Oracle Fusion Middleware Deployment Planning Guide for Oracle Directory Server Enterprise Edition

Optimizing Cache for Search Performance

For improved search performance, cache as much directory data as possible in memory. By preventing the directory from reading information from disk, you limit the disk I/O bottleneck. Different possibilities exist for doing this, depending on the size of your directory tree, the amount of memory available, and the hardware used. Depending on the deployment, you might choose to allocate more or less memory to entry and database caches to optimize search performance. You might alternatively choose to distribute searches across Directory Server consumers on different servers.

For more information, see Tuning Cache Settings.

Consider the following scenarios:

All Entries and Indexes Fit Into Memory

In the optimum case, the database cache and the entry cache fit into the physical memory available. The entry caches are large enough to hold all entries in the directory. The database cache is large enough to hold all indexes and entries. In this case, searches find everything in cache. Directory Server never has to go to file system cache or to disk to retrieve entries.

Ensure that database cache can contain all database indexes, even after updates and growth. When space runs out in the database cache for indexes, Directory Server must read indexes from disk for every search request, severely impacting throughput. You can monitor paging and cache activity with DSCC or through the command line.

Appropriate cache sizes must be determined through empirical testing with representative data. In general, the database cache size can be calculated as (total size of database files) x 1.2. Start by allocating a large amount of memory for the caches. Then exercise and monitor Directory Server to observe the result, repeating the process as necessary. Entry caches in particular might use much more memory than you allocate to these caches.

Entry cache should be dimensioned in such a way so that the number of entries accessed by the load on the server in a second are readily available. Try to avoid the situations where contents of the entry cache are replaced many times per second.

Sufficient Memory For 32-Bit Directory Server

Imagine a system with sufficient memory to hold all data in entry and database caches, but no support for a 64-bit Directory Server process. If hardware constraints prevent you from deploying Directory Server on a Solaris system with 64-bit support, size caches appropriately with respect to memory limitations for 32-bit processes. Then leave the remaining memory to the file system cache.

As a starting point when benchmarking performance, size the entry cache to hold as many entries as possible. Size the database cache relatively small such as 100 Mbytes without completely minimizing it, but letting file system cache hold the database pages.

Note –

File system cache is shared with other processes on the system, especially file-based operations. Thus, controlling file system cache is more difficult than controlling other caches, particularly on systems that are not dedicated to Directory Server.

The system might reallocate file system cache to other processes.

Avoid online import in this situation because import cache is associated with the Directory Server process.

Insufficient Memory

Imagine a system with insufficient memory to hold all data in entry and database caches. In this case, avoid causing combined entry and database cache sizes to exceed the available physical memory. This might result in heavy virtual memory paging that could bring the system to a virtual halt.

For small systems, start benchmarking by devoting available memory to entry cache and database caches, with sizes no less than 100 Mbytes each. Try disabling the file system cache by mounting Solaris UFS file systems with the -o forcedirectio option of the mount_ufs command. For more information, see the mount_ufs(1M) man page. Disabling file system cache can prevent the file system cache from using memory needed by Directory Server.

For large Directory Servers running on large machines, maximize the file system cache and reduce the database cache. Verify and correct assumptions through empirical testing.