Reliability Education Course List

ReliaSoft offers a combination of introductory and advanced courses on the subjects listed below, and we continue to expand our curriculum on an ongoing basis to meet the evolving needs of practitioners. Click the "Details" links to find a brief summary of each course, including the major topics covered and some of the ways that you can apply the concepts and software tools that you will learn about. The continuing education (CEUs) and CRP course credits are also listed here. For more information about the Certified Reliability Professional (CRP) program, please visit www.ReliabilityProfessional.org.

G400 - Foundations of Reliability Engineering Data Analysis and Modeling

5 Days - 3.5 CEUs - 5 CRP Credits - Assumes basic knowledge of undergraduate algebra, calculus, probability and statistics

Sets the foundation for all subsequent seminars by introducing and familiarizing the attendee to the fundamental concepts in reliability engineering mathematics, from basic data analysis and modeling to advanced methods and concepts. It begins with an in-depth discussion of the fundamentals of Weibull and Life Data Analysis and continues by expanding the learned concepts to more advanced subjects. 

G400A - Weibull and Life Data Analysis

3 Days - 2.1 CEUs - 3 CRP Credits - Assumes basic knowledge of undergraduate algebra, calculus, probability and statistics

A truncated version of G400 and covers only the first three days of that course. It introduces and familiarizes the attendee to the core concepts in reliability engineering mathematics and focuses on the fundamentals of Weibull and Life Data Analysis.

M440 - Reliability and Maintainability Analysis for Repairable Systems

5 Days - 3.5 CEUs -  5 CRP Credits - Assumes basic knowledge of undergraduate algebra, calculus, probability and statistics

Provides an overview of the ways in which reliability engineering concepts and methods can be applied for repairable system analysis and maintenance planning. ReliaSoft’s Weibull++, RGA, BlockSim and RCM++ are used for hands-on practical examples.

D470 - Effective FMEA Series (D470A, D470B)

The Effective FMEA Series consists of two sessions. You can register for either course separately. However, we recommend that new students start with the full five-day package to achieve a solid foundation in fundamental methods and tools.

D470A - Foundations of Effective FMEAs

3 Days - 2.1 CEUs - 3 CRP Credits - Assumes basic knowledge of reliability engineering methods and concepts

Provides an overview of the concepts and procedures for FMEA, FMECA and related analyses, with an emphasis on the use of ReliaSoft’s Xfmea software for data management and reporting. Topics include the FMEA process, risk assessment methods, integration with other analyses and project success factors.

D470B - FMEA Facilitation and Application Skills

2 Days - 1.4 CEUs - 2 CRP Credits - Assumes completion of D470A or equivalent knowledge

Uses case study examples to allow attendees to practice FMEA facilitation and application skills. ReliaSoft's Xfmea software is used for data management and reporting.

G475 - FRACAS Principles and Applications

2 Days - 1.4 CEUs - 2 CRP Credits - Assumes basic knowledge of reliability engineering methods and concepts

Introduces the fundamentals of Failure Reporting, Analysis and Corrective Action Systems (FRACAS), with an emphasis on the configuration and use of ReliaSoft’s XFRACAS software for incident reporting, failure analysis, problem resolution and other related analyses. Topics include the FRACAS process, best practices, problem resolution methods and tailoring FRACAS to the needs of the business.

M480 - Effective RCM Series (M480A, M480B)

The Effective RCM Series consists of two sessions. You can register for either course separately. However, we recommend that new students start with the full five-day package to achieve a solid foundation in fundamental methods and tools.

M480A - RCM Principles and Applications

3 Days - 2.1 CEUs - 3 CRP Credits - Assumes basic knowledge of reliability engineering methods and concepts

Provides an overview of the concepts and procedures for Reliability Centered Maintenance (RCM) analysis, with an emphasis on the use of ReliaSoft's RCM++ software for data management and reporting.

M480B - RCM Facilitation and Application Skills

2 Days - 1.4 CEUs - 2 CRP Credits - Assumes completion of M480A or equivalent knowledge

Uses case study examples to allow attendees to practice RCM facilitation and application skills. ReliaSoft's RCM++ software is used for data management and reporting.

M485 - RBI Overview and Application

2 Days - 1.4 CEUs - 2 CRP Credits - Assumes completion of M480A or equivalent knowledge

Provides an introduction to risk based inspection analysis based on API RP 581, with an emphasis of applying ReliaSoft’s RBI software for both qualitative and quantitative analyses.

D490 - Standards Based Reliability Prediction

2 Days - 1.4 CEUs - 2 CRP Credits - Assumes basic knowledge of reliability engineering methods and concepts

Provides an overview of standards based reliability prediction techniques, with an emphasis on the use of ReliaSoft’s Lambda Predict software to build and analyze system configurations in accordance with a published prediction standard (such as MIL-HDBK-217, Bellcore/Telcordia, FIDES or NSWC).

G511 - Application of Reliability Growth Models in Developmental Testing and Fielded Systems

3 Days - 2.1 CEUs - 3 CRP Credits - Assumes basic knowledge of undergraduate algebra and statistics

Provides an overview of reliability growth analysis models and their application for data captured from developmental (reliability growth) testing and also from fielded (repairable) systems. ReliaSoft’s RGA software is used for hands-on practical examples. Topics include reliability growth tracking and projection models and calculating optimum overhaul times and other metrics for repairable systems.

