PMP Definitions

Question 1

Project

Answer 1

A temporary endeavor undertaken to create a unique product, service, or result.

Question 2

Program

Answer 2

A group of related projects that are coordinated allowing for more control.

Question 3

Portfolio

Answer 3

A collection of projects and programs that are aligned to achieve strategic business objectives.

Question 4

Phases

Answer 4

A group of related project activities that allows for more control and often completes a major deliverable.

Question 5

Project Life Cycle

Answer 5

A group of project phases defined by an organization into a framework allowing for more control.

Question 6

Baseline

Answer 6

The original approved plan plus/minus all approved changes; the current approved version of the plan.

Question 7

System

Answer 7

A set of formal policies, procedures, rules, or processes that defines how things are done.

Question 8

Progressive Elaboration

Answer 8

An iterative approach to planning; plans are created in multiple passes rather than all at once.

Question 9

Historical Information

Answer 9

Documents or data from previous projects which are used to assist in future project decisions.

Question 10

Enterprise Environmental Factors (EEF)

Answer 10

The environment you work in that can impact your project; corporate culture, industry standards, infrastructure, political climate, market conditions, etc.

Question 11

Organizational Process Assets (OPA)

Answer 11

Any documented processes and procedures; corporate knowledge base (e.g. project archives).

Question 12

Functional Organization Structure

Answer 12

A departmentalized structure where employees work for only one manager; the project manager has little to no power.

Question 13

Matrix Organization Structure

Answer 13

Employees report to both a functional manager and a project manager (power is shared). Weak Matrix: The PM has little power Balance Matrix: The PM has moderate power Strong Matrix: The PM has nearly full power and authority

Question 14

Projectized Organization Structure

Answer 14

Employees work directly for and report only to the project manager; The project manager. has full power and authority

Question 15

Stakeholder

Answer 15

A person or organization who is actively involved in the project, or whose interests may be positively or negatively impacted by the project, or who might exert influence over the project.

A stakeholder grid show interest level versus power level.

Question 16

Business Case (reason s to do a project)

Answer 16

market demand, business need or strategic opportunity, customer request, technological advance, legal requirement, ecological impact, social need.

Question 17

Project Expeditor

Answer 17

Staff assistant to the executive who has responsibility for the project. - can make few if any decisions - primary responsibility lies in assuring the timely arrival of resources

Question 18

Project Coordinator

Answer 18

Reports to a higher level in the hierarchy. - has authority to assign work to individuals - lacks full authority of a project manager

Question 19

Project Manager

Answer 19

Tasked with achieving the project objectives. - lead person responsible for communicating with all stakeholders including sponsor - may report to a functional manager or program or portfolio manager

Question 20

Project Charter

Answer 20

Formally authorized the project to exist, establishes the project manager’s authority, and documents high-level requirements, milestones, budge, risks, and success criteria.

Question 21

Project Management Plan

Answer 21

A formal, approved document that defines how the project is executed, monitored & controlled. Project Management Plan Components: - Change Management Plan - Configuration Management Plan - Scope Management Plan - Schedule Management Plan - Cost Management Plan, - Quality Management Plan - Process Improvement Plan - Human Resources Plan - Communications Management Plan, - Risk Management Plan - Stakeholder Manan Plan - Procurement Management Plan - Requirements Management Plan - Scope Baseline - Schedule Baseline - Cost Performance Baseline

Question 22

Lessons Learned

Answer 22

Things learned on the current or previous project that can be used to improve current or future project performance.

Question 23

Work Authorization Systems

Answer 23

Defines how project work will be authorized to ensure that work is done by the right organization, at the right time, and in the right order.

Question 24

Change Request

Answer 24

A formal request for a change to the project; can be a change to scope, cost/budget, schedule, policies, procedures, processes, or to any of the project plans.

Question 25

Issue

Answer 25

A point to matter in question, in dispute, or over which there are disagreements.

Question 26

Preventive Actions

Answer 26

Take actions to reduce the probability of negative impacts associated with project risks (prevent/minimize impact of potential problems).

Question 27

Correctie Actions

Answer 27

Take actions to align expected future project outcomes to the project management plan (correct the problem).

Question 28

Value Engineering

Answer 28

An approach used to optimize project life cycle costs, save time, increase profits, improve quality, expand market share, solve problems, and/or use resources more efficiently; see Product Analysis Tool & Technique.

