About This Course

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Associate Cloud Engineer Bootcamp: Hands-On Cloud Skills for Professionals

The Cloud Computing Essentials: Associate Cloud Engineer Program is meticulously designed to equip learners with foundational and practical skills in cloud technologies. This course provides an in-depth exploration of cloud concepts, focusing on deploying, managing, and maintaining cloud resources efficiently. Participants will gain hands-on experience with cloud environments, preparing them for certification and real-world scenarios.

Through a blend of theoretical understanding and practical exercises, this program emphasizes the core principles of cloud computing, infrastructure management, and platform services. Whether you are new to cloud technologies or seeking to strengthen your technical proficiency, this course delivers a comprehensive roadmap to become a competent cloud engineer.

By the end of the program, students will not only understand cloud architecture but also acquire the operational skills necessary to manage scalable cloud solutions effectively. This course is designed for both individuals and organizations looking to expand their cloud capabilities and enhance their workforce’s expertise in modern cloud platforms.

What You Will Learn from This Course

• Understanding the fundamental concepts of cloud computing and its ecosystem.
  
  

• Navigating and managing cloud platforms with confidence.
  
  

• Deploying virtual machines, containers, and serverless applications efficiently.
  
  

• Configuring and managing cloud storage solutions, including object and block storage.
  
  

• Implementing identity and access management (IAM) policies to secure cloud resources.
  
  

• Monitoring and maintaining cloud resources for optimal performance.
  
  

• Automating cloud infrastructure deployments using modern DevOps practices.
  
  

• Troubleshooting and resolving common cloud-related operational issues.
  
  

• Understanding billing, cost management, and resource optimization in cloud environments.
  
  

• Preparing for the professional Associate Cloud Engineer certification exam with real-world scenarios.

Learning Objectives

By the end of this course, participants will be able to:

1. Understand Core Cloud Concepts: Explain the fundamental principles of cloud computing, including types of cloud services (IaaS, PaaS, SaaS) and deployment models (public, private, hybrid, and multi-cloud).
   
   

2. Manage Cloud Infrastructure: Deploy and maintain virtual machines, containers, and serverless services in a cloud environment.
   
   

3. Configure Networking and Security: Implement networking solutions, manage firewalls, subnets, and configure access policies securely.
   
   

4. Use Cloud Storage Effectively: Select, configure, and manage storage solutions appropriate for various workloads.
   
   

5. Automate Cloud Operations: Utilize scripts, command-line tools, and cloud-native automation solutions for efficient resource management.
   
   

6. Monitor and Optimize Resources: Set up monitoring dashboards, track performance metrics, and apply cost-optimization strategies.
   
   

7. Prepare for Certification: Gain practical knowledge and confidence to pass the Associate Cloud Engineer certification exam.

Requirements

Before enrolling in this course, participants should meet the following prerequisites to ensure a smooth learning experience:

• Basic understanding of computer systems and networking concepts.
  
  

• Familiarity with operating systems, especially Linux and Windows server environments.
  
  

• Awareness of programming or scripting languages (Python, Bash, or similar) is beneficial.
  
  

• An eagerness to learn cloud computing fundamentals and hands-on lab exercises.
  
  

• A personal computer with internet access capable of running cloud-based labs.
  
  

• Willingness to explore cloud platforms through practical, scenario-based exercises.

No advanced prior cloud experience is required; the course is structured to accommodate beginners while still providing in-depth knowledge for those with some cloud exposure.

Course Description

The Cloud Computing Essentials: Associate Cloud Engineer Program is a hands-on, practical course designed to guide learners from fundamental cloud concepts to proficient deployment and management of cloud resources. The course focuses on real-world applications of cloud technologies, ensuring that students gain both theoretical knowledge and operational expertise.

Throughout the program, participants will explore multiple aspects of cloud engineering, including:

• Cloud Architecture: Understanding cloud service models, deployment patterns, and high availability strategies.
  
  

• Compute Services: Deploying and managing virtual machines, containerized applications, and serverless functions.
  
  

• Storage Solutions: Managing object storage, block storage, and relational/non-relational databases.
  
  

• Networking and Security: Configuring virtual networks, firewalls, load balancers, and access controls.
  
  

• Monitoring and Logging: Implementing observability using cloud-native monitoring tools.
  
