Configure disks to meet performance requirements

This page discusses the many factors that determine the performance of the block storage volumes that you attach to your virtual machines (VMs). Before you begin, consider the following:

Persistent Disk are networked storage and generally have higher latency compared to physical disks or Local SSDs. To reach the maximum performance limits of the Persistent Disk, you must issue enough I/O requests in parallel. To check if you're using a high enough queue depth to reach your required performance levels, see I/O queue depth.
Make sure that your application is issuing enough I/O requests to saturate the disk. Disk saturation occurs when the CPU time during I/O requests issued to the device is very high.
For workloads that primarily involve small (from 4 KB to 16 KB) random I/O requests, the limiting performance factor is random I/O requests per second (IOPS).
For workloads that primarily involve sequential or large (256 KB to 1 MB) random I/O requests, the limiting performance factor is throughput.

Choose a storage option

You can provide several different types of block storage for your VMs to use.

When you configure a persistent disk, you can select one of the following disk types:

Balanced persistent disks (pd-balanced)
- An alternative to performance (pd-ssd) persistent disks
- Balance of performance and cost. For most VM shapes, except very large ones, these disks have the same maximum IOPS as SSD persistent disks and lower IOPS per GiB. This disk type offers performance levels suitable for most general-purpose applications at a price point between that of standard and performance (pd-ssd) persistent disks.
- Backed by solid-state drives (SSD).
Performance (SSD) persistent disks (pd-ssd)
- Suitable for enterprise applications and high-performance databases that require lower latency and more IOPS than standard persistent disks provide.
- Backed by solid-state drives (SSD).
Standard persistent disks (pd-standard)
- Suitable for large data processing workloads that primarily use sequential I/Os.
- Backed by standard hard disk drives (HDD).
Extreme persistent disks (pd-extreme)
- Offer consistently high performance for both random access workloads and bulk throughput.
- Designed for high-end database workloads.
- Allow you to provision the target IOPS.
- Backed by solid-state drives (SSD).
- Available with a limited number of machine types.

If you create a disk in the Google Cloud console, the default disk type is pd-balanced. If you create a disk using the gcloud CLI or the Compute Engine API, the default disk type is pd-standard.

Each storage option has unique performance limits that depend on the machine type and number of vCPUs in use.

Performance limits for Persistent Disk

Persistent Disk have limits for the maximum IOPS and throughput that they can sustain. There are throughput and IOPS limits per GiB and per VM. Balanced Persistent Disk and performance (SSD) Persistent Disk also offer baseline performance for sustained IOPS and throughput. Balanced Persistent Disk, performance (SSD) Persistent Disk and extreme Persistent Disk are designed for sub-millisecond latencies. Factors that affect performance include machine type, disk size, VM vCPU count, and I/O block size.

This page details the performance limits for zonal Persistent Disk and regional Persistent Disk.

For information about Google Cloud Hyperdisk performance, see Hyperdisk performance limits.

Zonal Persistent Disk

This section shows IOPS and throughput limits for zonal Persistent Disk.

IOPS limits for zonal Persistent Disk

	Zonal standard PD	Zonal balanced PD	Zonal SSD PD	Zonal extreme PD	Zonal SSD PD multi-writer mode
Read IOPS per GiB	0.75	6	30	–	30
Write IOPS per GiB	1.5	6	30	–	30
Read IOPS per VM^*	7,500	80,000	100,000	120,000	100,000
Write IOPS per VM^*	15,000	80,000	100,000	120,000	100,000

^* Requires an N2 VM with at least 64 vCPUs to achieve the stated performance limit. For maximum limits for all other machine types, see Performance by machine type and vCPU count.

Throughput limits for zonal Persistent Disk

The following table shows throughput limits for zonal Persistent Disk.

Persistent Disk can achieve greater performance on VMs with more vCPUs. Read Network egress caps on write throughput for more information.

	Zonal standard PD	Zonal balanced PD	Zonal SSD PD	Zonal extreme PD	Zonal SSD PD multi-writer mode
Throughput per GiB (MiBps)	0.12	0.28	0.48	–	0.48
Read throughput per VM (MiBps)	1,200	1,200	1,200	4,000^*	1,200
Write throughput per VM (MiBps)	400	1,200	1,200	3,000^*	1,200

^* Requires an N2 VM with at least 64 vCPUs to achieve the stated performance limit. For maximum limits for all other machine types, see Performance by machine type and vCPU count.

