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vcd 3.14.1 published on Monday, Apr 14, 2025 by vmware
vcd.VmVgpuPolicy
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Experimental in provider 3.11.
Note: This resource requires system administrator privileges.
Provides a resource to manage vGPU policies for virtual machines in VMware Cloud Director.
Example Usage
import * as pulumi from "@pulumi/pulumi";
import * as vcd from "@pulumi/vcd";
const exampleOrg = vcd.getOrg({
name: "test_org",
});
const exampleVgpuProfile = vcd.getVgpuProfile({
name: "grid_a100-10c",
});
const exampleProviderVdc = vcd.getProviderVdc({
name: "example_provider_vdc",
});
const vmGroupExample = vcd.getVmGroup({
name: "vm-group-1",
});
const exampleVgpuPolicy = new vcd.VmVgpuPolicy("exampleVgpuPolicy", {
description: "An example vGPU policy configuration",
vgpuProfile: {
id: exampleVgpuProfile.then(exampleVgpuProfile => exampleVgpuProfile.id),
count: 1,
},
cpu: {
shares: "886",
limitInMhz: "2400",
count: "9",
speedInMhz: "2500",
coresPerSocket: "3",
reservationGuarantee: "0.55",
},
memory: {
shares: "1580",
sizeInMb: "3200",
limitInMb: "2800",
},
providerVdcScopes: [{
providerVdcId: exampleProviderVdc.then(exampleProviderVdc => exampleProviderVdc.id),
clusterNames: ["cluster1"],
vmGroupId: vmGroupExample.then(vmGroupExample => vmGroupExample.id),
}],
});
const exampleOrgVdc = new vcd.OrgVdc("exampleOrgVdc", {
org: exampleOrg.then(exampleOrg => exampleOrg.name),
providerVdcName: exampleProviderVdc.then(exampleProviderVdc => exampleProviderVdc.name),
allocationModel: "Flex",
deleteForce: true,
computeCapacity: {
cpu: {
allocated: 2048,
},
memory: {
allocated: 2048,
},
},
storageProfiles: [{
name: "*",
limit: 10240,
"default": true,
}],
elasticity: true,
includeVmMemoryOverhead: true,
memoryGuaranteed: 1,
defaultComputePolicyId: exampleVgpuPolicy.vmVgpuPolicyId,
vmVgpuPolicyIds: [exampleVgpuPolicy.vmVgpuPolicyId],
});
const testVm = new vcd.Vm("testVm", {
org: exampleOrg.then(exampleOrg => exampleOrg.name),
vdc: exampleOrgVdc.name,
computerName: "emptyVM",
memory: 2048,
cpus: 2,
cpuCores: 1,
powerOn: false,
osType: "sles11_64Guest",
hardwareVersion: "vmx-19",
placementPolicyId: exampleVgpuPolicy.vmVgpuPolicyId,
});
import pulumi
import pulumi_vcd as vcd
example_org = vcd.get_org(name="test_org")
example_vgpu_profile = vcd.get_vgpu_profile(name="grid_a100-10c")
example_provider_vdc = vcd.get_provider_vdc(name="example_provider_vdc")
vm_group_example = vcd.get_vm_group(name="vm-group-1")
example_vgpu_policy = vcd.VmVgpuPolicy("exampleVgpuPolicy",
description="An example vGPU policy configuration",
vgpu_profile={
"id": example_vgpu_profile.id,
"count": 1,
},
cpu={
"shares": "886",
"limit_in_mhz": "2400",
"count": "9",
"speed_in_mhz": "2500",
"cores_per_socket": "3",
"reservation_guarantee": "0.55",
},
memory={
"shares": "1580",
"size_in_mb": "3200",
"limit_in_mb": "2800",
},
provider_vdc_scopes=[{
"provider_vdc_id": example_provider_vdc.id,
"cluster_names": ["cluster1"],
"vm_group_id": vm_group_example.id,
}])
example_org_vdc = vcd.OrgVdc("exampleOrgVdc",
org=example_org.name,
provider_vdc_name=example_provider_vdc.name,