  

• Automation and DevOps Integration: Using Infrastructure-as-Code (IaC), CI/CD pipelines, and scripting for cloud management.
  
  

• Cost Management: Learning cloud billing structures, optimizing resource usage, and implementing cost-saving strategies.

The course includes structured modules, interactive labs, and assessments to reinforce learning outcomes. Each module combines instructional content with hands-on exercises to ensure practical competency. Learners will also gain exposure to cloud industry best practices, equipping them with the skills needed to solve complex cloud challenges confidently.

Target Audience

This course is ideal for:

• Aspiring Cloud Engineers: Individuals looking to build a career in cloud technology and infrastructure management.
  
  

• IT Professionals: System administrators, network engineers, or developers seeking to expand their skill set to include cloud competencies.
  
  

• Business Professionals: Technical managers and project leads who want to understand cloud operations to make informed business decisions.
  
  

• Students and Graduates: Computer science, information technology, or engineering students aiming to acquire industry-relevant cloud skills.
  
  

• Freelancers and Consultants: Independent IT professionals who provide cloud solutions and need a structured learning path for credibility and expertise.

Prerequisites

While this course is beginner-friendly, having the following background knowledge will enhance the learning experience:

• Basic Computer Literacy: Comfortable navigating operating systems, file systems, and software installations.
  
  

• Networking Fundamentals: Understanding of IP addressing, DNS, VPNs, and firewalls.
  
  

• Programming Awareness: Basic knowledge of scripting or programming concepts is helpful but not mandatory.
  
  

• Problem-Solving Mindset: Ability to approach technical challenges logically and systematically.
  
  

• Motivation to Learn: Willingness to engage with labs, assignments, and practice exams to reinforce concepts.

No prior cloud experience is required, but familiarity with IT infrastructure concepts will accelerate the learning process.

Course Modules/Sections

The Cloud Computing Essentials: Associate Cloud Engineer Program is structured into multiple modules that build progressively from foundational knowledge to advanced practical skills. Each module is designed to ensure a blend of theoretical understanding and hands-on application, allowing learners to apply what they’ve learned immediately.

Module 1: Introduction to Cloud Computing
This module introduces learners to the fundamentals of cloud computing. Topics include cloud service models, deployment types, and the evolution of cloud technologies. Participants will explore how cloud computing differs from traditional IT infrastructure and understand the benefits it offers, including scalability, flexibility, and cost-efficiency. Practical exercises involve creating basic cloud accounts, navigating cloud consoles, and familiarizing themselves with available services.

Module 2: Cloud Platform Fundamentals
Here, learners gain practical knowledge of cloud platform interfaces, command-line tools, and APIs. The module emphasizes navigating dashboards, managing projects, and understanding resource hierarchies. Participants learn to organize resources efficiently and follow cloud best practices for security and compliance. Hands-on exercises cover basic deployment tasks and monitoring cloud activities to reinforce foundational skills.

Module 3: Compute Services
This module focuses on deploying and managing virtual machines, containers, and serverless applications. Learners explore VM instance types, operating system configurations, and the management of scalable compute resources. Container orchestration, serverless functions, and workload distribution are covered extensively. Practical labs allow learners to deploy workloads, configure auto-scaling, and understand resource optimization for different application types.

Module 4: Storage and Databases
Participants are introduced to cloud storage solutions, including object storage, block storage, and database services. The module explains data redundancy, backup strategies, and storage lifecycle management. Learners will configure storage buckets, manage access permissions, and integrate storage solutions with applications. Database concepts include relational and non-relational database services, as well as methods to maintain high availability and data integrity in cloud environments.

Module 5: Networking and Security
Networking and security are critical aspects of cloud engineering, and this module addresses them comprehensively. Topics include virtual networks, subnets, firewalls, VPNs, load balancing, and DNS management. Learners will also explore identity and access management (IAM), encryption techniques, and compliance practices. Labs include configuring secure network topologies, implementing access policies, and testing network performance to simulate real-world scenarios.

Module 6: Monitoring and Logging
In this module, learners gain skills to monitor cloud resources and maintain operational efficiency. Topics include logging, monitoring dashboards, alerting systems, and performance metrics. Learners are trained to detect anomalies, troubleshoot performance issues, and optimize workloads using monitoring data. Practical exercises involve setting up automated alerts, analyzing logs, and using cloud-native monitoring tools to ensure system reliability.

