This document describes the features of the Compute Engine general-purpose machine family. The general-purpose machine family has the best price-performance with the most flexible vCPU to memory ratios, and provides features that target most standard and cloud-native workloads.
The general-purpose machine family has predefined and custom machine types to align with your workload, depending on your requirements. E2, E2 shared-core, N2, N2D, and Tau T2D are second generation machine series in this family; N1 and its related shared-core machine types are first generation machine series. The newest generation, C3, is powered by 4th generation Intel Xeon Scalable processors and offers a sustained, all-core turbo frequency of 3.0 GHz, 8 channels of DDR5 memory, and up to 200 Gbps per VM Tier_1 networking performance .
Machine series | Workloads |
---|---|
C3 |
|
E2 |
|
N2, N2D, Tau T2D, N1 |
|
Tau T2A |
|
To learn how your selection affects the performance of Persistent Disk volumes attached to your VMs, see Configure your persistent disks and VMs.
C3 machine series
C3 VMs are powered by the 4th generation Intel Xeon Scalable processors (code-named Sapphire Rapids), DDR5 memory, and Google's custom Intel Infrastructure Processing Engine (IPU). C3 VM shapes are optimized for the underlying NUMA architecture to deliver optimal, reliable, and consistent performance.
The new C3 machine series is a major leap in our purpose-built infrastructure offerings:
- Leveraging our latest Infrastructure Processing Engine (IPU) to offload networking
- Delivering high performance block-storage with Google Cloud Hyperdisk
- Speeding up ML training and inference with Intel AMX
C3 is the first machine series to launch with Google's IPU. The IPU enables higher levels of networking performance, isolation and security. The C3 machine series supports a default network bandwidth of up to 100 Gbps and up to 200 Gbps with per VM Tier_1 networking performance . The Google IPU has been designed from the ground up to enable updates that don't impact running workloads.
The C3 machine series provides some of the largest general-purpose machine types with up to 176 vCPUs and 1.4 TB of memory.
In summary, the C3 machine series:
- Is powered by Intel 4th Generation Xeon processors and Google's IPU.
- Currently supports up to 176 vCPUs and 1.4 TB of DDR5 memory.
- Supports standard network configuration with up to 100 Gbps bandwidth and Tier_1 networking with up to 200 Gbps bandwidth.
- Supports Intel Advanced Matrix Extensions (AMX), a built-in accelerator that significantly improves the performance of deep-learning training and inference on the CPU.
- Supports the following discount and consumption options:
- Does not support sustained use discounts (SUDs).
C3 Machine types
C3 VMs are currently available in the following instance configurations in six instance sizes ranging from 4 to 176 vCPUs and up to 1,408 GB of memory.
highcpu
: 2 GB memory per vCPUstandard
: 4 GB memory per vCPUhighmem
: 8 GB memory per vCPU
To use Local SSD with C3, create your VM using the -lssd
variant of the
C3 machine types. Selecting this machine type creates a VM of the specified
size with Local SSD partitions attached. You must use a c3-standard-*-lssd
machine type to use Local SSD with your VM; you can't attach Local SSD volumes
separately.
C3 standard
Machine types | vCPUs* | Memory (GB) | Default egress bandwidth (Gbps)‡ | Tier_1 egress bandwidth (Gbps)# |
---|---|---|---|---|
c3-standard-4 |
4 | 16 | up to 23 | N/A |
c3-standard-8 |
8 | 32 | up to 23 | N/A |
c3-standard-22 |
22 | 88 | up to 23 | N/A |
c3-standard-44 |
44 | 176 | up to 32 | up to 50 |
c3-standard-88 |
88 | 352 | up to 62 | up to 100 |
c3-standard-176 |
176 | 704 | up to 100 | up to 200 |
* A vCPU represents a single hardware thread, or logical
core.
‡ Default egress bandwidth can't exceed the number given. Actual
egress bandwidth depends on the destination IP address and other factors.
See Network bandwidth.
# Supports high-bandwidth networking
for larger machine types.
C3 highcpu
Machine types | vCPUs* | Memory (GB) | Default egress bandwidth (Gbps)‡ | Tier_1 egress bandwidth (Gbps)# |
---|---|---|---|---|
c3-highcpu-4 |
4 | 8 | up to 23 | N/A |
c3-highcpu-8 |
8 | 16 | up to 23 | N/A |
c3-highcpu-22 |
22 | 44 | up to 23 | N/A |
c3-highcpu-44 |
44 | 88 | up to 32 | up to 50 |
c3-highcpu-88 |
88 | 176 | up to 62 | up to 100 |
c3-highcpu-176 |
176 | 352 | up to 100 | up to 200 |
* A vCPU represents a single hardware thread, or logical
core.