allocation_model="Flex",
delete_force=True,
compute_capacity={
"cpu": {
"allocated": 2048,
},
"memory": {
"allocated": 2048,
},
},
storage_profiles=[{
"name": "*",
"limit": 10240,
"default": True,
}],
elasticity=True,
include_vm_memory_overhead=True,
memory_guaranteed=1,
default_compute_policy_id=example_vgpu_policy.vm_vgpu_policy_id,
vm_vgpu_policy_ids=[example_vgpu_policy.vm_vgpu_policy_id])
test_vm = vcd.Vm("testVm",
org=example_org.name,
vdc=example_org_vdc.name,
computer_name="emptyVM",
memory=2048,
cpus=2,
cpu_cores=1,
power_on=False,
os_type="sles11_64Guest",
hardware_version="vmx-19",
placement_policy_id=example_vgpu_policy.vm_vgpu_policy_id)
package main
import (
"github.com/pulumi/pulumi-terraform-provider/sdks/go/vcd/v3/vcd"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
exampleOrg, err := vcd.LookupOrg(ctx, &vcd.LookupOrgArgs{
Name: "test_org",
}, nil)
if err != nil {
return err
}
exampleVgpuProfile, err := vcd.GetVgpuProfile(ctx, &vcd.GetVgpuProfileArgs{
Name: "grid_a100-10c",
}, nil)
if err != nil {
return err
}
exampleProviderVdc, err := vcd.LookupProviderVdc(ctx, &vcd.LookupProviderVdcArgs{
Name: "example_provider_vdc",
}, nil)
if err != nil {
return err
}
vmGroupExample, err := vcd.GetVmGroup(ctx, &vcd.GetVmGroupArgs{
Name: "vm-group-1",
}, nil)
if err != nil {
return err
}
exampleVgpuPolicy, err := vcd.NewVmVgpuPolicy(ctx, "exampleVgpuPolicy", &vcd.VmVgpuPolicyArgs{
Description: pulumi.String("An example vGPU policy configuration"),
VgpuProfile: &vcd.VmVgpuPolicyVgpuProfileArgs{
Id: pulumi.String(exampleVgpuProfile.Id),
Count: pulumi.Float64(1),
},
Cpu: &vcd.VmVgpuPolicyCpuArgs{
Shares: pulumi.String("886"),
LimitInMhz: pulumi.String("2400"),
Count: pulumi.String("9"),
SpeedInMhz: pulumi.String("2500"),
CoresPerSocket: pulumi.String("3"),
ReservationGuarantee: pulumi.String("0.55"),
},
Memory: &vcd.VmVgpuPolicyMemoryArgs{
Shares: pulumi.String("1580"),
SizeInMb: pulumi.String("3200"),
LimitInMb: pulumi.String("2800"),
},
ProviderVdcScopes: vcd.VmVgpuPolicyProviderVdcScopeArray{
&vcd.VmVgpuPolicyProviderVdcScopeArgs{
ProviderVdcId: pulumi.String(exampleProviderVdc.Id),
ClusterNames: pulumi.StringArray{
pulumi.String("cluster1"),
},
VmGroupId: pulumi.String(vmGroupExample.Id),
},
},
})
if err != nil {
return err
}
exampleOrgVdc, err := vcd.NewOrgVdc(ctx, "exampleOrgVdc", &vcd.OrgVdcArgs{
Org: pulumi.String(exampleOrg.Name),
ProviderVdcName: pulumi.String(exampleProviderVdc.Name),
AllocationModel: pulumi.String("Flex"),
DeleteForce: pulumi.Bool(true),
ComputeCapacity: &vcd.OrgVdcComputeCapacityArgs{
Cpu: &vcd.OrgVdcComputeCapacityCpuArgs{
Allocated: pulumi.Float64(2048),
},
Memory: &vcd.OrgVdcComputeCapacityMemoryArgs{
Allocated: pulumi.Float64(2048),
},
},
StorageProfiles: vcd.OrgVdcStorageProfileArray{
&vcd.OrgVdcStorageProfileArgs{
Name: pulumi.String("*"),
Limit: pulumi.Float64(10240),
Default: pulumi.Bool(true),
},
},
Elasticity: pulumi.Bool(true),
IncludeVmMemoryOverhead: pulumi.Bool(true),
MemoryGuaranteed: pulumi.Float64(1),
DefaultComputePolicyId: exampleVgpuPolicy.VmVgpuPolicyId,
VmVgpuPolicyIds: pulumi.StringArray{
exampleVgpuPolicy.VmVgpuPolicyId,
},
})
