Is it a good idea to use neo4j with Redis? - redis

I have the data of around 623G (nodes and relationships) in a csv which is consuming around 670G to cache all the data. Hence we are running the system of 94 cores and 750G of memory on cloud. My intention here is to reduce the system config, but with the same dataset. Is it possible to use redis here or do I have to think of any other method like splitting the data into multiple smaller instances ?

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Are there any in-memory (persistent) solutions faster than Aerospike for a single-node?

I am working on a cloud application that requires low latency and very high read/writes per second. I will only have around 1 million records stored persistently but this may fluctuate largely as the application runs.
After YCSB benchmarking Aerospike and Redis, I found that Aerospike beats Redis and MongoDB both in terms of performance on a single-node for 60/40 read write.
Some points to note:
Fetching all my data using a single 32-bit integer key (no advanced queries)
Running on a single machine with 8 GB RAM and an SSD (small number of records)
Multiple clients need access to the database at once (via LAN)
I'm also assuming that key-value stores will outperform document stores and are the best fit considering I do not need advanced queries.
Before committing myself to Aerospike, are there any other solutions which may be more fit for my scenario considering that I am only running a single node with a small-ish amount of records?
Not that I'm aware of. I think Aerospike is the fastest.
However, for some use cases you can consider Tarantool.
Here's one of the benchmarks: https://medium.com/#rvncerr/tarantool-vs-competitors-racing-in-microsoft-azure-ebde9c5d619

How to use chronicle-map instead of redis as a data cache

I intend to use chronicle-map instead of redis, the application scenario is the memoryData module starts every day from the database to load hundreds of millions of records to chronicle-map, and dozens of jvm continue to read chronicle-map records. Each jvm has hundreds of threads. But probably because of the lack of understanding of the chronicle-map, the code poor performance, running slower, until the memory overflow. I wonder if the above practice is the correct use of chronicle-map.
Because Chronicle map stores your data off-heap it's able to store more data than you can hold in main memory, but will perform better if all the data can fit into memory, ( so if possible, consider increasing your machine memory, if this is not possible try to use an SSD drive ), another reason for poor performance maybe down to how you have sized the map in the chronicle map builder, for example how you have set the number of max entries, if this is too large it will effect performance.

Redis vs RocksDB

I have read about Redis and RocksDB, I don't get the advantages of Redis over RocksDB.
I know that Redis is all in-memory and RocksDB is in-memory and uses flash storage. If all data fits in-memory, which one should I choose? do they have the same performance? Redis scales linearly with the number of CPU's? I guess that there are others differences that I don't get.
I have a dataset which fits in-memory and I was going to choose Redis but it seems that RocksDB offers me the same and if one day the dataset grows too much I wouldn't have to be worried about the memory.
They have nothing in common. You are trying to compare apples and oranges here.
Redis is a remote in-memory data store (similar to memcached). It is a server. A single Redis instance is very efficient, but totally non scalable (regarding CPU). A Redis cluster is scalable (regarding CPU).
RocksDB is an embedded key/value store (similar to BerkeleyDB or more exactly LevelDB). It is a library, supporting multi-threading and a persistence based on log-structured merge trees.
While Didier Spezia's answer is correct in his distinction between the two projects, they are linked by a project called LedisDB. LedisDB is an abstraction layer written in Go that implements much of the Redis API on top of storage engines like RocksDB. In many cases you can use the same Redis client library directly with LedisDB, making it almost a drop in replacement for Redis in certain situations. Redis is obviously faster, but as OP mentioned in his question, the main benefit of using RocksDB is that your dataset is not limited to the amount of available memory. I find that useful not because I'm processing super large datasets, but because RAM is expensive and you can get more milage out of smaller virtual servers.
Redis, in general, has more functionalities than RocksDB. It can natively understand the semantics of complex data structures such as lists and arrays . RocksDB, in contrast, looks at the stored values as a blob of data. If you want to do any further processing, you need to bring the data to your program and process it there (in other words, you can't delegate the processing to the database engine aka RocksDB).
RocksDB only runs on a single server. Redis has a clustered version (though it is not free)
Redis is built for in-memory computation, though it also support backing the data up to the persistent storage, but the main use cases are in memory use cases. RocksDB by contrast is usually used for persisting data and in most cases store the data on persistent medium.
RocksDB has a better multi-threaded support (specially for reads --writes still suffer from concurrent access).
Many memcached servers use Redis (where the protocol used is memcached but underlying server is Redis). This doesn't used most of Redis's functionality but is one case that Redis and RocksDB both function similarly (as a KVS though still in different context, where Redis based memcached is a cache but RocksDB is a database, though not an enterprise grade one)
#Guille If you know the behavior of hot data(getting fetched frequently) is based of time-stamp then Rocksdb would a smart choice, but do optimize it for fallback using bloom-filters .If your hot data is random ,then go for Redis .Using rocksDB entirely in memory is not generally recommended in log-structured databases like Rocksdb and its specifically optimized for SSD and flash storage .So my recommendation would be to understand the usecase and pick a DB for that particular usecase .
Redis is distributed, in-memory data store where as Rocks DB is embedded key-value store and not distributed.
Both are Key-Value Stores, so they have something in common.
As others mentioned RocksDB is embedded (as a library), while Redis is a standalone server. Moreover, Redis can sharded.
RocksDB
Redis
persisted on disk
stored in memory
strictly serializable
eventually consistent
sorted collections
no sorting
vertical scaling
horizontal scaling
If you don't need horizontal scaling, RocksDB is often a superior choice. Some people would assume that an in-memory store would be strictly faster than a persistent one, but it is not always true. Embedded storage doesn't have networking bottlenecks, which matters greatly in practice, especially for vertical scaling on bigger machines.
If you need to server RocksDB over a network or need high-level language bindings, the most efficient approach would be using project UKV. It, however, also supports other embedded stores as engines and provides higher-level functionality, such as Graph collections, similar to RedisGraph, and Document collections, like RedisJSON.

