How hard is Google Professional Cloud DevOps Engineer (GCP) Exam?

In today’s tech world, jobs in IT are super popular for people switching careers or learning new skills. Being certified in IT is valuable not just in IT companies but also in other types of companies. All companies want really skilled and certified workers to make sure the job gets done well and efficiently. The Google Professional Cloud DevOps Engineer (GCP) Exam is amongst the top-rated certification exams that require proper preparation and learning resources to qualify for the exam. It is regarded as the Best Cloud Engineer Certification currently.

Yet studying for a test is no simple task. In preparation, you must be completely committed and persistent. The most crucial question is now at hand: How challenging is the exam to pass? Yet, it is crucial to review all the preparational elements before looking for replies. Now let’s look at the exam specifics first.

About Google Professional Cloud DevOps Engineer (GCP) 

The Google Professional Cloud DevOps Engineer (GCP) certification exam tests an individual’s knowledge and skills in using GCP to design, develop, and manage cloud-based solutions. The exam covers the following areas:

• Continuous integration and delivery (CI/CD)
• Infrastructure as code
• Monitoring and logging
• Configuration management and security
• Networking and load balancing
• Containers and orchestration
• Scalability and reliability

The Google Professional Cloud DevOps Engineer Certification exam was created to evaluate technical abilities relevant to the position. Applicants should have practical experience before taking the test.

Target Audience:

The Google Professional Cloud DevOps Engineer (GCP) exam is designed for IT professionals who have experience in developing and managing applications and infrastructure on the Google Cloud Platform (GCP) and want to validate their expertise in DevOps practices and principles.

Specifically, the exam is intended for individuals who have experience in the following areas:

• Designing, building, and deploying applications on GCP
• Managing and monitoring GCP infrastructure and services
• Implementing DevOps practices using GCP tools and services
• Designing and implementing CI/CD pipelines on GCP
• Implementing security and compliance measures on GCP
• Troubleshooting and optimizing GCP deployments

Although there aren’t strict requirements for the GCP DevOps Engineer exam, it’s a good idea for candidates to have around three years of industry experience, including at least one year with GCP. It’s also important for candidates to know about DevOps principles, have experience with automation tools, and be familiar with scripting languages.

Exam Details

The Google Professional Cloud Devops Engineer Certification Exam Questions will be in multiple-choice, and multiple select format. Candidates will be assessed on the basis of these questions. Furthermore, As far as the exam duration is concerned, this exam will be for a duration of 4 hours. Also, An application fee of  $200 (plus tax where applicable) is to be paid to take the exam.

1. Exam Name Google Professional Cloud DevOps Engineer	2. Exam Code GCP
3. Exam Duration 2 hours	4. Exam Format Multiple Choice and Multi-Response Questions
5. Exam Type Proctored Exam	6. Passing Score NA
7. Eligibility/Pre-Requisite None	8. Exam Fee $200 USD*
9. Exam Language English	10. Recommended Experience Three+ years of industry experience including one+ years managing solutions on GCP

Now that we are fully equipped with all the details of the exam, let us now dive into the course structure and the preparation guide of the exam along with figuring out the difficulty level of the exam.

Course Structure

Google Professional Cloud Devops Engineer Course covers the following topics – 

Topic 1: Bootstrapping a Google Cloud organization for DevOps   

 1.1 Designing the overall resource hierarchy for an organization. Considerations include:

• Projects and folders
• Shared networking
• Identity and Access Management (IAM) roles and organization-level policies
• Creating and managing service accounts

  1.2 Managing infrastructure as code. Considerations include:

• Infrastructure as code tooling (e.g., Cloud Foundation Toolkit, Config Connector, Terraform, Helm)
• Making infrastructure changes using Google-recommended practices and infrastructure as code blueprints
• Immutable architecture

  1.3 Designing a CI/CD architecture stack in Google Cloud, hybrid, and multi-cloud environments. Considerations include:

• CI with Cloud Build
• CD with Google Cloud Deploy
• Widely used third-party tooling (e.g., Jenkins, Git, ArgoCD, Packer)
• Security of CI/CD tooling

  1.4 Managing multiple environments (e.g., staging, production). Considerations include:

• Determining the number of environments and their purpose
• Creating environments dynamically for each feature branch with Google Kubernetes Engine (GKE) and Terraform
• Anthos Config Management

Topic 2: Building and implementing CI/CD pipelines for a service

2.1 Designing and managing CI/CD pipelines. Considerations include:

• Immutable artifacts with Container Registry (Google Documentation: Help secure software supply chains on Google Kubernetes Engine, Managing images)
• Artifact management with Artifact Registry
• Deployment to hybrid and multi-cloud environments (e.g., Anthos, GKE)
• CI/CD pipeline triggers
• Testing a new application version in the pipeline
• Configuring deployment processes (e.g., approval flows) (Google Documentation: Setting up a CI/CD pipeline for your data-processing workflow)
• CI/CD of serverless applications