if err != nil {
return err
}
_, err = vcd.NewVm(ctx, "testVm", &vcd.VmArgs{
Org: pulumi.String(exampleOrg.Name),
Vdc: exampleOrgVdc.Name,
ComputerName: pulumi.String("emptyVM"),
Memory: pulumi.Float64(2048),
Cpus: pulumi.Float64(2),
CpuCores: pulumi.Float64(1),
PowerOn: pulumi.Bool(false),
OsType: pulumi.String("sles11_64Guest"),
HardwareVersion: pulumi.String("vmx-19"),
PlacementPolicyId: exampleVgpuPolicy.VmVgpuPolicyId,
})
if err != nil {
return err
}
return nil
})
}
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Vcd = Pulumi.Vcd;
return await Deployment.RunAsync(() =>
{
var exampleOrg = Vcd.GetOrg.Invoke(new()
{
Name = "test_org",
});
var exampleVgpuProfile = Vcd.GetVgpuProfile.Invoke(new()
{
Name = "grid_a100-10c",
});
var exampleProviderVdc = Vcd.GetProviderVdc.Invoke(new()
{
Name = "example_provider_vdc",
});
var vmGroupExample = Vcd.GetVmGroup.Invoke(new()
{
Name = "vm-group-1",
});
var exampleVgpuPolicy = new Vcd.VmVgpuPolicy("exampleVgpuPolicy", new()
{
Description = "An example vGPU policy configuration",
VgpuProfile = new Vcd.Inputs.VmVgpuPolicyVgpuProfileArgs
{
Id = exampleVgpuProfile.Apply(getVgpuProfileResult => getVgpuProfileResult.Id),
Count = 1,
},
Cpu = new Vcd.Inputs.VmVgpuPolicyCpuArgs
{
Shares = "886",
LimitInMhz = "2400",
Count = "9",
SpeedInMhz = "2500",
CoresPerSocket = "3",
ReservationGuarantee = "0.55",
},
Memory = new Vcd.Inputs.VmVgpuPolicyMemoryArgs
{
Shares = "1580",
SizeInMb = "3200",
LimitInMb = "2800",
},
ProviderVdcScopes = new[]
{
new Vcd.Inputs.VmVgpuPolicyProviderVdcScopeArgs
{
ProviderVdcId = exampleProviderVdc.Apply(getProviderVdcResult => getProviderVdcResult.Id),
ClusterNames = new[]
{
"cluster1",
},
VmGroupId = vmGroupExample.Apply(getVmGroupResult => getVmGroupResult.Id),
},
},
});
var exampleOrgVdc = new Vcd.OrgVdc("exampleOrgVdc", new()
{
Org = exampleOrg.Apply(getOrgResult => getOrgResult.Name),
ProviderVdcName = exampleProviderVdc.Apply(getProviderVdcResult => getProviderVdcResult.Name),
AllocationModel = "Flex",
DeleteForce = true,
ComputeCapacity = new Vcd.Inputs.OrgVdcComputeCapacityArgs
{
Cpu = new Vcd.Inputs.OrgVdcComputeCapacityCpuArgs
{
Allocated = 2048,
},
Memory = new Vcd.Inputs.OrgVdcComputeCapacityMemoryArgs
{
Allocated = 2048,
},
},
StorageProfiles = new[]
{
new Vcd.Inputs.OrgVdcStorageProfileArgs
{
Name = "*",
Limit = 10240,
Default = true,
},
},
Elasticity = true,
IncludeVmMemoryOverhead = true,
MemoryGuaranteed = 1,
DefaultComputePolicyId = exampleVgpuPolicy.VmVgpuPolicyId,
VmVgpuPolicyIds = new[]
{
exampleVgpuPolicy.VmVgpuPolicyId,
},
});
var testVm = new Vcd.Vm("testVm", new()
{
Org = exampleOrg.Apply(getOrgResult => getOrgResult.Name),
Vdc = exampleOrgVdc.Name,
ComputerName = "emptyVM",
Memory = 2048,
Cpus = 2,
CpuCores = 1,
PowerOn = false,
OsType = "sles11_64Guest",
HardwareVersion = "vmx-19",
PlacementPolicyId = exampleVgpuPolicy.VmVgpuPolicyId,
});
});
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.vcd.VcdFunctions;
import com.pulumi.vcd.inputs.GetOrgArgs;
import com.pulumi.vcd.inputs.GetVgpuProfileArgs;
import com.pulumi.vcd.inputs.GetProviderVdcArgs;
import com.pulumi.vcd.inputs.GetVmGroupArgs;
