice of Competitors
  • What are we behind our competitors?

89
Sources of Projects
  • Internal Sources
  • Voice of Process
  • Where are the defects, repairs, reworks?
  • What are the major delays?
  • What are the major wastes?
  • Voice of Employee
  • What concerns or ideas have employees or managers
    raised?
  • What are we behind our competitors?

90
Project Selection
  • As a team List down at least 20 improvement
    projects related to your work areas .

A Problem Statement should be SMART
  • Specific - It does not solve world hunger
  • Measurable - It has a way to measure success
  • Achievable - It is possible to be successful
  • Relevant - It has an impact that can be
    quantified
  • Timely - It is near term not off in the future

91
Harvesting the Fruit of Six Sigma
Sweet Fruit Design for Repeatability
Process Enhancement
Bulk of Fruit Process Characterization and
Optimization
- - - - - - - - - - - - - - - - - - - - - - - - -
- - - - - - - - - - -
Low Hanging Fruit Seven Basic Tools
- - - - - - - - - - - - - - - - - - - - - - - - -
- - - - - - - - - - -
Ground Fruit Logic and Intuition
92
Types of Savings
  • Hard Savings
  • Cost Reduction
  • Energy Saving
  • Raw Material saving
  • Reduced Rejection, Waste, Repair
  • Revenue Enhancement
  • Increased production
  • Yield Improvement
  • Quality Improvement

93
Types of Savings
  • Hard Savings
  • Cash flow improvement
  • Reduced cash tied up in inventory
  • Reduced late receivables, early payables
  • Reduced cycle time
  • Cost and Capital avoidance
  • Optimizing the current system / resources
  • Reduced maintenance costs

94
Types of Savings
  • Soft Savings
  • Customer Satisfaction / Loyalty
  • Employee Satisfaction

95
Cost of implementing
  • Direct Payroll
  • Full time (Black Belts, Master Black Belts)
  • Indirect Payroll
  • Time by executives, team members, data collection
  • Training and Consulting
  • Black Belt course, Overview for Mgmt etc.
  • Improvement Implementation Costs
  • Installing new solution, IT driven solutions etc.

96
What Qualifies as a Six Sigma Project
  • Three basic qualifications
  • -There is a gap between current and desired /
    needed performance.
  • The cause of problem is not clearly understood.
  • The solution is not pre-determined, nor is
    the optimal solution apparent.

How many projects out of 20 now qualify as Six
sigma projects?
97
Way forward
  • Get Started
  • Look for low hanging fruits
  • Even poor usage of these tools will get results
  • Learn more about Six Sigma
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