- Release Notes
- Introduction to CelerData Cloud Serverless
- Quick Start
- Sign up for CelerData Cloud Serverless
- A quick tour of the console
- Connect to CelerData Cloud Serverless
- Create an IAM integration
- Create and assign a warehouse
- Create an external catalog
- Load data from cloud storage
- Load data from Apache Kafka/Confluent Cloud
- Try your first query
- Invite new users
- Design data access control policy
- Warehouses
- Catalog, database, table, view, and MV
- Overview of database objects
- Catalog
- Table types
- Asynchronous materialized views
- Data Loading
- Data access control
- Networking and private connectivity
- Usage and Billing
- Organization and Account
- Integration
- Query Acceleration
- Reference
- AWS IAM policies
- Information Schema
- Overview
- be_bvars
- be_cloud_native_compactions
- be_compactions
- character_sets
- collations
- column_privileges
- columns
- engines
- events
- global_variables
- key_column_usage
- load_tracking_logs
- loads
- materialized_views
- partitions
- pipe_files
- pipes
- referential_constraints
- routines
- schema_privileges
- schemata
- session_variables
- statistics
- table_constraints
- table_privileges
- tables
- tables_config
- task_runs
- tasks
- triggers
- user_privileges
- views
- Data Types
- System Metadatabase
- Keywords
- SQL Statements
- Account Management
- Data Definition
- CREATE TABLE
- ALTER TABLE
- DROP CATALOG
- CREATE TABLE LIKE
- REFRESH EXTERNAL TABLE
- RESTORE
- SET CATALOG
- DROP TABLE
- RECOVER
- USE
- CREATE MATERIALIZED VIEW
- DROP DATABASE
- ALTER MATERIALIZED VIEW
- DROP REPOSITORY
- CANCEL RESTORE
- DROP INDEX
- DROP MATERIALIZED VIEW
- CREATE DATABASE
- CREATE TABLE AS SELECT
- BACKUP
- CANCEL BACKUP
- CREATE REPOSITORY
- CREATE INDEX
- Data Manipulation
- INSERT
- SHOW CREATE DATABASE
- SHOW BACKUP
- SHOW ALTER MATERIALIZED VIEW
- SHOW CATALOGS
- SHOW CREATE MATERIALIZED VIEW
- SELECT
- SHOW ALTER
- SHOW MATERIALIZED VIEW
- RESUME ROUTINE LOAD
- ALTER ROUTINE LOAD
- SHOW TABLES
- STREAM LOAD
- SHOW PARTITIONS
- CANCEL REFRESH MATERIALIZED VIEW
- SHOW CREATE CATALOG
- SHOW ROUTINE LOAD TASK
- SHOW RESTORE
- CREATE ROUTINE LOAD
- STOP ROUTINE LOAD
- SHOW DATABASES
- BROKER LOAD
- SHOW ROUTINE LOAD
- PAUSE ROUTINE LOAD
- SHOW SNAPSHOT
- SHOW CREATE TABLE
- CANCEL LOAD
- REFRESH MATERIALIZED VIEW
- SHOW REPOSITORIES
- SHOW LOAD
- Administration
- DESCRIBE
- SQL Functions
- Function List
- String Functions
- CONCAT
- HEX
- LOWER
- SPLIT
- LPAD
- SUBSTRING
- PARSE_URL
- INSTR
- REPEAT
- LCASE
- REPLACE
- HEX_DECODE_BINARY
- RPAD
- SPLIT_PART
- STRCMP
- SPACE
- CHARACTER_LENGTH
- URL_ENCODE
- APPEND_TAILING_CHAR_IF_ABSENT
- LTRIM
- HEX_DECODE_STRING
- URL_DECODE
- LEFT
- STARTS_WITH
- CONCAT
- GROUP_CONCAT
- STR_TO_MAP
- STRLEFT
- STRRIGHT
- MONEY_FORMAT
- RIGHT
- SUBSTRING_INDEX
- UCASE
- TRIM
- FIND_IN_SET
- RTRIM
- ASCII
- UPPER
- REVERSE
- LENGTH
- UNHEX
- ENDS_WITH
- CHAR_LENGTH
- NULL_OR_EMPTY
- LOCATE
- CHAR
- Predicate Functions