import com.pulumi.vcd.VmVgpuPolicy;
import com.pulumi.vcd.VmVgpuPolicyArgs;
import com.pulumi.vcd.inputs.VmVgpuPolicyVgpuProfileArgs;
import com.pulumi.vcd.inputs.VmVgpuPolicyCpuArgs;
import com.pulumi.vcd.inputs.VmVgpuPolicyMemoryArgs;
import com.pulumi.vcd.inputs.VmVgpuPolicyProviderVdcScopeArgs;
import com.pulumi.vcd.OrgVdc;
import com.pulumi.vcd.OrgVdcArgs;
import com.pulumi.vcd.inputs.OrgVdcComputeCapacityArgs;
import com.pulumi.vcd.inputs.OrgVdcComputeCapacityCpuArgs;
import com.pulumi.vcd.inputs.OrgVdcComputeCapacityMemoryArgs;
import com.pulumi.vcd.inputs.OrgVdcStorageProfileArgs;
import com.pulumi.vcd.Vm;
import com.pulumi.vcd.VmArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;
public class App {
public static void main(String[] args) {
Pulumi.run(App::stack);
}
public static void stack(Context ctx) {
final var exampleOrg = VcdFunctions.getOrg(GetOrgArgs.builder()
.name("test_org")
.build());
final var exampleVgpuProfile = VcdFunctions.getVgpuProfile(GetVgpuProfileArgs.builder()
.name("grid_a100-10c")
.build());
final var exampleProviderVdc = VcdFunctions.getProviderVdc(GetProviderVdcArgs.builder()
.name("example_provider_vdc")
.build());
final var vmGroupExample = VcdFunctions.getVmGroup(GetVmGroupArgs.builder()
.name("vm-group-1")
.build());
var exampleVgpuPolicy = new VmVgpuPolicy("exampleVgpuPolicy", VmVgpuPolicyArgs.builder()
.description("An example vGPU policy configuration")
.vgpuProfile(VmVgpuPolicyVgpuProfileArgs.builder()
.id(exampleVgpuProfile.applyValue(getVgpuProfileResult -> getVgpuProfileResult.id()))
.count(1)
.build())
.cpu(VmVgpuPolicyCpuArgs.builder()
.shares("886")
.limitInMhz("2400")
.count("9")
.speedInMhz("2500")
.coresPerSocket("3")
.reservationGuarantee("0.55")
.build())
.memory(VmVgpuPolicyMemoryArgs.builder()
.shares("1580")
.sizeInMb("3200")
.limitInMb("2800")
.build())
.providerVdcScopes(VmVgpuPolicyProviderVdcScopeArgs.builder()
.providerVdcId(exampleProviderVdc.applyValue(getProviderVdcResult -> getProviderVdcResult.id()))
.clusterNames("cluster1")
.vmGroupId(vmGroupExample.applyValue(getVmGroupResult -> getVmGroupResult.id()))
.build())
.build());
var exampleOrgVdc = new OrgVdc("exampleOrgVdc", OrgVdcArgs.builder()
.org(exampleOrg.applyValue(getOrgResult -> getOrgResult.name()))
.providerVdcName(exampleProviderVdc.applyValue(getProviderVdcResult -> getProviderVdcResult.name()))
.allocationModel("Flex")
.deleteForce(true)
.computeCapacity(OrgVdcComputeCapacityArgs.builder()
.cpu(OrgVdcComputeCapacityCpuArgs.builder()
.allocated(2048)
.build())
.memory(OrgVdcComputeCapacityMemoryArgs.builder()
.allocated(2048)
.build())
.build())
.storageProfiles(OrgVdcStorageProfileArgs.builder()
.name("*")
.limit(10240)
.default_(true)
.build())
.elasticity(true)
.includeVmMemoryOverhead(true)
.memoryGuaranteed(1)
.defaultComputePolicyId(exampleVgpuPolicy.vmVgpuPolicyId())
.vmVgpuPolicyIds(exampleVgpuPolicy.vmVgpuPolicyId())
.build());
var testVm = new Vm("testVm", VmArgs.builder()
.org(exampleOrg.applyValue(getOrgResult -> getOrgResult.name()))
.vdc(exampleOrgVdc.name())
.computerName("emptyVM")
.memory(2048)
.cpus(2)
.cpuCores(1)
.powerOn(false)
.osType("sles11_64Guest")