Question 29

Group Creativity Techniques

Answer 29

• Brainstorming - Nominal Group Technique (voting and ranking ideas) - Delphi Technique (Blind/anonymous) - Idea and MinMapping - Affinity Diagrams (grouping into categories)

Question 30

Group Decision Making Techniques

Answer 30

• Unanimity (all agree) - Majority (over 50% agree) - Plurality (Larges block agrees) - Dictatorship (one person decides) - Consensus (all agree to go along, even if it’s not their first choice)

Question 31

Project Scope Statement

Answer 31

Describes in detail the project’s deliverables and the work required to create those deliverables; it contains explicit project inclusions and exclusions, acceptance criteria, assumptions, and constraints

Question 32

Project vs. Product Scope

Answer 32

Project scope is measured against the project management plan. Product scope is measured against product requirements.

Question 33

Decomposition

Answer 33

The process of continually breaking down project deliverables into all parts to the loin where activity cots and drains ca b reliably estimate and managed.

Question 34

WBS Work Breakdown Structure

Answer 34

A deliverable-oriented hierarchy decomposition of the work to be completed on a project. Each lower level representats an i increasingly detailed definition of the work; lowest level is the work package; each node has a unique identifier; WBS Dictionary - provides a detailed descriptions of each WBS component.

Question 35

Scope Baseline

Answer 35

Includes the WBS, WBS Dictionary, and Project Statement.

Question 36

Project Schedule Network Diagram

Answer 36

A graphical depiction of dependencies among project activities. A visual representation of the project schedule.

Question 37

Precedence Diagramming Method (PDM)

Answer 37

A network diagramming method that uses rectangles (notes) to represent activities and arrows to show logical relationships between the activities; also known as Activity-On-Node (AON).

Question 38

Types of Dependencies

Answer 38

Mandatory (hard logic) Discretionary (preferred, arbitrary, soft logic) External Internal

Question 39

Logical Relationships

Answer 39

Dependencies between two activities where one activity must be started or finished before the other can be started or finished. Four Types: Finish-to-Start (FS) Finish-to-Finish (FF) Start-to-Start (SS) Start-to-Finish (SF)

Question 40

Lead

Answer 40

Starting an activity prior to the completion of the preceding activity, getting a head-start on an activity.

Question 41

Lag

Answer 41

Delaying the start of an activity after the completion of a preceding activity, delaying an activity.

Question 42

Bottom-Up Estimating

Answer 42

Breaking a project or activity down into smaller components that are easier to estimate, then aggregating (rolling-up) those costs or durations. This is the most accurate and expensive estimating technique.

Question 43

Analogous Estimating

Answer 43

Using a previous project (historical information) as a starting point to estimate activity costs or activity durations; also known as top-down estimating. This is the least accurate, but quickest method.

Question 44

Parametric Estimating

Answer 44

Using a statistical relationship to calculate cost or duration; typically involves multiplying the number of units by a cost or duration per unit. Time example: 4 hours per server x 20 server = duration of 80 hours Cost example: $100 cost per square foot x 2,000 square feet = $200,000 construction cost.

Question 45

Three-Point Estimating

Answer 45

A weighted average method used to increase estimation accuracy; uses Optimistic, Pessimistic, and Most Likely estimates to calculate the estimated activity cost or duration. Triangle Distribution Formula: (O + M + P)/3 Beta Distribution Formula (PERT): (O + 4xM + P)/6

Question 46

Reserve Analysis

Answer 46

Contingency reserves buffers) used to account for schedule or cost uncertainty (risks).

Question 47

Critical Path

Answer 47

The path of activities alone which any delays will cause the project to be delayed; the longest duration path through the schedule network diagram; the chain of tasks which all have 0 float.

Question 48

Total Float (Slack)

Answer 48

The amount of time an activity can be delayed without delaying the project completion date.

Question 49

Free Float

Answer 49

The amount of time an activity can be delayed without delaying the following (successor) activity.

Question 50

Critical Path Method

Answer 50

A schedule analysis method that calculates the critical path for the project, float for each activity, and possible start and finish dates for each activity.

Question 51

Critical Chain Method

Answer 51

Takes the Critical Path Method and factors in resource constraints and schedule buffers.

