Acquire the most up-to-date knowledge on Software Solution Quality and get your diploma in only 12 weeks, 100% online” 

Every software developer must consider the most effective way to provide answers with their product. In this case, the way customizers and developers create, package and maintain software units must also be framed in a quality process. So that functionalities can be installed, uninstalled or updates can be generated, ensuring a comprehensive risk reduction.

It is important to develop strategies to maintain the stability of a system and achieve optimal results, which is the reason why the technological maturity of a software project must be evaluated. It is also important to analyze the relevant measures to ensure the maintenance and control of subsequent versions, guaranteeing the quality of the same. Therefore, understanding and knowing how to apply all these aspects in practice is what makes a professional efficient and for this, they must delve deeper into the more specific topics.

In this Postgraduate certificate in Software Solution Quality, the student will be guided by professional experts in the development area, who have exhaustively selected all the content so that, through different multimedia resources based on the most innovative 100% online methodology, they will be able to address reliability, metrics and assurance in software projects in a correct and strategic way.

While the online format gives students the flexibility they need to adapt the knowledge acquired to their current performance and generate projects with a high level of maturity, by learning the main quality criteria, the ISO/IEC 9126 standard, key aspects and measures to be adopted for quality. Knowing both models and metrics, for greater control and quality assurance.

TECH Global University methodology provides you with security and confidence in the most modern learning models” 

This Postgraduate certificate in Software Solution Quality contains the most complete and up-to-date educational program on the market. Its most notable features are:

• Case studies presented by experts in software development
• The graphic, schematic, and practical contents with which they are created, provide practical information on the disciplines that are essential for professional practice
• Practical exercises where self-assessment can be used to improve learning
• Its special emphasis on innovative methodologies
• Theoretical lessons, questions for experts and individual reflection work
• Content that is accessible from any fixed or portable device with an Internet connection

TECH Global University offers you the most modern educational platform. Enroll now and reach the goal in 12 weeks”

The program’s teaching staff includes professionals from the sector who contribute their work experience to this training program, as well as renowned specialists from leading societies and prestigious universities.

The multimedia content, developed with the latest educational technology, will provide the professional with situated and contextual learning, i.e., a simulated environment that will provide immersive training programmed to train in real situations.

This program is designed around Problem-Based Learning, whereby the professional must try to solve the different professional practice situations that arise during the academic year. For this purpose, the student will be assisted by an innovative interactive video system created by renowned and experienced experts.

Achieving quality results confers recognition to your brand. Professionalize yourself with this Postgraduate certificate”

Efficiently apply TRL development levels in your next software projects”

By incorporating the most avant-garde methodology based on Relearning, the student is guaranteed a progressive and natural teaching of the most important terms and concepts related to Software Solution Quality. The large amount of educational material available, including real examples provided by the teaching team, makes up a first-class academic program that is rigorous, exhaustive and adapted to the current IT reality. 

Knowing the most specific content on Software Solution Quality will provide a unique background to your professional profile” 

Module 1. Software Quality TRL Development Levels

1.1. Elements that Influence Software Quality (I). Technical Debt

1.1.1. Technical Debt. Causes and Consequences
1.1.2. Software Quality General Principles
1.1.3. Unprincipled and Principled Quality Software

1.1.3.1. Consequences
1.1.3.2. Necessity of Applying Quality Principles in Software

1.1.4. Software Quality Typology
1.1.5. Quality Software. Specific Features

1.2. Elements that Influence Software Quality (II). Associated Costs

1.2.1. Software Quality Influencing Elements
1.2.2. Software Quality Misconceptions
1.2.3. Software Quality Associated Costs

1.3. Software Quality Models (I). Knowledge Management

1.3.1. General Quality Models

1.3.1.1. Total Quality Management
1.3.1.2. European Business Excellence Model (EFQM)
1.3.1.3. Six-Sigma Model

1.3.2. Knowledge Management Models

1.3.2.1. Dyba Model
1.3.2.2. SEKS Model

1.3.3. Experience Factory and QIP Paradigm
1.3.4. Quality in Use Models (25010)

1.4. Software Quality Models (III). Quality in Data, Processes and SEI Models

1.4.1. Data Quality Data Model
1.4.2. Software Process Modeling
1.4.3. Software & Systems Process Engineering Metamodel Specification (SPEM)
1.4.4. SEI Models

