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The Self-Taught Cloud Computing Engineer
The Self-Taught Cloud Computing Engineer

The Self-Taught Cloud Computing Engineer: A comprehensive professional study guide to AWS, Azure, and GCP

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The Self-Taught Cloud Computing Engineer

Amazon EC2 and Compute Services

Amazon Web Services (AWS) is a cloud computing platform offered by Amazon. It provides a wide range of cloud-based services, including compute, storage, networks, databases, data analytics, machine learning (ML), and other functionality that can be used to build scalable and flexible applications. We will start our Amazon cloud learning journey from the AWS compute services—specifically, Elastic Compute Cloud (EC2), which was one of the most basic and earliest cloud services in the world.

In this chapter, we will cover the following topics:

  • The history of computing: How the first computer evolved from physical to virtual and led to cloud compute
  • Amazon Global Cloud Infrastructure: Where all the AWS global cloud services are based
  • Building our first EC2 instances in the Amazon cloud: Provision EC2 instances in the AWS cloud, step by step
  • Elastic Load Balancers (ELBs) and Auto Scaling Groups (ASGs): The framework providing EC2 services elastically
  • AWS compute – from EC2 to containers to serverless: Extend from EC2 to other AWS compute services, including Elastic Container Service (ECS), Elastic Kubernetes Service (EKS), and Lambda

By following the discussions in this chapter, you will be able to grasp the basic concepts of cloud computing, AWS EC2, and compute services, and gain hands-on skills in provisioning EC2 and compute services. Practice questions are provided to assess your knowledge level, and further reading links are included at the end of the chapter.

The history of computing

In this section, we will briefly review the computing history of human beings, from the first computer to Amazon EC2, and understand what has happened in the past 70+ years and what led us to the cloud computing era.

The computer

The invention of the computer is one of the biggest milestones in human history. On December 10, 1945, Electronic Numerical Integrator and Computer (ENIAC) was first put to work for practical purposes at the University of Pennsylvania. It weighed about 30 tons, occupied about 1,800 sq ft, and consumed about 150 kW of electricity.

From 1945 to now, in over 75 years, we human beings have made huge progress in upgrading the computer. From ENIAC to desktop and data center servers, laptops, and iPhones, Figure 1.1 shows the computer evolution landmarks:

Figure 1.1 – Computer evolution landmarks

Figure 1.1 – Computer evolution landmarks

Let’s take some time to examine a computer—say, a desktop PC. If we remove the cover, we will find that it has the following main hardware parts—as shown in Figure 1.2:

  • Central processing unit (CPU)
  • Random access memory (RAM)
  • Hard disk (HD)
  • Network interface card (NIC)
Figure 1.2 – Computer hardware components

Figure 1.2 – Computer hardware components

These hardware parts work together to make the computer function, along with the software including the operating system (such as Windows, Linux, macOS, and so on), which manages the hardware, and the application programs (such as Microsoft Office, web servers, games, and so on) that run on top of the operating system. In a nutshell, hardware and software specifications decide how much power a computer can serve for different business use cases.

The data center

Apparently, one computer does not serve us well. Computers need to be able to communicate with each other to fulfill network communications, resource sharing, and so on. The work at Stanford University in the 1980s led to the birth of Cisco Systems, Inc., an internet company that played a great part in connecting computers together and forming the intranet and the internet. Connecting many computers together, data centers emerged as a central location for computing resources—CPU, RAM, storage, and networking.

Data centers provide resources for businesses’ information technology needs: computing, storing, networking, and other services. However, the concept of data center ownership lacks flexibility and agility and entails huge investment and maintenance costs. Often, building a new data center takes a long time and a big amount of money, and maintaining existing data centers—such as tech refresh projects—is very costly. In certain circumstances, it is not even possible to possess the computing resources to complete certain projects. For example, the Human Genome Project was estimated to consume up to 10,000 trillion CPU hours and 40 exabytes (1 exabyte = 1018 bytes) of disk storage, and it is impossible to acquire resources at this scale without leveraging cloud computing.

The virtual machine

The peace of physical computers was broken in 1998 when VMware was founded and the concept of a virtual machine (VM) was brought to Earth. A VM is a software-based computer composed of virtualized components of a physical computer—CPU, RAM, HD, network, operating system, and application programs.

VMware’s hypervisor virtualizes hardware to run multiple VMs on bare-metal hardware, and these VMs can run various operating systems of Windows, Linux, or others. With virtualization, a VM is represented by a bunch of files. It can be exported to a binary image that can be deployed on any physical hardware at different locations. A running VM can be moved from one host to another, LIVE—so-called" v-Motion". The virtualization technologies virtualized physical hardware and caused a revolution in computer history, and also made cloud computing feasible.