Question 52

Schedule Compression

Answer 52

Used to shorten the project schedule. Two Methods: Crashing - Adds extra resources, results in higher costs. Fast-Tracking - Doing activities in parallel, which increases risk.

Question 53

Resource Leveling

Answer 53

Used to adjust the resource schedule when resources have been over-allocated; ;often lets the schedule slip in order to smooth out resource utilization. A histogram (bar chart) is the tool used to do this.

Question 54

What-if Analysis

Answer 54

A statistical analysis method used to predict the schedule based on various possible scenarios. Examples include: Monte Carlo Analysis which is a computer software that attempts thousands of random scenarios to predict likely possible outcomes.

Question 55

Milestone Schedule

Answer 55

A summary schedule which only shows key points in the project.

Question 56

Grantt Chart

Answer 56

A type of bar chart used to display the project schedule with bar lengths representing activity durations.

Question 57

Schedule Baseline

Answer 57

The accepted and approved version of the project schedule.

Question 58

Funding Limit Reconciliation

Answer 58

Adjustments made to project expenditures to account for funding limits (e.g. quarterly budgets).

Question 59

Cost Baseline

Answer 59

Authorized, time-phased, total project Budget used to measure, monitor and control cost performance of the project; appears as an S-curve on a graph.

Question 60

Variance Analysis

Answer 60

Measuring the difference between planned and actual (used for both costs and durations).

Question 61

Earned Value Management (EVM)

Answer 61

An objective mathematical approach to measure cost and schedule performance.

Question 62

Contingency Reserves

Answer 62

Amounts set aside by the PM to cover known risks (known-unknowns) and is included in the Cost Baseline.

Question 63

Management Reserves

Answer 63

Amounts management sets aside to cover unknown risks (unknown-unknowns) and is NOT included in the Cost Baseline.

Question 64

Net Present Value (NPV)

Answer 64

Present value of a future income stream, offset against the initial investment amount. NPV = Sum of [Future Cash Flows / (1 + i)^N] - Initial Costs NPV = Sum of [PV for Each year] - Initial Costs PV = FV / (1 + i)^N

Question 65

Benefit Cost Ratio

Answer 65

Compares financial yield to the cost of doing the project.

Question 66

Payback Period

Answer 66

The amount of time needed to recoup the project’s investment.

Question 67

Customer Satisfaction

Answer 67

Keep customer happy by conformance to requirements (ensure the project produces what it’s supposed to) and fitness for use (the product must satisfy real needs).

Question 68

Prevention over Inspection

Answer 68

It’s usually less expensive to prevent mistakes than it is to fix them.

Question 69

Precision

Answer 69

The values of repeated measurements are clustered and have little scatter.

Question 70

Accuracy

Answer 70

The measured value is very close to the true value.

Question 71

Quality Assurance

Answer 71

Looking to see if we are using the quality procedures as planned; Auditing the Process. QA = Audit

Question 72

Control Quality

Answer 72

Testing the quality of the product or deliverable. CQ = Inspection

Question 73

Cost-Benefit Analysis

Answer 73

High quality results in less rework, higher productivity, lower costs, and increased stakeholder satisfaction.

Question 74

Cost of Quality (COQ)

Answer 74

Includes all costs over the life of the project. Includes two categories: Conformance & Nonconformance. Cost of Conformance: - Prevention Costs: - Training - Time to do it right - Document processes - Equipment (state of the art) - Appraisal Costs: - Testing - Destructive testing loss - Inspections Cost of Non-Conformance: - Internal Failure Costs: - Rework - Scrap - External Failure Costs: - Liabilities - Warranty work - Lost business

Question 75

Cost of Conformance

Answer 75

Money spent during the project to avoid failures. Two categories: Prevention and Appraisal. Cost of Conformance: - Prevention Costs (Build a quality product) - Training - Allow enough time to do it right - Document processes - Maintaining equipment - Appraisal Costs (Assess the quality) - Testing - Destructive testing loss - Inspections

Question 76

Cost of Non-Conformance

Answer 76

Money spent during and after the project because of failures. Cost of Non-Conformance: - Internal Failure Costs (Failures found by the project) - Rework - Scrap - External Failure Costs (Failures found by the customer) - Liabilities - Warranty work - Lost business

Question 77

Design of Experiments (DOE)

Answer 77

A statistical technique that analyzes several variations (product bundles or feature combinations) at once.

