Vertica

Vertica is a distributed infrastructure-independent analytics platform. It can be deployed on various platforms like AWS,GCP,Azure... Vertica is designed to a achieve a high performance on OLAP compared with others especially for large workload. High availability and good scalability can be achieved as well. Also, it provides good integration with Hadoop, Spark, Kafka, which makes user select where they want to analyze their data freely.

History

Vetica was founded by Michael Stonebraker and Andrew Palmer in 2015. It is derived from C-Store, which is a prototype developed by MIT, Brown, and few other universities in 2016. It was acquired by Hewlett Packard in 2011 and joined Micro Focus in 2017 due to the merger between Micro Focus and HP.

Storage Model

Decomposition Storage Model (Columnar)

Data is stored in Vertica in columnar format to improve the performance of read operations, since a lot of disk I/O can be avoided.

Checkpoints

Blocking Fuzzy

In Vertica, each node maintains checkpoints and transaction logs separately. The synchronization duration can be tuned by users as well. For a single-node failure, it can be recovered from other nodes. If all nodes fail, it can be recovered to the earliest checkpoints when all nodes are good. New transaction log cannot be appended, if a new checkpoint starts.

Joins

Hash Join Sort-Merge Join

Both merge join and hash join are supported in Vertica. Merge Join is faster in general and requires less memory, but pre-sorted data is required.Hash join requires more memory, but it is faster if the inner table can fit in the memory.

Compression

Delta Encoding Run-Length Encoding

Both Run-Length Encoding and Delta encoding are used in Vertica. RLE encoding is only used when the number of repetition is large. Delta encoding works for INTEGER/DATE/TIME/TIMESTAMP/INTERVAL type, where the variations from the smallest value are stored instead of the real values.

Concurrency Control

Multi-version Concurrency Control (MVCC)

Vertica supports MVCC to achieve data consistency. Both current and previous status are stored and visible to transactions. Transaction isolations can be achieved since no conflict between the read and write operations exist. A shared-nothing MPP architecture is used in Vertica, which can avoid the overheads caused by locks.

Foreign Keys

Supported

Vertica allows users to use foreign key constraints. Foreign keys should be defined when tables are created or using "ALTER TABLE".

Isolation Levels

Read Uncommitted Read Committed Serializable Repeatable Read

Read Committed and Serializable are used in Vertica. Read Committed is the default isolation level. Read Uncommitted and Repeatable Read are treated automatically as Read Committed and Serializable respectively in vertica.

Query Execution

Materialized Model

Projections in Vertica have been used for query execution. Query optimizer is responsible for designing and selecting the suitable projections based on the given query plan. Various projections have different influence on query performance in terms of memory, CPU utilization, I/O, Network..

Data Model

Column Family / Wide-Column

Columnar store is used in Vertica to improve the performance of sequential access by sacrificing the performance of single access. Compared with row-oriented databases which scan the whole table, only few columns are retrieved based on given queries in Vertica, which can improve throughput by reducing disk I/O costs.

Query Interface

Custom API SQL

Vertica support query via SQL and its custom API. Vertica has good integrations with Hadoop, Spark, Kafka, and users could send queries via their interface. Moreover, Vertica also provides C++, Java, Python, R SDK.

Logging

Logical Logging

There are two kinds of logs at each node in Vertica cluster. The dblog is used to keep track of the status only when the database starts. The other type called vertica.log is used to record the status of the node and the status of the whole cluster.

Views

Materialized Views

The projections in Vertica are similar to materialized view in other databases. Projections can be created on the same table so that some optimizations such as sorting data can be done for some specific queries in advance.

Query Compilation

Not Supported

Stored Procedures

Not Supported

Stored Procedures are not support in Vertica. External Procedures such as R can be used.

System Architecture

Shared-Nothing

Shared-nothing architecture is used in Vertica, where all nodes don't share anything in terms of memory and disk storage. Shared-nothing architecture are easier to scale, since there is no race or contention between nodes. Moreover, Massively Parallel Processing (MPP) architecture is used in Vertica to improve the throughput of joins especially when multiple machines are involved.

Indexes

Not Supported

Indexes are not support in Vertica. Projections are used to improve query performance in Vertica.

Storage Architecture

Hybrid

Hybrid data store are supported in Vertica. Write Optimized Store(WOS) is about storing data in memory, which does not support compression and indexing. Read Optimized Store(ROS) is about storing data on disk, where data is sorted and indexed, and compressed.

Vertica Logo
Website

http://www.vertica.com/

Developer

Andrew Palmer and Michael Stonebraker

Country of Origin

US

Start Year

2005

Acquired By

HP

Project Type

Commercial

Written in

C++

Supported languages

C++, Java, Perl, Python, R

Derived From

PostgreSQL

Inspired By

C-Store

Operating Systems

Linux

Licenses

PostgreSQL License

Wikipedia

https://en.wikipedia.org/wiki/Vertica