‡ Default egress bandwidth can't exceed the number given. Actual
egress bandwidth depends on the destination IP address and other factors.
See Network bandwidth.
# Supports high-bandwidth networking
for larger machine types.
C3 highmem
Machine types | vCPUs* | Memory (GB) | Default egress bandwidth (Gbps)‡ | Tier_1 egress bandwidth (Gbps)# |
---|---|---|---|---|
c3-highmem-4 |
4 | 32 | up to 23 | N/A |
c3-highmem-8 |
8 | 64 | up to 23 | N/A |
c3-highmem-22 |
22 | 176 | up to 23 | N/A |
c3-highmem-44 |
44 | 352 | up to 32 | up to 50 |
c3-highmem-88 |
88 | 704 | up to 62 | up to 100 |
c3-highmem-176 |
176 | 1408 | up to 100 | up to 200 |
* A vCPU represents a single hardware thread, or logical
core.
‡ Default egress bandwidth can't exceed the number given. Actual
egress bandwidth depends on the destination IP address and other factors.
See Network bandwidth.
# Supports high-bandwidth networking
for larger machine types.
C3 with Local SSD
Machine types | vCPUs* | Memory (GB) | Default egress bandwidth (Gbps)‡ | Tier_1 egress bandwidth (Gbps)# |
---|---|---|---|---|
c3-standard-4-lssd |
4 | 16 | up to 23 | N/A |
c3-standard-8-lssd |
8 | 32 | up to 23 | N/A |
c3-standard-22-lssd |
22 | 88 | up to 23 | N/A |
c3-standard-44-lssd |
44 | 176 | up to 32 | up to 50 |
c3-standard-88-lssd |
88 | 352 | up to 62 | up to 100 |
c3-standard-176-lssd |
176 | 704 | up to 100 | up to 200 |
* A vCPU represents a single hardware thread, or logical
core.
‡ Default egress bandwidth can't exceed the number given. Actual
egress bandwidth depends on the destination IP address and other factors.
See Network bandwidth.
# Supports high-bandwidth networking
for larger machine types.
C3 doesn't support custom machine types.
Supported disk types for C3
C3 VMs support only the NVMe disk interface and can use the following block storage types:
- Zonal balanced Persistent Disk (
pd-balanced
) - Zonal SSD (performance) Persistent Disk (
pd-ssd
) - Hyperdisk Extreme (
hyperdisk-extreme
) - Local SSD (only available with
-lssd
machine types)
A set amount of Local SSD disks are added to the C3 VM when you use the -lssd
machine type. This is the only way to include Local SSD storage with a C3 VM.
C3 standard
Machine types | Max number of Persistent Disk volumes per VM | Max number of Hyperdisk volumes per VM* |
Max total disk size (TiB) across all disks† |
Local SSD |
---|---|---|---|---|
c3-standard-4 |
128 | 0 | 257 | Not supported |
c3-standard-8 |
128 | 0 | 257 | Not supported |
c3-standard-22 |
128 | 0 | 257 | Not supported |
c3-standard-44 |
128 | 0 | 257 | Not supported |
c3-standard-88 |
128 | 8 | 257 | Not supported |
c3-standard-176 |
128 | 8 | 257 | Not supported |
C3 highcpu
Machine types | Max number of Persistent Disk volumes per VM | Max number of Hyperdisk volumes per VM* |
Max total disk size (TiB) across all disks† |
Local SSD |
---|---|---|---|---|
c3-highcpu-4 |
128 | 0 | 257 | Not supported |
c3-highcpu-8 |
128 | 0 | 257 | Not supported |
c3-highcpu-22 |
128 | 0 | 257 | Not supported |
c3-highcpu-44 |
128 | 0 | 257 | Not supported |
c3-highcpu-88 |
128 | 8 | 257 | Not supported |
c3-highcpu-176 |
128 | 8 | 257 | Not supported |
C3 highmem
Machine types | Max number of Persistent Disk volumes per VM | Max number of Hyperdisk volumes per VM* |
Max total disk size (TiB) across all disks† |
Local SSD |
---|---|---|---|---|
c3-highmem-4 |
128 | 0 | 257 | Not supported |
c3-highmem-8 |
128 | 0 | 257 | Not supported |
c3-highmem-22 |
128 | 0 | 257 | Not supported |
c3-highmem-44 |
128 | 0 | 257 | Not supported |
c3-highmem-88 |
128 | 8 | 257 | Not supported |
c3-highmem-176 |
128 | 8 | 257 | Not supported |
C3 with Local SSD
Machine types | Max number of Persistent Disk volumes per VM | Max number of Hyperdisk volumes per VM* |
Max total disk size (TiB) across all disks† |