Regional Persistent Disk

Like zonal Persistent Disk, regional Persistent Disk can achieve greater performance when you modify factors that can affect performance, like disk size and number of vCPUs.

This section lists IOPS and throughput limits for regional Persistent Disk. These conditions apply to the stated limits:

Achieving the stated limits requires a VM with at least 64 vCPUs and an N2 machine type or an N1 machine type running Intel Skylake or newer. VMs using other machine types, such as N2D, will have lower performance limits.
VMs using E2 machine types will have lower performance limits because E2 machine types support a maximum of 32 vCPUs.
Read IOPS per VM and read throughput per VM may be lower when the disk is in unreplicated mode.

IOPS limits for regional Persistent Disk

	Regional standard PD	Regional balanced PD	Regional SSD PD
Read IOPS per GiB	0.75	6	30
Write IOPS per GiB	1.5	6	30
Read IOPS per VM	7,500	80,000^*	100,000^#
Write IOPS per VM	15,000	60,000^†	80,000^{^}

^* For N2D, the maximum read IOPS per VM for balanced Persistent Disk is 60,000.

^# For N2D, the maximum read IOPS per VM for SSD Persistent Disk is 70,000.

^† For N2D, the maximum write IOPS per VM for balanced Persistent Disk is 50,000.

^{^} For N2D, the maximum write IOPS per VM for SSD Persistent Disk is 60,000.

Throughput limits for regional Persistent Disk

	Regional standard PD	Regional balanced PD	Regional SSD PD
Read throughput per VM (MB/s)	1,200	1,200	1,200
Write throughput per VM (MB/s)	200	600	1000^‡

^‡ For N2D, the maximum write throughput per VM for SSD Persistent Disk is 600 MiBps.

Sharing disks between VMs

Attaching a disk to multiple VMs in read-only mode mode or in multi-writer mode does not affect aggregate performance or cost. Each machine gets a share of the per-disk performance limit. Persistent Disk created in multi-writer mode have specific IOPS and throughput limits. To learn how to share Persistent Disk between multiple VMs, see Sharing Persistent Disk between VMs.

Persistent Disk I/O operations share a common path with network traffic within your VM's hypervisor. Therefore, if your VM has significant network traffic, the actual read bandwidth and IOPS consistency might be less than the listed maximum limits. Some variability in the performance limits is to be expected, especially when operating near the maximum IOPS limits with an I/O size of 16 KB. For a summary of bandwidth expectations, see Bandwidth summary table.

Baseline performance

Balanced Persistent Disk and SSD Persistent Disk offer baseline IOPS and throughput performance in addition to sustained per GiB performance limits. Baseline performance is the same for all disk sizes and doesn't scale based on the number of disks of the same type that are attached to a VM. For example, if you have two zonal balanced Persistent Disk attached to a VM, they share a baseline performance of 3,000 IOPS.

To calculate the maximum expected performance of a Persistent Disk type, add the disk type's baseline performance to the per GiB performance limit for the disk type, multiplied by the combined size (in GiB) of all disks of the same type:

Maximum expected performance = Baseline performance + (Per GiB performance limit * Combined disk size in GiB).

For example, the maximum IOPS of two 1000 GiB zonal balanced Persistent Disk attached to the same VM is 15,000:

3,000 baseline performance + (6 IOPS performance limit per GiB * 2000 GiB combined disk size) = 15,000 IOPS

The following table shows the baseline performance for balanced and SSD Persistent Disk.

Zonal Persistent Disk

The following table shows the baseline sustained IOPS and throughput for zonal Persistent Disk:

	Zonal balanced PD	Zonal SSD PD
Baseline IOPS per VM	3,000	6,000
Baseline Throughput (MiBps) per VM	140	240

Regional Persistent Disk

Regional Persistent Disk are supported on only E2, N1, N2, and N2D machine type VMs. The following table shows the baseline sustained IOPS and throughput for regional Persistent Disk:

	Regional balanced PD	Regional SSD PD
Baseline IOPS per VM	3,000	6,000
Baseline Throughput (MiBps) per VM	140	240

Configure your Persistent Disk and VMs

Persistent Disk performance scales with the size of the disk and with the number of vCPUs on your VM.

Performance scales until it reaches either the limits of the disk or the limits of the VM to which the disk is attached. The machine type and the number of vCPUs on the VM determine the VM limits.

The following tables show performance limits for zonal Persistent Disk.