The idea of cloud computing

The limitation of data centers and virtualization technology made people explore more flexible and inexpensive ways of using computing resources. The idea of cloud computing started from the concept of “rental”—use as needed and pay as you go. It is the on-demand, self-provisioning of computing resources (hardware, software, and so on) that allows you to pay only for what you use. The key concept of cloud computing is disposable computing resources. In the traditional information technology and data center concept, a computer (or any other compute resource) is treated as a pet. When a pet dies, people are very sad, and they need to get a new replacement right away. If an investment bank’s trading server goes down at night, it is the end of the world—everyone is woken up to recover the server. However, in the new cloud computing concept, a computer is treated as cattle in a herd. For example, the website of an investment bank, zhebank.com, is supported by a herd of 88 servers—www001 to www88. When one server goes down, it’s taken out of the serving line, shot, and replaced with another new one with the same configuration and functionalities, automatically!

With cloud computing, enterprises are leveraging the cloud service provider (CSP)’s unlimited computing resources that are featured as global, elastic and scalable, highly reliable and available, cost-effective, and secure. The main CSPs, such as Amazon, Microsoft, and Google, have global data centers that are connected by backbone networks. Because of cloud computing’s pay-as-you-go characteristics, it makes sense for cost savings. Because of its strong monitoring and logging features, cloud computing offers the most secure hosting environment. Instead of building physical hardware data centers with big investments over a long time, virtual software-based data centers can be built within several hours, immutable and repeatedly, in the global cloud environment. Infrastructure is represented as code that can be managed with version control, which we can call Infrastructure as Code (IaC). More details can be found at https://docs.aws.amazon.com/whitepapers/latest/introduction-devops-aws/infrastructure-as-code.html.

EC2 was first introduced in 2006 as a web service that allowed customers to rent virtual computers for computing tasks. Since then, it has become one of the most popular cloud computing platforms available, offering a wide range of services and features that make it an attractive option for enterprise customers. Amazon categorizes the VMs with different EC2 instance types based on hardware (CPU, RAM, HD, and network) and software (operating system and applications) configurations. For different business use cases, cloud consumers can choose EC2 instances with a variety of instance types, operating system choices, network options, storage options, and more. In 2013, Amazon introduced the Reserved Instance feature, which gave customers the opportunity to purchase instances at discounted rates in exchange for committing to longer usage terms. In 2017, Amazon released EC2 Fleet, which allows customers to manage multiple instance types and instance sizes across multiple Availability Zones (AZs) with a single request.

The computer evolution path

From ENIAC to EC2, a computer has evolved from a huge, physical unit to a disposable resource that is flexible and on-demand, portable, and replaceable, and a data center has evolved from being expensive and protracted to a piece of code that can be executed globally at any time on demand, within hours.

In the next sections of this chapter, we will look at the Amazon Global Cloud Infrastructure and then provision our EC2 instances in the cloud.

Amazon Global Cloud infrastructure

The Amazon Global Cloud Infrastructure is a suite of cloud computing services offered by AWS, including compute, storage, databases, analytics, networking, mobile, developer tools, management tools, security, identity compliance, and so on. These services are hosted globally, allowing customers to store data and access resources in locations that best meet their business needs. It delivers highly secure, low-cost, and reliable services that can be used by almost any application in any industry around the world.

Amazon has built physical data centers around the world, in graphical areas called AWS Regions, which are connected by Amazon’s backbone network infrastructure. Each Region provides full redundancy and connectivity among its data centers. An AWS Region typically consists of two or more AZs, which is a fully isolated partition of the AWS infrastructure. An AZ has one or more data centers connected with each other and is identified by a name that combines a letter identifier with the region’s name. For example, us-east-1d is the d AZ in the us-east-1 region. Each AZ is designed for fault isolation and is connected to other AZs using high-speed private networking. When provisioning cloud resources such as EC2, you choose the region and AZs where the EC2 instance will be sitting. In the next section, we will demonstrate the EC2 instance provisioning process.

Building our first EC2 instances in the Amazon cloud

In this section, we will use the AWS cloud console and CloudShell command line to provision EC2 instances running in the Amazon cloud—Linux and Windows VMs, step by step. Note that the user interface may change, but the procedures are similar.

Before we can launch an EC2 instance, we need to create an AWS account first. Amazon offers a free tier account for new cloud learners to provision some basic cloud resources, but you will need a credit card to sign up for an AWS account. Since your credit card is involved, there are three things to keep in mind with your AWS 12-digit account, as follows:

  • Enable multi-factor authentication (MFA) to protect your account
  • You can log in to the console with your email address, but be aware that this is the root user, which has the superpower to provision any resources globally
  • Clean up all/any cloud resources you have provisioned after completing the labs

Having signed up for an AWS account, you are ready to move to the next phase—launching EC2 instances using the cloud console or CloudShell.

Launching EC2 instances in the AWS cloud console

Logging in to the AWS console at console.aws.amazon.com, you can search for EC2 services and launch an EC2 instance by taking the following nine steps:

  1. Select the software of the EC2 instance: Think of it just like selecting software (OS and other applications) when purchasing a physical desktop or laptop PC.

In AWS, the software image for an EC2 instance is called an Amazon Machine Image (AMI), which is a template that is used to launch an EC2 instance. Amazon provides AMIs in Windows, Linux, and other operating systems, customized with some other software pre-installed:

Figure 1.3 – Selecting an AMI

Figure 1.3 – Selecting an AMI

As shown in Figure 1.3, we have chosen the Amazon Linux 2 AMI, which is a customized Linux OS tuned for optimal performance on AWS and easy integration with AWS services, and it is free-tier eligible.

