elb_asg.md

Elastic Load Balancing & Auto Scaling Groups

• Elastic Load Balancing & Auto Scaling Groups
  • Scalability & High Availability
  • Vertical Scalability
  • Horizontal Scalability
  • High Availability
  • High Availability & Scalability For EC2
  • Scalability vs Elasticity (vs Agility)
  • What is load balancing?
    • Why use a load balancer?
    • Why use an Elastic Load Balancer?
  • What’s an Auto Scaling Group?
    • Auto Scaling Groups Scaling Strategies
  • ELB & ASG Summary

Scalability & High Availability

• Scalability means that an application / system can handle greater loads by adapting.
• There are two kinds of scalability:
  • Vertical Scalability
  • Horizontal Scalability (= elasticity)
• Scalability is linked but different to High Availability
• Let’s deep dive into the distinction, using a call center as an example

Vertical Scalability

• Vertical Scalability means increasing the size of the instance
• For example, your application runs on a t2.micro
• Scaling that application vertically means running it on a t2.large
• Vertical scalability is very common for non distributed systems, such as a database.
• There’s usually a limit to how much you can vertically scale (hardware limit)

Horizontal Scalability

• Horizontal Scalability means increasing the number of instances / systems for your application
• Horizontal scaling implies distributed systems.
• This is very common for web applications / modern applications
• It’s easy to horizontally scale thanks the cloud offerings such as Amazon EC2

High Availability

• High Availability usually goes hand in hand with horizontal scaling
• High availability means running your application / system in at least 2 Availability Zones
• The goal of high availability is to survive a data center loss (disaster)

High Availability & Scalability For EC2

• Vertical Scaling: Increase instance size (= scale up / down)
  • From: t2.nano - 0.5G of RAM, 1 vCPU
  • To: u-12tb1.metal – 12.3 TB of RAM, 448 vCPUs
• Horizontal Scaling: Increase number of instances (= scale out / in)
  • Auto Scaling Group
  • Load Balancer
• High Availability: Run instances for the same application across multi AZ
  • Auto Scaling Group multi AZ
  • Load Balancer multi AZ

Scalability vs Elasticity (vs Agility)

Scalability	Elasticity	Agility
ability to accommodate a larger load by making the hardware stronger (scale up), or by adding nodes (scale out)	once a system is scalable, elasticity means that there will be some “auto-scaling” so that the system can scale based on the load. This is “cloud-friendly”: pay-per-use, match demand, optimize costs	(not related to scalability - distractor) new IT resources are only a click away, which means that you reduce the time to make those resources available to your developers from weeks to just minutes.

What is load balancing?

• Load balancers are servers that forward internet traffic to multiple servers (EC2 Instances) downstream.

Why use a load balancer?

• Spread load across multiple downstream instances
• Expose a single point of access (DNS) to your application
• Seamlessly handle failures of downstream instances
• Do regular health checks to your instances
• Provide SSL termination (HTTPS) for your websites
• High availability across zones

Why use an Elastic Load Balancer?

• An ELB (Elastic Load Balancer) is a managed load balancer
  • AWS guarantees that it will be working
  • AWS takes care of upgrades, maintenance, high availability
  • AWS provides only a few configuration knobs
• It costs less to setup your own load balancer but it will be a lot more effort on your end (maintenance, integrations)
• 3 kinds of load balancers offered by AWS:
  • Application Load Balancer (HTTP / HTTPS only) – Layer 7
  • Network Load Balancer (ultra-high performance, allows for TCP) – Layer 4
  • Classic Load Balancer (slowly retiring) – Layer 4 & 7

What’s an Auto Scaling Group?

• In real-life, the load on your websites and application can change
• In the cloud, you can create and get rid of servers very quickly
• The goal of an Auto Scaling Group (ASG) is to:
  • Scale out (add EC2 instances) to match an increased load
  • Scale in (remove EC2 instances) to match a decreased load
  • Ensure we have a minimum and a maximum number of machines running
  • Automatically register new instances to a load balancer
  • Replace unhealthy instances
• Cost Savings: only run at an optimal capacity (principle of the cloud)

Auto Scaling Groups Scaling Strategies

• Manual Scaling: Update the size of an ASG manually
• Dynamic Scaling: Respond to changing demand
  • Simple / Step Scaling
    • When a CloudWatch alarm is triggered (example CPU > 70%), then add 2 units
    • When a CloudWatch alarm is triggered (example CPU < 30%), then remove 1
  • Target Tracking Scaling
    • Example: I want the average ASG CPU to stay at around 40%
  • Scheduled Scaling
    • Anticipate a scaling based on known usage patterns
    • Example: increase the min. capacity to 10 at 5 pm on Fridays
• Predictive Scaling
  • Uses Machine Learning to predict future traffic ahead of time
  • Automatically provisions the right number of EC2 instances in advance
• Useful when your load has predictable time - based patterns

ELB & ASG Summary

• High Availability vs Scalability (vertical and horizontal) vs Elasticity vs Agility in the Cloud
• Elastic Load Balancers (ELB)
  • Distribute traffic across backend EC2 instances, can be Multi-AZ
  • Supports health checks
  • 3 types: Application LB (HTTP – L7), Network LB (TCP – L4), Classic LB (old)
• Auto Scaling Groups (ASG)
  • Implement Elasticity for your application, across multiple AZ
  • Scale EC2 instances based on the demand on your system, replace unhealthy
  • Integrated with the ELB

---

EC2 Instance Storage            List           Amazon S3