Question 78

Kaizen

Answer 78

Japanese word for “continuous improvement” A type of Plan Do Check Act (PDCA) cycle

Question 79

W. Edwards Deming

Answer 79

Developed the 14 points of Total Quality Management (TQM), & said quality is a management problem 85% of the time.

Question 80

Joseph Juran

Answer 80

Defined quality as “Fitness for Use” & promoted conformance and quality by design.

Question 81

Philip Crosby

Answer 81

Believed in conformance to requirements and Zero Defects.

Question 82

ISO 9000

Answer 82

A quality management certification that requires documenting and following processes.

Question 83

Quality vs. Grade

Answer 83

Low Grade is OK - Grade has to do with amount of features Low Quality is ALWAYS BAD - Quality has to do with the product itself

Question 84

Standard Deviation

Answer 84

Also known as sigma; represents variation (dispersion) from the average (mean). SD = (Pessimistic - Optimistic) / 6 1 Sigma = 68.26 % (317,500 defects per million) 2 Sigma = 95.46% (45,000 defects per million) 3 Sigma = 99.73% (2,700 defects per million) 4 Sigma = 99.999% (3.4 defects per million)

Question 85

Probability Distributions

Answer 85

Graphical representation of probabilities. 1σ = 68.26 % (317,500 defects per million) 2σ = 95.46% (45,000 defects per million) 3σ = 99.73% (2,700 defects per million) 4σ = 99.999% (3.4 defects per million)

Question 86

Normal Probability Distribution (Bell Curve)

Answer 86

Question 87

Mutually Exclusive

Answer 87

Two events can’t occur at the same time (if one event occurs, then the other event cannot).

Question 88

Statistical Independence

Answer 88

The occurrence of one event makes it neither more note less probable that the other occurs; past coin flips of heads do not change the probability of the next coin flip being heads.

Question 89

Statistical Sampling

Answer 89

Choosing small random sample, and the sample’s properties should represent the entire group.

Question 90

Rule of 7

Answer 90

Seven consecutive data points on a control chart on one side of the mean signifies that the process is headed out of control.

Question 91

Benchmarking

Answer 91

Comparing your project or process to a known standard.

Question 92

Flowcharting

Answer 92

Visual depiction of a process.

Question 93

Types of Variances

Answer 93

Special Cause - Also known as Assignable Cause, is not inherent in the system, not predictable, and is intermittent. Includes non-random data points or points outside the control limits. Common Cause - Also known as Random Cause, is inherent in the system and predictable, normal or not unusual, includes random patterns within the control limits.

Question 94

Pareto Chart

Answer 94

A type of chart that contains both bars and a line graph, where individual values are represented in descending order by bars, and the cumulative total is represented by the line. 80/20 rule says 80% of problems are from 20% of the causes, and dictates you should focus most of your attention on those top few causes.

Question 95

Scatter Diagram

Answer 95

Plots data points to show the relationship between 2 variables (X,Y)

Question 96

Cause and Effect (Ishikawa or Fishbone) Diagram

Answer 96

Shows how various factors might be linked to potential problems or effects.

Question 97

Maslow’s Hierarchy of Needs (triangle)

Answer 97

People can only ascend to a higher level after fulfilling each of the lower levels. Physiological - Food, water, shelter Safety - security, stability, freedom from harm Social - friends, family, love Esteem - respect, appreciation Self-Actualization optimal performance, growth, learning.

Question 98

Herzberg’s Motivation-Hygiene Theory

Answer 98

Certain factors in the workplace cause job satisfaction, while a separate set of a factors cause dissatisfaction. Hygiene factors including status, job security, salary, and fringe benefits do NOT cause satisfaction, but if they are missing they cause Dissatisfaction.

Question 99

McGregor’s Theory-X

Answer 99

People dislike work, and thus employees must be watched closely.

Question 100

McGregor’s Theory-Y

Answer 100

People are self-motivated, and thus can be trusted to work hard on their own.

Question 101

Fiedler’s Contingency Theory

Answer 101

Effectiveness of a leader’s management style (task-orients vs. relationship-oriented) is dependent on the situation.

Question 102

McClelland’s Theory of Needs

Answer 102

People are motivated by either (1) achievement, (2) affiliation, or (3) power, and need to be managed accordingly.

Question 103

Expectancy Theory

Answer 103

Employees are motivated by the expectation of realistic positive outcomes and related rewards.