In many enterprises, AMI images are standardized to be used as seeds to deploy EC2 instances—we call them golden images. A production AMI includes all the packages, patches, and applications that are needed to deploy EC2 instances in production and will be managed with secure version-control management systems.

  1. Select the hardware configuration of the EC2 instance: This is just like selecting hardware—the number of CPUs, RAM, and HD sizes when purchasing a physical desktop or laptop PC. In AWS, the hardware selection is to choose the right EC2 instance type—Amazon has categorized the EC2 hardware configurations into various instance types, such as General Purpose, Compute Optimized, Memory Optimized, and so on, based on business use cases. Some AWS EC2 instance types are shown in Figure 1.4:
Figure 1.4 – EC2 instance types

Figure 1.4 – EC2 instance types

Each instance type is specified by a category, family series, generation number, and configuration size. For example, the p2.8xlarge instance type can be used for an Accelerated Computing use case, where p is the instance family series, 2 is the instance generation, and 8xlarge indicates its size is 8 times the p2.large instance type.

We will choose t2.micro, which is inexpensive and free-tier eligible, for our EC2 instances.

  1. Specify the EC2 instance’s network settings: This is like subscribing to an Internet Service Provider (ISP) for our home PC to connect to a network and the internet. In the AWS cloud, the basic network unit is called a Virtual Private Cloud (VPC), and Amazon has provided a default VPC and subnets in each region. At this time, we will take the default setting—our first EC2 instance will be placed into the default VPC/subnet and be assigned a public IP address to make it internet-accessible.
  2. Optionally attach an AWS Identity and Access Management (IAM) role to the EC2 instance: This is something very different from traditional concepts but is very useful for software/applications running on the EC2 instance to interact with other AWS services.

With IAM, you can specify who can access which resources with what permissions. An IAM role can be created and assigned with permissions to access other AWS resources, such as reading an Amazon Simple Storage Service (Amazon S3) bucket. By attaching the IAM role to an EC2 instance, all applications running on the EC2 instance will have the same permissions as that role. For example, we can create an IAM role, assign it read/write access to an S3 bucket, and attach the role to an EC2 instance, then all the applications running on the EC2 instance will have read/write access to the S3 bucket. Figure 1.5 shows the concept of attaching an IAM role to an EC2 instance:

Figure 1.5 – Attaching an IAM role to an EC2 instance

Figure 1.5 – Attaching an IAM role to an EC2 instance

  1. Optionally specify a user data script to the EC2 instance: User data scripts can be used to customize the runtime environment of the EC2 instance—it executes the first time the instance starts. I have had experience using the EC2 user data script—at a time when the Linux system admin left my company and no one in the company was able to access a Linux instance sitting in the AWS cloud. While there exist many ways to rescue this situation, one interesting solution we used was to generate a new key pair (public key and private key), stop the instance, and leverage the instance’s user data script to append the new public key to the EC2-user user’s Secure Shell (SSH) profile, during the instance starting process. With the new public key added to the EC2 instance, the ec2-user user can SSH into the instance with the new private key.
  2. Optionally attach additional storage volumes to the EC2 instance: This can be thought of as buying and adding additional disk drives to our PC at home. For each volume, we need to specify the size of the disk (in GB) and the volume type (hardware types), and whether encryption should be used for the volume.
  3. Optionally assign a tag to the EC2 instance: A tag is a label that we can assign to an AWS resource, and it consists of a key and an optional value. With tags, we attach metadata to cloud resources such as an EC2 instance. There are many potential benefits of tagging in managing cloud resources, such as filtering, automation, cost allocation and chargeback, and access control.
  4. Setting a Security Group (SG) for the EC2 instance: Just like configuring firewalls on our home routers to manage access to our home PCs, an SG is a set of firewall rules that control traffic to and from our EC2 instance. With an SG, we can create rules that specify the source (for example, an IP address or another SG), the port number, and the protocol, such as HTTP/HTTPS, SSH (port 22), or Internet Control Message Protocol (ICMP). For example, if we use the EC2 instance to host a web server, then the SG will need an SG rule to open ports for http (80) and https (443). Note that SGs exist outside of the instance’s guest OS—traffic to the instance can be controlled by both SGs and guest OS firewall settings.
  5. Specify an existing key pair or create a new key pair for the EC2 instance: A key pair consists of a public key that AWS stores on the instance and a private key file that you download and store on your local computer for remote access. When you try to connect to the instance, the keys from both ends are matched to authenticate the remote user/connections. For Windows instances, we need to decrypt the key pair to obtain the administrator password for logging in to the EC2 instance remotely. For Linux instances, we utilize the private key and use SSH to securely connect to the cloud instance. Note that the only chance to download an EC2 key pair is during the instance creation time. If you’ve lost the key pair, you cannot recover it. The only workaround is to create an AMI of the existing instance, and then launch a new instance with the AMI and a new key pair. Also, note that there are two formats for an EC2 key pair when you save it to the local computer: the .pem format is used on Linux-based terminals including Mac, and the .ppk format is used for Windows.

