I was wondering what the difference between App Engine & Compute Engine are. Can anyone explain the difference to me?

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    It wasn't clear for me on their homepages. It's nice to just have it plain like it is here. This StackOverflow page did it's job for me. To each his/her own. :) – Mikeumus Jun 14 '14 at 7:16
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    agreed. someone needs to say "enough already!" to these marketing-types – the0ther May 13 '15 at 19:25
up vote 313 down vote accepted

App Engine is a Platform-as-a-Service. It means that you simply deploy your code, and the platform does everything else for you. For example, if your app becomes very successful, App Engine will automatically create more instances to handle the increased volume.

Read more about App Engine

Compute Engine is an Infrastructure-as-a-Service. You have to create and configure your own virtual machine instances. It gives you more flexibility and generally costs much less than App Engine. The drawback is that you have to manage your app and virtual machines yourself.

Read more about Compute Engine

You can mix both App Engine and Compute Engine, if necessary. They both work well with the other parts of the Google Cloud Platform.

EDIT (May 2016):

One more important distinction: projects running on App Engine can scale down to zero instances if no requests are coming in. This is extremely useful at the development stage as you can go for weeks without going over the generous free quota of instance-hours. Flexible runtime (i.e. "managed VMs") require at least one instance to run constantly.

EDIT (April 2017):

Cloud Functions (currently in beta) is the next level up from App Engine in terms of abstraction - no instances! It allows developers to deploy bite-size pieces of code that execute in response to different events, which may include HTTP requests, changes in Cloud Storage, etc.

The biggest difference with App Engine is that functions are priced per 100 milliseconds, while App Engine's instances shut down only after 15 minutes of inactivity. Another advantage is that Cloud Functions execute immediately, while a call to App Engine may require a new instance - and cold-starting a new instance may take a few seconds or longer (depending on runtime and your code).

This makes Cloud Functions ideal for (a) rare calls - no need to keep an instance live just in case something happens, (b) rapidly changing loads where instances are often spinning and shutting down, and possibly more use cases.

Read more about Cloud Functions

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    If I want to deploy via Docker, what are the differences (besides pricing) between using GAE and GCE? – FullStack May 9 '15 at 12:24
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    Hi, Volgin, can you elaborate the reason why "Compute Engine" is costs much less than App Engine. Thanks – fangzhzh Oct 27 '15 at 2:06
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    App Engine offers a level of automation (i.e. convenience) that you don't get on GCE. In 5 years of using GAE I never had to install, patch or configure any software, copy disks, etc. It also offers relatively robust load and capacity management - automatically spinning up and shutting down instances as required. Overall, these features allow Google to charge more for instance hours, and many companies and individual developers are happy to pay this premium because GAE saves a lot of time that can be better spent improving your own apps or otherwise making money. – Andrei Volgin Oct 27 '15 at 2:42
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    Google also offers another service called: Container Engine which focuses on docker and container management (kubernetes). – Bram Mar 31 '16 at 7:55
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    Many thx for your words here. In your last edit you said projects running on App Engine can scale down to zero instances if no requests are coming in . I'm learning gcloud, but it always looks like TWO instances is the minimum when no requests are coming in. Which is right? Zero or two minimum? Is there a special trick? – zipzit Feb 18 '17 at 21:04

Basic difference is that Google App Engine (GAE) is a Platform as a Service (PaaS) whereas Google Compute Engine (GCE) is an Infrastructure as a Service (IaaS).

To run your application in GAE you just need to write your code and deploy it into GAE, no other headache. Since GAE is fully scalable, it will automatically acquire more instances in case the traffic goes higher and decrease the instances when traffic decreases. You will be charged for the resources you really use, I mean, you will be billed for the Instance-Hours, Transferred Data, Storage etc your app really used. But the restriction is, you can create your application in only Python, PHP, Java, NodeJS, .NET, Ruby and **Go.

On the other hand, GCE provides you full infrastructure in the form of Virtual Machine. You have complete control over those VMs' environment and runtime as you can write or install any program there. Actually GCE is the way to use Google Data Centers virtually. In GCE you have to manually configure your infrastructure to handle scalability by using Load Balancer.

Both GAE and GCE are part of Google Cloud Platform.

Update: In March 2014 Google announced a new service under App Engine named Managed Virtual Machine. Managed VMs offers app engine applications a bit more flexibility over app platform, CPU and memory options. Like GCE you can create a custom runtime environment in these VMs for app engine application. Actually Managed VMs of App Engine blurs the frontier between IAAS and PAAS to some extent.