Module 7: Automation and DevOps Integration
Automation is essential for efficient cloud management, and this module introduces learners to scripting, Infrastructure-as-Code (IaC), and CI/CD pipelines. Topics include automating resource provisioning, deployment, and maintenance. Learners will use cloud-native automation tools and explore best practices for integrating DevOps workflows. Labs involve creating automated deployments, updating configurations using IaC scripts, and ensuring version control and repeatability.

Module 8: Cost Management and Optimization
Understanding cloud billing and optimizing costs is vital for any cloud engineer. This module covers pricing models, budget tracking, and cost-saving strategies. Learners will explore resource tagging, usage monitoring, and optimization of storage, compute, and network resources to reduce expenses. Practical exercises involve setting up budget alerts, analyzing resource utilization, and proposing optimization strategies for cloud deployments.

Module 9: Exam Preparation and Capstone Project
The final module focuses on consolidating learning and preparing learners for certification. It includes sample exams, scenario-based exercises, and review of key concepts. The capstone project allows learners to design, deploy, and manage a comprehensive cloud solution that integrates compute, storage, networking, and security. This project provides a realistic simulation of professional cloud engineering tasks and reinforces skills for both certification and practical application.

Key Topics Covered

The Cloud Computing Essentials program offers extensive coverage of critical topics, ensuring learners develop a well-rounded understanding of cloud engineering. Key topics include:

• Core cloud concepts including service models, deployment strategies, and shared responsibility.
  
  

• Cloud platform navigation, project management, and resource organization.
  
  

• Deployment and management of virtual machines, containers, and serverless functions.
  
  

• Storage management strategies, including block storage, object storage, and database integration.
  
  

• Networking essentials, including IP management, firewalls, load balancers, VPNs, and DNS.
  
  

• Security best practices, IAM configuration, data encryption, and compliance frameworks.
  
  

• Monitoring, logging, and alerting strategies to maintain operational excellence.
  
  

• Automation through scripts, Infrastructure-as-Code, and DevOps integration.
  
  

• Cost management techniques and cloud resource optimization strategies.
  
  

• Preparation for the Associate Cloud Engineer certification exam and hands-on capstone project implementation.

These topics provide a holistic approach to cloud engineering, balancing technical proficiency with strategic insights. By covering both foundational principles and advanced operational tasks, learners gain skills that are directly applicable in real-world cloud environments.

Teaching Methodology

This course adopts a practical, hands-on approach combined with structured theoretical learning to ensure effective knowledge retention and skill application. Instructional materials include video lectures, reading materials, and live demonstrations to explain concepts clearly. Learners are encouraged to actively participate in interactive exercises, real-world scenarios, and lab simulations.

Practical exercises are integrated throughout the modules to reinforce theoretical concepts. Learners perform tasks such as deploying virtual machines, configuring networks, managing storage, and implementing security measures. These exercises are designed to reflect real-world challenges faced by cloud engineers, ensuring that learners acquire applicable skills rather than just theoretical knowledge.

The course also employs scenario-based learning to encourage problem-solving and critical thinking. By analyzing case studies, learners gain insights into industry best practices and the application of cloud strategies in various business contexts. Collaborative discussions, quizzes, and knowledge checks are included to enhance engagement and assess understanding throughout the course.

Additionally, learners receive guidance on automation and DevOps integration to develop operational efficiency. By combining theory, practical exercises, and scenario analysis, the teaching methodology ensures participants are well-prepared to tackle real-world cloud challenges and certification requirements.

Assessment & Evaluation

Learners’ progress is continuously evaluated through a combination of practical exercises, quizzes, and project assessments. Each module includes hands-on labs with specific learning objectives, allowing instructors to assess participants’ ability to implement cloud solutions effectively. Quizzes at the end of each section test conceptual understanding and reinforce retention of key topics.

A capstone project serves as the culminating assessment, requiring learners to design, deploy, and manage a complete cloud solution. This project evaluates the practical application of compute, storage, networking, and security principles, as well as automation and cost optimization strategies. Learners receive detailed feedback on their approach, implementation accuracy, and problem-solving capabilities.