Following the preceding nine steps, we have provisioned our first EC2 instance—a Linux VM in the AWS cloud. Following the same procedure, let us launch a Windows VM. The only difference is that in step 1, we choose the Microsoft Windows operating system— specifically, Microsoft Windows Server 2022 Base—as shown in Figure 1.6, which is also free-tier eligible:

Figure 1.6 – Selecting Microsoft Windows as the operating system

Figure 1.6 – Selecting Microsoft Windows as the operating system

So far, we have created two EC2 instances in our AWS cloud—one Linux VM and one Windows VM—via the AWS Management console.

Launching EC2 instances using CloudShell

We can also launch EC2 instances using the command line in CloudShell, which is a browser-based, pre-authenticated shell that you can launch directly from the AWS Management Console. Next are detailed steps to create an EC2 Windows instance in the us-west-2 Region:

  1. From the AWS console, launch CloudShell by clicking the CloudShell sign, as shown in Figure 1.7:
Figure 1.7 – Launching CloudShell from the AWS console

Figure 1.7 – Launching CloudShell from the AWS console

  1. Find the AWS AMI image ID in the us-west-2 region, with the following CloudShell command – the results are shown in Figure 1.8:

[cloudshell-user]$ aws ec2 describe-images --region us-west-2

Figure 1.8 – Finding the Linux AMI image ID

Figure 1.8 – Finding the Linux AMI image ID

  1. Find the SG name we created in the previous section, as shown in Figure 1.9:
Figure 1.9 – Finding the SG name

Figure 1.9 – Finding the SG name

  1. Find the key pair we created in the previous section, as shown in Figure 1.10:
Figure 1.10 – Finding the key pair name

Figure 1.10 – Finding the key pair name

  1. Create an EC2 instance in the us-west-2 region, using the aws ec2 run-instances command, with the following configurations we obtained from the previous steps. A screenshot is shown in Figure 1.11. The instance ID is called out from the output

AMI:

ami-0ef0b498cd3fe129c

SG:

launch-wizard-1

Key pair:

mywestkp

Instance type:

t2.micro

aws ec2 run-instances --image-id ami-0ef0b498cd3fe129c --count 1 --instance-type t2.micro --key-name mywestkp --security-groups launch-wizard-1 --region us-west-2
Figure 1.11 – Launching an EC2 instance

Figure 1.11 – Launching an EC2 instance

  1. Examine the details of the instance from its InstanceId value. As shown in Figure 1.12, the instance has a public IP address of 35.93.143.38:
Figure 1.12 – Finding the EC2 instance’s public IP address

Figure 1.12 – Finding the EC2 instance’s public IP address

So far, we have created another EC2 instance using CloudShell with command lines. Note that CloudShell allows us to provision any cloud resources using lines of code, and we will provide more examples in the rest of the book.

Logging in to the EC2 instances

After the instances are created, how do we access them?

SSH is a cryptographic network protocol for operating network services securely over an unsecured network. We can use SSH to access the Linux EC2 instance. PuTTY is a free and open source terminal emulator, serial console, and network file transfer application. We will download PuTTY and use it to connect to the Linux VM in the AWS cloud, as shown in Figure 1.13:

Figure 1.13 – Using PuTTY to connect to the Linux instance

Figure 1.13 – Using PuTTY to connect to the Linux instance

As shown in Figure 1.13, we entered [email protected] in the Host Name (or IP address) field. ec2-user is a default user created in the guest Linux OS, and 35.93.143.38 is the public IP of the EC2 instance. Note we need to open the SSH port (22) in the EC2 instance’s SG to allow traffic from our remote machine, as discussed in step 8 of the Launching EC2 instances in the AWS cloud console section earlier in the chapter.

We also need to provide the key pair in the PuTTY Configuration window by going to Connection | SSH | Auth, as shown in Figure 1.14:

Figure 1.14 – Entering the key pair in PuTTY

Figure 1.14 – Entering the key pair in PuTTY

Click Open, and you will be able to SSH into the Linux instance now. As shown in Figure 1.15, we have SSH-ed into the cloud EC2 instance:

Figure 1.15 – SSH-ing into ec2-1 from the internet

Figure 1.15 – SSH-ing into ec2-1 from the internet

Since we are using a Windows terminal to connect to the remote Linux instance, the key pair format is .ppk. If you are using a Mac or another Linux-based terminal, you will need to use the .pem format. These two formats can be converted using the open source software PuTTYgen, which is part of the PuTTY family.

With a Linux-based terminal including Mac, use the following command to connect to the cloud Linux EC2 instance:

ssh -i keypair.pem [email protected]

keypair.pem is the key pair file in .pem format. Make sure it’s set to the right permission using the chomd 400 keypair.pem Linux command. [email protected] is user@EC2’s public IP address. The default user may change to ubuntu if the EC2 instance is an Ubuntu Linux distribution.

