I'm looking for a best scheme for my Bigtable to fit the requirement of quering data by specifying a year (or full date), country and (or) city. I've thought about naming my row key as 2019.us.NYC and then query it by prefixes, but its a bad idea because its then will store all my data on one node only until 2020 year comes instead of sharing it to other nodes. Any ideas? Maybe someone already had such a case? The bottleneck here is that it will have about 50 000 000 new rows per second.

Edit: Maybe it's better to use BigQuery?

  • To answer your last question, BigQuery have quotas on streaming inserts (cloud.google.com/bigquery/quotas#streaming_inserts) : 100'000 rows per second per project, so Bigtable is probably the database you want to use. Could you please clarify your data querying requirements? In your question, are these exclusive or, or can you query on both full date and country for example? Do you need low latency for data access? Please also include a sample of data you want to store to help you design your Bigtable schema. – norbjd Aug 13 at 17:33
  • @norbjd Thanks for your help, first of all. The requirement is to be able to query data by specifieng at least year and country. Additionaly can be speciafied mounth, day and city name. Low latency is very important. I plan to store simple json value that contains everything I need, but it's will be much better if I'll be able to store the data directly to the table families. – Mmh1 Aug 13 at 17:58
  • @norbjd In MySQL table this query would look something like this: SELECT * FROM my_table WHERE country = 'us' AND city = 'new_york' AND date = '2019-08-12' ORDER BY id DESC LIMIT 100 or: SELECT * FROM my_table WHERE country = 'de' AND city = 'berlin' AND YEAR(date) = '2017' ORDER BY id DESC LIMIT 100 – Mmh1 Aug 13 at 17:58
  • BigTable forces a single key. You want to have a combined key with another value on the end. So maybe something like '2019.us.Nyc.{guid}' where guid is some unique identifier you create per value. You then can use a simple range operator that should be able to be nearly as fast as possible if your wanting the entire group.Then you could do between '2019.us.nyc.{empty-guid}' and '2019.us.nyc.{max-guid}' to find all the data while still having unique rows. Look at range filters cloud.google.com/bigquery/external-data-bigtable – user2927848 Aug 13 at 18:09
  • To answer to the above comment, using 2019.us.Nyc.{guid} as a rowkey will lead to Bigtable node hotspotting (consecutive writes on a same node), because the row keys will be contiguous, as @Mmh1 correctly understood and wrote in his question. Moreover, querying the data from Bigquery to access Bigtable data is probably not the solution if low latency reads are required. – norbjd Aug 13 at 18:14

Below is a possible solution, based on your requirements :

  • 50'000'000 writes per second
  • low latency for data access
  • queries always contain year and country, optionally month, day and city

year + country

Since year and country are always present in your queries, those must figure in the beginning of the row key, like :

  • 2018#de
  • 2019#de
  • 2019#us

(I used # to delimit here, but it may be useless if year and country are always defined respectively on 4 and 2 characters. You can remove it to save a byte!).

month + day + city

Because month, day and city are optional, they can also appear on the row key, but rather to the end :

  • 2018#de#0610#frankfurt
  • 2019#de#0115#berlin
  • 2019#us#0813#nyc

I suggest you to reorder elements as you want (if queries with year, country and city are the most common, then the order should be year#country#city). Only you can know the most frequent queries. It's always necessary to design your row key with your queries in mind.

Avoid hotspotting

But, as you suggested in your question, this row key design can lead to Bigtable node hotspotting (all writes to a single node because the row keys are contiguous). To solve this and ensure a perfect distribution of the row keys between your nodes, I suggest you to use bucketing.

For each write, you can generate a random number (between 0 and 8, for example if you want 8 buckets), and prepend that bucket number to your rowkey. For example :

  • 3#2018#de#0610#frankfurt
  • 2#2019#de#0115#berlin
  • 7#2019#us#0813#nyc

You'll then be sure that your keys will be correctly distributed across your Bigtable nodes when writing.

You can check this link on how to do this on HBase (Bigtable equivalent) : https://hbase.apache.org/book.html#schema.casestudies.log_timeseries.tslead.

Querying data

But because of this bucketing (or salting), you'll need to change the way you query your table. If you want all data for 2019 in US, you'll then need to perform 8 scans (one per bucket) :

  • start key : 0#2019#us#, end key : 0#2019#us~
  • start key : 1#2019#us#, end key : 1#2019#us~
  • start key : 2#2019#us#, end key : 2#2019#us~
  • start key : 3#2019#us#, end key : 3#2019#us~
  • start key : 4#2019#us#, end key : 4#2019#us~
  • start key : 5#2019#us#, end key : 5#2019#us~
  • start key : 6#2019#us#, end key : 6#2019#us~
  • start key : 7#2019#us#, end key : 7#2019#us~

(I used ~ at the end of the end key because ~ in the ASCII table is after all possible characters after the #. For the first scan, for example, this ensures that all row keys beginning by 0#2019#us# are retrieved)

These scans can be performed in parallel for maximum performance.

Scanning is the most performant way to query data in Bigtable. You could also use some filters (like FuzzyRowFilter to query on a row key with a particular regex), but scanning will give definitively give you a better latency. You can also perform scans and use a filter after scanning (for example, to retrieve all data for 2019 in us in nyc, a filter is necessary to get only lines with city = nyc).


So, based on these elements, I'll design my key like :


to query my table using scans. Separators (# here) are useless if all fields have fixed length.

You could also have some variants without bucketing if you have a sufficient number of <country> values to distribute the keys to the different nodes :


or :


In conclusion, it's always a tradeoff when designing Bigtable row keys. By using bucketing, you always avoid hotspotting but the way you query the data is more complex. But, based on your requirements (many writes), this is what I'll do.

You can change the number of buckets depending on your number of nodes in your Bigtable cluster also. If you have more than 8 nodes, I recommend you to create more buckets. Ideally, 1 bucket = 1 node but a node can easily contain multiple buckets.

I suggest though to test this key design with others and benchmark them in real conditions (PoC). You could use the Bigtable Key Visualizer to check the distribution of your keys across your cluster.

  • It's usually a bad idea to rely on filters to get a small subset of rows. Bigtable will still have to read ALL data for the range you scan and will apply the filter afterwards. This will not avoid hotspotting in the filtered-out rows. – mensi Aug 13 at 19:04
  • Also, contiguous row keys will not typically lead to hotspotting of a node since Bigtable will continue to split a tablet to reduce load and shuffle tablets amongst nodes to spread load. Hotspotting will mostly happen when a single row / key is used frequently. – mensi Aug 13 at 19:07
  • To answer your comment about filtering : you're right, that's why I suggested to scan the data before, and filter after if needed. But sometimes, filtering is necessary. In the example I took with the city : if city is located at the end of the key, and if we don't know what's between country and city, then the only possibility is to filter. We can't rely on scans to retrieve data related to the city, but we can scan in a first step to retrieve all data in the desired year and country. – norbjd Aug 13 at 19:09
  • Bucketing can indeed be avoided if there are enough country values to ensure that the row keys are correctly distributed. I've updated the answer accordingly. Without more precisions, bucketing is still a good idea when dealing with such a high write throughput : even if splits are performed automatically by Bigtable, this operation have a cost and avoiding them (as much as possible) is always better. – norbjd Aug 13 at 19:17
  • @norbjd <country>#<year>#<month><day>#<city> - wouldn't it result in a hotspot if have 500 nodes and 200 countries? I can't understand how it works... The more nodes I have, the less chances to get a hotspot? – Mmh1 Aug 13 at 19:57

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