D521 - Advanced Quantitative Accelerated Life Testing Analysis

3 Days - 2.1 CEUs - 3 CRP Credits - Assumes completion of G400 or equivalent knowledge

Explores advanced concepts and applications for quantitative accelerated life testing data analysis, including tests with multiple stresses or time-dependent stresses. ReliaSoft’s ALTA PRO software is used for hands-on practical examples. Topics include accelerated test design considerations and life-stress relationship models for a single constant stress, multiple stresses or stresses that vary with time.

G522 - System Risk and Reliability Analysis Series (G522A, G522B)

The System Risk and Reliability Analysis series consists of two sessions. You can register for either course separately.

G522A - System Reliability and Maintainability Analysis and Optimization

3 Days - 2.1 CEUs - 3 CRP Credits - Assumes completion of G400 or equivalent knowledge

Explores advanced concepts and applications for system reliability/maintainability analysis and optimization utilizing a reliability block diagram (RBD) or fault tree analysis (FTA) approach. ReliaSoft’s BlockSim software is used for hands-on practical examples. Topics include load sharing, standby redundancy, maintenance strategies and using simulation to analyze repairable systems.

G522B - Simulation Modeling for Reliability and Risk Analysis

2 Days - 1.4 CEUs - 2 CRP Credits - Assumes completion of G400 or equivalent knowledge

Focuses on the principles of probabilistic event and risk analysis using simulation techniques, with an emphasis on using ReliaSoft’s RENO software to build probabilistic event models utilizing flowcharts. This includes numerous hands-on case studies that address complex reliability, risk and safety analysis problems and other potential applications.

D560 - Design for Reliability (DFR) Program Planning and Implementation

3 Days - 2.1 CEUs - 5 CRP Credits - Assumes completion of G400 or equivalent knowledge

Provides provides a Design for Reliability (DFR) planning framework that can be customized to meet your organization’s specific needs. It teaches how to apply each step in the DFR process through hands-on application of tools related to the product development. Students are also exposed to how DFR is applied by the different organization functional team members throughout the product development process.  

M560 - Reliability-Based Program Planning and Implementation in Asset Management

3 Days - 2.1 CEUs - 5 CRP Credits - Assumes completion of G400, M440 or equivalent knowledge

Provides a Reliability-based Asset Management planning framework focusing on the reliability methods and tools that support the needs of maintenance planning and Asset Performance Management (APM). It teaches how to apply proven reliability methods to each step in the Equipment Life Cycle process (Acquire/Create, Utilize/Maintain, Renew/Dispose) through hands-on examples.  

G588 - Applications of Experiment Design and Analysis in Reliability Engineering

3 Days - 2.1 CEUs - 3 CRP Credits - Assumes basic knowledge of undergraduate algebra, calculus, probability and statistics

Begins with the fundamentals of Design of Experiments (DOE) methods and continues with advanced concepts, principles and requirements. ReliaSoft’s DOE++ software is used for hands-on practical examples. Topics include full factorial designs, fractional factorial designs, robust designs, the response surface methodology and reliability DOE.

ARS - International Applied Reliability Symposium

1 CRP Credit - No prerequisites

The International Applied Reliability Symposium (ARS) events provide a forum for expert presenters from industry and government to come together with reliability practitioners from all over the world to discuss the application of reliability engineering principles to meet real world challenges. This reliability and maintainability engineering conference is held in multiple locations throughout the world.

Weibull++ Reliability Life Data Analysis ALTA Accelerated Life Testing Data Analysis DOE++ Experiment Design and Analysis RGA Reliability Growth and Repairable System Analysis BlockSim System Reliability and Maintainability Analysis RENO for Risk Analysis via Discrete Event Simulation Lambda Predict Reliability Prediction Xfmea FMEA and FMECA RCM++ Reliability Centered Maintenance MPC MSG-3 Maintenance Program Creation XFRACAS Web-based FRACAS Orion eAPI Web-based Asset Management ALTA Accelerated Life Testing Data Analysis BlockSim System Reliability and Maintainability Analysis DOE++ Experiment Design and Analysis MPC MSG-3 Maintenance Program Creation Lambda Predict Reliability Prediction RCM++ Reliability Centered Maintenance RENO for Risk Analysis via Discrete Event Simulation RGA Reliability Growth and Repairable System Analysis Weibull++ Reliability Life Data Analysis Xfmea FMEA and FMECA XFRACAS Web-based FRACAS Orion eAPI Web-based Asset Management ALTA Accelerated Life Testing Data Analysis BlockSim System Reliability and Maintainability Analysis DOE++ Experiment Design and Analysis MPC MSG-3 Maintenance Program Creation Lambda Predict Reliability Prediction RCM++ Reliability Centered Maintenance RENO for Risk Analysis via Discrete Event Simulation RGA Reliability Growth and Repairable System Analysis Weibull++ Reliability Life Data Analysis Xfmea FMEA and FMECA XFRACAS Web-based FRACAS Orion eAPI Web-based Asset Management    ReliaSoft.com Footer

Copyright © 1992 - ReliaSoft Corporation. All Rights Reserved.
Privacy Statement | Terms of Use | Site Map | Contact | About Us

Like ReliaSoft on Facebook  Follow ReliaSoft on Twitter  Connect with ReliaSoft on LinkedIn  Follow ReliaSoft on Google+  Watch ReliaSoft videos on YouTube