I have created two node Cassandra cluster and try to perform load test. I find that one node or two node not making much difference in the through put I have supposed if 1 node can provide me 2000 tps for insert the two node should double the amount. Is it work like that?
if it is not then what actually Scaling means and how can I relate with it latency or throughput.
Cassandra is scalable. Just your case is a bit simplified since two nodes is not really the case of high scalability. You should be aware or the token partitioning algorithm used by Cassandra. As soon as you understand it, there should not be any quesitons. There is plenty of presentations about that. E.g. this one: http://www.datastax.com/resources/tutorials/partitioning-and-replication
In case of replication factor 1 everything is simple:
Each key-value pair you save/read from/to Cassandra is a query to one of Cassandra nodes in the cluster. Data is evenly distributed among nodes (see details of partitioning algorithm). So you always have total load evenly distributed among all nodes -> more nodes you have more load they can carry (and it is linear). In this case the system should of course be configured in a right way to avoid different kinds of network bottlenecks.
In case of replication factor more than 1 the situation is a bit more complicated, however the principle is the same.
There are lot of factors that contribute to this result.
A) check your replication factor. Although not desirable, in your case you can set it to 1
B) look into the shard in your primary key. If in your tests you are not changing it, then you are loading the data skewed and that the table is not scaling out to 2 nodes.
What does it mean when we say Casssandra is scalable?
There are basically two ways to scale a database.
Vertical scaling: Increasing the resources of the existing nodes in your cluster (more RAM, faster HDDs, more cores).
Horizontal scaling: Adding additional nodes to your cluster.
Vertical scaling tends to be more of a "band-aid" or temporary solution, because it has very finite limits. Your machines will only support so much RAM or so many cores, and once you max that out you really don't have anywhere to go.
Cassandra is "scalable" because it simplifies horizontal scaling. If you find that your existing nodes are maxing-out their available resources, you can simply add another node(s), adjust your replication factor, and run a nodetool repair. If you have had to do this with other database products, you will appreciate how (relatively) easy Cassandra makes it.
In your case, it's hard to know what exactly is going on without (a lot) more detail. But if your load tests are being adequately handled by your first node, then I can see why you wouldn't notice much of a difference by adding another.
If you haven't already, check out the Cassandra Stress Tool.
Additionally, be sure to check your current methods against this article, which is appropriately titled: How not to benchmark Cassandra
Related
Consider a growing number of data, let's choose from two extreme choices:
Evenly distribute all data across all nodes in the cluster
We pack them to as few nodes as possible
I prefer option 1 because as the volume of data grows, we can scatter it with all nodes, so that when each node is queried, it has the lowest load.
However, some resources state that we shouldn't query all the nodes because that will slow down the query. Why would that slow the query? Isn't that just a normal scatter and gather? They even claim this hurts linear scalability as adding more nodes will further drag down the query.
(Maybe I am missing on how Cassandra performs the query, some background reference is appreciated).
On the contrary, some resources state that we should go with option 2 because it queries the least number of nodes.
Of course there is no black and white choices here; everything must have a tradeoff.
I want to know, what's the real difference between option 1 and option 2. Plus, regarding the network querying, why option 1 would be slow.
I prefer option 1 because as the volume of data grows, we can scatter it with all nodes, so that when each node is queried, it has the lowest load.
You definitely want to go with option #1. This is also preferable, in that new or replacement nodes will stream much faster than a cluster made of fewer, dense nodes.
However, some resources state that we shouldn't query all the nodes because that will slow down the query.
And those resources are absolutely correct. First of all, if you read through the resources which Alex posted above you'll discover how to build your tables so that your queries can be served by a single node. Running queries which only hit a single node is the best way around that problem.
Why would that slow the query?
Because in a distributed database environment, query time becomes network time. There are many people out there who like to run multi-key or unbound queries against Cassandra. When that happens, and the query is unable to find a single node with the data, Cassandra picks one node to designate as a "coordinator."
That node builds the result set with data from the other nodes. Which means in a 30 node cluster, that one node is now pulling data from the other 29. Assuming that these requests don't time-out, the likelihood that the coordinator will crash due to trying to manage too much data is very high.
The bottom line, is that this is one of those tradeoffs between a CA relational database and an AP partitioned row store. Build your tables to support your queries, store data together which is queried together, and Cassandra will perform just fine.
I am a Cassandra user in china. Recently we want to use Cassandra in our production environment. But I don't know the impact of data replica factor and resource consumption.
My stress test show that 3 replication factor use three times more resources than 1 replication factor. But I'm not sure it's right.