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    Are mixing up GAE and GCE in the last paragraph? – ojrask Feb 11 '15 at 9:06
  • Yes, I mistakenly wrote GCE as GAE. Thanks for pointing it out. It's corrected now. – mostafiz rahman Feb 12 '15 at 5:27
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    From their docs, you can deploy a VM to GAE via Docker. cloud.google.com/appengine/docs/managed-vms – FullStack May 9 '15 at 12:15
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    Managed VMs are now called App Engine Flexible Environment – killjoy Sep 1 '16 at 15:32
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    I deployed my code into App engine, when I check my console I see a Compute Engine VM instance also when checking App engine console I see traces of HTTP servlet requests. so am I using app engine or compute engine? – EhsanR Nov 21 '16 at 1:18

To put it simply: compute engine gives you a server which you have full control/responsibility for. You have direct access to the operating system, and you install all the software that you want, which is usually a web server, database, etc...

In app engine you don't manage the operating system of any of the underlying software. You only upload code (Java, PHP, Python, or Go) and voila - it just runs...

App engine saves tons of headache, especially for inexperienced people but it has 2 significant drawbacks: 1. more expensive (but it does have a free quota which compute engine doesn't) 2. you have less control, thus certain things are just not possible, or only possible in one specific way (for example saving and writing files).

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    You can deploy a VM to GAE via Docker, so you can manage the OS etc. cloud.google.com/appengine/docs/managed-vms – FullStack May 9 '15 at 12:16
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    "it just runs", are you serious? i think i am not the only one who has troubles with adapting the code to GAE, when it comes to file uploads or background processes – emfi Nov 21 '17 at 21:49

Or to make it even simpler (since at times we fail to differentiate between GAE Standard and GAE Flex):

Compute Engine is analogous to a virtual PC, where you'd deploy a small website + database, for instance. You manage everything, including control of installed disk drives. If you deploy a website, you're in charge of setting up DNS etc.

Google App Engine (Standard) is like a read-only sandboxed folder where you upload code to execute from and don't worry about the rest (yes: read-only). DNS / Sub-domains etc is so much easier to map.

Google App Engine (Flexible) is in fact like a whole file-system (not just a locked down folder), where you have more power than the Standard engine, e.g. you have read/write permissions, (but less compared to a Compute Engine). In GAE standard you have a fixed set of libraries installed for you and you cannot deploy 3rd party libraries at will. In the Flexible environment you can install whatever library your app depends on, including custom build environments (such as Python 3).

Although GAE Standard is very cumbersome to deal with (although Google makes it sound simple), it scales really well when put under pressure. It's cumbersome because you need to test and ensure compatibility with the locked-down environment and ensure any 3rd party library you use does not use any other 3rd party library you're unaware of which may not work on GAE standard. It takes longer to set it up in practice but can be more rewarding in the longer run for simple deployments.

In addition to the App Engine vs Compute Engine notes above the list here also includes a comparison with Google Kubernete Engine and some notes based on experience with a wide range of apps from small to very large. For more points see the Google Cloud Platform documentation high level description of features in App Engine Standard and Flex on the page Choosing an App Engine Environment. For another comparison of deployment of App Engine and Kubernetes see the post by Daz Wilkin App Engine Flex or Kubernetes Engine.

App Engine Standard

Pros

  • Very economical for low traffic apps in terms of direct costs and also the cost of maintaining the app.
  • Auto scaling is fast. Autoscaling in App Engine is based on lightweight instance classes F1-F4.
  • Version management and traffic splitting are fast and convenient. These features are built into App Engine (both Standard and Flex) natively.
  • Minimal management, developers need focus only on their app. Developers do not need to worry about managing VMs in a reliable, as in GCE, or learning about clusters, as with GKE.
  • Access to Datastore is fast. When App Engine was first released, the runtime was co-located with Datastore. Later Datastore was split out as the standalone product Cloud Datastore but the co-location of App Engine Standard serving with Datastore remains.
  • Access to Memcache is supported.
  • The App Engine sandbox is very secure. Compared with development on GCE or other virtual machines, where you need to do your own diligence to prevent the virtual machine from being taken over at the operating system level, the App Engine Standard sandbox is relatively secure by default.

Cons

  • Generally more constrained than other environments Instances are smaller. Although this is good for rapid autoscaling, many apps can benefit from larger instances, such as GCE instance sizes up to 96 cores.
  • Networking is not integrated with GCE
  • Cannot put App Engine behind a Google Cloud Load Balancer. Limited to supported runtimes: Python 2.7, Java 7 and 8, Go 1.6-1.9, and PHP 5.5. In Java, there is some support for Servlets but not the full J2EE standard.