Additionally, the course includes practice exams that simulate the certification environment, helping learners identify strengths and areas needing improvement. Continuous evaluation ensures participants are not only prepared for the Associate Cloud Engineer certification but also capable of executing cloud engineering tasks with competence and confidence in professional settings.

Benefits of the Course

The Cloud Computing Essentials: Associate Cloud Engineer Program offers numerous benefits for both beginners and experienced IT professionals looking to expand their expertise in cloud technologies. The program is designed to provide tangible skills that are directly applicable in real-world cloud environments, ensuring learners gain both knowledge and practical competency.

One of the primary benefits is career advancement. Cloud computing has become a critical component of modern IT infrastructure, and proficiency in cloud technologies is highly sought after by employers across industries. Completing this course prepares learners to pursue roles such as cloud engineer, cloud administrator, system administrator, and DevOps professional. By acquiring hands-on experience with cloud deployments, networking, security, and automation, learners significantly enhance their employability and professional credibility.

Another benefit is the development of technical versatility. The course covers a wide range of cloud services, including compute, storage, networking, databases, and serverless solutions. Learners gain exposure to both foundational concepts and advanced operations, allowing them to manage diverse cloud workloads effectively. This technical versatility enables participants to confidently tackle challenges across various business environments, from startups to large enterprises.

Practical, hands-on experience is another significant advantage. Unlike courses that focus solely on theory, this program integrates interactive labs, scenario-based exercises, and a capstone project to simulate real-world tasks. Learners gain experience in deploying applications, managing resources, implementing security measures, and optimizing costs. This practical approach ensures that participants not only understand cloud concepts but can also execute them efficiently in professional settings.

The course also strengthens problem-solving and critical thinking skills. Through scenario-based exercises and troubleshooting labs, learners encounter real-world cloud challenges that require analytical thinking and strategic planning. These exercises cultivate the ability to anticipate potential issues, implement solutions, and optimize performance, which are essential qualities for successful cloud engineers.

Additionally, learners benefit from preparation for professional certification. The program aligns with the Associate Cloud Engineer certification exam objectives, providing sample tests, practice questions, and guidance on exam strategies. Earning this certification validates technical skills and knowledge, serving as a mark of excellence that enhances career opportunities and industry recognition.

Soft skills development is another important benefit. The course emphasizes collaborative exercises, documentation, and communication strategies for cloud operations. These activities help learners articulate technical solutions, present findings, and work effectively in team environments, which is critical in cloud engineering roles where coordination with multiple stakeholders is common.

Overall, the Cloud Computing Essentials program offers comprehensive professional growth, equipping learners with the knowledge, practical skills, and certification readiness needed to thrive in a cloud-driven technology landscape. It empowers participants to confidently manage cloud resources, solve complex operational challenges, and contribute to strategic IT initiatives in any organization.

Course Duration

The Cloud Computing Essentials: Associate Cloud Engineer Program is designed to provide an in-depth learning experience while accommodating various learning paces. The course duration typically spans 10 to 12 weeks for learners dedicating part-time hours, such as evenings or weekends, though accelerated full-time options are also available for those who can commit to intensive study.

The curriculum is divided into multiple modules, each requiring approximately 1 to 2 weeks for completion. Introductory modules, such as cloud fundamentals and platform navigation, can be completed in shorter periods as they focus on conceptual understanding and basic hands-on exercises. Advanced modules, including compute services, networking, security, automation, and cost management, are more time-intensive due to their complexity and practical exercises.

Hands-on labs and exercises are interspersed throughout the modules, allowing learners to apply knowledge in real-world scenarios. Each lab may require 2 to 4 hours of focused work, depending on the complexity of the task. The capstone project, which integrates multiple cloud concepts into a single solution, may take 1 to 2 weeks to complete, depending on the depth of implementation and individual pace.

Quizzes, assessments, and practice exams are included at the end of each module, ensuring learners can evaluate their understanding before moving forward. These assessments generally require 30 minutes to 1 hour to complete, contributing to overall course duration while reinforcing retention and competency.

The course is flexible in structure, accommodating both self-paced learners and instructor-led cohorts. Self-paced learners can progress according to their availability, taking more or less time on challenging modules as needed. Instructor-led options include scheduled sessions, live discussions, and guided lab exercises, typically following a weekly schedule of 3 to 5 hours of instruction, supplemented by additional independent study.