- Map Functions
- Binary Functions
- Geospatial Functions
- Lambda Expression
- Utility Functions
- Bitmap Functions
- BITMAP_SUBSET_LIMIT
- TO_BITMAP
- BITMAP_AGG
- BITMAP_FROM_STRING
- BITMAP_OR
- BITMAP_REMOVE
- BITMAP_AND
- BITMAP_TO_BASE64
- BITMAP_MIN
- BITMAP_CONTAINS
- SUB_BITMAP
- BITMAP_UNION
- BITMAP_COUNT
- BITMAP_UNION_INT
- BITMAP_XOR
- BITMAP_UNION_COUNT
- BITMAP_HAS_ANY
- BITMAP_INTERSECT
- BITMAP_AND_NOT
- BITMAP_TO_STRING
- BITMAP_HASH
- INTERSECT_COUNT
- BITMAP_EMPTY
- BITMAP_MAX
- BASE64_TO_ARRAY
- BITMAP_TO_ARRAY
- Struct Functions
- Aggregate Functions
- RETENTION
- MI
- MULTI_DISTINCT_SUM
- WINDOW_FUNNEL
- STDDEV_SAMP
- GROUPING_ID
- HLL_HASH
- AVG
- HLL_UNION_AGG
- COUNT
- BITMAP
- HLL_EMPTY
- SUM
- MAX_BY
- PERCENTILE_CONT
- COVAR_POP
- PERCENTILE_APPROX
- HLL_RAW_AGG
- STDDEV
- CORR
- COVAR_SAMP
- MIN_BY
- MAX
- VAR_SAMP
- STD
- HLL_UNION
- APPROX_COUNT_DISTINCT
- MULTI_DISTINCT_COUNT
- VARIANCE
- ANY_VALUE
- COUNT_IF
- GROUPING
- PERCENTILE_DISC
- Array Functions
- ARRAY_CUM_SUM
- ARRAY_MAX
- ARRAY_LENGTH
- ARRAY_REMOVE
- UNNEST
- ARRAY_SLICE
- ALL_MATCH
- ARRAY_CONCAT
- ARRAY_SORT
- ARRAY_POSITION
- ARRAY_DIFFERENCE
- ARRAY_CONTAINS
- ARRAY_JOIN
- ARRAY_INTERSECT
- CARDINALITY
- ARRAY_CONTAINS_ALL
- ARRAYS_OVERLAP
- ARRAY_MIN
- ARRAY_MAP
- ELEMENT_AT
- ARRAY_APPEND
- ARRAY_SORTBY
- ARRAY_TO_BITMAP
- ARRAY_GENERATE
- ARRAY_AVG
- ARRAY_FILTER
- ANY_MATCH
- REVERSE
- ARRAY_AGG
- ARRAY_DISTINCT
- ARRAY_SUM
- Condition Functions
- Math Functions
- Date and Time Functions
- DAYNAME
- MINUTE
- FROM_UNIXTIME
- HOUR
- MONTHNAME
- MONTHS_ADD
- ADD_MONTHS
- DATE_SUB
- PREVIOUS_DAY
- TO_TERA_DATA
- MINUTES_SUB
- WEEKS_ADD
- HOURS_DIFF
- UNIX_TIMESTAMP
- DAY
- DATE_SLICE
- DATE
- CURTIME
- SECONDS_SUB
- MONTH
- WEEK
- TO_DATE
- TIMEDIFF
- MONTHS_DIFF
- STR_TO_JODATIME
- WEEK_ISO
- MICROSECONDS_SUB
- TIME_SLICE
- MAKEDATE
- DATE_TRUNC
- JODATIME
- DAYOFWEEK
- YEARS_SUB
- TIMESTAMP_ADD
- HOURS_SUB
- STR2DATE
- TIMESTAMP
- FROM_DAYS
- WEEK_OF_YEAR
- YEAR
- TIMESTAMP_DIFF
- TO_TERA_TIMESTAMP
- DAYOFMONTH
- DAYOFYEAR
- DATE_FORMAT
- MONTHS_SUB
- NEXT_DAY
- MINUTES_DIFF
- DATA_ADD
- MINUTES_ADD
- CURDATE
- DAY_OF_WEEK_ISO
- CURRENt_TIMESTAMP
- STR_TO_DATE
- LAST_DAY
- WEEKS_SUB
- TO_DAYS
- DATEDIFF
- NOW
- TO_ISO8601
- TIME_TO_SEC
- QUARTER
- SECONDS_DIFF
- UTC_TIMESTAMP
- DATA_DIFF
- SECONDS_ADD
- ADDDATE
- WEEKSDIFF
- CONVERT_TZ
- MICROSECONDS_ADD
- SECOND
- YEARS_DIFF
- YEARS_ADD
- HOURS_ADD
- DAYS_SUB
- DAYS_DIFF
- Cryptographic Functions
- Percentile Functions
- Bit Functions
- JSON Functions
- Hash Functions
- Scalar Functions
- Table Functions
Aggregate table
When you create a table that uses the Aggregate table, you can define sort key columns and metric columns and can specify an aggregate function for the metric columns. If the records to be loaded have the same sort key, the metric columns are aggregated. The Aggregate table helps reduce the amount of data that needs to be processed for queries, thereby accelerating queries.