Performance by machine type and vCPU count for zonal Persistent Disk

The following tables show how zonal Persistent Disk performance varies according to the machine type and number of vCPUs on the VM to which the disk is attached.

A2 Ultra VMs

pd-balanced

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
a2-ultragpu-1g	15,000	15,000	800	800
a2-ultragpu-2g	20,000	20,000	1,200	1,200
a2-ultragpu-4g	50,000	50,000	1,200	1,200
a2-ultragpu-8g	80,000	80,000	1,200	1,200

pd-ssd

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
a2-ultragpu-1g	15,000	15,000	800	800
a2-ultragpu-2g	25,000	25,000	1,200	1,200
a2-ultragpu-4g	60,000	60,000	1,200	1,200
a2-ultragpu-8g	100,000	100,000	1,200	1,200

pd-standard

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
a2-ultragpu-1g	15,000	5,000	400	800
a2-ultragpu-2g	15,000	7,500	400	1,200
a2-ultragpu-4g	15,000	7,500	400	1,200
a2-ultragpu-8g	15,000	7,500	400	1,200

A2 Standard VMs

pd-balanced

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
a2-highgpu-1g	15,000	15,000	800	800
a2-highgpu-2g	20,000	20,000	1,200	1,200
a2-highgpu-4g	50,000	50,000	1,200	1,200
a2-highgpu-8g	80,000	80,000	1,200	1,200
a2-megagpu-16g	80,000	80,000	1,200	1,200

pd-ssd

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
a2-highgpu-1g	15,000	15,000	800	800
a2-highgpu-2g	25,000	25,000	1,200	1,200
a2-highgpu-4g	60,000	60,000	1,200	1,200
a2-highgpu-8g	100,000	100,000	1,200	1,200
a2-megagpu-16g	100,000	100,000	1,200	1,200

pd-standard

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
a2-highgpu-1g	15,000	5,000	400	800
a2-highgpu-2g	15,000	7,500	400	1,200
a2-highgpu-4g	15,000	7,500	400	1,200
a2-highgpu-8g	15,000	7,500	400	1,200
a2-megagpu-16g	15,000	7,500	400	1,200

A3 Mega VMs

pd-balanced

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MB/s)	Maximum read throughput (MB/s)
a3-megagpu-8g	80,000	80,000	1,200	1,200

pd-ssd

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MB/s)	Maximum read throughput (MB/s)
a3-megagpu-8g	80,000	80,000	1,200	1,200

A3 High VMs

pd-balanced

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MB/s)	Maximum read throughput (MB/s)
a3-highgpu-1g	15,000	15,000	1,200	1,200
a3-highgpu-2g	30,000	30,000	1,200	1,200
a3-highgpu-4g	60,000	60,000	1,200	1,200
a3-highgpu-8g	80,000	80,000	1,200	1,200

pd-ssd

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MB/s)	Maximum read throughput (MB/s)
a3-highgpu-1g	15,000	15,000	1,200	1,200
a3-highgpu-2g	30,000	30,000	1,200	1,200
a3-highgpu-4g	60,000	60,000	1,200	1,200
a3-highgpu-8g	80,000	80,000	1,200	1,200

A3 Edge VMs

pd-balanced

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MB/s)	Maximum read throughput (MB/s)
a3-edgegpu-8g	80,000	80,000	1,200	1,200

pd-ssd

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MB/s)	Maximum read throughput (MB/s)
a3-edgegpu-8g	80,000	80,000	1,200	1,200

C2 VMs

pd-balanced

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
4	4,000	4,000	240	240
8	4,000	4,000	240	240
16	4,000	8,000	480	600
30	8,000	15,000	480	600
60	15,000	15,000	800	1,200

pd-ssd

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
4	4,000	4,000	240	240
8	4,000	4,000	240	240
16	4,000	8,000	480	600
30	8,000	15,000	480	600
60	15,000	30,000	800	1,200

pd-standard

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
4	4,000	3,000	240	240
8	4,000	3,000	240	240
16	4,000	3,000	240	240
30	8,000	3,000	240	240
60	15,000	3,000	240	240