1.4.4.1. CMMI
1.4.4.2. SCAMPI
1.4.4.3. IDEAL

1.5. ISO Software Quality Standards (I). Analysis of the Standards

1.5.1. ISO 9000 Standards

1.5.1.1. ISO 9000 Standards
1.5.1.2. ISO Family of Quality Standards (9000)

1.5.2. Other ISO Standards Related to Quality
1.5.3. Quality Modeling Standards (ISO 2501)
1.5.4. Quality Measurement Standards (ISO 2502n)

1.6. ISO Software Quality Standards (II). Requirements and Assessment

1.6.1. Standards on Quality Requirements (2503n)
1.6.2. Standards on Quality Assessment (2504n)
1.6.3. ISO/IEC 24744: 2007

1.7. TRL Development Levels (I). Levels 1 to 4

1.7.1. TRL Levels
1.7.2. Level 1: Basic Principles
1.7.3. Level 2: Concept and/or Application
1.7.4. Level 3 Critical Analytical Function
1.7.5. Level 4: Component Validation in Laboratory Environment

1.8. TRL Development Levels (II). Levels 5 to 9

1.8.1. Level 5: Component Validation in Relevant Environment
1.8.2. Level 6: System/Subsystem Model
1.8.3. Level 7: Demonstration in Real Environment
1.8.4. Level 8: Complete and Certified System
1.8.5. Level 9: Success in Real Environment

1.9. TRL Development Levels. Uses

1.9.1. Example of Company with Laboratory Environment
1.9.2. Example of an R&D&I Company
1.9.3. Example of an Industrial R&D&I Company
1.9.4. Example of a Laboratory-Engineering Joint Venture Company

1.10. Software Quality Key Details

1.10.1. Methodological Details
1.10.2. Technical Details
1.10.3. Software Project Management Details

1.10.3.1. Computer System Quality
1.10.3.2. Software Product Quality
1.10.3.3. Software Process Quality

Module 2. ISO, IEC 9126 Quality Criteria. Software Quality Metrics

2.1. Quality Criteria. ISO, IEC 9126 Standard

2.1.1. Quality Criteria
2.1.2. Software Quality Justification. ISO, IEC 9126 Standard
2.1.3. Software Quality Measurement as a Key Indicator

2.2. Software Quality Criteria Features

2.2.1. Reliability
2.2.2. Functionality
2.2.3. Efficiency
2.2.4. Usability
2.2.5. Maintainability
2.2.6. Portability
2.2.7. Security/safety

2.3. ISO Standard, IEC 9126 (I). Introduction

2.3.1. Description of ISO, IEC 9126 Standard
2.3.2. Functionality
2.3.3. Reliability
2.3.4. Usability
2.3.5. Maintainability
2.3.6. Portability
2.3.7. Quality in Use
2.3.8. Software Quality Metrics
2.3.9. ISO 9126 Quality Metrics

2.4. ISO Standard, IEC 9126 (II). McCall and Boehm Models

2.4.1. McCall Model: Quality Factors
2.4.2. Boehm Model
2.4.3. Intermediate Level. Features

2.5. Software Quality Metrics (I). Components

2.5.1. Measurement
2.5.2. Metrics
2.5.3. Indicator

2.5.3.1. Types of Indicators

2.5.4. Measurements and Models
2.5.5. Scope of Software Metrics
2.5.6. Classification of Software Metrics

2.6. Software Quality Measurement (II). Measurement Practice

2.6.1. Metric Data Collection
2.6.2. Measurement of Internal Product Attributes
2.6.3. Measurement of External Product Attributes
2.6.4. Measurement of Resources
2.6.5. Metrics for Object-Oriented Systems

2.7. Design of a Single Software Quality Indicator

2.7.1. Single Indicator as a Global Qualifier
2.7.2. Indicator Development, Justification and Application
2.7.3. Example of Application. Need to Know the Detail

2.8. Simulation of Real Project for Quality Measurement (I)

2.8.1. Project Overview (Company A)
2.8.2. Application of Quality Measurement
2.8.3. Proposed Exercises
2.8.4. Proposed Exercises Feedback

2.9. Real Project Simulation for Quality Measurement (II)

2.9.1. Project Overview (Company B)
2.9.2. Application of Quality Measurement
2.9.3. Proposed Exercises
2.9.4. Proposed Exercises Feedback

2.10. Real Project Simulation for Quality Measurement (III)

2.10.1. General Description of the Project (Company C)
2.10.2. Application of Quality Measurement
2.10.3. Proposed Exercises
2.10.4. Proposed Exercises Feedback

You are just a click from moving on to a new experience in your profession. Enroll now and become an expert in Software Solution Quality”