So, I would like to ask if there is a formula for replication factor and resource consumption? Or has anyone ever tested it?
I'm very grateful if anyone can reply me;
First of all, RF=3 means you need at least three servers (obviously). But really, it depends on what you mean by "resources." If that's mainly referring to disk space, then "yes" setting a RF=3 will use 3x the disk space that a single copy (RF=1) would.
So why would you want that? Because supporting data loads in highly-available (HA) scenarios is what Cassandra does really well. This means that Cassandra needs to be able to continue to serve requests if a node should fail. Achieving that means setting RF>1.
As for the remaining resources, if you're referring to network, CPU & RAM as well, then the answer is "it depends." An application can choose to query at different consistency levels, such as ONE, QUORUM, or ALL (and others). For ONE, it does just what it says: an operation (read or write) waits for acknowledgement from a single node.
So if an app is querying at a consistency of ONE, the answer is "no," it won't use three times the resources if RF=3.
Cassandra is distributed database so it stores the data based on partition and hash algorithm. We can configure replica of our data based on requirement and application nature. Default Cassandra cluster with minimum 3 node recommended for production but you should use or configure the replication factor(replica/copy of data) totally on your wish.
If you use 3 node cluster with RF=3 then your data will be distributed on each node (approx 1/3 data on each node). We need to consider the resource here for all 3 nodes like disk, CPU, Memory, I/O etc equally for better performance. However, we can tune multiple things(like consistency, compaction, network, OS) inside the Cassandra to improve the performance and resource effective. 3 copy of data will use more memory and disk as compared to 1 copy of data. But if you consider availability and performance you should use at least 2 copy of data. you can refer below link for more details regarding RF calculation etc:-
https://www.ecyrd.com/cassandracalculator/
This may sound like a dumb question but still I wanted someone/expert to answer/confirm this.
Lets say I have a 3 node cassandra cluster. Lets say I have one database and just one table. For this single table lets say I get a throughput of 1K writes/second with 3 node cassandra. If tomorrow my write load on this table increases/scales to 10K or 20K, will I be able to handle this write load by increasing the size of cluster by say 10x or 20x?
My understanding of cassandra says it is possible (as cassandra is both read and write scalable) but would want an expert to confirm.
Yes, Cassandra has Linear Scalability.
The scalability is linear as shown in the chart below. Each client system generates about 17,500 write requests per second, and there are no bottlenecks as we scale up the traffic. Each client ran 200 threads to generate traffic across the cluster.
Source : https://medium.com/netflix-techblog/benchmarking-cassandra-scalability-on-aws-over-a-million-writes-per-second-39f45f066c9e
Yes - but only if your data is properly modeled - your data especially needs to be distributed evenly among your partition keys (since they map to specific replica nodes) to avoid hot spots. Given that, yes cassandra will scale horizontally well.
A "table" in cassandra is distributed among all nodes in your cluster. Each node is responsible for a range of tokens which are hashes of the partition key portion of your primary key.
Now, if you double your node count for example - the existing token ranges are split in half and distributed while bootstrapping the new nodes. So each node will only handle half of your inital requests. If you double your requests afterwards, each node will have roughly the same load as before.
For read intensive requests - choosing a higher replication factor helps when you can live with stale data for a while (e.g. read and write at a low consistency level).
There are good tutorials from DataStax available here https://academy.datastax.com/
Datastax states that:
What are the benefits of Apache Cassandra?
Massively scalable ring architecture: Based on the best of Amazon Dynamo and Google BigTable, Cassandra’s peer-to-peer architecture overcomes the limitations of master-slave designs and allows for both high availability and massive scalability.
Linear scale performance: Nodes added to a Cassandra cluster (all done online) increase the throughput of your database in a predictable, linear fashion for both read and write operations.
So the answer is YES, it is possible. It may take some time to adding a new node and redistribute tokens. But it will scale as you change the number of nodes.
If you need more info to understand how it will scale , check this links below:
Benchmarking Cassandra Scalability on AWS
Adding nodes to Cassandra
Adding, replacing, moving and removing nodes
Yes, it is so, but with the single remark. You should consider replication factor (RF) and consistency level (CL) as they affect the scaling behaviour also.
For example, if you initially have the 10 nodes with RF=3, and you increase the nodes count up to 20 with the same RF=3, you'll get the linear increase in write throughput.
But if you want to increase the read throughput, you need to increase RF. And with the increased RF you had to decrease write consistency level to improve write throughput.
To summarize, you could not increase both read and write throughput in a linear way with the same RF and CL params.