For the Windows EC2 instance, just as we access another PC at our home using Remote Desktop Protocol (RDP), a proprietary protocol developed by Microsoft that provides a user with a graphical interface to connect to another computer over a network connection, we use RDP to log in to the Windows EC2 instance in the AWS cloud. By default, RDP client software is installed on our desktop or laptop, and the Windows EC2 instance has RDP server software running, so it becomes very handy to connect our desktop/laptop to the Windows VM in the cloud. One extra step is that we need to decrypt the administrator’s password from the key pair we downloaded during the instance launching process, by going to the AWS console’s EC2 dashboard and clicking Instance | Connect | RDP Client.

ELB and ASG

We previously briefed the “cattle in a herd” analogy in cloud computing. In this section, we will explain the actual implementation using ELBs and ASGs and use an example to illustrate the mechanism.

An ELB automatically distributes the incoming traffic (workload) across multiple targets, such as EC2 instances, in one or more AZs, so as to balance the workload for high performance and high availability (HA). An ELB monitors the health of its registered targets and distributes traffic only to the healthy targets.

Behind an ELB, there is usually an ASG that manages the fleet of ELB targets—EC2 instances, in our case. ASG monitors the workload of the instances and uses auto-scaling policies to scale—when the workload reaches a certain up-threshold, such as CPU utilization of 80%, ASG will launch new EC2s and add them into the fleet to offload the traffic until the utilization drops below the up-threshold. When the workload reaches a certain down-threshold, such as CPU utilization of 30%, ASG will shut down EC2s from the fleet until the utilization rises above the threshold. ASG also utilizes a health-check to monitor the instances and replace unhealthy ones as needed. During the auto-scaling process, ASG makes sure that the running EC2 instances are loaded within the thresholds and are laid out across as many AZs in a region.

Let us illustrate ELB and ASG with an example. www.zbestbuy.com is an international online e-commerce retailer. During normal business hours, it needs a certain number of web servers to work together to meet online shopping traffic. To meet the global traffic requirements, three web servers are built in different AWS regions—North Virginia (us-east-1), London (eu-west-2), and Singapore (ap-southeast-1). Depending on the customer browser location, Amazon Route 53 (an AWS DNS service) will route the traffic to the nearest web server: when customers in Europe browse the retailer website, the traffic will be routed to the eu-west-2 web server, which is really an ELB (or Application Load Balancer (ALB)), and distributed to the EC2 instances behind the ELB, as shown in Figure 1.16.

When Black Friday comes, the traffic increases and hits the ELB, which passes the traffic to the EC2 instance fleet. The heavy traffic will raise the EC2 instances’ CPU utilization to reach the up-threshold of 80%. Based on the auto-scaling policy, an alarm will be kicked off and the ASG will automatically scale, launching more EC2 instances to join the EC2 fleet. With more EC2s joining in, the CPU utilization will be dropped. Depending on the Black Friday traffic fluctuation, the ASG will always keep up to make sure enough EC2s are working on the workload with normal CPU utilization. When Black Friday sales end, the traffic decreases and thus causes the instances’ CPU utilization to drop. When it reaches the down-threshold of 30%, the ASG will start shutting down EC2s based on the auto-scaling policy:

Figure 1.16 – ELB and ASG

Figure 1.16 – ELB and ASG

As we can see from the preceding example, ELB and ASG work together to scale elastically. Please refer to https://docs.aws.amazon.com/autoscaling/ec2/userguide/autoscaling-load-balancer.html for more details.

AWS compute – from EC2 to containers to serverless

So far in this chapter, we have dived into the AWS EC2 service and discussed AWS ELB and ASG. Now, let’s spend some time expanding to the other AWS compute services: ECS, EKS, and Lambda (serverless service).

We have discussed the virtualization technology led by VMware at the beginning of the 21st century. While transforming from physical machines to VMs is a great milestone, there still exist constraints from the application point of view: every time we need to deploy an application, we need to run a VM first. The application is also tied up with the OS platform and lacks flexibility and portability. To solve such problems, the concept of Docker and containers came into the world. A Docker engine virtualizes an OS to multiple apps/containers. A Docker image is a lightweight, standalone, executable package of software that includes everything needed to run an application: code, runtime, system tools, system libraries, and settings. A container is a runtime of the Docker image, and the application runs quickly and reliably from one computing environment to another. Multiple containers can run on the same VM and share the OS kernel with other containers, each running as isolated processes in user space. To further achieve fast and robust deployments and low lead times, the concept of serverless computing emerged. With serverless computing, workloads run on servers behind the scenes. From a developer or user’s point of view, what they need to do is just submit the code and get the running results back—there is no hassle of building and managing any infrastructure platforms at all, while resources can continuously scale and be dynamically allocated as needed, yet you never pay for idle time as it is pay per usage.

From VM to container to serverless, Amazon provides EC2, ECS/EKS, and Lambda services correspondingly.

Amazon ECS is a fully managed container orchestration service that helps you easily deploy, manage, and scale containerized applications using Docker or Kubernetes. Amazon ECS provides a highly available and scalable platform for running container-based applications. Enterprises use ECS to grow and manage enterprise application portfolios, scale web applications, perform batch processing, and run services to deliver better services to users.