Question 104

Responsibility Assignment Matrix (RAM)

Answer 104

A grid that shows the relationship between work packages (rows) and team members (columns).

Question 105

RACI Chart

Answer 105

A RACI Chart is a type of RAM that shows who is responsible for the work, accountable for the work, who needs to be consulted, and who needs to be kept informed. Responsible - does the work Accountable - ensures the work is done Consult - input required from SME Inform - updated on status

Question 106

Staffing Management Plan

Answer 106

Includes information on staff acquisition & release, resource calendars, recognition & rewards, compliance (unions, regulation, legal, etc), and safety (training, policies, and procedures).

Question 107

Constructive Team Roles

Answer 107

Clarifiers, Encouragers, Information Givers, Information Seekers, Initiators, Gate Keepers, Harmonizers, and Summarizers.

Question 108

Destructive Team Roles

Answer 108

Aggressors, Blockers, Dominators, Devil’s Advocate, Recognition Seekers, Topic Jumpers, Withdrawers.

Question 109

Forms of Power

Answer 109

Formal/Legitimate - power based on position or title Expert - BEST; power based on knowledge or expertise such as a SME Reward - You reward desirable behavior with incentives, aka the carrot method. Referent - power based on respect or adornment Punishment/Penalty - WORST; threats of punishment, aka the stick method

Question 110

Methods of Conflict Resolution

Answer 110

Collaborating - examine various perspectives, cooperate Compromising - both parties give something up Forcing - pushing one’s viewpoint at the expense of others (win-lose) Smoothing/Accommodating - emphasis on areas of agreement, but ignore the true problem (lose-lose) Withdraw/Avoiding - retreating from conflict (lose-lose)

Question 111

Team Development (Tuckman’s Ladder)

Answer 111

Forming - team is shy Storming - not seeing eye-to-eye Norming - begin to work together Performing - well-organized Adjourning - team disbands

Question 112

Interpersonal Skills

Answer 112

Aka soft skills. Leading Influencing Effective Decision-Making

Question 113

Primary Sources of Conflict

Answer 113

Schedule, Resources, and Priorities account for 50% of project conflicts.

Question 114

Communications Management Plan

Answer 114

Documents: - who sends info - who receives info - what info is sent - how info is sent - when and how often info is sent

Question 115

Number of Communication Channels

Answer 115

n(n-1) / 2

Question 116

Communication Methods

Answer 116

Interactive - multi-direction (meetings) Push - one-way outbound (email) Pull - one-way inbound (share point)

Question 117

Communication Types

Answer 117

Formal Written - complex problems, project management plans, memos, contracts Formal Verbal - presentations, speeches Informal Written - email, handwritten notes Informal Verbal - meetings, conversations

Question 118

NonVerbal Communications

Answer 118

body language, posture, facial expressions, hand motions, etc.

Question 119

Para-lingual

Answer 119

Pitch and tone of your voice to convey emphasis and importance.

Question 120

Risk

Answer 120

Uncertainty, an unknown future event. Positive risks are opportunities. Negative risks are threats.

Question 121

Residual Risk

Answer 121

Any risk that remains after the risk response strategy has been implemented; left-over risk.

Question 122

Secondary Risk

Answer 122

Risks that occur as a result of implementing a risk response strategy.

Question 123

Qualitative Risk Analysis

Answer 123

A quick and easy risk assessment method that combines the probability and impact to assign a risk score.

Question 124

Quantitative Risk Analysis

Answer 124

A more rigorous risk assessment which numerically analyzes the effect of identified risks on overall project objectives.

Question 125

Probability and Impact Matrix

Answer 125

A matrix used during qualitative risk analysis that multiplies the risk probability (high, medium, or low) by the impact to come up with a risk score, which is then used to create a prioritized list of risks.

Question 126

Expected Monetary Value (EMV)

Answer 126

EMV = Probability x Impact

Question 127

Sensitivity Analysis

Answer 127

Graphically shows which variable have the greatest impact on the project. - Tornado Diagram

Question 128

Threat Strategies

Answer 128

ATM-A - Avoid - change something so that the threat no longer exists - Transfer - shift the risk to a third party, perhaps via a contract - Mitigate - reduce the probability or impact, an alternate plan - Accept - live with it

Question 129

Opportunity Strategies

Answer 129

SEE-A - Share - share with a third party, perhaps via a joint venture - Exploit - change something to ensure the opportunity occurs - Enhance - increase the probability or impact, an alternate plan - Accept - live with it

Question 130

Workarounds

Answer 130

Used only when an unidentified (unknown-unknown) risk event occurs.