.hardwareVersion("vmx-19")
.placementPolicyId(exampleVgpuPolicy.vmVgpuPolicyId())
.build());
}
}
resources:
exampleVgpuPolicy:
type: vcd:VmVgpuPolicy
properties:
description: An example vGPU policy configuration
vgpuProfile:
id: ${exampleVgpuProfile.id}
count: 1
cpu:
shares: '886'
limitInMhz: '2400'
count: '9'
speedInMhz: '2500'
coresPerSocket: '3'
reservationGuarantee: '0.55'
memory:
shares: '1580'
sizeInMb: '3200'
limitInMb: '2800'
providerVdcScopes:
- providerVdcId: ${exampleProviderVdc.id}
clusterNames:
- cluster1
vmGroupId: ${vmGroupExample.id}
exampleOrgVdc:
type: vcd:OrgVdc
properties:
org: ${exampleOrg.name}
providerVdcName: ${exampleProviderVdc.name}
allocationModel: Flex
deleteForce: true
computeCapacity:
cpu:
allocated: 2048
memory:
allocated: 2048
storageProfiles:
- name: '*'
limit: 10240
default: true
elasticity: true
includeVmMemoryOverhead: true
memoryGuaranteed: 1
defaultComputePolicyId: ${exampleVgpuPolicy.vmVgpuPolicyId}
vmVgpuPolicyIds:
- ${exampleVgpuPolicy.vmVgpuPolicyId}
testVm:
type: vcd:Vm
properties:
org: ${exampleOrg.name}
vdc: ${exampleOrgVdc.name}
computerName: emptyVM
memory: 2048
cpus: 2
cpuCores: 1
powerOn: false
osType: sles11_64Guest
hardwareVersion: vmx-19
placementPolicyId: ${exampleVgpuPolicy.vmVgpuPolicyId}
variables:
exampleOrg:
fn::invoke:
function: vcd:getOrg
arguments:
name: test_org
exampleVgpuProfile:
fn::invoke:
function: vcd:getVgpuProfile
arguments:
name: grid_a100-10c
exampleProviderVdc:
fn::invoke:
function: vcd:getProviderVdc
arguments:
name: example_provider_vdc
vmGroupExample:
fn::invoke:
function: vcd:getVmGroup
arguments:
name: vm-group-1
Without A Sizing Policy)
import * as pulumi from "@pulumi/pulumi";
import * as vcd from "@pulumi/vcd";
const exampleVgpuPolicyWithoutSizing = new vcd.VmVgpuPolicy("exampleVgpuPolicyWithoutSizing", {
description: "An example vGPU policy configuration",
vgpuProfile: {
id: data.vcd_vgpu_profile.example_vgpu_profile.id,
count: 1,
},
providerVdcScopes: [{
providerVdcId: data.vcd_provider_vdc.example_provider_vdc.id,
clusterNames: ["cluster1"],
vmGroupId: data.vcd_vm_group.vm_group_example.id,
}],
});
import pulumi
import pulumi_vcd as vcd
example_vgpu_policy_without_sizing = vcd.VmVgpuPolicy("exampleVgpuPolicyWithoutSizing",
description="An example vGPU policy configuration",
vgpu_profile={
"id": data["vcd_vgpu_profile"]["example_vgpu_profile"]["id"],
"count": 1,
},
provider_vdc_scopes=[{
"provider_vdc_id": data["vcd_provider_vdc"]["example_provider_vdc"]["id"],
"cluster_names": ["cluster1"],
"vm_group_id": data["vcd_vm_group"]["vm_group_example"]["id"],
}])
package main
import (
"github.com/pulumi/pulumi-terraform-provider/sdks/go/vcd/v3/vcd"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
_, err := vcd.NewVmVgpuPolicy(ctx, "exampleVgpuPolicyWithoutSizing", &vcd.VmVgpuPolicyArgs{
Description: pulumi.String("An example vGPU policy configuration"),
VgpuProfile: &vcd.VmVgpuPolicyVgpuProfileArgs{
Id: pulumi.Any(data.Vcd_vgpu_profile.Example_vgpu_profile.Id),
Count: pulumi.Float64(1),
},
ProviderVdcScopes: vcd.VmVgpuPolicyProviderVdcScopeArray{
&vcd.VmVgpuPolicyProviderVdcScopeArgs{