Amazon EKS, on the other hand, is a fully managed service that makes it easy to deploy, manage, and scale Kubernetes in the AWS cloud. Amazon EKS leverages the global cloud’s performance, scale, reliability, and availability, and integrates it with other AWS services such as networking, storage, and security services.

Amazon Lambda was introduced in November 2014. It is an event-driven, serverless computing service that runs code in response to events and automatically manages the computing resources required by that code. Amazon Lambda provides HA with automatic scaling, cost optimization, and security. It supports multiple programming languages, environment variables, and tight integration with other AWS services.

For more details about the aforementioned AWS services and their implementations, please refer to the Further reading section at the end of the chapter.

Summary

Congratulations! We have completed the first chapter of our AWS self-learning journey: cloud compute services. In this chapter, we have thoroughly discussed Amazon EC2 instances and provisioned EC2 instances step by step, using the AWS cloud console and CloudShell command lines. We then extended from EC2 (VM) to the container and serverless concepts and briefly discussed Amazon’s ECS, EKS, and Lambda services.

In the next chapter, we will discuss Amazon storage services, including block storage and network storage that can be added and shared by EC2 instances, and the Simple Storage Service.

At the end of each chapter, we provide practice questions and answers. These questions are designed to help you understand the cloud concepts discussed in the chapter. Please spend time on each question before checking the answer.

Practice questions

1. Which of the following is not a valid source option when configuring SG rules for an EC2 instance?

A. Tag name for another EC2 instance

B. IP address for another EC2 instance

C. IP address ranges for a network

D. SG name used by another EC2 instance

2. An AWS cloud engineer signed up for a new AWS account, then logged in to the account and created a Linux EC2 instance in the default VPC/subnet. They were able to SSH to the EC2 instance. From the EC2 instance, They:

A. can access www.google.com

B. cannot access www.google.com

C. can access www.google.com only after they configure SG rules

D. can access www.google.com only after they configure Network Access Control List (NACL) rules

3. Alice launched an EC2 Linux instance in the AWS cloud, and then successfully SSH-ed to the instance from her laptop at home with the default ec2-user username. Which keys are used during this process?

A. ec2-user’s public key, which is stored on the EC2 instance, and the private key on the laptop

B. The root user’s public key on the EC2 instance

C. ec2-user’s public key, which is stored on the laptop

D. ec2-user’s private key, which is stored on the cloud EC2 instance

E. ec2-user’s symmetric key, which is stored on both the laptop and EC2 instance

4. www.zbestbuy.com is configured with ELB and ASG. At peak time, it needs 10 AWS EC2 instances. How do you make sure the website will never be down and can scale as needed?

A. Set ASG’s minimum instances = 2, maximum instances = 10

B. Set ASG’s minimum instances = 1, maximum instances = 10

C. Set ASG’s minimum instances = 0, maximum instances = 10

D. Set ASG’s minimum instances = 2, maximum instances = 2

5. A middle school has an education application system using ASG to automatically scale resources as needed. The students report that every morning at 8:30 A.M., the system becomes very slow for about 15 minutes. Initial checking shows that a large percentage of the classes start at 8:30 A.M., and it does not have enough time to scale out to meet the demand. How can we resolve this problem?

A. Schedule the ASGs accordingly to scale out the necessary resources at 8:15 A.M. every morning

B. Use Reserved Instances to ensure the system has reserved the capacity for scale-up events

C. Change the ASG to scale based on network utilization

D. Permanently keep the running instances that are needed at 8:30 A.M. to guarantee available resources

6. AWS engineer Alice is launching an EC2 instance to host a web server. How should Alice configure the EC2 instance’s SG?

A. Open ports 80 and 443 inbound to 0.0.0.0/0

B. Open ports 80 and 443 outbound to 0.0.0.0/0

C. Open ports 80 and 443 inbound to 10.10.10.0/24

D. Open ports 80 and 443 outbound to my IP

7. An AWS cloud engineer signed up for a new AWS account, then logged in to the account and created an EC2-1 Windows instance and an EC2-2 Linux instance in one subnet (172.31.48.0/20) in the default VPC, using an SG that has SSH and RDP open to 172.31.0.0/16 only. They were able to RDP to the EC2-1 instance. From the EC2-1 instance, they:

A. can SSH to EC2-2

B. can ping EC2-2

C. cannot ping EC2-1

D. cannot SSH to EC2-2

8. www.zbestbuy.com has a need for 10,000 EC2 instances in the next 3 years. What should they use to get these computing resources?

A. Reserved Instances

B. Spot Instances

C. On-demand instances

D. Dedicated-host instances

9. AWS engineer Alice needs to log in to an EC2-100 Linux instance that no one can access since the AWS engineer who was managing it left the company. What does Alice need to do?

