public cloud iops

Cloud servers adapted for high transactional performance

IOPS instances deliver the fastest disk transactions in the Public Cloud range. They offer direct access to NVMe drives, each of which deliver at least 400,000 read/write operations per second. And like our other instances, you get the advantages of on-demand resources and hourly billing. These cloud solutions are designed to host database (DB) servers and big data applications.

NVMe for bandwidth

Unlike standard SSD disks, NVMe (Non-Volatile Memory Express) drives use NAND flash memory cells to store data. With their PCI Express connectors, which until recently were only used by devices like graphic cards, the bottleneck created by the SATA connection is cleared.

The PCI Passthrough feature for latency

To get the very most out of their PCI Express bus access, IOPS instances can access the hardware directly with the PCI Passthrough feature. There is no virtualisation layer to access the drive, which means you benefit from all of the available performance.

Some features of virtual instances are limited, such as snapshotting and live migration. Special care must also be taken with the data on NVMe drives, with regard to backup.

1 to 4 drives for IOPS

We offer instances with 1 to 4 NVMe drives, which each offer 1.9TB storage and a minimum of 400,000 IOPS. These configurations are useful when you need to process large volumes of data, and also require exceptionally high performance. The IOPS-price ratio is one of the best on the market, and is miles ahead of other solutions.

Use cases

NoSQL - MongoDB database

MongoDB is a document-oriented database management system, and is often used within large infrastructures. It can manage high volumes of data, and often requires high levels of disk access. It can be used in a cluster, and can be deployed on several i1 instances.

Big data - Hadoop

Hadoop is a distributed, resilient big data framework that can manage petabytes of data. Its HDFS file system is scalable, and can be distributed across a high number of i1 nodes to deliver the very best performance during MapReduce operations.

Search engine - Elasticsearch

During its indexing phase, Elasticsearch requires a very quick response time for read/write operations. Furthermore, each search needs to deliver a quick response. i1 instances provide Elasticsearch with all of the power required for one of the most widely-used search services.

IOPS perfs

More than 400,000 IOPS per drive

Each drive delivers at least 400,000 read/write operations per second. By configuring RAID 0 on an instance with 4 NVMe cards, you can reach 2,000,000 IOPS and maintain minimal latency (less than 1 ms). And on top of this, you have around 9Gbit/s bandwidth.

How to

1

Get started

Boot your instance, and choose the best model and operating system for you.

2

Configure

The NVMe drives are directly accessible as block devices. You can use them via system tools like a volume manager, or directly from the database manager.

3

Use

Your instance is ready to deliver a high level of transactional performance.

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Features

Standard block storage access

Since NVMe drives are presented via PCI Passthrough, they appear as standard block storage devices, and can be used by your usual device management tools.

Guaranteed resources

Performance is guaranteed for each NVMe drive. The resources are not consumed by neighbouring instances under any circumstances.

RAID configuration to suit your needs

NVMe drives are directly accessible in block mode. For example, you can mount a software RAID to multiply performance even more (RAID 0) or ensure redundancy (RAID 1).

tarif public cloud

IOPS billing

IOPS instances are billed like all of our other instances, on a pay-as-you-go basis at the end of each month. The price depends on the size of the instance you have booted, and the duration of its use.

Relational database instances

Our instances are perfect for creating relational databases that require high performance. These instances need to read and write very high volumes of data in a minimal amount of time. As a result, the RAM and processor are highly-demanded resources, and a high volume of storage space is needed to store the data. It is always important to think about which instances will be best adapted to your usage – in terms of performance, compatibility, platforms, and more.