I am considering the design of a Cassandra cluster.
The use case would be storing large rows of tiny samples for time series data (using KairosDB), data will be almost immutable (very rare delete, no updates). That part is working very well.
However, after several years the data will be quite large (it wil reach a maximum size of several hundreds of terabytes - over one petabyte considering the replication factor).
I am aware of advice not to use more than 5TB of data per Cassandra node because of high I/O loads during compactions and repairs (which is apparently already quite high for spinning disks).
Since we don't want to build an entire datacenter with hundreds of nodes for this use case, I am investigating if this would be workable to have high density servers on spinning disks (e.g. at least 10TB or 20TB per node using spinning disks in RAID10 or JBOD, servers would have good CPU and RAM so the system will be I/O bound).
The amount of read/write in Cassandra per second will be manageable by a small cluster without any stress. I can also mention that this is not a high performance transactional system but a datastore for storage, retrievals and some analysis, and data will be almost immutable - so even if a compaction or a repair/reconstruction that take several days of several servers at the same time it's probably not going to be an issue at all.
I am wondering if some people have an experience feedback for high server density using spinning disks and what configuration you are using (Cassandra version, data size per node, disk size per node, disk config: JBOD/RAID, type of hardware).
Thanks in advance for your feedback.
Best regards.
The risk of super dense nodes isn't necessarily maxing IO during repair and compaction - it's the inability to reliably resolve a total node failure. In your reply to Jim Meyer, you note that RAID5 is discouraged because the probability of failure during rebuild is too high - that same potential failure is the primary argument against super dense nodes.
In the days pre-vnodes, if you had a 20T node that died, and you had to restore it, you'd have to stream 20T from the neighboring (2-4) nodes, which would max out all of those nodes, increase their likelihood of failure, and it would take (hours/days) to restore the down node. In that time, you're running with reduced redundancy, which is a likely risk if you value your data.
One of the reasons vnodes were appreciated by many people is that it distributes load across more neighbors - now, streaming operations to bootstrap your replacement node come from dozens of machines, spreading the load. However, you still have the fundamental problem: you have to get 20T of data onto the node without bootstrap failing. Streaming has long been more fragile than desired, and the odds of streaming 20T without failure on cloud networks are not fantastic (though again, it's getting better and better).
Can you run 20T nodes? Sure. But what's the point? Why not run 5 4T nodes - you get more redundancy, you can scale down the CPU/memory accordingly, and you don't have to worry about re-bootstrapping 20T all at once.
Our "dense" nodes are 4T GP2 EBS volumes with Cassandra 2.1.x (x >= 7 to avoid the OOMs in 2.1.5/6). We use a single volume, because while you suggest "cassandra now supports JBOD quite well", our experience is that relying on Cassandra's balancing algorithms is unlikely to give you quite what you think it will - IO will thundering herd between devices (overwhelm one, then overwhelm the next, and so on), they'll fill asymmetrically. That, to me, is a great argument against lots of small volumes - I'd rather just see consistent usage on a single volume.
I haven't used KairosDB, but if it gives you some control over how Cassandra is used, you could look into a few things:
See if you can use incremental repairs instead of full repairs. Since your data is an immutable time series, you won't often need to repair old SSTables, so incremental repairs would just repair recent data.
Archive old data in a different keyspace, and only repair that keyspace infrequently such as when there is a topology change. For routine repairs, only repair the "hot" keyspace you use for recent data.
Experiment with using a different compaction strategy, perhaps DateTiered. This might reduce the amount of time spent on compaction since it would spend less time compacting old data.
There are other repair options that might help, for example I've found the the -local option speeds up repairs significantly if you are running multiple data centers. Or perhaps you could run limited repairs more frequently rather than performance killing full repairs on everything.
I have some Cassandra clusters that use RAID5. This has worked fine so far, but if two disks in the array fail then the node becomes unusable since writes to the array are disabled. Then someone must manually intervene to fix the failed disks or remove the node from the cluster. If you have a lot of nodes, then disk failures will be a fairly common occurrence.
If no one gives you an answer about running 20 TB nodes, I'd suggest running some experiments on your own dataset. Set up a single 20 TB node and fill it with your data. As you fill it, monitor the write throughput and see if there are intolerable drops in throughput when compactions happen, and at how many TB it becomes intolerable. Then have an empty 20 TB node join the cluster and run a full repair on the new node and see how long it takes to migrate its half of the dataset to it. This would give you an idea of how long it would take to replace a failed node in your cluster.
