Dieser Inhalt ist in der von Ihnen ausgewählten Sprache nicht verfügbar.

31.2. Test Environment Preparations


Before evaluating VDO, it is important to consider the host system configuration, VDO configuration, and the workloads that will be used during testing. These choices will affect benchmarking both in terms of data optimization (space efficiency) and performance (bandwidth and latency). Items that should be considered when developing test plans are listed in the following sections.

31.2.1. System Configuration

  • Number and type of CPU cores available. This can be controlled by using the taskset utility.
  • Available memory and total installed memory.
  • Configuration of storage devices.
  • Linux kernel version. Note that Red Hat Enterprise Linux 7 provides only one Linux kernel version.
  • Packages installed.

31.2.2. VDO Configuration

  • Partitioning scheme
  • File system(s) used on VDO volumes
  • Size of the physical storage assigned to a VDO volume
  • Size of the logical VDO volume created
  • Sparse or dense indexing
  • UDS Index in memory size
  • VDO's thread configuration

31.2.3. Workloads

  • Types of tools used to generate test data
  • Number of concurrent clients
  • The quantity of duplicate 4 KB blocks in the written data
  • Read and write patterns
  • The working set size
VDO volumes may need to be re-created in between certain tests to ensure that each test is performed on the same disk environment. Read more about this in the testing section.

31.2.4. Supported System Configurations

Red Hat has tested VDO with Red Hat Enterprise Linux 7 on the Intel 64 architecture.
For the system requirements of VDO, see Section 30.2, “System Requirements”.
The following utilities are recommended when evaluating VDO:
  • Flexible I/O Tester version 2.08 or higher; available from the fio package
  • sysstat version 8.1.2-2 or higher; available from the sysstat package

31.2.5. Pre-Test System Preparations

This section describes how to configure system settings to achieve optimal performance during the evaluation. Testing beyond the implicit bounds established in any particular test may result in loss of testing time due to abnormal results. For example, this guide describes a test that conducts random reads over a 100 GB address range. To test a working set of 500 GB, the amount of DRAM allocated for the VDO block map cache should be increased accordingly.
  • System Configuration
    • Ensure that your CPU is running at its highest performance setting.
    • Disable frequency scaling if possible using the BIOS configuration or the Linux cpupower utility.
    • Enable Turbo mode if possible to achieve maximum throughput. Turbo mode introduces some variability in test results, but performance will meet or exceed that of testing without Turbo.
  • Linux Configuration
    • For disk-based solutions, Linux offers several I/O scheduler algorithms to handle multiple read/write requests as they are queued. By default, Red Hat Enterprise Linux uses the CFQ (completely fair queuing) scheduler, which arranges requests in a way that improves rotational disk (hard disk) access in many situations. We instead suggest using the Deadline scheduler for rotational disks, having found that it provides better throughput and latency in Red Hat lab testing. Change the device settings as follows:
      # echo "deadline" > /sys/block/device/queue/scheduler
      
    • For flash-based solutions, the noop scheduler demonstrates superior random access throughput and latency in Red Hat lab testing. Change the device settings as follows:
      # echo "noop" > /sys/block/device/queue/scheduler
  • Storage device configuration
    File systems (ext4, XFS, etc.) may have unique impacts on performance; they often skew performance measurements, making it harder to isolate VDO's impact on the results. If reasonable, we recommend measuring performance on the raw block device. If this is not possible, format the device using the file system that would be used in the target implementation.

31.2.6. VDO Internal Structures

We believe that a general understanding of VDO mechanisms is essential for a complete and successful evaluation. This understanding becomes especially important when testers wish to deviate from the test plan or devise new stimuli to emulate a particular application or use case. For more information, see Chapter 30, VDO Integration.
The Red Hat test plan was written to operate with a default VDO configuration. When developing new tests, some of the VDO parameters listed in the next section must be adjusted.

31.2.7. VDO Optimizations

High Load

Perhaps the most important strategy for producing optimal performance is determining the best I/O queue depth, a characteristic that represents the load on the storage system. Most modern storage systems perform optimally with high I/O depth. VDO's performance is best demonstrated with many concurrent requests.

Synchronous vs. Asynchronous Write Policy

VDO might operate with either of two write policies, synchronous or asynchronous. By default, VDO automatically chooses the appropriate write policy for your underlying storage device.
When testing performance, you need to know which write policy VDO selected. The following command shows the write policy of your VDO volume:
# vdo status --name=my_vdo

Metadata Caching

VDO maintains a table of mappings from logical block addresses to physical block addresses, and VDO must look up the relevant mapping when accessing any particular block. By default, VDO allocates 128 MB of metadata cache in DRAM to support efficient access to 100 GB of logical space at a time. The test plan generates workloads appropriate to this configuration option.
Working sets larger than the configured cache size will require additional I/Os to service requests, in which case performance degradation will occur. If additional memory is available, the block map cache should be made larger. If the working set is larger than what the block map cache can hold in memory, additional I/O hover head can occur to lookup associated block map pages.

VDO Multithreading Configuration

VDO's thread configuration must be tuned to achieve optimal performance. Review the VDO Integration Guide for information on how to modify these settings when creating a VDO volume. Contact your Red Hat Sales Engineer to discuss how to design a test to find the optimal setting.

Data Content

Because VDO performs deduplication and compression, test data sets must be chosen to effectively exercise these capabilities.

31.2.8. Special Considerations for Testing Read Performance

When testing read performance, these factors must be considered:
  1. If a 4 KB block has never been written, VDO will not perform I/O to the storage and will immediately respond with a zero block.
  2. If a 4 KB block has been written but contains all zeros, VDO will not perform I/O to the storage and will immediately respond with a zero block.
This behavior results in very fast read performance when there is no data to read. This makes it imperative that read tests prefill with actual data.

31.2.9. Cross Talk

To prevent one test from affecting the results of another, it is suggested that a new VDO volume be created for each iteration of each test.
Red Hat logoGithubRedditYoutubeTwitter

Lernen

Testen, kaufen und verkaufen

Communitys

Über Red Hat Dokumentation

Wir helfen Red Hat Benutzern, mit unseren Produkten und Diensten innovativ zu sein und ihre Ziele zu erreichen – mit Inhalten, denen sie vertrauen können.

Mehr Inklusion in Open Source

Red Hat hat sich verpflichtet, problematische Sprache in unserem Code, unserer Dokumentation und unseren Web-Eigenschaften zu ersetzen. Weitere Einzelheiten finden Sie in Red Hat Blog.

Über Red Hat

Wir liefern gehärtete Lösungen, die es Unternehmen leichter machen, plattform- und umgebungsübergreifend zu arbeiten, vom zentralen Rechenzentrum bis zum Netzwerkrand.

© 2024 Red Hat, Inc.