This document describes how to benchmark Persistent Disk performance on Windows virtual machine (VM) instances. For Linux VMs, see benchmark Persistent Disk performance on a Linux VM.
To measure IOPS and throughput of a disk in use on a running instance, benchmark the file system with its intended configuration. Use this option to test a realistic workload without losing the contents of your existing disk. Note that when you benchmark the file system on an existing disk, there are many factors specific to your development environment that may affect benchmarking results, and you may not reach the disk performance limits.
To measure the raw performance of a Persistent Disk, benchmark the block device directly. Use this option to compare raw disk performance to disk performance limits.
Configure benchmarking software
To benchmark Persistent Disk performance on Windows VMs, use DISKSPD.
Open Powershell and download the
DISKSPDtool using the following command:$client = New-Object System.Net.WebClient $client.DownloadFile("https://github.com/Microsoft/diskspd/releases/latest/download/DiskSpd.zip","$env:temp\DiskSpd-download.zip") Expand-Archive -LiteralPath "$env:temp\DiskSpd-download.zip" C:\DISKSPD Get-ChildItem C:\DISKSPD
Benchmark IOPS and throughput of a disk on a running VM instance
To measure IOPS and throughput for a realistic workload on an active disk on a running VM instance without losing the contents of your disk, benchmark against a new directory on the existing file system.
In the following steps assume the disk to test is mounted as D: and the
commands are executed in an elevated Command Prompt window:
Verify
DISKSPDsoftware configuration and change directory to the 64-bit binary:cd C:\DISKSPD\amd64
Create a new 10 GB file named
DISKTEST.DATon the disk:set TESTFILE=D:\DISKTEST.DAT diskspd -d0 -c10G %TESTFILE%
Test write throughput by performing sequential writes with multiple parallel streams (16 or more), using an I/O block size of 1 MB and an I/O depth of at least 64:
diskspd -d60 -b1M -o64 -Sh -w100 -t16 -si %TESTFILE%
Test write IOPS by performing random writes, using an I/O block size of 4 KB and an I/O depth of at least 256:
diskspd -d60 -b4K -o256 -Sh -w100 -r %TESTFILE%
Test read throughput by performing sequential reads with multiple parallel streams (16 or more), using an I/O block size of 1 MB and an I/O depth of at least 64:
diskspd -d60 -b1M -o64 -Sh -t16 -si %TESTFILE%
Test read IOPS by performing random reads, using an I/O block size of 4 KB and an I/O depth of at least 256:
diskspd -d60 -b4K -o256 -Sh -r %TESTFILE%
Clean up:
del %TESTFILE%
Benchmarking raw Persistent Disk performance
To measure the performance of Persistent Disk volumes alone outside of your development environment, test read and write performance for a block device on a throwaway Persistent Disk and VM.
Add a Persistent Disk to the VM instance that you intend to benchmark.
Verify
DISKSPDsoftware configuration and change directory to the 64-bit binary:cd C:\DISKSPD\amd64
Verify that there are no non-reserved partitions on the disk. Enter
diskpartinto an elevated Command Prompt window.diskpart
List the disks attached to the VM:
DISKPART> list diskThe output shows the newly created 1 TB disk which is Disk 1 in the following example output:
Disk ### Status Size Free Dyn Gpt -------- ------------- ------- ------- --- --- Disk 0 Online 120 GB 1024 KB * Disk 1 Online 1024 GB 1023 GB *
Select the disk that you intend to benchmark.
DISKPART> select disk 1List the partitions on the selected disk.
DISKPART> list partitionPartition ### Type Size Offset ------------- ---------------- -------- ------- Partition 1 Reserved 15 MB 17 KB Partition 2 Primary 1024 GB 16 MBSelect the primary partition 2:
DISKPART> select partition 2Delete the selected partition:
DISKPART> delete partitionExit diskpart
DISKPART> exit
The preceding steps should be repeated if the disk you intend to benchmark has any other partitions apart from the Reserved partition. When only the Reserved partition remains, continue with the following steps:
After you've identified the disk and verified that there are no partitions, set the
TESTDRIVEenvironment variable to '#' followed by the number of the disk to test.C:/> set TESTDRIVE=#1Test write throughput by performing sequential writes with multiple parallel streams (16 or more), using an I/O block size of 1 MB and an I/O depth of at least 64:
diskspd -d60 -b1M -o64 -Sh -t16 -si -w0 %TESTDRIVE%
Test write IOPS by performing random writes, using an I/O block size of 4 KB and an I/O depth of at least 256:
diskspd -d60 -b4K -o256 -Sh -r -w0 %TESTDRIVE%
Test write latency. While testing I/O latency, the VM must not reach maximum bandwidth or IOPS; otherwise, the observed latency won't reflect the actual Persistent Disk I/O latency.
diskspd -d60 -b4K -o4 -Sh -r -w0 -L %TESTDRIVE%
Test read throughput by performing sequential reads with multiple parallel streams (16 or more), using an I/O block size of 1 MB and an I/O depth of at least 64:
diskspd -d60 -b1M -o64 -Sh -t16 -si %TESTDRIVE%
Test read IOPS by performing random reads, using an I/O block size of 4 KB and an I/O depth of at least 256:
diskspd -d60 -b4K -o256 -Sh -r %TESTDRIVE%
To test read latency, it's important to fill the disk with data to get a realistic latency measurement. The VM must not reach IOPS or throughput limits during this test because after the Persistent Disk reaches its saturation limit, it pushes back on incoming I/O operations, and this is reflected as an artificial increase in I/O latency.
diskspd -d60 -b4K -o4 -Sh -r -L %TESTDRIVE%
Test sequential read bandwidth.
diskspd -d60 -b1M -o64 -Sh -t4 -si %TESTDRIVE%
Test sequential write bandwidth.
diskspd -d60 -b1M -o64 -Sh -t4 -si -w100 %TESTDRIVE%
Clean up the throwaway Persistent Disk and VM:
- Delete the disk used for benchmarking performance.
- Delete the VM created for benchmarking performance.
What's next
- Learn how to monitor your disk performance by reviewing persistent disk performance metrics.
- Learn about Persistent Disk pricing.
- Learn how to optimize Persistent Disk performance.