Local SSD partitions (Total disk space) |
---|---|---|---|---|
c3-standard-4-lssd |
128 | 0 | 257 | 1 (375 GiB) |
c3-standard-8-lssd |
128 | 0 | 257 | 2 (750 GiB) |
c3-standard-22-lssd |
128 | 0 | 257 | 4 (1.5 TiB) |
c3-standard-44-lssd |
128 | 0 | 257 | 8 (3 TiB) |
c3-standard-88-lssd |
128 | 8 | 257 | 16 (6 TiB) |
c3-standard-176-lssd |
128 | 8 | 257 | 32 (12 TiB) |
* The maximum size per Persistent Disk or Hyperdisk volume is 64 TiB.
† The maximum total disk size applies to all disk types (Persistent Disk and Hyperdisk) attached to the VM.
Network support for C3 VMs
C3 VMs require gVNIC network interfaces. C3 supports up to 100 Gbps network bandwidth for standard networking on the largest VM size and up to 200 Gbps with per VM Tier_1 networking performance .
C3 VMs require an updated driver for the gVNIC network interface. Before
migrating to C3 or creating new C3 VMs, make sure that the
operating system image
that you use has full support (includes the updated drivers). These images
include the updated gVNIC driver, even if the guest OS shows the
gve
driver version as 1.0.0. If your C3 VM is using an operating
system with limited support (includes an older version of the gVNIC driver),
the network bandwidth for C3 VMs is limited to 100 Gbps for
Tier_1 networking on the largest VM sizes.
If you use a custom image with the C3 machine series, you can manually install the most recent gVNIC driver. The gVNIC driver version v1.3.0 or later is recommended for use with C3 VMs. Google recommends using the latest gVNIC driver version to benefit from additional features and bug fixes.
E2 machine series
The cost-optimized E2 machine series have between 2 to 32 vCPUs with a ratio of 0.5 GB to 8 GB of memory per vCPU for standard VMs, and 0.25 to 1 vCPUs with 0.5 GB to 8 GB of memory for shared-core E2 machine types. The E2 machine series offers both Intel and AMD EPYC processors. The processor is selected for you at the time of VM creation. Machine types in this series are available in all regions and zones and support a virtio memory balloon device.
In summary, the E2 machine series:
- Support up to 32 vCPUs and 128 GB of memory.
- Support Intel and AMD EPYC Rome and Milan processors.
- Available in predefined and custom VMs.
- Offer the lowest on demand pricing across the general-purpose machine types.
- Does not offer sustained-use discounts; however, they do provide consistently low on demand and committed use pricing.
- Does not support GPUs, Local SSDs, sole-tenant nodes, or nested virtualization.
Shared-core VMs
The E2 machine series also contains shared-core machine types that use context- switching to time-share a physical core between vCPUs for multitasking. Different shared-core machine types sustain different amounts of time on a physical core.
Unlike predefined machine types and custom machine types, shared-core machine types have a predefined price that includes both vCPUs and memory. For more information, see VM instance pricing.
CPU bursting
Shared-core machine types offer bursting capabilities that allow instances to use additional physical CPU for short periods of time. Bursting happens automatically when your VM requires more physical CPU than originally allocated. During these spikes, your VM will opportunistically take advantage of available physical CPU in bursts. Note that bursts are not permanent and are only possible periodically.
e2-micro
,e2-small
, ande2-medium
shared-core VMs can burst for dozens of seconds.- If the CPU is utilized at 100%, then the burst lasts as follows:
e2-micro
: 30 secondse2-small
: 60 secondse2-medium
120 seconds
e2 shared-core
, f1-micro
, and g1-small
VMs.
E2 Limitations
- The E2 machine series provides consistently low on-demand and committed-use pricing. They do not offer sustained-use discounts.