This duration ensures that learners not only complete theoretical lessons but also gain sufficient practical exposure, develop problem-solving abilities, and prepare for the Associate Cloud Engineer certification effectively. The program is intentionally paced to maximize skill acquisition, knowledge retention, and confidence in deploying, managing, and securing cloud resources.

Tools & Resources Required

Successful completion of the Cloud Computing Essentials: Associate Cloud Engineer Program requires access to a set of essential tools and resources that support both learning and practical application.

Cloud Platform Access: Learners need access to a cloud platform for hands-on exercises. While the course may focus on a primary platform, such as Google Cloud Platform, familiarity with any major cloud provider can be beneficial. Accounts should allow provisioning of virtual machines, storage resources, networking configurations, and access to cloud-native services. Many cloud providers offer free tiers or trial credits, making this requirement accessible to learners.

Computer Hardware: A personal computer is required, preferably with specifications that can handle multiple browser tabs, remote console sessions, and scripting environments. Recommended specifications include a multi-core processor, 8GB or more of RAM, and at least 100GB of free storage. Stable internet access is essential for accessing cloud platforms, completing labs, and streaming instructional videos.

Operating System and Software: Learners should have a basic operating system, either Windows, macOS, or Linux, with administrative privileges to install software and command-line tools. Software may include terminal emulators, IDEs, text editors, and database management tools. For automation exercises, learners may need access to scripting environments such as Python, Bash, or PowerShell.

Web Browser: A modern web browser is required for accessing cloud dashboards, online labs, and documentation. Browsers such as Google Chrome, Mozilla Firefox, or Microsoft Edge are recommended. Browser extensions for developer tools and debugging may also enhance the hands-on learning experience.

Command-Line Tools: Familiarity with cloud command-line interfaces (CLI) is beneficial. Learners will use these tools for resource deployment, configuration, and automation. The course provides guidance on installing, configuring, and using CLI tools efficiently.

Learning Resources: Course materials include video lectures, e-books, documentation, and lab guides. Learners are encouraged to use cloud provider documentation and knowledge bases to supplement learning. Access to forums or community discussion boards can also provide peer support and additional insights.

Collaboration Tools: For learners participating in instructor-led sessions, collaboration tools such as video conferencing software, chat applications, and document-sharing platforms may be used for interactive sessions, group labs, and discussions.

Backup and Version Control Tools: Tools such as Git are recommended for version control, especially when working with Infrastructure-as-Code scripts, automated deployments, and project files. Learners will gain practical experience in managing changes, tracking progress, and collaborating effectively on cloud projects.

Practice Exam Platforms: To reinforce exam readiness, learners are encouraged to use practice exam platforms and sample test resources. These tools provide simulated exam environments, timed assessments, and performance analytics to track progress and identify areas requiring improvement.

By ensuring access to these tools and resources, learners can fully engage with the course content, complete hands-on exercises, and gain the practical experience necessary to operate effectively as an associate cloud engineer. Proper setup and preparation of these resources are essential to maximize the benefits of the program and achieve a seamless learning experience.

Career Opportunities

The Cloud Computing Essentials: Associate Cloud Engineer Program opens the door to a wide array of career opportunities across multiple industries. Cloud technology has become a cornerstone of modern business operations, and organizations are actively seeking skilled professionals to manage, optimize, and secure their cloud infrastructure. By completing this program, learners position themselves for roles that are in high demand and offer significant growth potential.

One of the most common career paths for graduates of this program is Cloud Engineer. In this role, professionals are responsible for designing, deploying, and maintaining cloud-based infrastructure. Cloud engineers ensure that virtual machines, containers, serverless applications, and networking components are configured efficiently and operate reliably. The role requires a combination of technical proficiency, problem-solving skills, and familiarity with cloud platforms and services.

Another key career opportunity is Cloud Administrator, which focuses on the operational management of cloud resources. Administrators handle day-to-day tasks such as user access control, resource provisioning, monitoring system performance, and implementing security policies. This role is critical in maintaining organizational cloud environments, ensuring compliance, and troubleshooting issues that may arise.

DevOps Engineer is another career path aligned with the skills gained in this course. DevOps professionals integrate development and operations workflows, automate deployment processes, and manage CI/CD pipelines. They play a crucial role in streamlining application delivery, optimizing resource utilization, and enhancing system reliability. The program’s emphasis on automation, Infrastructure-as-Code, and cloud-native tools prepares learners for the technical challenges of a DevOps role.

