Architecting for the Cloud – AWS Best Practices – Whitepaper – Certification

Architecting for the Cloud – AWS Best Practices

Architecting for the Cloud – AWS Best Practices whitepaper provides architectural patterns and advice on how to design systems that are secure, reliable, high performing, and cost efficient

AWS Design Principles

Scalability

  • While AWS provides virtually unlimited on-demand capacity, the architecture should be designed to take advantage of those resources
  • There are two ways to scale an IT architecture
    • Vertical Scaling
      • takes place through increasing specifications of an individual resource for e.g. updating EC2 instance type with increasing RAM, CPU, IOPS, or networking capabilities
      • will eventually hit a limit, and is not always a cost effective or highly available approach
    • Horizontal Scaling
      • takes place through increasing number of resources for e.g. adding more EC2 instances or EBS volumes
      • can help leverage the elasticity of cloud computing
      • not all the architectures can be designed to distribute their workload to multiple resources
      • applications designed should be stateless,
        • that needs no knowledge of previous interactions and stores no session information
        • capacity can be increased and decreased, after running tasks have been drained
      • State, if needed, can be implemented using
        • Low latency external store, for e.g. DynamoDB, Redis, to maintain state information
        • Session affinity, for e.g. ELB sticky sessions, to bind all the transactions of a session to a specific compute resource. However, it cannot be guaranteed or take advantage of newly added resources for existing sessions
      • Load can be distributed across multiple resources using
        • Push model, for e.g. through ELB where it distributes the load across multiple EC2 instances
        • Pull model, for e.g. through SQS or Kinesis where multiple consumers subscribe and consume
      • Distributed processing, for e.g. using EMR or Kinesis, helps process large amounts of data by dividing task and its data into many small fragments of works

Disposable Resources Instead of Fixed Servers

  • Resources need to be treated as temporary disposable resources rather than fixed permanent on-premises resources before
  • AWS focuses on the concept of Immutable infrastructure
    • servers once launched, is never updated throughout its lifetime.
    • updates can be performed on a new server with latest configurations,
    • this ensures resources are always in a consistent (and tested) state and easier rollbacks
  • AWS provides multiple ways to instantiate compute resources in an automated and repeatable way
    • Bootstraping
      • scripts to configure and setup for e.g. using data scripts and cloud-init to install software or copy resources and code
    • Golden Images
      • a snapshot of a particular state of that resource,
      • faster start times and removes dependencies to configuration services or third-party repositories
    • Containers
      • AWS support for docker images through Elastic Beanstalk and ECS
      • Docker allows packaging a piece of software in a Docker Image, which is a standardized unit for software development, containing everything the software needs to run: code, runtime, system tools, system libraries, etc
  • Infrastructure as Code
    • AWS assets are programmable, techniques, practices, and tools from software development can be applied to make the whole infrastructure reusable, maintainable, extensible, and testable.
    • AWS provides services like CloudFormation, OpsWorks for deployment

Automation

  • AWS provides various automation tools and services which help improve system’s stability, efficiency and time to market.
    • Elastic Beanstalk
      • a PaaS that allows quick application deployment while handling resource provisioning, load balancing, auto scaling, monitoring etc
    • EC2 Auto Recovery
      • creates CloudWatch alarm that monitors an EC2 instance and automatically recovers it if it becomes impaired.
      • A recovered instance is identical to the original instance, including the instance ID, private & Elastic IP addresses, and all instance metadata.
      • Instance is migrated through reboot, in memory contents are lost.
    • Auto Scaling
      • allows maintain application availability and scale the capacity up or down automatically as per defined conditions
    • CloudWatch Alarms
      • allows SNS triggers to be configured when a particular metric goes beyond a specified threshold for a specified number of periods
    • CloudWatch Events
      • allows real-time stream of system events that describe changes in AWS resources
    • OpsWorks
      • allows continuous configuration through lifecycle events that automatically update the instances’ configuration to adapt to environment changes.
      • Events can be used to trigger Chef recipes on each instance to perform specific configuration tasks
    • Lambda Scheduled Events
      • allows Lambda function creation and direct AWS Lambda to execute it on a regular schedule.

Loose Coupling

  • AWS helps loose coupled architecture that reduces interdependencies, a change or failure in a component does not cascade to other components
    • Asynchronous Integration
      • does not involve direct point-to-point interaction but usually through an intermediate durable storage layer for e.g. SQS, Kinesis
      • decouples the components and introduces additional resiliency
      • suitable for any interaction that doesn’t need an immediate response and an ack that a request has been registered will suffice
    • Service Discovery
      • allows new resources to be launched or terminated at any point in time and discovered as well for e.g. using ELB as a single point of contact with hiding the underlying instance details or Route 53 zones to abstract load balancer’s endpoint
    • Well-Defined Interfaces
      • allows various components to interact with each other through specific, technology agnostic interfaces for e.g. RESTful apis with API Gateway 

Services, Not Servers

Databases

  • AWS provides different categories of database technologies
    • Relational Databases (RDS)
      • normalizes data into well-defined tabular structures known as tables, which consist of rows and columns
      • provide a powerful query language, flexible indexing capabilities, strong integrity controls, and the ability to combine data from multiple tables in a fast and efficient manner
      • allows vertical scalability by increasing resources and horizontal scalability using Read Replicas for read capacity and sharding or data partitioning for write capacity
      • provides High Availability using Multi-AZ deployment, where data is synchronously replicated
    • NoSQL Databases (DynamoDB)
      • provides databases that trade some of the query and transaction capabilities of relational databases for a more flexible data model that seamlessly scales horizontally
      • perform data partitioning and replication to scale both the reads and writes in a horizontal fashion
      • DynamoDB service synchronously replicates data across three facilities in an AWS region to provide fault tolerance in the event of a server failure or Availability Zone disruption
    • Data Warehouse (Redshift)
      • Specialized type of relational database, optimized for analysis and reporting of large amounts of data
      • Redshift achieves efficient storage and optimum query performance through a combination of massively parallel processing (MPP), columnar data storage, and targeted data compression encoding schemes
      • Redshift MPP architecture enables increasing performance by increasing the number of nodes in the data warehouse cluster
  • For more details refer to AWS Storage Options Whitepaper