- The E2 machine series does not support GPUs, Local SSDs, sole-tenant nodes, or nested virtualization.
E2 machine types
E2 is available in standard
, highmem
, and highcpu
configurations, as well
as shared-core machine type. In general, E2 shared-core machine types can be
more cost-effective for running small, non-resource intensive applications than
standard, high-memory, or high-CPU machine types.
E2 standard
E2 standard machine types have 4 GB of system memory per vCPU.
Machine types | vCPUs* | Memory (GB) | Max number of persistent disks (PDs)† | Max total PD size (TiB) | Local SSD | Maximum egress bandwidth (Gbps)‡ |
---|---|---|---|---|---|---|
e2-standard-2 |
2 | 8 | 128 | 257 | No | 4 |
e2-standard-4 |
4 | 16 | 128 | 257 | No | 8 |
e2-standard-8 |
8 | 32 | 128 | 257 | No | 16 |
e2-standard-16 |
16 | 64 | 128 | 257 | No | 16 |
e2-standard-32 |
32 | 128 | 128 | 257 | No | 16 |
† Persistent Disk and Hyperdisk usage is charged separately from machine pricing.
‡ Maximum egress bandwidth cannot exceed the number given. Actual See Network bandwidth.
E2 high-mem
E2 high-memory machine types have 8 GB of system memory per vCPU.
Machine types | vCPUs* | Memory (GB) | Max number of persistent disks (PDs)† | Max total PD size (TiB) | Local SSD | Maximum egress bandwidth (Gbps)‡ |
---|---|---|---|---|---|---|
e2-highmem-2 |
2 | 16 | 128 | 257 | No | 4 |
e2-highmem-4 |
4 | 32 | 128 | 257 | No | 8 |
e2-highmem-8 |
8 | 64 | 128 | 257 | No | 16 |
e2-highmem-16 |
16 | 128 | 128 | 257 | No | 16 |
† Persistent Disk and Hyperdisk usage is charged separately from machine pricing.
‡Maximum egress bandwidth cannot exceed the number given. Actual egress bandwidth depends on the destination IP address and other factors. See Network bandwidth.
E2 high-cpu
E2 high-cpu machine types have 1 GB of system memory per vCPU.
Machine types | vCPUs* | Memory (GB) | Max number of persistent disks (PDs)† | Max total PD size (TiB) | Local SSD | Maximum egress bandwidth (Gbps)‡ |
---|---|---|---|---|---|---|
e2-highcpu-2 |
2 | 2 | 128 | 257 | No | 4 |
e2-highcpu-4 |
4 | 4 | 128 | 257 | No | 8 |
e2-highcpu-8 |
8 | 8 | 128 | 257 | No | 16 |
e2-highcpu-16 |
16 | 16 | 128 | 257 | No | 16 |
e2-highcpu-32 |
32 | 32 | 128 | 257 | No | 16 |
† Persistent Disk and Hyperdisk usage is charged separately from machine pricing.
‡ Maximum egress bandwidth cannot exceed the number given. Actual egress bandwidth depends on the destination IP address and other factors. See Network bandwidth.
E2 shared-core
E2 shared-core machine types are cost-effective, have a virtio memory balloon device, and are ideal for small workloads. When you use E2 shared-core machine types, your VM runs two vCPUs simultaneously shared on one physical core for a specific fraction of time depending on the machine type. Each vCPU can burst up to 100% of CPU time, for short periods, before returning to the time limitations described in the preceding section.
e2-micro
sustains 2 vCPUs, each for 12.5% of CPU time totaling 25% CPU time.e2-small
sustains 2 vCPUs, each at 25% of CPU time totaling 50% CPU time.e2-medium
sustains 2 vCPUs, each at 50% of CPU time totaling 100% CPU time.
Machine types | Description | vCPUs | Fractional vCPUs* | Memory (GB) | Max number of persistent disks (PDs)† | Max total PD size (TiB) | Local SSD | Maximum egress bandwidth (Gbps)‡ |
---|---|---|---|---|---|---|---|---|
e2-micro |
Micro machine type with 0.25 vCPU and 1 GB of memory, backed by a shared physical core. | 2 | 0.25* | 1 | 16 | 3 | no | 1 |
e2-small |
Small machine type with 0.5 vCPU and 2 GB of memory, backed by a shared physical core. | 2 | 0.5* | 2 | 16 | 3 | no | 1 |
e2-medium |
Medium machine type with 1 vCPU and 4 GB of memory, backed by a shared physical core. | 2 | 1* | 4 | 16 | 3 | no | 2 |
† Persistent Disk and Hyperdisk usage is charged separately from machine pricing.