A. Generate a key pair, and add the public key to EC2-100 using user-data

B. Generate a key pair, and add the public key to EC2-100 using meta-data

C. Generate a key pair, and copy the public key to EC2-100 using Secure Copy Protocol (SCP)

D. Remove the old private key from EC2-100

10. An AWS architect launched an EC2 instance using the t2.large type, installed databases and web applications on the instance, then found that the instance was too small, so they want to move to an M4.xlarge instance type. What do they need to do?

Answers to the practice questions

1. A

2. A

3. A

4. A

5. A

6. A

7. A

8. A

9. A

10. One way is to stop the instance in the AWS console and start it with the M4.xlarge instance type.

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Key benefits

  • Learn all about cloud computing at your own pace with this easy-to-follow guide
  • Develop a well-rounded skill set, encompassing fundamentals, data, machine learning, and security
  • Work on real-world industrial projects and business use cases, and chart a path for your personal cloud career advancement
  • Purchase of the print or Kindle book includes a free PDF eBook

Description

The Self-Taught Cloud Computing Engineer is a comprehensive guide to mastering cloud computing concepts by building a broad and deep cloud knowledge base, developing hands-on cloud skills, and achieving professional cloud certifications. Even if you’re a beginner with a basic understanding of computer hardware and software, this book serves as the means to transition into a cloud computing career. Starting with the Amazon cloud, you’ll explore the fundamental AWS cloud services, then progress to advanced AWS cloud services in the domains of data, machine learning, and security. Next, you’ll build proficiency in Microsoft Azure Cloud and Google Cloud Platform (GCP) by examining the common attributes of the three clouds while distinguishing their unique features. You’ll further enhance your skills through practical experience on these platforms with real-life cloud project implementations. Finally, you’ll find expert guidance on cloud certifications and career development. By the end of this cloud computing book, you’ll have become a cloud-savvy professional well-versed in AWS, Azure, and GCP, ready to pursue cloud certifications to validate your skills.

Who is this book for?

Whether you're new to cloud computing or a seasoned professional looking to expand your expertise, this book is for anyone in the information technology domain who aspires to thrive in the realm of cloud computing. With this comprehensive roadmap, you’ll have the tools to build a successful cloud computing career.

What you will learn

  • Develop the core skills needed to work with cloud computing platforms such as AWS, Azure, and GCP
  • Gain proficiency in compute, storage, and networking services across multi-cloud and hybrid-cloud environments
  • Integrate cloud databases, big data, and machine learning services in multi-cloud environments
  • Design and develop data pipelines, encompassing data ingestion, storage, processing, and visualization in the clouds
  • Implement machine learning pipelines in a multi-cloud environment
  • Secure cloud infrastructure ecosystems with advanced cloud security services
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Length: 472 pages
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Table of Contents

23 Chapters
Part 1: Learning about the Amazon Cloud Chevron down icon Chevron up icon
Chapter 1: Amazon EC2 and Compute Services Chevron down icon Chevron up icon
Chapter 2: Amazon Cloud Storage Services Chevron down icon Chevron up icon
Chapter 3: Amazon Networking Services Chevron down icon Chevron up icon
Chapter 4: Amazon Database Services Chevron down icon Chevron up icon
Chapter 5: Amazon Data Analytics Services Chevron down icon Chevron up icon
Chapter 6: Amazon Machine Learning Services Chevron down icon Chevron up icon
Chapter 7: Amazon Cloud Security Services Chevron down icon Chevron up icon
Part 2:Comprehending GCP Cloud Services Chevron down icon Chevron up icon
Chapter 8: Google Cloud Foundation Services Chevron down icon Chevron up icon
Chapter 9: Google Cloud’s Database and Big Data Services Chevron down icon Chevron up icon
Chapter 10: Google Cloud AI Services Chevron down icon Chevron up icon
Chapter 11: Google Cloud Security Services Chevron down icon Chevron up icon
Part 3:Mastering Azure Cloud Services Chevron down icon Chevron up icon
Chapter 12: Microsoft Azure Cloud Foundation Services Chevron down icon Chevron up icon
Chapter 13: Azure Cloud Database and Big Data Services Chevron down icon Chevron up icon
Chapter 14: Azure Cloud AI Services Chevron down icon Chevron up icon
Chapter 15: Azure Cloud Security Services Chevron down icon Chevron up icon
Part 4:Developing a Successful Cloud Career Chevron down icon Chevron up icon
Chapter 16: Achieving Cloud Certifications Chevron down icon Chevron up icon
Chapter 17: Building a Successful Cloud Computing Career Chevron down icon Chevron up icon
Index Chevron down icon Chevron up icon
Other Books You May Enjoy Chevron down icon Chevron up icon

