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Google Cloud Architecture for the Impatient | Part I

This is part 1 of a 3 part primer for IT professionals in a hurry. We will be discussing the minimum products and requirements for architecting on Google Cloud Platform.

Google Cloud Platform (GCP) is Google’s public cloud offering, comparable to Amazon Web Services and Microsoft Azure. The difference is that GCP is built upon the Google’s massive, cutting-edge infrastructure that handles the traffic and workload of all Google users. As such, GCP has courted numerous customers that need to run at an enormous, global scale, such a Coca-cola and Niantic (creators of Pokémon Go). A detailed blog post explaining how Google helped Pokémon Go scale to 50x their expected traffic in just a few days after the game launched can be found here.

There is a wide-range of services available in GCP, ranging from Infrastructure-as-a-Service to completely managed Software-as-a-Service. In the first part of this series, we will discuss the infrastructure components available and how they provide a powerful and flexible foundation on which to build your applications.

Google Compute Engine (Virtual Machines)

Hosted virtual machines are usually the first thing people think of when moving to the cloud. While GCP has many ways to run your applications such as App Engine, Container Engine, or Cloud Functions, VMs are still the easiest transition to the cloud for architects and developers that are used to having complete control over their operating system.

GCE supports running both Linux and Windows virtual machines. Either Google maintained machine images can be used to provision VMs or images from your existing infrastructure can be imported. One common practice is to provision an image for a particular OS, install all needed software dependencies for your applications, then create a new image from that VM. This gives you a ‘pre-baked’ image that you can quickly deploy without having to wait for software to install before the VM can begin doing valuable work. Another strategy is to install a common set of tools into an image, such as a company wide compliance package, then create a ‘golden’ image that you share with development teams to use for their applications.

There are a number of cost saving strategies that can save a lot of money when deploying applications and infrastructure on the cloud. Preemptable instances are a unique feature that can cut the costs of running a VM by 80 percent! A preemptable instance is a normal VM except that Google can decide it needs the capacity back and delete the VM without asking. This can be amazing if you design your applications to be fault tolerant and able to lose a node without disruption.

A common use case is having a fleet of preemptible VMs all working on similar tasks, if one is deleted mid-task, the work is redelegated to another VM. Other cost saving features are per-minute billing, committed-use discounts, sustained use discounts, recommendations engine, etc. It is important for a cloud architect to be aware of these features in order to optimize for cost.

Networking

Google has completely redesigned network infrastructure from the bottom up in order to accommodate their unparalleled scale. They have a global, private, high-speed fiber network with custom routing protocols, hardware, and even topology. GCP sits on this networking stack but completely resolves you of managing the complexity of a physical network. This totally changes how architects and developers need to think about networking and greatly simplifies management of firewall rules, routing, etc.

Network objects in GCP are global. This means you could have a VM in Hong Kong and a VM in Belgium on the same private network and able to communicate. You could even toss a global load-balancer in front of them and have your customers near both locations refer to your services by the same IP. These networks are also not tied to a single IP space, meaning you can have completely unrelated subnets (such as and ) in the same private network able to communicate.

Firewall rules can be done two different ways. Traditional ‘iptables style’ rules that specify which IP ranges can communicate with other IP ranges over certain protocols can be created with specified priority values to determine which rule to apply in a given scenario. This can be complex, as you need to know which servers are on certain IP ranges so if they change you must update the rules. GCP allows for configuring firewall rules that are just as powerful via network tags. This means you can control traffic across your network by simply tagging your resources.

Example rules:

This results in traffic being allowed from the internet only to VMs with the frontend tag and allowing the frontend and backend VMs to communicate with each other.

Storage

Applications are usually not very useful unless they have access to your data. There are numerous storage options hosted on GCP.

Persistent Disks

This is block storage for your VMs. Standard HDD and SSD options are available to be attached to your VMs. These live independently of the VM and can be attached to multiple VMs concurrently. Google automatically handles data redundancy and performance scaling behind the scenes. Local SSDs, which are physically co-located on the host of the VM, are available for high performance applications.

Cloud storage

Cloud storage is Google’s answer for an object store. Arbitrary blobs of data are uploaded into a ‘bucket’ and then can be versioned, widely-replicated, and shared. Cloud Storage has multiple storage classes: regional, multi-regional, nearline, and coldline. Multi-regional storage buckets are automatically geo-redundant, meaning all data is replicated across multiple datacenters, leaving your data safe if a whole data center goes offline. Nearline and coldline storage buckets are just as performant as the other storage classes for retrieving data but allow for balancing the costs of retrieval versus storage. For example, coldline is the cheapest storage option but has the highest cost of retrieving data. This is ideal for backing up large amounts of data that may never need to be accessed.

Database solutions

Google has two NoSQL solutions, Datastore and Bigtable. For relational data, Google has managed Cloud SQL instances (MySQL or Postgres) and Cloud Spanner. Cloud Spanner is the world’s first relational database that offers the ability to scale to thousands of servers while maintaining high performance and strong consistency.

In the next part, we will discuss how these core infrastructure pieces can be augmented so we can seamlessly scale to massive proportions with no intervention by an administrator. All while maintaining the lowest costs possible given the workload.

About the Author

John Libertine is a Google Certified Architect and VMWare Certified Professional that specializes in hybrid cloud infrastructure consulting and training for Stone Door Group, a DevOps solutions integrator who specializes in helping companies execute on their digital transformation initiatives. To learn more, drop us a line at letsdothis@stonedoorgorup.com.