Graduates can also pursue opportunities as Cloud Solutions Architect, where they design comprehensive cloud solutions that align with organizational goals. This role involves evaluating business requirements, selecting appropriate cloud services, and planning scalable, secure, and cost-effective architectures. The knowledge gained in compute, storage, networking, and security modules equips learners to handle complex solution design projects.

Other roles include Cloud Consultant, IT Infrastructure Specialist, and System Administrator with Cloud Expertise. Cloud consultants advise businesses on migration strategies, cost optimization, and cloud best practices, while IT specialists and system administrators leverage cloud skills to enhance traditional IT operations. The versatility of the program allows learners to adapt to different organizational needs and responsibilities.

In addition to traditional employment, the program also prepares learners for freelance or independent consulting opportunities. Professionals with cloud engineering expertise can provide services such as cloud migration, infrastructure optimization, and managed cloud solutions to clients across industries. This flexibility allows for diverse career paths, including contract-based projects and entrepreneurship in cloud services.

The program also provides a strong foundation for further professional development and advanced certifications. Learners can pursue specialized certifications in cloud architecture, security, data engineering, or DevOps, further enhancing career prospects and increasing potential earning capacity. The combination of hands-on experience, conceptual knowledge, and certification readiness makes graduates highly competitive in the job market.

By completing the Cloud Computing Essentials program, learners gain not only technical skills but also strategic insights into cloud adoption, resource management, and operational efficiency. These competencies are highly valued across sectors such as finance, healthcare, technology, retail, government, and education, ensuring a broad range of career opportunities. Graduates leave the course equipped to make an immediate impact in professional environments, contributing to the success of cloud initiatives and organizational objectives.

Enroll Today

Enrollment in the Cloud Computing Essentials: Associate Cloud Engineer Program provides an opportunity to gain the skills, knowledge, and certification readiness needed to thrive in today’s cloud-driven technology landscape. By joining this program, learners take a proactive step toward building a successful career in cloud engineering, gaining hands-on experience, and preparing for professional certification.

Enrolling today allows participants to access a structured curriculum that covers foundational concepts, advanced operations, and practical applications. Learners gain exposure to virtual machines, storage solutions, networking, security, automation, cost management, and more. The program’s step-by-step approach ensures that both beginners and experienced IT professionals can follow along and build confidence as they progress through each module.

By enrolling, participants also gain access to a variety of learning resources designed to enhance skill acquisition. These include interactive labs, video lectures, documentation, case studies, practice exams, and a capstone project that simulates real-world cloud engineering tasks. These resources allow learners to engage deeply with the content, practice problem-solving, and develop expertise that is immediately applicable in professional settings.

Enrolling today ensures access to a supportive learning environment where instructors and peers contribute to a collaborative and engaging educational experience. Learners can participate in discussions, seek guidance, and receive feedback on exercises and projects, enhancing understanding and mastery of cloud technologies. The program also provides guidance on exam preparation, enabling learners to confidently pursue Associate Cloud Engineer certification.

Additionally, enrolling opens doors to career advancement opportunities. Learners gain the technical skills and credentials that employers value, positioning themselves for roles in cloud engineering, DevOps, IT administration, consulting, and system architecture. The program equips participants to manage cloud infrastructure effectively, implement security measures, optimize costs, and contribute to strategic IT initiatives.

By taking this step, learners invest in their professional future, gaining a competitive edge in a rapidly growing field. The Cloud Computing Essentials program is designed to ensure that participants acquire knowledge, hands-on experience, and industry-recognized certification readiness, all of which contribute to long-term career success.

Enrollment is flexible, accommodating self-paced learners and instructor-led cohorts. Participants can begin immediately, set their own learning pace, and balance the program with other personal or professional commitments. This flexibility ensures that everyone, regardless of experience level or schedule constraints, can benefit from the program and achieve their learning goals.

By enrolling today, learners commit to developing the skills, confidence, and expertise needed to succeed as cloud engineers, administrators, and technology professionals in a cloud-first world. The program is a strategic investment in professional growth, equipping participants to navigate complex cloud environments, solve real-world problems, and seize career opportunities in an evolving technology landscape.

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