Scenarios
The Aggregate table is well suited to data statistics and analytics scenarios. A few examples are as follows:
Help website or app providers analyze the amount of traffic and time that their users spend on a specific website or app and the total number of visits to the website or app.
Help advertising agencies analyze the total clicks, total views, and consumption statistics of an advertisement that they provide for their customers.
Help e-commerce companies analyze their annual trading data to identify the geographic bestsellers within individual quarters or months.
The data querying and ingestion in the preceding scenarios have the following characteristics:
- Most queries are aggregate queries, such as SUM, COUNT, and MAX.
- Raw detailed data does not need to be retrieved.
- Historical data is not frequently updated. Only new data is appended.
Principle
Starting from data ingestion to data querying, data with the same sort key in a table that uses the Aggregate table is aggregated multiple times as follows:
- In the data ingestion phase, when data is loaded as batches into the table, each batch comprises a data version. After a data version is generated, CelerData aggregates the data that has the same sort key in the data version.
- In the background compaction phase, when the files of multiple data versions that are generated at data ingestion are periodically compacted into a large file, CelerData aggregates the data that has the same sort key in the large file.
- In the data query phase, CelerData aggregates the data that has the same sort key among all data versions before it returns the query result.
The aggregate operations help reduce the amount of data that needs to be processed, thereby accelerating queries.
Suppose that you have a table that uses the Aggregate table and want to load the following four raw records into the table.
Date | Country | PV |
---|---|---|
2020.05.01 | CHN | 1 |
2020.05.01 | CHN | 2 |
2020.05.01 | USA | 3 |
2020.05.01 | USA | 4 |
CelerData aggregates the four raw records into the following two records at data ingestion.
Date | Country | PV |
---|---|---|
2020.05.01 | CHN | 3 |
2020.05.01 | USA | 7 |
Create a table
Suppose that you want to analyze the numbers of visits by users from different cities to different web pages. In this example, create a table named example_db.aggregate_tbl
, define site_id
, date
, and city_code
as sort key columns, define pv
as a metric column, and specify the SUM function for the pv
column.
The statement for creating the table is as follows:
CREATE TABLE IF NOT EXISTS example_db.aggregate_tbl (
site_id LARGEINT NOT NULL COMMENT "id of site",
date DATE NOT NULL COMMENT "time of event",
city_code VARCHAR(20) COMMENT "city_code of user",
pv BIGINT SUM DEFAULT "0" COMMENT "total page views"
)
AGGREGATE KEY(site_id, date, city_code)
DISTRIBUTED BY HASH(site_id) BUCKETS 8;
Usage notes
Take note of the following points about the sort key of a table:
You can use the
AGGREGATE KEY
keyword to explicitly define the columns that participate in the sort key.- If the
AGGREGATE KEY
keyword does not include all dimension columns, the table cannot be created. - By default, if you do not explicitly define sort key columns by using the
AGGREGATE KEY
keyword, CelerData selects all columns except metric columns as the sort key columns.
- If the
The sort key must be created on columns on which unique constraints are enforced. It must be composed of all dimension columns whose names cannot be changed.
You can specify an aggregate function following the name of a column to define the column as a metric column. In most cases, metric columns hold data that needs to be aggregated and analyzed.
For information about the aggregate functions that are supported by the Aggregate table, see CREATE TABLE.
When queries are run, sort key columns are filtered before the aggregation of multiple data versions, whereas metric columns are filtered after the aggregation of multiple data versions. Therefore, we recommend that you identify the columns that are frequently used as filter conditions and define these columns as the sort key. This way, data filtering can start before the aggregation of multiple data versions to improve query performance.
When you create a table, you cannot create BITMAP indexes or Bloom Filter indexes on the metric columns of the table.
What to do next
After a table is created, you can use the loading method Load from S3 to load data into CelerData.
Note: When you load data into a table that uses the Aggregate table, you can only update all columns of the table. For example, when you update the preceding
example_db.aggregate_tbl
table, you must update all its columns, which aresite_id
,date
,city_code
, andpv
.