Removing Single Points of Failure

  • AWS provides ways to implement redundancy, automate recovery and reduce disruption at every layer of the architecture
  • AWS supports redundancy in the following ways
    • Standby Redundancy
      • When a resource fails, functionality is recovered on a secondary resource using a process called failover.
      • Failover will typically require some time before it completes, and during that period the resource remains unavailable.
      • Secondary resource can either be launched automatically only when needed (to reduce cost), or it can be already running idle (to accelerate failover and minimize disruption).
      • Standby redundancy is often used for stateful components such as relational databases.
    • Active Redundancy
      • requests are distributed to multiple redundant compute resources, if one fails, the rest can simply absorb a larger share of the workload.
      • Compared to standby redundancy, it can achieve better utilization and affect a smaller population when there is a failure.
  • AWS supports replication
    • Synchronous replication
      • acknowledges a transaction after it has been durably stored in both the primary location and its replicas.
      • protects data integrity from the event of a primary node failure
      • used to scale read capacity for queries that require the most up-to-date data (strong consistency).
      • compromises performance and availability
    • Asynchronous replication
      • decouples the primary node from its replicas at the expense of introducing replication lag
      • used to horizontally scale the system’s read capacity for queries that can tolerate that replication lag.
    • Quorum-based replication
      • combines synchronous and asynchronous replication to overcome the challenges of large-scale distributed database systems
      • Replication to multiple nodes can be managed by defining a minimum number of nodes that must participate in a successful write operation
  • AWS provide services to reduce or remove single point of failure
    • Regions, Availability Zones with multiple data centers
    • ELB or Route 53 to configure health checks and mask failure by routing traffic to healthy endpoints
    • Auto Scaling to automatically replace unhealthy nodes
    • EC2 auto-recovery to recover unhealthy impaired nodes
    • S3, DynamoDB with data redundantly stored across multiple facilities
    • Multi-AZ RDS and Read Replicas
    • ElastiCache Redis engine supports replication with automatic failover
  • For more details refer to AWS Disaster Recovery Whitepaper

Optimize for Cost

  • AWS can help organizations reduce capital expenses and drive savings as a result of the AWS economies of scale
  • AWS provides different options which should be utilized as per use case –
    • EC2 instance types – On Demand, Reserved and Spot
    • Trusted Advisor or EC2 usage reports to identify the compute resources and their usage
    • S3 storage class – Standard, Reduced Redundancy, and Standard-Infrequent Access
    • EBS volumes – Magnetic, General Purpose SSD, Provisioned IOPS SSD
    • Cost Allocation tags to identify costs based on tags
    • Auto Scaling to horizontally scale the capacity up or down based on demand
    • Lambda based architectures to never pay for idle or redundant resources
    • Utilize managed services where scaling is handled by AWS for e.g. ELB, CloudFront, Kinesis, SQS, CloudSearch etc.

Caching

  • Caching improves application performance and increases the cost efficiency of an implementation
    • Application Data Caching
      • provides services thats helps store and retrieve information from fast, managed, in-memory caches
      • ElastiCache is a web service that makes it easy to deploy, operate, and scale an in-memory cache in the cloud and supports two open-source in-memory caching engines: Memcached and Redis
    • Edge Caching
      • allows content to be served by infrastructure that is closer to viewers, lowering latency and giving high, sustained data transfer rates needed to deliver large popular objects to end users at scale.
      • CloudFront is Content Delivery Network (CDN) consisting of multiple edge locations, that allows copies of static and dynamic content to be cached

Security

  • AWS works on shared security responsibility model
    • AWS is responsible for the security of the underlying cloud infrastructure
    • you are responsible for securing the workloads you deploy in AWS
  • AWS also provides ample security features
    • IAM to define a granular set of policies and assign them to users, groups, and AWS resources
    • IAM roles to assign short term credentials to resources, which are automatically distributed and rotated
    • Amazon Cognito, for mobile applications, which allows client devices to get controlled access to AWS resources via temporary tokens.
    • VPC to isolate parts of infrastructure through the use of subnets, security groups, and routing controls
    • WAF to help protect web applications from SQL injection and other vulnerabilities in the application code
    • CloudWatch logs to collect logs centrally as the servers are temporary
    • CloudTrail for auditing AWS API calls, which delivers a log file to S3 bucket. Logs can then be stored in an immutable manner and automatically processed to either notify or even take action on your behalf, protecting your organization from non-compliance
    • AWS Config, Amazon Inspector, and AWS Trusted Advisor to continually monitor for compliance or vulnerabilities giving a clear overview of which IT resources are in compliance, and which are not
  • For more details refer to AWS Security Whitepaper

References

Architecting for the Cloud: AWS Best Practices – Whitepaper

 

5 thoughts on “Architecting for the Cloud – AWS Best Practices – Whitepaper – Certification

  1. I really appreciate your note. It is clear and complete. It helps me a lot for preparing certification test!!:))) Thank you sooo much!
    I noticed that you don’t have note about cognito.

  2. Great Articulation with lucid explanation of the Cloud eco system and relevant components. Not seen such detailed information available in a single place holder (web site). It helped me understand the cloud related nuances every bit.

  3. Your notes are really helpful. Information is dispensed in a crisp, short and clear way! Useful for certification preparation. Thanks !

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