Question 131

Reserves

Answer 131

Money or time set aside in case a risk occurs; contingency reserves are for identified risks, management reserves are for unidentified risks.

Question 132

Procurement Documents

Answer 132

RFP = Request for Proposal RFB = Request for Bid RFQ = Request for Quote RFI = Request for Information IFB = Invitation for Bid

Question 133

Point of Total Assumption (PTA)

Answer 133

The point where the seller has to pay of any further cost overruns. PTA = Target Cost + ((Ceiling Price - Target Price) / Buyer’s Share Ratio) PTA = TC + ((CP-TP)/BSR)

Question 134

Teaming Agreements

Answer 134

A standardized contract between two parties to simplify procurements; aka master service agreements.

Question 135

Type of Contracts

Answer 135

Fixed Price (seller bears all risk): FFP = Firm Fixed Price - most common, seller covers any cost increases. FPIF = Fixed Price Plus Incentive Fee - includes an extra performance bonus. FP-EPA = Fixed Price with Economic Price Adjustment - used on long-term projects, buyer covers inflation costs. Cost Plus (Buyer assumes some risk) CPPC = Cost Plus Percentage of Cost - seller reimbursed for costs, plus a % commission. CPFF = Cost Plus Fixed Fee - seller reimbursed for costs, plus a fixed $ commission. CPIF = Cost Plus Incentive Fee - seller reimbursed for costs, plus an objective bonus. CPAF = Cost Plus Award Fee - seller reimbursed for costs, plus a subjective bonus. T&M = Time & Materials - hybrid, moderate risk to buyer, often used for staff augmentation and consultants.

Question 136

Stakeholder Register

Answer 136

Lists stakeholders and relevant details for each.

Question 137

Stakeholder Management Plan

Answer 137

Outline strategies for managing various stakeholders’ expectations/involvement.

Question 138

Issue Log

Answer 138

Tracks disagreements and/or unresolved matters and outlines plan for resolving.

Question 139

Change Log

Answer 139

Shows all changes made during a project along with their impact on various constraints.

Question 140

Analytical Techniques

Answer 140

Ways of predicting/assessing potential outcomes in light of various project variables.

Question 141

Planned Value (PV)

Answer 141

Budgeted value of work planned to be done.

Question 142

Earned Value (EV)

Answer 142

Budgeted value of work completed.

Question 143

Actual Cost (total) (AC)

Answer 143

Actual cost of work completed.

Question 144

Budget at Completion (BAC)

Answer 144

Cost Baseline

Question 145

Estimate at Completion (EAC)

Answer 145

Expected total cost (forecast). EAC = AC + Bottom-Up ETC - (most accurate) EAC = AC + (BAC - EV) - (ATYPICAL - AC plus work remaining, use budget rate) EAC = BAC / CPI - (TYPICAL - Assumes same rate of spending will continue) EAC = AC + [(BAC-EV)/(CPI*SPI)] - (Assumes poor cost performance & schedule performance will continue)

Question 146

Estimate to Complete (ETC)

Answer 146

Expected remaining cost (from now until end), the Value of work remaining. ETC = EAC - AC

Question 147

Variance at Completion (VAC)

Answer 147

Expected variance over/under budget. VAC = BAC - EAC Negative is bad, Positive is good.

Question 148

Cost Variance (CV)

Answer 148

CV = EV - AC Negative is bad, Positive is good.

Question 149

Schedule Variance (SV)

Answer 149

SV = EV - PV Negative is bad, Positive is good.

Question 150

Cost Performance Index (CPI)

Answer 150

CPI = EV / AC Under 1 is bad, Over 1 is good.

Question 151

Schedule Performance Index (SPI)

Answer 151

SPI = EV / PV Under 1 is bad, Over 1 is good.

Question 152

To Complete Performance Index (TCPI)

Answer 152

TCPI = [(BAC-EV)/(BAC-AC)] - (Optimal rate to complete within budget) TCPI = [(BAC-EV)/(EAC-AC)] - (Assumes original budget cannot be achieved)