2.2 Implement CI/CD pipelines:

• Auditing and tracking deployments (e.g., Artifact Registry, Cloud Build, Google Cloud Deploy, Cloud Audit Logs)
• Deployment strategies (e.g., canary, blue/green, rolling, traffic splitting)
• Rollback strategies
• Troubleshooting deployment issues

2.3 Managing CI/CD configuration and secrets. Considerations include:

• Secure storage methods and key rotation services (e.g., Cloud Key Management Service, Secret Manager) (Google Documentation: Cloud storage)
• Secret management
• Build versus runtime secret injection

2.4 Secure the deployment pipeline:

• Vulnerability analysis with Container Registry (Google Documentation: Getting vulnerabilities and metadata for images)
• Binary Authorization (Google Documentation: Binary Authorization)
• IAM policies per environment (Google Documentation: Policy)

Section 3: Applying site reliability engineering practices to a service

   3.1 Balancing change, velocity, and reliability of the service. Considerations include:

• Discovering SLIs (e.g., availability, latency)
• Defining SLOs and understanding SLAs
• Error budgets
• Toil automation
• Opportunity cost of risk and reliability (e.g., number of “nines”)

   3.2 Managing service lifecycle. Considerations include:

• Service management (e.g., introduction of a new service by using a pre-service onboarding checklist, launch plan, or deployment plan, deployment, maintenance, and retirement)
• Capacity planning (e.g., quotas and limits management)
• Autoscaling using managed instance groups, Cloud Run, Cloud Functions, or GKE
• Implementing feedback loops to improve a service

   3.3 Ensuring healthy communication and collaboration for operations. Considerations include:

• Preventing burnout (e.g., setting up automation processes to prevent burnout)
• Fostering a culture of learning and blamelessness
• Establishing joint ownership of services to eliminate team silos

   3.4 Mitigating incident impact on users. Considerations include:

• Communicating during an incident
• Draining/redirecting traffic
• Adding capacity

   3.5 Conducting a postmortem. Considerations include:

• Documenting root causes
• Creating and prioritizing action items
• Communicating the postmortem to stakeholders

Topic 4: Implementing service monitoring strategies

4.1 Manage logs:

• Collecting structured and unstructured logs from Compute Engine, GKE, and serverless platforms using Cloud Logging
• Configuring the Cloud Logging agent
• Collecting logs from outside Google Cloud
• Sending application logs directly to the Cloud Logging API
• Log levels (e.g., info, error, debug, fatal)
• Optimizing logs (e.g., multiline logging, exceptions, size, cost)

4.2 Managing metrics with Cloud Monitoring. Considerations include:

• Collecting and analyzing application and platform metrics
• Collecting networking and service mesh metrics
• Use metric explorer for ad hoc metric analysis (Google Documentation: Metrics Explorer)
• Creating custom metrics from logs

4.3 Managing dashboards and alerts in Cloud Monitoring. Considerations include:

• Creating a monitoring dashboard
• Filtering and sharing dashboards
• Configuring alerting
• Defining alerting policies based on SLOs and SLIs
• Automating alerting policy definition using Terraform
• Using Google Cloud Managed Service for Prometheus to collect metrics and set up monitoring and alerting

   4.4 Managing Cloud Logging platform. Considerations include:

• Enabling data access logs (e.g., Cloud Audit Logs)
• Enabling VPC Flow Logs
• Viewing logs in the Google Cloud console
• Using basic versus advanced log filters
• Logs exclusion versus logs export
• Project-level versus organization-level export
• Managing and viewing log exports
• Sending logs to an external logging platform
• Filtering and redacting sensitive data (e.g., personally identifiable information [PII], protected health information [PHI])

   4.5 Implementing logging and monitoring access controls. Considerations include:

• Restricting access to audit logs and VPC Flow Logs with Cloud Logging
• Restricting export configuration with Cloud Logging
• Allowing metric and log writing with Cloud Monitoring

Topic 5: Optimizing service performance

5.1 Identify service performance issues:

• Using Google Cloud’s operations suite to identify cloud resource utilization
• Interpret service mesh telemetry (Google Documentation: The service mesh era)
• Troubleshooting issues with compute resources
• Troubleshooting deploy time and runtime issues with applications
• Troubleshooting network issues (e.g., VPC Flow Logs, firewall logs, latency, network details (Google Documentation: VPC Flow Logs overview, Using VPC Flow Logs, Using Firewall Rules Logging)

5.2 Implementing debugging tools in Google Cloud. Considerations include:

• Application instrumentation (Google Documentation: Cloud Monitoring)
• Cloud Logging
• Cloud Trace
• Error Reporting
• Cloud Profiler
• Cloud Monitoring

5.3 Optimize resource utilization and costs:

• Preemptible/Spot virtual machines (VMs)
• Committed-use discounts (e.g., flexible, resource-based)
• Sustained-use discounts
• Network tiers
• Sizing recommendations

How difficult is Google Professional Cloud DevOps Engineer (GCP) Exam?