‡ Maximum egress bandwidth cannot exceed the number given. Actual egress bandwidth depends on the destination IP address and other factors. See Network bandwidth.
Supported disk types for E2 VMs
E2 VMs can use the following block storage types:
- Zonal and regional balanced Persistent Disk (
pd-balanced
) - Zonal and regional SSD Persistent Disk (
pd-ssd
) - Zonal and regional standard Persistent Disk (
pd-standard
)
N2 machine series
The N2 machine series has flexible sizing between 2 to 128 vCPUs and 0.5 to 8 GB of memory per vCPU. Machine types in this series run on the following processors:
Ice Lake—offered in specific regions and zones. It is the default processor for larger machine types.
Cascade Lake—the default for machine types up to 80 vCPUs. If you want to create VMs with
Ice Lake
, you must set it as the minimum CPU platform.
You can find more details about these two processors on the CPU platforms page.
Workloads that can take advantage of the higher clock frequency are a good choice for this series. These workloads can get higher per-thread performance while benefiting from all the flexibility that the general-purpose machine family offers.
In summary, the N2 machine series:
- Supports up to 128 vCPUs and 864 GB of memory.
- Supports 50 Gbps, 75 Gbps, and 100 Gbps high-bandwidth network configurations.
- Is available in predefined and custom VMs.
- Has higher memory-to-core ratios for VMs created with the extended memory feature. Using the extended memory feature helps control per-CPU software licensing costs while providing access to more than 8 GB of memory per vCPU.
- Supports committed use discounts (CUD) and sustained use discounts (SUD).
N2 machine types
N2 standard
N2 standard machine types have 4 GB of system memory per vCPU.
Machine types | vCPUs* | Memory (GB) | Default egress bandwidth (Gbps)‡ | Tier 1 egress bandwidth (Gbps)# |
---|---|---|---|---|
n2-standard-2 |
2 | 8 | 10 | N/A |
n2-standard-4 |
4 | 16 | 10 | N/A |
n2-standard-8 |
8 | 32 | 16 | N/A |
n2-standard-16 |
16 | 64 | 32 | N/A |
n2-standard-32 |
32 | 128 | 32 | 50 |
n2-standard-48 |
48 | 192 | 32 | 50 |
n2-standard-64 |
64 | 256 | 32 | 75 |
n2-standard-80 |
80 | 320 | 32 | 100 |
n2-standard-96 |
96 | 384 | 32 | 100 |
n2-standard-128 |
128 | 512 | 32 | 100 |
* A vCPU is implemented as a single hardware thread, or logical
core, on one of the available
CPU platforms.
‡ Maximum egress bandwidth cannot exceed the number given. Actual
egress bandwidth depends on the destination IP address and other factors.
See Network bandwidth.
# Supports high-bandwidth networking for
larger machine types.
N2 high-mem
N2 high-memory machine types have 8 GB of system memory per vCPU.
Machine types | vCPUs* | Memory (GB) | Default egress bandwidth (Gbps)‡ | Tier 1 egress bandwidth (Gbps)# |
---|---|---|---|---|
n2-highmem-2 |
2 | 16 | 10 | N/A |
n2-highmem-4 |
4 | 32 | 10 | N/A |
n2-highmem-8 |
8 | 64 | 16 | N/A |
n2-highmem-16 |
16 | 128 | 32 | N/A |
n2-highmem-32 |
32 | 256 | 32 | 50 |
n2-highmem-48 |
48 | 384 | 32 | 50 |
n2-highmem-64 |
64 | 512 | 32 | 75 |
n2-highmem-80 |
80 | 640 | 32 | 100 |
n2-highmem-96 |
96 | 768 | 32 | 100 |
n2-highmem-128 |
128 | 864 | 32 | 100 |
* A vCPU is implemented as a single hardware thread, or logical
core, on one of the available
CPU platforms.
‡ Maximum egress bandwidth cannot exceed the number given. Actual
egress bandwidth depends on the destination IP address and other factors.
See Network bandwidth.
# Supports high-bandwidth networking for
larger machine types.
N2 high-cpu
N2 high-cpu machine types have 1 GB of system memory per vCPU.