App Engine Flex

Pros

  • Can use a custom runtime
  • Native integration with GCE networking
  • Version and traffic management is convenient, same as Standard
  • The larger instance sizes may be more suitable to to large complex applications, especially Java applications that can use a lot of memory

Cons

  • Network integration is not perfect - no integration with internal load balancers or Shared Virtual Private Clouds
  • Access to managed Memcache not generally available

Google Kubernetes Engine

Pros

  • Native integration with containers allows custom runtimes and greater control over cluster configuration.
  • Embodies many best practices working with virtual machines, such as immutable runtime environments and easy ability to roll back to previous versions
  • Provides a consistent and repeatable deployment framework
  • Based on open standards, notably Kubernetes, for portability between clouds and on-premises.
  • Version management can accomplished with Docker containers and the Google Container Registry

Cons

  • Traffic splitting and management is do-it-yourself, possibly leveraging Istio and Envoy
  • Some management overhead
  • Some time to ramp up on Kubernetes concepts, such as pods, deployments, services, ingress, and namespaces
  • Need to expose some public IPs unless using Private Clusters, now in beta, eliminate that need but you still need to provide access to locations where kubectl commands will be run from.
  • Monitoring integration not perfect
  • While L3 internal load balancing is supported natively on Kubernetes Engine, L7 internal load balancing is do-it-yourself, possibly leveraging Envoy

Compute Engine

Pros

  • Easy to ramp up - no need to ramp up on Kubernetes or App Engine, just reuse whatever you know from previous experience. This is probably the main reason for using Compute Engine directly.
  • Complete control - you can leverage many Compute Engine features directly and install the latest of all your favorite stuff to stay on the bleeding edge.
  • No need for public IPs. Some legacy software may be too hard to lock down if anything is exposed on public IPs.
  • You can leverage the Container-Optimized OS for running Docker containers

Cons

  • Mostly do-it-yourself, which can be challenging to do adequately for reliability and security, although you can reuse solutions from various places, including the Cloud Launcher.
  • More management overhead. There are many management tools for Compute Engine but they will not necessarily understand how you have deployed your application, like the App Engine and Kubernetes Engine monitoring tools do
  • Autoscaling is based on GCE instances, which can be slower than App Engine
  • Tendency is to install software on snowflake GCE instances, which can be some effort to maintain

App Engine gives developers the ability to control Google Compute Engine cores, as well as provide a web-facing front end for Google Compute Engine data processing applications.

On the other hand, Compute Engine offers direct and complete operating system management of your virtual machines. To present your App, you're going to need resources, and Google Cloud Storage is ideal for storing your assets and data, whatever they're used for. You get fast data access with hosting around the globe. Reliability is guaranteed at a 99.95% up-time, and Google also provides the ability to back up and restore your data, and believe it or not, storage is unlimited.

You can manage your assets with Google Cloud Storage, storing, retrieving, displaying, and deleting them. You can also quickly read and write to flat datasheets that are kept in Cloud Storage. Next in the Google Cloud lineup is BigQuery. With BigQuery, you can analyze massive amounts of data, we're talking millions of records, within seconds. Access is handled via a straightforward UI, or a Representational State Transfer, or REST interface.

Data storage is, as you might suspect, not a problem, and scales to hundreds of TB. BigQuery is accessible via a host of client libraries, including those for Java, .NET, Python, Go, Ruby, PHP, and Javascript. A SQL-like syntax called NoSQL is available which can be accessed through these client libraries, or through a web user interface. Finally, let's talk about the Google Cloud platform database options, Cloud SQL and Cloud Datastore.

There is a major difference. Cloud SQL is for relational databases, primarily MySQL, whereas Cloud Datastore is for non-relational databases using noSQL. With Cloud SQL, you have the choice of either hosting in the US, Europe, or Asia, with 100 GB of storage, and 16 GB of RAM per database instance.

Cloud Datastore is available at no charge for up to 50 K read/write instructions per month and 1 GB of data stored also per month. There is a fee if you exceed these quotas, however. App Engine can also work with other lesser known, more targeted members of the Google Cloud platform, including the Cloud Endpoints for creating API backends, Google Prediction API for data analysis and trend forecasting, or the Google Translate API, for multilingual output.

While you can do a fair amount with App Engine on its own, It's potential skyrockets when you factor in its ability to work easily and efficiently with its fellow Google Cloud platform services.

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