Well, certainly we know that it will require a lot of hard work to prepare for Google Professional Cloud DevOps Engineer (GCP) Exam, as it is not a piece of cake to crack. But this also does not mean that it is not possible to crack this exam. This exam might be challenging to pass because it covers a wide range of topics, and you have to understand how to apply what you’ve learned.

Further, the difficulty level of the Google Professional Cloud DevOps Engineer (GCP) exam can vary depending on an individual’s prior experience with cloud computing, DevOps practices, and GCP. However, in general, it is considered to be a challenging exam that requires a strong understanding of cloud computing, DevOps practices, and GCP.

To pass the Google Professional Cloud DevOps Engineer exam, you should have a solid understanding of the following topics:

• GCP Services: Knowledge of the various GCP services, including computing, storage, networking, and security.
• DevOps Practices: Knowing about DevOps practices, like continuous integration, continuous delivery, and infrastructure as code, is important.
• Cloud Architecture: Knowledge of cloud architecture concepts, including scalability, availability, and security.
• Monitoring and Logging: Understanding of monitoring and logging techniques, and the use of tools such as Stackdriver and Cloud Logging.
• Application Deployment: Knowledge of application deployment, including containerization and orchestration using Kubernetes.

Let us now look at the preparation resources that you can use to ace the exam. For more details about the exam, you can also visit the online tutorials on Google Professional Cloud DevOps Engineer (GCP) Exam by testpreptraining.com.

Learning resources for GCP Cloud DevOps Engineer Exam

You have access to an infinite number of resources for preparation. It may be challenging to pass this exam on your first try. Yet, if you use the appropriate materials and practice hard, you can pass the test in one sitting. As a result, you should choose your resources carefully. You can choose from offline classes, online classes, sample tests, manuals, online discussion boards, books, and other resources. Simply select the set that seems the most comfortable to you. Let’s examine a few tools that may be utilized in conjunction with the Google Professional Cloud Devops Engineer Study Guide to ace the test.

Review the Exam Guide

Before you start preparing, make sure you understand the main goals of the Google Professional Cloud DevOps Engineer Exam. Google Cloud Platform (GCP) gives candidates a clear exam guide. Knowing these objectives is crucial for getting a good idea of what the exam will be like. So visit the Official website of GCP, to have a clearer view of the exam guide. 

Online classes and instructor-led training courses

First off, the Google Professional Cloud Devops Engineer Training is offered as instructor-led courses and online seminars. These are among the most engaging methods of exam preparation. Numerous trustworthy websites provide really wonderful teachers and top-notch preparation materials. As most of us are used to learning in a classroom, online programs can act as a near alternative with the benefit of being available anywhere.

Join study groups or communities

Joining a study group or community of other individuals preparing for the GCP DevOps Engineer exam can provide valuable insights and support as you prepare for the exam.

Stay up-to-date with GCP updates

Keep yourself informed about the latest changes and updates in Google Cloud Platform (GCP), as it is always evolving. Read the GCP blog regularly and attend webinars or conferences to stay up-to-date.

Evaluate with Practice Test

Your study skills have a big role in how well you perform on the test. Take as many practice tests and exam series for Google Professional Cloud Devops Engineer as you can. These will aid you in assessing your degree of preparedness, locating any gaps, and pinpointing the areas that require additional attention. There are several trustworthy educational websites that offer fantastic knowledge and support your pursuit of greatness. Try a free practice test now!

Expert Corner

It is very essential to build your own strategy for studying. Additionally, sort the topics into those that need conceptual understanding and those with theoretical aspects. Emphasize gaining hands-on experience. Consult various sources for challenging parts of the exam. Establish a study schedule and minimize distractions. Create concise revision notes and schedule periodic practice tests. Stick to your plan and execute it as intended. Successfully implementing your strategy is crucial for passing the exam.

The Google Cloud DevOps Engineer Exam is worth a try. If you clear the exam you will get a way to get yourself recognized globally. This is a step forward to getting the dream job. With the right set of resources, you will surely crack the exam.