Machine types | vCPUs* | Memory (GB) | Default egress bandwidth (Gbps)‡ | Tier 1 egress bandwidth (Gbps)# |
---|---|---|---|---|
n2-highcpu-2 |
2 | 2 | 10 | N/A |
n2-highcpu-4 |
4 | 4 | 10 | N/A |
n2-highcpu-8 |
8 | 8 | 16 | N/A |
n2-highcpu-16 |
16 | 16 | 32 | N/A |
n2-highcpu-32 |
32 | 32 | 32 | 50 |
n2-highcpu-48 |
48 | 48 | 32 | 50 |
n2-highcpu-64 |
64 | 64 | 32 | 75 |
n2-highcpu-80 |
80 | 80 | 32 | 100 |
n2-highcpu-96 |
96 | 96 | 32 | 100 |
* A vCPU is implemented as a single hardware thread, or logical
core, on one of the available
CPU platforms.
‡ Maximum egress bandwidth cannot exceed the number given. Actual
egress bandwidth depends on the destination IP address and other factors.
See Network bandwidth.
# Supports high-bandwidth networking for
larger machine types.
For details on the pricing information, see the following:
- For machine type pricing, see VM pricing page.
- Disk usage and network usage is charged separately from machine type pricing. For details, see Disk and image pricing and Network pricing.
- For per VM Tier_1 network performance billing rates, see Tier_1 higher bandwidth network pricing.
Supported disk types for N2
N2 VMs support both the SCSI and the NVMe disk interface and can use the following block storage types:
- Zonal and regional standard Persistent Disk (
pd-standard
) - Zonal and regional balanced Persistent Disk (
pd-balanced
) - Zonal and regional SSD Persistent Disk (
pd-ssd
) - Extreme Persistent Disk (
pd-extreme
) - Hyperdisk Extreme (
hyperdisk-extreme
) - Hyperdisk Throughput (
hyperdisk-throughput
) - Local SSD
N2 standard
Machine types | Max number of Persistent Disk volumes per VM* | Max number of Hyperdisk Extreme volumes per VM† |
Max number of Hyperdisk Throughput volumes per VM† |
Max total disk size (TiB) across all disks‡ |
Local SSD |
---|---|---|---|---|---|
n2-standard-2 |
128 | 0 | 4# | 257 | Yes |
n2-standard-4 |
128 | 0 | 8# | 257 | Yes |
n2-standard-8 |
128 | 0 | 16 | 257 | Yes |
n2-standard-16 |
128 | 0 | 16 | 257 | Yes |
n2-standard-32 |
128 | 0 | 30 | 257 | Yes |
n2-standard-48 |
128 | 0 | 30 | 257 | Yes |
n2-standard-64 |
128 | 0 | 30 | 257 | Yes |
n2-standard-80 |
128 | 8 | 30 | 257 | Yes |
n2-standard-96 |
128 | 8 | 30 | 257 | Yes |
n2-standard-128 |
128 | 8 | 30 | 257 | Yes |
* The maximum size per Persistent Disk volume is 64 TiB.
† The maximum size per Hyperdisk Extreme volume is 64 TiB. The maximum size per Hyperdisk Throughput volume is 32 TiB.
‡ The maximum total disk size applies to all disk types (Persistent Disk and Hyperdisk) attached to the VM.
# The maximum total disk capacity for Hyperdisk Throughput volumes attached to the VM is 128 TiB for 2 vCPUs and 256 TiB for 4 vCPUs.
N2 high-mem
Machine types | Max number of Persistent Disk volumes per VM* | Max number of Hyperdisk Extreme volumes per VM† |
Max number of Hyperdisk Throughput volumes per VM† |
Max total disk size (TiB) across all disks‡ |
Local SSD |
---|---|---|---|---|---|
n2-highmem-2 |
128 | 0 | 4# | 257 | Yes |
n2-highmem-4 |
128 | 0 | 8# | 257 | Yes |
n2-highmem-8 |
128 | 0 | 16 | 257 | Yes |
n2-highmem-16 |
128 | 0 | 16 | 257 | Yes |
n2-highmem-32 |
128 | 0 | 30 | 257 | Yes |
n2-highmem-48 |
128 | 0 | 30 | 257 | Yes |
n2-highmem-64 |
128 | 0 | 30 | 257 | Yes |
n2-highmem-80 |
128 | 8 | 30 | 257 | Yes |
n2-highmem-96 |
128 |