What are the use cases where Redis is preferred to Aerospike?

We are currently using Redis and it's a great in-memory datastore. We're starting to look at some new problems where the in-memory limitation is a factor and looking at other option. One we came across is Aerospike - it seems very fast, even faster than redis on in-memory single-shard operation.
Now that we're adding this to our stack, I'm trying to understand the use cases where Aerospike would not be able to replace redis?
Aerospike supports less data types than Redis, for example pub/sub is not available in Aerospike. However, Aerospike is a distributed key-value store and has superior clustering features.
The two are both great databases. It really depends on how big of a dataset you're handling, and your expectations of growth.
Redis:
Key/value store, dataset fits into RAM in single machine or you can shard yourself across multiple machines (and/or cores since it's single-threaded), persists data to disk, has data structures like lists/sets, basic pub/sub, simple slave replication, Lua scripting.
Aerospike:
Key/value row-store (meaning value contains bins with values and those values can be more maps/lists/values to have multiple levels), multithreaded to use all cores, built for clustering across machines with replication, and can do cross-datacenter replication, Lua scripting for UDFs. Can run directly on SSDs so you can store much more data without it fitting into RAM.
Comparison:
If you just have a smaller dataset or are fine with single-core performance then Redis is great. Quick to install, simple to run, easy to just attach a slave with 1 command if you need more read scalability. Redis also has more unique functionality with list/set/bitmap operations so you can do "more" out of the box.
If you want to store more complicated or nested data or need more performance on a single machine or clustering, then Aerospike gets the job done really well with less operational overhead. Very fast performance and easy cluster setup with all nodes being exactly the same role so you can scale reads and writes.
That's the big difference, scalability beyond a single core or server. With Lua scripting, you can usually fill in any native feature that Redis has into Aerospike. If you have lots of data (like TBs) then Aerospike's SSD feature means you get RAM-like performance without the RAM cost.
Have you looked at the benchmarks? I believe each one performs differently under different conditions and use cases:
http://www.aerospike.com/when-to-use-aerospike-vs-redis/
https://redislabs.com/blog/nosql-performance-aerospike-cassandra-datastax-couchbase-redis
Redis and Aerospike are different and both have their pros and cons, but Redis seems a better fit than Aerospike in the 2 following use cases:
when we don't need replication
We are using a big cache with intensive writes and a very short ttl (20s) for deduplication. There is no point in replicating this data. Redis would probably use half as much cpu and less than half as much RAM than Aerospike. It would be cheaper and as fast, or even faster thanks to pipelining.
when we need cross data-center replication
We have one large database that we need to access from 5 data centres, lots of writes, intensive reads. There is no perfect solution but the best one so far seems to store the central database in Redis and a copy on each data centre using Redis master-slave replication.