Hope that helps.
I would recommend to think about the data model of your application and how to partition your data. For time series data it would probably make sense to use a composite key [1] which consists of a partition key + one or more columns. Partitions are distributed across multiple servers according to the hash of the partition key (depending on the Cassandra Partitioner that you use, see cassandra.yaml).
For example, you could partition your server by device that generates the data (Pattern 1 in [2]) or by a period of time (e.g., per day) as shown in Pattern 2 in [2].
You should also be aware that the max number of values per partition is limited to 2 billion [3]. So, partitioning is highly recommended. Don't store your entire time series on a single Cassandra node in a single partition.
[1] http://www.planetcassandra.org/blog/composite-keys-in-apache-cassandra/
[2] https://academy.datastax.com/demos/getting-started-time-series-data-modeling
[3] http://wiki.apache.org/cassandra/CassandraLimitations
Background:
I'm new to Cassandra and still trying to wrap my mind around the internal workings.
I'm thinking of using Cassandra in an application that will only ever have a limited number of nodes (less than 10, most commonly 3). Ideally each node in my cluster would have a complete copy of all of the application data. So, I'm considering setting replication factor to cluster size. When additional nodes are added, I would alter the keyspace to increment the replication factor setting (nodetool repair to ensure that it gets the necessary data).
I would be using the NetworkTopologyStrategy for replication to take advantage of knowledge about datacenters.
In this situation, how does partitioning actually work? I've read about a combination of nodes and partition keys forming a ring in Cassandra. If all of my nodes are "responsible" for each piece of data regardless of the hash value calculated by the partitioner, do I just have a ring of one partition key?
Are there tremendous downfalls to this type of Cassandra deployment? I'm guessing there would be lots of asynchronous replication going on in the background as data was propagated to every node, but this is one of the design goals so I'm okay with it.
The consistency level on reads would probably generally be "one" or "local_one".
The consistency level on writes would generally be "two".
Actual questions to answer:
Is replication factor == cluster size a common (or even a reasonable) deployment strategy aside from the obvious case of a cluster of one?
Do I actually have a ring of one partition where all possible values generated by the partitioner go to the one partition?
Is each node considered "responsible" for every row of data?
If I were to use a write consistency of "one" does Cassandra always write the data to the node contacted by the client?
Are there other downfalls to this strategy that I don't know about?
Do I actually have a ring of one partition where all possible values
generated by the partitioner go to the one partition?
Is each node considered "responsible" for every row of data?
If all of my nodes are "responsible" for each piece of data regardless
of the hash value calculated by the partitioner, do I just have a ring
of one partition key?
Not exactly, C* nodes still have token ranges and c* still assigns a primary replica to the "responsible" node. But all nodes will also have a replica with RF = N (where N is number of nodes). So in essence the implication is the same as what you described.
Are there tremendous downfalls to this type of Cassandra deployment?
Are there other downfalls to this strategy that I don't know about?
Not that I can think of, I guess you might be more susceptible than average to inconsistent data so use C*'s anti-entropy mechanisms to counter this (repair, read repair, hinted handoff).
Consistency level quorum or all would start to get expensive but I see you don't intend to use them.
Is replication factor == cluster size a common (or even a reasonable)
deployment strategy aside from the obvious case of a cluster of one?
It's not common, I guess you are looking for super high availability and all your data fits on one box. I don't think I've ever seen a c* deployment with RF > 5. Far and wide RF = 3.
If I were to use a write consistency of "one" does Cassandra always
write the data to the node contacted by the client?
This depends on your load balancing policies at the driver. Often we select token aware policies (assuming you're using one of the Datastax drivers), in which case requests are routed to the primary replica automatically. You could use round robin in your case and have the same effect.
The primary downfall will be increased write costs at the coordinator level as you add nodes. The maximum number of replicas written to I've seen is around 8 (5 for other data centers and 3 for local replicas).
In practice this will mean a reduced stability while performing large or batched writes (greater than 1mb) or a lower per node write TPS.
The primary advantage is you can do a lot of things that'd normally be awful and impossible to do. Want to use secondary indexes? probably will work reasonably well (assuming cardinality and partition size doesn't become your bottleneck there). Want to add a custom UDF that does GroupBy or use very large IN queries it'll probably work.
It is as #Phact mentions not a common usage pattern and I primarily saw it used with DSE Search on low write throughput use cases that had requirements for 'single node' features from Solr, but for those same use cases with pure Cassandra you'd get some benefits on the read side and be able to do expensive queries that are normally impossible in a more distributed cluster.