This shows you the differences between two versions of the page.
| Both sides previous revision Previous revision Next revision | Previous revision | ||
|
admin:optimization:caches:hdc [2012/02/06 23:33] doc |
admin:optimization:caches:hdc [2016/06/28 22:38] (current) |
||
|---|---|---|---|
| Line 8: | Line 8: | ||
| - | **[[admin:optimization:caches:home|Overview]]** | | + | [[admin:optimization:caches:home|Overview]] | |
| - | [[admin:optimization:caches:hdc|Data Caches]] | | + | **[[admin:optimization:caches:hdc|Hashed Data Caching]]** | |
| - | [[admin:optimization:caches:cachequal|Qualification Caches]] | | + | [[admin:optimization:caches:cachequal|Qualification Caching]] | |
| - | [[admin:optimization:caches:files|File Caches]] | + | [[admin:optimization:caches:filesystem|Filesystem Caching]] |
| ---- | ---- | ||
| - | ==== Hashed Data Caches ==== | + | ==== Hashed Data Caching ==== |
| - | Omnidex has several approaches to choose from when joining tables. Standard Omnidex indexes can be used to join tables, and pre-joined indexes can be used to accelerate joins between parents tabled and child tables. Omnidex can use the underlying database's indexes to perform table joins. Omnidex can use a sort/merge technique to join especially tables without indexes. Omnidex can also load smaller tables into a temporary, memory-resident, hashed data cache for extremely fast table joins. | + | Omnidex has several approaches to choose from when joining tables. Standard Omnidex indexes can be used to join tables, and pre-joined indexes can be used to accelerate joins between parents tabled and child tables. Omnidex can use the underlying database's indexes to perform table joins. Omnidex can use a sort/merge technique to join large tables that have no indexes. Omnidex can also load smaller tables into a temporary, memory-resident, hashed data cache for extremely fast table joins. |
| - | The Hashed Data Cache is used when a smaller table will be repeatedly accessed many times. The classic example of this joining the fact table of a star schema to dimension or snowflake tables. Other examples include any time a table is being joined to small reference tables. In these situations, Omnidex indexes will be favored for resolving criteria; however, if the smaller table must be accessed to return data in the result set, then the Hashed Data Cache may be used. | + | The Hashed Data Cache is used when a smaller table will be repeatedly accessed in a table join. A classic example is joining the fact table of a star schema to dimension or snowflake tables. Other examples include any time a table is being joined to small reference or code-lookup tables. In these situations, Omnidex indexes will be favored for resolving criteria; however, the smaller table will frequently be loaded into a Hashed Data Cache. |
| - | A classic example occurs when joining an INDIVIDUALS table to several reference tables, one for GENDERS, one for MARITAL_STATUSES, and one for EDUCATION. Each of these reference tables has less then 20 rows, meaning that the same rows will be repeated accessed throughout the scan of the INDIVIDUALS table. Assuming two GENDERS --- Male and Female --- a scan of one million INDIVIDUALS would result in each GENDERS row being accessed approximately a half-million times. | + | The Hashed Data Cache temporarily caches these smaller tables into memory and create hash indexes for the join column. Once the cache is loaded, all subsequent access is memory-resident and does not require access to the filesystem. This yields a tremendous gain in performance. |
| - | The Hashed Data Cache will temporarily cache these smaller tables into memory and create hash indexes for the join column. This means that the underlying data will only be accessed once, and all other access will be memory-resident. This yields a tremendous gain in performance. | ||
| - | |||
| - | ** VERIFY ** | ||
| This temporary cache is unique to a connection, and only lasts the duration of the query. This means that the Hashed Data Cache will work fine in environments that use online updates. | This temporary cache is unique to a connection, and only lasts the duration of the query. This means that the Hashed Data Cache will work fine in environments that use online updates. | ||
| - | The Hashed Data Cache is limited to 32MB of memory per table by default. This can be adjusted using the HDC_THRESHOLD option of the SELECT statement, which sets the maximum cache size, measured in MB. | + | |
| === Hashed Data Caches in Query Plans === | === Hashed Data Caches in Query Plans === | ||
| Line 49: | Line 46: | ||
| ------------------------------------------------------------------------------- | ------------------------------------------------------------------------------- | ||
| </code> | </code> | ||
| + | |||
| + | === Adjusting the Cache Size === | ||
| + | |||
| + | The Hashed Data Cache size defaults to 32MB of memory per query. This can be adjusted using the HDC_THRESHOLD option of the SELECT statement, which sets the maximum cache size, measured in MB. | ||
| + | |||
| + | |||
| ===== ===== | ===== ===== | ||
| Line 59: | Line 62: | ||
| ====== Additional Resources ====== | ====== Additional Resources ====== | ||
| See also: | See also: | ||
| - | {{page>:admin:indexing:see_also&nofooter&noeditbtn}} | + | {{page>:admin:optimization:see_also&nofooter&noeditbtn}} |
| {{page>:bottom_add&nofooter&noeditbtn}} | {{page>:bottom_add&nofooter&noeditbtn}} | ||