Guidelines for Schema Design
Use the guidelines in this topic to construct an optimized and scalable schema that integrates well with your existing data management processes.
Prefer binary file formats over text-based formats
To save space and improve memory usage and query performance, use binary file formats for any large or intensively queried tables. Parquet file format is the most efficient for data warehouse-style analytic queries. Avro is the other binary file format that Impala supports, that you might already have as part of a Hadoop ETL pipeline.
Although Impala can create and query tables with the RCFile and SequenceFile file formats, such tables are
relatively bulky due to the text-based nature of those formats, and are not optimized for data
warehouse-style queries due to their row-oriented layout. Impala does not support
operations for tables with these file formats.
- For an efficient and scalable format for large, performance-critical tables, use the Parquet file format.
- To deliver intermediate data during the ETL process, in a format that can also be used by other Hadoop components, Avro is a reasonable choice.
- For convenient import of raw data, use a text table instead of RCFile or SequenceFile, and convert to Parquet in a later stage of the ETL process.
Use Snappy compression where practical
Snappy compression involves low CPU overhead to decompress, while still providing substantial space savings. In cases where you have a choice of compression codecs, such as with the Parquet and Avro file formats, use Snappy compression unless you find a compelling reason to use a different codec.
Prefer numeric types over strings
If you have numeric values that you could treat as either strings or numbers (such as
DAY for partition key columns), define
them as the smallest applicable integer types. For example,
YEAR can be
DAY can be
Although you might not see any difference in the way partitioned tables or text files are laid out on disk,
using numeric types will save space in binary formats such as Parquet, and in memory when doing queries,
particularly resource-intensive queries such as joins.
Partition, but do not over-partition
Partitioning is an important aspect of performance tuning for Impala. Set up partitioning for your biggest, most intensively queried tables.
If you are moving to Impala from a traditional database system, or just getting started in the Big Data
field, you might not have enough data volume to take advantage of Impala parallel queries with your
existing partitioning scheme. For example, if you have only a few tens of megabytes of data per day,
DAY columns might be
too granular. Most of your cluster might be sitting idle during queries that target a single day, or each
node might have very little work to do. Consider reducing the number of partition key columns so that each
partition directory contains several gigabytes worth of data.
You can reduce the Parquet block size to as low as 128 MB or 64 MB to increase the number of files per partition and improve parallelism. But also consider reducing the level of partitioning so that analytic queries have enough data to work with.
Run COMPUTE STATS after loading data
Impala makes extensive use of statistics about data in the overall table and in each column, to help plan
resource-intensive operations such as join queries and inserting into partitioned Parquet tables. Because
this information is only available after data is loaded, run the
COMPUTE STATS statement
on a table after loading or replacing data in a table or partition.
Having accurate statistics can make the difference between a successful operation, or one that fails due to
an out-of-memory error or a timeout. When you encounter performance or capacity issues, always use the
SHOW STATS statement to check if the statistics are present and up-to-date for all tables
in the query.
When doing a join query, Impala consults the statistics for each joined table to determine their relative
sizes and to estimate the number of rows produced in each join stage. When doing an
into a Parquet table, Impala consults the statistics for the source table to determine how to distribute
the work of constructing the data files for each partition.
Verify sensible execution plans with EXPLAIN and SUMMARY
Before executing a resource-intensive query, use the
EXPLAIN statement to get an overview of how Impala
intends to parallelize the query and distribute the work. If you see
that the query plan is inefficient, you can take tuning steps such as
changing file formats, using partitioned tables, running the
COMPUTE STATS statement, or adding query hints.
After you run a query, you can see performance-related information about how it actually ran by issuing the
SUMMARY command in impala-shell. Prior to Impala 1.4, you would use
PROFILE command, but its highly technical output was only useful for the most
SUMMARY, new in Impala 1.4, summarizes the most useful information for
all stages of execution, for all nodes rather than splitting out figures for each node.