I'm looking at a project where I would need to store hundreds of readings a day from a sensor (1/min). The reading I want to push into the DB would contain a few integers, a Sensor Serial Number, timestamp, and a uid. The problem is I need to be able to read these quickly too.

I need to be able to graph the past n readings (latest 500 or 1000 readings) and sort it by sensor serial number. If I had 1000 sensors sending data every minute, that's 1.44 million records every day, and over a few years, it will start to be billions of records.

What's the best way to store this data so that I can access the data it fast, but still store massive amounts of it?

If my engineers want to see the past year of data from a sensor or from a few sensors, that's 525,600 lines of data. How fast would I be able to process that? Milliseconds? Hours? Days?

The reason I need to keep the data is because I need to be able to run equations on it to predict future sensor data. Possibly run machine learning on it too. Would it be beneficial to store that data offline after a year or two to save space or does that not matter for k/v databases?

At first I was thinking RDB but since we want the growth factor, k/v / noSQL database seems like the way to do it. I was planning on using amazon DynamoDB to host this and a webapp to view the data.

What's considered a big database? Thousands of rows, millions, billions? Where's the point where it gets too big to handle it?

I know there are a lot of vague questions. Any answer and advice would be appreciated.

It seems like you might want to consider having several solutions at the same time. If I understand correctly, you want to be able to retrieve latest n entries regularly, but occasionally you want to run analytics on a large scale. Why not, for example, store latest N days (can be implemented using TTL feature) of your data in DynamoDB for fast queries, and move all data older than that in a cheaper store like Redshift or even S3? You can then run analytics on this data on demand using solutions like Redshift Spectrum, Athena, Quicksight, EMR, etc. Let me know if you want more details on this approach.

  • Sounds like a very interesting approach. Didn't know about redshift... That would work very well actually. The goal is to predict what the sensors will read a few days ahead, based on previous weeks, or years. But the most important part right now is to just see what the sensors are reading based on location, as well as give a few days of previous data as well. – Chad K Jun 30 '17 at 14:25

We had a similar scenario but data collection was 10 times per second times thousands of devices. We opted for MongoDB, its working, but we also wanted to consider RavenDB but have not done any testing as of yet.

To answer your last question first. The way I define big data is anything that does not fit on a single server.

In terms of architecture you should use transient storage in a distributed queue, e.g. Kafka where you can persist data for months or years. This will allow you to handle large data volumes, resilience and backpressure for downstream processing. It also allows you to replay data for what-if scenarios and modelling etc. From Kafka you can use a streaming engine such as Spark/Flink/Kafka Streaming to transform your data and load it to a serving layer, e.g. Redshift for BI or a NoSQL database for key lookups. From transient storage you can temporarily load your data into persistent storage, e.g. S3 or HDFS or even a traditional RDBMS. I have an architecture diagram for this in my blog post.

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