C2D VMs

pd-balanced

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
2	4,590	4,080	245	245
4	4,590	4,080	245	245
8	4,590	4,080	245	245
16	4,590	8,160	245	326
32	8,160	15,300	245	612
56	8,160	15,300	245	612
112	15,300	30,600	408	1,224

pd-ssd

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
2	4,590	4,080	245	245
4	4,590	4,080	245	245
8	4,590	4,080	245	245
16	4,590	8,160	245	326
32	8,160	15,300	245	612
56	8,160	15,300	245	612
112	15,300	30,600	408	1,224

pd-standard

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
2	4,590	3,060	245	245
4	4,590	3,060	245	245
8	4,590	3,060	245	245
16	4,590	3,060	245	245
32	8,160	3,060	245	245
56	8,160	3,060	245	245
112	15,300	3,060	245	245

C3D VMs

pd-balanced

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
4	15,000	15,000	240	240
8	25,000	25,000	800	800
16	25,000	25,000	1,200	1,200
30	50,000	50,000	1,200	1,200
60	80,000	80,000	1,200	1,200
90	80,000	80,000	1,200	1,200
180	80,000	80,000	1,200	1,200
360	80,000	80,000	1,200	1,200

pd-ssd

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
4	15,000	15,000	240	240
8	25,000	25,000	800	800
16	25,000	25,000	1,200	1,200
30	50,000	50,000	1,200	1,200
60	80,000	80,000	1,200	1,200
90	80,000	80,000	1,200	1,200
180	80,000	80,000	1,200	1,200
360	80,000	80,000	1,200	1,200

C3 VMs

pd-balanced

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
4	15,000	15,000	240	240
8	15,000	15,000	240	240
22	20,000	20,000	800	800
44	50,000	50,000	1,200	1,200
88	80,000	80,000	1,200	1,200
176	80,000	80,000	1,200	1,200

pd-ssd

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
4	15,000	15,000	240	240
8	15,000	15,000	240	240
22	25,000	25,000	800	800
44	60,000	60,000	1,200	1,200
88	80,000	80,000	1,200	1,200
176	80,000	80,000	1,200	1,200

E2 VMs

pd-balanced

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
e2-medium^*	10,000	12,000	200	200
2-7	15,000	15,000	240	240
8-15	15,000	15,000	800	800
16-31	20,000	20,000	1,000	1,200
32 or more	50,000	50,000	1,000	1,200

^* E2 shared-core machine types run two vCPUs simultaneously shared on one physical core for a specific fraction of time.

pd-ssd

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
e2-medium^*	10,000	12,000	200	200
2-7	15,000	15,000	240	240
8-15	15,000	15,000	800	800
16-31	25,000	25,000	1,000	1,200
32 or more	60,000	60,000	1,000	1,200

^* E2 shared-core machine types run two vCPUs simultaneously shared on one physical core for a specific fraction of time.

pd-standard

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
e2-medium^*	10,000	1,000	200	200
2-7	15,000	3,000	240	240
8-15	15,000	5,000	400	800
16 or more	15,000	7,500	400	1,200

^* E2 shared-core machine types run two vCPUs simultaneously shared on one physical core for a specific fraction of time.

G2 VMs

pd-balanced

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
g2-standard-4	15,000	15,000	240	240
g2-standard-8	15,000	15,000	800	800
g2-standard-12	15,000	15,000	800	800
g2-standard-16	20,000	20,000	1,200	1,200
g2-standard-24	20,000	20,000	1,200	1,200
g2-standard-32	50,000	50,000	1,200	1,200
g2-standard-48	50,000	50,000	1,200	1,200
g2-standard-96	80,000	80,000	1,200	1,200

pd-ssd

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
g2-standard-4	15,000	15,000	240	240
g2-standard-8	15,000	15,000	800	800
g2-standard-12	15,000	15,000	800	800
g2-standard-16	25,000	25,000	1,200	1,200
g2-standard-24	25,000	25,000	1,200	1,200
g2-standard-32	60,000	60,000	1,200	1,200
g2-standard-48	60,000	60,000	1,200	1,200
g2-standard-96	100,000	100,000	1,200	1,200

H3 VMs

pd-balanced

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
88	15,000	15,000	240	240

N1 VMs

pd-balanced

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
1	15,000	15,000	204	240
2-7	15,000	15,000	240	240
8-15	15,000	15,000	800	800
16-31	20,000	20,000	1,200	1,200
32-63	50,000	50,000	1,200	1,200
64 or more	80,000	80,000	1,200	1,200

pd-ssd

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
1	15,000	15,000	204	240
2-7	15,000	15,000	240	240
8-15	15,000	15,000	800	800
16-31	25,000	25,000	1,200	1,200
32-63	60,000	60,000	1,200	1,200
64 or more	100,000	100,000	1,200	1,200

pd-standard

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
1	15,000	Up to 3,000	204	240
2-7	15,000	3,000	240	240
8-15	15,000	5,000	400	800
16 or more	15,000	7,500	400	1,200