Redis as a database

I want to use Redis as a database, not a cache. From my (limited) understanding, Redis is an in-memory datastore. What are the risks of using Redis, and how can I mitigate them?
You can use Redis as an authoritative store in a number of different ways:
Turn on AOF (Append-only File store) see AOF docs. This will keep a log of all Redis commands made against your dataset in real-time.
Run Redis using Master-Slave replication see replication docs. This will allow you to provide high-availability if one of your instances fails.
If you're running on something like EC2 you can EBS back your Redis partition to provide another layer of protection against instance failure.
On the horizon is Redis Cluster - this is specifically designed as a way to run Redis in a way that should help with HA and scalability. However, this won't appear for at least another six months or so.
Redis is an in-memory store which can also write the data back to disc. You can specify how many times to do a fsync to make redis safer(but also slower => trade-off) .
But still I am not certain if redis is in state yet to really store (mission) critical data in it (yet?). If for example it is not a huge problem when 1 more tweets(twitter.com) or something similiar get losts then I would certainly use redis. There is also a lot of information available about persistence at redis's own website.
You should also be aware of some persistence problems which could occur by reading antirez(redis maintainers) blog article. You should read his blog because he has some interesting articles.
I would like to share a few things that we have learned by using Redis as a primary Database in our service. We choose Redis since we had data that could not be partitioned. We wanted to get the best performance we could get out of one box
Pros:
Redis was unbeatable in raw performance. We got 10K transactions per second out of the box (Note that one transaction involved multiple Redis commands). We were able to hit a rate of 25K+ transactions per second after a few optimizations, along with LUA scripts. So when it comes to performance per box, Redis is unmatched.
Redis is very simple to setup and has a very small learning curve as opposed to other SQL and NoSQL datastores.
Cons:
Redis supports only few primitive Data Structures like Hashes, Sets, Lists etc. and operations on these Data Structures. These are more than sufficient when you are using Redis as a cache, but if you want to use Redis as a full fledged primary data store, you will feel constrained. We had a tough time modelling our data requirements using these simple types.
The biggest problem we have seen with Redis was the lack of flexibility. Once you have solutioned the structure of your data, any modifications to storage requirements or access patterns virtually requires re-thinking of the entire solution. Not sure if this is the case with all NoSQL data stores though (I have heard MongoDB is more flexible, but haven't used it myself)
Since Redis is single threaded, CPU utilization is very low. You can't put multiple Redis instances on the same machine to improve CPU utilization as they will compete for the same disk, making disk as the bottleneck.
Lack of horizontal scalability is a problem as mentioned by other answers.
As Redis is an in-memory storage, you cannot store large data that won't fit you machine's memory size. Redis usually work very bad when the data it stores is larger than 1/3 of the RAM size. So, this is the fatal limitation of using Redis as a database.
Certainly, you can distribute you big data into several Redis instances, but you have to do it all on your own manually. The operation usually be done like this(assuming you have only 1 instance from start):
Use its master-slave mechanism to replicate data to the second machine, Now you have 2 copies of the same data.
Cut off the connection between master and slave.
Delete the first half(split by hashing, etc) of data on the first machine, and delete the second half of data on the second machine.
Tell all clients(PHP, C, etc...) to operate on the first machine if the specified keys are on that machine, otherwise operate on the second machine.
This is the way how Redis scales! You also have to stop your service to prevent any writes during the migration.
To the expierence we encounter, we have this conclusion to Redis: Redis is not the right choice to store more than 30G data, Redis is not scalable, Redis is quite suitable for prototype development.
We later find an alternative to Redis, that is SSDB(https://github.com/ideawu/ssdb), a leveldb server that supports nearly all the APIs of Redis, it is suitable for storing more than 1TB of data, that only depends on the size of you harddisk.
Redis is a database, that means we can use it for persisting information for any kind of app, information like user accounts, blog posts, comments and so on. After storing information we can retrieve it later on by writing queries.
Now this behavior is similar to just about every other database, but what is the difference? Or rather why would we use it over any other database?
Redis is fast.
Redis is not fast because it's written in a special programming language or anything like that, it's fast because all data is stored in-memory.
Most databases store all their information between both the memory of a computer and the hard drive. Accessing data in-memory is fast, but getting it stored on a hard disk is relatively slow.
So rather than storing memory in hard disk, Redis decided to store it in memory.
Now, the downside to this is that working with data that is larger than the amount of memory your computer has, that is not going to work.
That may sound like a tremendous problem, but Redis has clear strategies for working around this limitation.
The above is just the first reason why Redis is so fast.
The second reason is that Redis stores all of its data or rather organizes all of its data in simple data structures such as Doubly Linked Lists, Sorted Sets and so on.
These data structures have well-known and well-understood performance characteristics. So as developers we can decide exactly how our information is organized and how to efficiently query data.
It's also very fast because Redis is simple in nature, it's not feature heavy; feature heavy datastores like Postgres have performance penalties.
So to use Redis as a database you have to know how to store in limited space, you have to know how to organize it into these simple data structures mentioned above and you have to understand how to work around the limited feature set.
So as far as mitigating risks, the way you start to do that is to start to think Redis Design Methodology and not SQL Database Design Methodology. What do I mean?
So instead of, step 1. Put the data in tables, step 2. figure out how we will query it.
With Redis it's more:
Step 1. Figure out what queries we need to answer.
Step 2. Structure data to best answer those queries.