I have some images needed for an app. There are many images (50,000+) but the overall size is small (40 Mb). Initially, I thought I would simply use S3 but it is painfully slow to upload. As a temporary solution, I wanted to attach an EBS containing the images and that would be fine. However, reading a bit about EBS General Purpose (gp2) I noticed the following description:

GP2 is the default EBS volume type for Amazon EC2 instances. These volumes are backed by solid-state drives (SSDs) and are suitable for a broad range of transactional workloads, including dev/test environments, low-latency interactive applications, and boot volumes. GP2 is designed to offer single-digit millisecond latencies, deliver a consistent baseline performance of 3 IOPS/GB to a maximum of 10,000 IOPS, and provide up to 160 MB/s of throughput per volume.

It is that 3 IOPS/GB quantity that is worrying me. What does this mean in practical terms? Suppose that you need an e-commerce site for a small amount of users (e.g. < 10,000 requests per minute) and these images need to be retrieved. Amazon describes how IOPS are measured:

When small I/O operations are physically contiguous, Amazon EBS attempts to merge them into a single I/O up to the maximum size. For example, for SSD volumes, a single 1,024 KiB I/O operation would count as 4 operations, while 256 I/O operations at 4 KiB each would count as 256 operations.

Does this actually mean that if I want to retrieve 50 images of 10kB each in under a second, I would require 50 IOPS and easily exceed the baseline of 3 IOPS?


Thanks to Mark B's suggestion, I was able to use S3 to upload my files. However, I'm still wondering about the amount of IOPS needed to perform common tasks such as running a database or serving other files for a web application. I would be glad to hear some reference values regarding the minimal values of IOPS based on your experience.


You are missing the "/GB" part of that statement. The baseline is 3 IOPS per GB. If your EBS volume is 100GB, then you would have a baseline of 300 IOPS. For a GP2 EBS volume you have to multiple the size of the volume by 3 to get the IOPS.

Note that any GP2 volume under 1TB is also able to burst at up to 3,000 IOPS, so any limited increases in IO should still perform very well.

Also, I will add that S3 sounds like a better fit for your use case. If you are seeing slow upload speeds to S3, that is a problem that can be solved. You can use CloudFront to provide a nearby edge location that you can upload to.

In my experience uploads to S3 are never any slower than uploads to an EC2 instance that your EBS volume would be attached to.


To answer your additional question, the minimum IOPS needed will depend on many variables such as the amount of RAM available, the type of application you are running, how well the application caches values in memory, the average size of your IO operations, etc. It's really difficult to pin-down an exact number and state that you need exactly X IOPS for an application.

You also need to remember that any volume under 1TB in size can still burst up to 3,000 IOPS for several seconds. So even if your application needs high IOPS when it is in use, if it doesn't see much usage the IOPS burst feature might be all it ever needs.

In general I usually start with something like a 100GB volume with 300 IOPS and test the performance of my app against that. A web server that operates entirely within RAM might never need more than that. For something like a database you would probably start out with the amount of disk space you think you will need and then start performance testing. CloudWatch will show the amount of IOPS your application is using, and if you see it maxing out at the limits of your volume then you would know you need to increase the available IOPS. Rinse and repeat until you no longer max out the available IOPS during your performance tests.

  • Unfortunately, as I said, the size of all the images is not greater than 50 megabytes, so I didn't want to use a much larger disk (maybe I should). Therefore, my question assumes a ridiculous 1GB EBS volume. However, you touch another important point. Under which conditions I would be able to get up to 3,0000 IOPS? I believe there is credit limit, though. Yes, definitely S3 is still my first option, but I was wondering about this 3 IOPS per GB. By the way, I think the slowness is due to my slow upload speed and the large amount of small files. – Robert Smith May 5 '16 at 19:21
  • Uploading such a small amount of images to S3 should be extremely fast. And I don't see how your plan to upload to an EC2 instance instead would ever improve the upload speed. – Mark B May 5 '16 at 19:24
  • Because the images are available from other server, so I can wget and uncompress quickly. – Robert Smith May 5 '16 at 19:26
  • Since you said uploads of images to S3 should be extremely fast, I gave it a try using the command line interface, and certainly it is much faster. I think it will take 20 minutes. Thanks! – Robert Smith May 5 '16 at 20:12
  • @RobertSmith I added more information in my answer, based on your expanded question. – Mark B May 20 '16 at 21:04

@Mark B's answer is probably correct, in that it points out your IOPs are based on the size of your EBS volume. For what you want, S3 is the best option.

But depending on your use case and requirements, EBS may be needed. This is especially true if you want to run a database. In that case, you have a couple of options.

You can get Provisioned IOPS - if you know you need 5000 IOPS, but only need say 100GB of storage (which with gp2 would normally provide you with around 300 IOPS), you can use io1 volumes. There is an extra cost to this, and you'll want to make sure that it's attached to an EBS optimized instance, but you can get up to 20k IOPS if needed.

If you're doing a lot of sequential reads (reading in a large data set?) then there's a new type of EBS, st1. This is good for 500MB/s, and is less than 1/2 the cost of gp2.

Finally, there's one other scenario you could consider (say, you're a bit of a madman, and want to try doing strange things). If you can grab an archive from somewhere, and all you care about is serving them up from a really fast file system, you could put them on an instance that has instance storage. This is a locally-attached SSD, so it's very fast. The only drawback is that when your instance stops, you data is gone.

To address your update, "how many IOPS do you need for a database", the answer is "it depends". Every database engine has different requirements, and every database use has different usage patterns. Take a look at this if you want more information. But basically, test & monitor. If you're worried, over provision at launch, and scale down as needed. Or take a guess, and increase if you run into problems - is it more important to minimize costs, or provide good performance to your end users?

  • Thank you. I think in this case, S3 is still the best option, but your suggestion regarding a big database is very much what I need. Can you address the update in my question? The issue is that I'm not sure how many IOPS I need, so I wanted to get reference values based on previous experience. – Robert Smith May 17 '16 at 3:20

General Purpose SSD (gp2) volumes offer cost-effective storage that is ideal for a broad range of workloads. These volumes deliver single-digit millisecond latencies and the ability to burst to 3,000 IOPS for extended periods of time. Between a minimum of 100 IOPS (at 33.33 GiB and below) and a maximum of 16,000 IOPS (at 5,334 GiB and above), baseline performance scales linearly at 3 IOPS per GiB of volume size. AWS designs gp2 volumes to deliver 90% of the provisioned performance 99% of the time. A gp2 volume can range in size from 1 GiB to 16 TiB. link:

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Sometimes performance also varies: According to AWS Doc, instance types can support maximum performance for 30 minutes at least once every 24 hours. If you have a workload that requires sustained maximum performance for longer than 30 minutes, select an instance type according to baseline performance link:

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