Customer reviews

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Dev joshi Apr 18, 2024
Full star icon Full star icon Full star icon Full star icon Full star icon 5
For those entering the field of cloud computing without any official training, this book is an extensive and powerful resource. This book provides insights and useful activities for users of key cloud platforms, including AWS, Azure, and GCP. It is a roadmap for IT enthusiasts and professionals.Dr. Song starts out by giving a thorough introduction to Amazon Web Services (AWS) before easing into more complex subjects like machine learning, data services, and security. Examples of real-world projects enhance the educational process by connecting abstract ideas with practical implementations.It is anticipated that readers will become proficient in a variety of cloud services, such as networking, computation, storage, and security in multi-cloud and hybrid contexts. A wide range of IT professionals can benefit from Dr. Song's guide, regardless of their level of experience.As a Master's student studying business analytics with an emphasis on data engineering, I personally thought that Dr. Song's book was very helpful in extending my understanding of cloud computing. My perspective has been expanded, and the methodical way that cloud services are presented on various platforms has helped me become ready for professional certifications.In summary, "The Self-Taught Cloud Computing Engineer" is a priceless tool that gives readers the knowledge and skills they need to succeed in the cloud computing industry. This book is essential reading for aspiring and working IT professionals who want to improve their cloud computing knowledge and careers because of Dr. Song's integration of theory, real-world projects, and career pathways.
Amazon Verified review Amazon
Palak Dilip Verma Apr 25, 2024
Full star icon Full star icon Full star icon Full star icon Full star icon 5
"The Self-Taught Cloud Computing Engineer" by Dr. Logan Song is a great resource for anyone who wishes to dive into the world of cloud computing concepts as used by the wider tech industry today. I really liked the pacing of the book as it starts with key concepts of cloud computing, slowly building an understanding of the fundamental blocks, like the various service models of cloud computing, using AWS and its services as a practical analogy. Overall, the book offers a nice blend of the theory of cloud computing as well as the implementation of that theory as provided by "Big-3" cloud platforms: AWS, GCP, and Azure, in the form of their various service offerings.Furthermore, there are various diagrams and helpful illustrations throughout the book which make the reading experience so much better and intriguing, Dr. Song has done an amazing job in simplifying core technical concepts like cloud networking and infrastructure, making it easier to follow along as the book begins to deal with more complex topics in later chapters. This book surely made my foray into the world of AWS so much more interesting and also turned out to be a great resource in preparing for the AWS Cloud Practitioner certification exam.
Amazon Verified review Amazon
Chakravarthy Pappu Apr 25, 2024
Full star icon Full star icon Full star icon Full star icon Full star icon 5
I recently picked up Dr. Logan Song's "The Self-Taught Cloud Computing Engineer" as I wanted to learn more about cloud computing. Let me tell you, it's been a game-changer for me!This book breaks down everything about cloud computing in a really simple way. Dr. Song explains things so clearly, even if you're totally new to the topic. I love how he covers the big players like AWS, Azure, and GCP, making it easy to understand what each one offers.The best part? The hands-on exercises are super helpful. They let me practice what I learned, which really made things stick. Plus, there are tips for getting certified, which is a bonus if you're thinking about taking exams.Overall, if you're looking to get into cloud computing or just want to understand it better, I highly recommend "The Self-Taught Cloud Computing Engineer." It's been a real eye-opener for me!
Amazon Verified review Amazon
Snehitha Penumaka Mar 09, 2024
Full star icon Full star icon Full star icon Full star icon Full star icon 5
For anyone interested in learning about cloud computing and becoming a self-taught cloud engineer, Logan Song's book "The Self-Taught Cloud Computing Engineer" is an excellent resource. The author adopts a peculiar methodology, starting with the fundamental ideas of cloud computing before getting into the finer points of individual services. To guarantee that readers comprehend the mathematical underpinnings and develop practical abilities in navigating the complexities of AWS, Azure, and GCP, the writers skillfully blend theoretical and practical activities. The learning process is enhanced by review questions and practical exercises at the conclusion of each chapter. Because the author is well-versed in industry changes and trends, the content is current and relevant.Moreover, adding real-world industrial case studies would give readers insightful knowledge about how cloud computing is used in a variety of sectors. This would give the educational process a more real-world component. In summary, this book is a fantastic ally in your path to cloud mastery, regardless of your motivation—be it certification or career advancement.
Amazon Verified review Amazon
Prathyusha Jammula Nov 30, 2023
Full star icon Full star icon Full star icon Full star icon Full star icon 5
"The Self-Taught Cloud Computing Engineer" by Dr. Logan Song is an excellent resource for anyone interested in entering the rapidly increasing field of cloud computing. This comprehensive book covers the principles of cloud computing, including an in-depth look at the three major cloud platforms: Amazon Web Services (AWS), Microsoft Azure, and Google Cloud Platform (GCP).Song's knowledge is evident in his precise and simple explanations of complicated ideas. He divides each issue into small bits, making it simple for even novices to grasp the complexities of cloud computing. The book is packed with practical examples and hands-on exercises that allow readers to put their newfound knowledge to use and gain useful experience. The emphasis on self-paced learning genuinely distinguishes this book. Song urges readers to take charge of their education by providing them with the tools and resources they need to succeed. To ensure that readers have a good foundation in cloud computing, he includes chapter summaries, self-assessment tests, and links to supplementary learning tools."The Self-Taught Cloud Computing Engineer" is an invaluable resource whether you are a complete beginner or an aspiring cloud professional. Song's experienced advice and hands-on approach will provide you with the information and skills you need to navigate the ever-changing cloud computing landscape.
Amazon Verified review Amazon
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