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I have come across many NoSQL databases and SQL databases. There are varying parameters to measure the strength and weaknesses of these databases and scalability is one of them. What is the difference between horizontally and vertically scaling these databases?

share|improve this question - the term applies to all software/systems – Tomasz Nurkiewicz Jul 29 '12 at 8:41
Pay spaecial attention to the Database section – user454322 Aug 15 '14 at 3:41
up vote 197 down vote accepted

Horizontal scaling means that you scale by adding more machines into your pool of resources where Vertical scaling means that you scale by adding more power (CPU, RAM) to your existing machine.

In a database world horizontal-scaling is often based on partitioning of the data i.e. each node contains only part of the data , in vertical-scaling the data resides on a single node and scaling is done through multi-core i.e. spreading the load between the CPU and RAM resources of that machine.

With horizontal-scaling it is often easier to scale dynamically by adding more machines into the existing pool - Vertical-scaling is often limited to the capacity of a single machine, scaling beyond that capacity often involves downtime and comes with an upper limit.

A good example for horizontal scaling is Cassandra , MongoDB .. and a good example for vertical scaling is MySQL - Amazon RDS (The cloud version of MySQL) provides an easy way to scale vertically by switching from small to bigger machines this process often involves downtime.

In-Memory Data Grids such as GigaSpaces XAP, Coherence etc.. are often optimized for both horizontal and vertical scaling simply because they're not bound to disk. Horizontal-scaling through partitioning and vertical-scaling through multi-core support.

You can read more on this subject on my earlier posts: Scale-out vs Scale-up and The Common Principles Behind the NOSQL Alternatives

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There is also Couchbase, Riak, HBase, CitrusLeaf and Infinispan to complete the list a bit further (there are more). – scalabl3 Aug 1 '12 at 6:39
@Nati Shalom Is it that the NOSQL databases scale horizontally? – Bhushan Firake Dec 31 '12 at 6:08
Is it possible to scale MySQL horizontally - perhaps with some extension or tool? – Billy Moon Dec 21 '13 at 23:38
i am kind of confused here ... adding more machines is effectively same to adding more cpu/ram .. then how the two of them are different because when we add a new machine it comes with cpu and ram , please correct me if i am wrong. – Subham Tripathi May 16 '15 at 5:01
@SubhamTripathi As explained here, vertical scaling is limited to one server (or a small group of servers) and it has a practical upper limit (meaning you can't go beyond say 512 GB of RAM). Horizontal scaling on the other hand can practically happen indefinitely. – asgs Jun 9 '15 at 6:56

Yes scaling horizontally means adding more machines, but it also implies that the machines are equal in the cluster. MySQL can scale horizontally in terms of Reading data, through the use of replicas, but once it reaches capacity of the server mem/disk, you have to begin sharding data across servers. This becomes increasingly more complex. Often keeping data consistent across replicas is a problem as replication rates are often too slow to keep up with data change rates.

Couchbase is also a fantastic NoSQL Horizontal Scaling database, used in many commercial high availability applications and games and arguably the highest performer in the category. It partitions data automatically across cluster, adding nodes is simple, and you can use commodity hardware, cheaper vm instances (using Large instead of High Mem, High Disk machines at AWS for instance). It is built off the Membase (Memcached) but adds persistence. Also, in the case of Couchbase, every node can do reads and writes, and are equals in the cluster, with only failover replication (not full dataset replication across all servers like in mySQL).

Performance-wise, you can see an excellent Cisco benchmark:

Here is a great blog post about Couchbase Architecture:

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There is an additional architecture that wasn't mentioned - SQL-based database services that enable horizontal scaling without the complexity of manual sharding. These services do the sharding in the background, so they enable you to run a traditional SQL database and scale out like you would with NoSQL engines like MongoDB or CouchDB. Two services I am familiar with are EnterpriseDB for PostgreSQL and Xeround for MySQL. I saw an in-depth post by Xeround which explains why scale-out on SQL databases is difficult and how they do it differently - treat this with a grain of salt as it is a vendor post. Also check out Wikipedia's Cloud Database entry, there is a nice explanation of SQL vs. NoSQL and service vs. self-hosted, a list of vendors and scaling options for each combination. ;)

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As another data point, I submit another vendor post from Clustrix: – clieu Jan 26 '13 at 2:12
How about Amazon RDS? – Raja Nagendra Kumar May 8 '15 at 15:03

Traditional relational databases where designed as client/server database systems. They can be scaled horizontally but the process to do so tends to be complex and error prone. NewSQL databases likeNuoDB are memory-centric distributed database systems designed to scale out horizontally while maintaining the SQL/ACID properties of traditional RDBMS.

For more information on NuoDB, read their technical whitepaper at

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Horizontal scalability is the ability to increase capacity by connecting multiple hardware or software entities so that they work as a single logical unit.

When servers are clustered, the original server is being scaled out horizontally. If a cluster requires more resources to improve performance and provide high availability (HA), an administrator can scale out by adding more servers to the cluster.

An important advantage of horizontal scalability is that it can provide administrators with the ability to increase capacity on the fly. Another advantage is that in theory, horizontal scalability is only limited by how many entities can be connected successfully. The distributed storage system Cassandra, for example, runs on top of hundreds of commodity nodes spread across different data centers. Because the commodity hardware is scaled out horizontally, Cassandra is fault tolerant and does not have a single point of failure (SPoF).

Vertical scalability, on the other hand, increases capacity by adding more resources, such as more memory or an additional CPU, to a machine. Scaling vertically, which is also called scaling up, usually requires downtime while new resources are being added and has limits that are defined by hardware. When Amazon RDS customers need to scale vertically, for example, they can switch from a smaller to a bigger machine, but Amazon's largest RDS instance has only 68 GB of memory.

Scaling horizontally has both advantages and disadvantages. For example, adding inexpensive commodity computers to a cluster might seem to be a cost-effective solution at first glance, but it's important for the administrator to know whether the licensing costs for those additional servers, the additional operations cost of powering and cooling and the large footprint they will occupy in the data center truly makes scaling horizontally a better choice than scaling vertically.

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