N2 VMs

pd-balanced

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
2-7	15,000	15,000	240	240
8-15	15,000	15,000	800	800
16-31	20,000	20,000	1,200	1,200
32-63	50,000	50,000	1,200	1,200
64 or more	80,000	80,000	1,200	1,200

pd-ssd

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
2-7	15,000	15,000	240	240
8-15	15,000	15,000	800	800
16-31	25,000	25,000	1,200	1,200
32-63	60,000	60,000	1,200	1,200
64 or more	100,000	100,000	1,200	1,200

pd-standard

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
2-7	15,000	3,000	240	240
8-15	15,000	5,000	400	800
16 or more	15,000	7,500	400	1,200

pd-extreme

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
n2-standard-64	120,000	120,000	3,000	4,000
n2-standard-80	120,000	120,000	3,000	4,000
n2-standard-96	120,000	120,000	3,000	4,000
n2-standard-128	120,000	120,000	3,000	4,000
n2-highmem-64	120,000	120,000	3,000	4,000
n2-highmem-80	120,000	120,000	3,000	4,000
n2-highmem-96	120,000	120,000	3,000	4,000
n2-highmem-128	120,000	120,000	3,000	4,000
n2-highcpu-64	120,000	120,000	3,000	4,000
n2-highcpu-80	120,000	120,000	3,000	4,000
n2-highcpu-96	120,000	120,000	3,000	4,000

N2 VMs with 96 or more vCPUs require the Intel Ice Lake CPU platform.

N2D VMs

pd-balanced

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
2-7	15,000	15,000	240	240
8-15	15,000	15,000	800	800
16-31	20,000	20,000	1,200	1,200
32-63	50,000	50,000	1,200	1,200
64 or more	Up to 80,000	Up to 80,000	1,200	1,200

pd-ssd

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
2-7	15,000	15,000	240	240
8-15	15,000	15,000	800	800
16-31	25,000	25,000	1,200	1,200
32-63	60,000	60,000	1,200	1,200
64 or more	Up to 100,000	Up to 100,000	1,200	1,200

pd-standard

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
2-7	15,000	3,000	240	240
8-15	15,000	5,000	400	800
16 or more	15,000	7,500	400	1,200

M1 VMs

pd-balanced

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
m1-megamem-96	80,000	80,000	1,200	1,200
m1-ultramem-40	60,000	60,000	1,200	1,200
m1-ultramem-80	70,000	70,000	1,200	1,200
m1-ultramem-160	70,000	70,000	1,200	1,200

pd-ssd

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
m1-megamem-96	90,000	90,000	1,200	1,200
m1-ultramem-40	60,000	60,000	1,200	1,200
m1-ultramem-80	70,000	70,000	1,200	1,200
m1-ultramem-160	70,000	70,000	1,200	1,200

pd-standard

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
m1-megamem-96	15,000	7,500	400	1,200
m1-ultramem-40	15,000	7,500	400	1,200
m1-ultramem-80	15,000	7,500	400	1,200
m1-ultramem-160	15,000	7,500	400	1,200

pd-extreme

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
m1-megamem-96	90,000	90,000	2,200	2,200

M2 VMs

pd-balanced

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
m2-megamem-416	40,000	40,000	1,200	1,200
m2-ultramem-208	40,000	40,000	1,200	1,200
m2-ultramem-416	40,000	40,000	1,200	1,200
m2-hypermem-416	40,000	40,000	1,200	1,200

pd-ssd

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
m2-megamem-416	40,000	40,000	1,200	1,200
m2-ultramem-208	40,000	40,000	1,200	1,200
m2-ultramem-416	40,000	40,000	1,200	1,200
m2-hypermem-416	40,000	40,000	1,200	1,200

pd-standard

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
m2-megamem-416	15,000	7,500	400	1,200
m2-ultramem-208	15,000	7,500	400	1,200
m2-ultramem-416	15,000	7,500	400	1,200
m2-hypermem-416	15,000	7,500	400	1,200

pd-extreme

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
m2-megamem-416	40,000	40,000	1,200	2,200
m2-ultramem-208	40,000	40,000	1,200	2,200
m2-ultramem-416	40,000	40,000	1,200	2,200
m2-hypermem-416	40,000	40,000	1,200	2,200

M3 VMs

pd-balanced

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
m3-megamem-64	40,000	40,000	1,200	1,200
m3-megamem-128	80,000	80,000	1,200	1,200
m3-ultramem-32	40,000	40,000	1,200	1,200
m3-ultramem-64	40,000	40,000	1,200	1,200
m3-ultramem-128	80,000	80,000	1,200	1,200

pd-ssd

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
m3-megamem-64	40,000	40,000	1,200	1,200
m3-megamem-128	80,000	80,000	1,200	1,200
m3-ultramem-32	40,000	40,000	1,200	1,200
m3-ultramem-64	40,000	40,000	1,200	1,200
m3-ultramem-128	80,000	80,000	1,200	1,200

pd-extreme

Machine type	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
m3-megamem-64	40,000	40,000	1,200	2,200
m3-megamem-128	80,000	80,000	1,700	2,200
m3-ultramem-32	40,000	40,000	1,200	2,200
m3-ultramem-64	40,000	40,000	1,200	2,200
m3-ultramem-128	80,000	80,000	1,700	2,200

T2D VMs

pd-balanced

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
1	15,000	15,000	204	240
2-7	15,000	15,000	240	240
8-15	15,000	15,000	800	800
16-31	20,000	20,000	1,200	1,200
32-60	50,000	50,000	1,200	1,200

pd-ssd

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
1	15,000	15,000	204	240
2-7	15,000	15,000	240	240
8-15	15,000	15,000	800	800
16-31	25,000	25,000	1,200	1,200
32-60	60,000	60,000	1,200	1,200

pd-standard

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
1	15,000	3,000	204	240
2-7	15,000	3,000	240	240
8-15	15,000	5,000	400	800
16 or more	15,000	7,500	400	1,200

T2A VMs

pd-balanced

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
1	20,000	20,000	204	240
2-7	20,000	20,000	240	240
8-15	25,000	25,000	800	800
16-31	25,000	25,000	1,200	1,200
32-47	60,000	60,000	1,200	1,200
48	80,000	80,000	1,800	1,800

pd-ssd

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
1	20,000	20,000	204	240
2-7	20,000	20,000	240	240
8-15	25,000	25,000	800	800
16-31	25,000	25,000	1,200	1,200
32-47	60,000	60,000	1,200	1,200
48	80,000	80,000	1,800	1,800

pd-standard

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
1	15,000	1,000	204	240
2-3	15,000	2,400	240	240
4-7	15,000	3,000	240	240
8-15	15,000	5,000	400	800
16 or more	15,000	7,500	400	1,200

Z3 VMs

pd-balanced

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
88	80,000	80,000	1,200	1,200
176	80,000	80,000	1,200	1,200

pd-ssd

VM vCPU count	Maximum write IOPS	Maximum read IOPS	Maximum write throughput (MiBps)	Maximum read throughput (MiBps)
88	100,000	100,000	1,200	1,200
176	100,000	100,000	1,200	1,200

Example

Consider a 1,000 GiB zonal SSD Persistent Disk attached to a VM with an N2 machine type and 4 vCPUs. The read limit based solely on the size of the disk is 36,000 IOPS (6,000 baseline IOPs + (30 IOPS per GiB * 1,000 GiB)). However, the VM has 4 vCPUs so the read limit is restricted to 15,000 IOPS.

Review performance

You can review Persistent Disk performance metrics in Cloud Monitoring, Google Cloud's integrated monitoring solution.

To learn more, see Reviewing Persistent Disk performance metrics.

Optimize disk performance

To increase disk performance, start with the following steps:

Resize your Persistent Disk to increase the per-disk IOPS and throughput limits. Persistent Disk don't have any reserved, unusable capacity, so you can use the full disk without performance degradation. However, certain file system and applications might perform worse as the disk becomes full, so you might need to consider increasing the size of your disk to avoid such situations.
Change the machine type and number of vCPUs on the VM to increase the per-VM IOPS and throughput limits.

After choosing the right disk size and machine type for your VM to resolve any performance bottlenecks, your application and operating system might still need additional tuning. See Optimizing Persistent Disk performance and Optimizing Local SSD performance.

What's next

Benchmark your Local SSDs and Persistent Disk attached to Linux VMs.
Optimize your Persistent Disk and Local SSD performance.
Learn about Persistent Disk and Local SSD pricing.
Learn how to review your project log entries using the Logs Explorer.