ProviderVdcId: pulumi.Any(data.Vcd_provider_vdc.Example_provider_vdc.Id),
ClusterNames: pulumi.StringArray{
pulumi.String("cluster1"),
},
VmGroupId: pulumi.Any(data.Vcd_vm_group.Vm_group_example.Id),
},
},
})
if err != nil {
return err
}
return nil
})
}
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Vcd = Pulumi.Vcd;
return await Deployment.RunAsync(() =>
{
var exampleVgpuPolicyWithoutSizing = new Vcd.VmVgpuPolicy("exampleVgpuPolicyWithoutSizing", new()
{
Description = "An example vGPU policy configuration",
VgpuProfile = new Vcd.Inputs.VmVgpuPolicyVgpuProfileArgs
{
Id = data.Vcd_vgpu_profile.Example_vgpu_profile.Id,
Count = 1,
},
ProviderVdcScopes = new[]
{
new Vcd.Inputs.VmVgpuPolicyProviderVdcScopeArgs
{
ProviderVdcId = data.Vcd_provider_vdc.Example_provider_vdc.Id,
ClusterNames = new[]
{
"cluster1",
},
VmGroupId = data.Vcd_vm_group.Vm_group_example.Id,
},
},
});
});
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.vcd.VmVgpuPolicy;
import com.pulumi.vcd.VmVgpuPolicyArgs;
import com.pulumi.vcd.inputs.VmVgpuPolicyVgpuProfileArgs;
import com.pulumi.vcd.inputs.VmVgpuPolicyProviderVdcScopeArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;
public class App {
public static void main(String[] args) {
Pulumi.run(App::stack);
}
public static void stack(Context ctx) {
var exampleVgpuPolicyWithoutSizing = new VmVgpuPolicy("exampleVgpuPolicyWithoutSizing", VmVgpuPolicyArgs.builder()
.description("An example vGPU policy configuration")
.vgpuProfile(VmVgpuPolicyVgpuProfileArgs.builder()
.id(data.vcd_vgpu_profile().example_vgpu_profile().id())
.count(1)
.build())
.providerVdcScopes(VmVgpuPolicyProviderVdcScopeArgs.builder()
.providerVdcId(data.vcd_provider_vdc().example_provider_vdc().id())
.clusterNames("cluster1")
.vmGroupId(data.vcd_vm_group().vm_group_example().id())
.build())
.build());
}
}
resources:
exampleVgpuPolicyWithoutSizing:
type: vcd:VmVgpuPolicy
properties:
description: An example vGPU policy configuration
vgpuProfile:
id: ${data.vcd_vgpu_profile.example_vgpu_profile.id}
count: 1
providerVdcScopes:
- providerVdcId: ${data.vcd_provider_vdc.example_provider_vdc.id}
clusterNames:
- cluster1
vmGroupId: ${data.vcd_vm_group.vm_group_example.id}
Create VmVgpuPolicy Resource
Resources are created with functions called constructors. To learn more about declaring and configuring resources, see Resources.
Constructor syntax
new VmVgpuPolicy(name: string, args: VmVgpuPolicyArgs, opts?: CustomResourceOptions);@overload
def VmVgpuPolicy(resource_name: str,
args: VmVgpuPolicyArgs,
opts: Optional[ResourceOptions] = None)
@overload
def VmVgpuPolicy(resource_name: str,
opts: Optional[ResourceOptions] = None,
vgpu_profile: Optional[VmVgpuPolicyVgpuProfileArgs] = None,
cpu: Optional[VmVgpuPolicyCpuArgs] = None,
description: Optional[str] = None,
memory: Optional[VmVgpuPolicyMemoryArgs] = None,
name: Optional[str] = None,
provider_vdc_scopes: Optional[Sequence[VmVgpuPolicyProviderVdcScopeArgs]] = None,
vm_vgpu_policy_id: Optional[str] = None)func NewVmVgpuPolicy(ctx *Context, name string, args VmVgpuPolicyArgs, opts ...ResourceOption) (*VmVgpuPolicy, error)public VmVgpuPolicy(string name, VmVgpuPolicyArgs args, CustomResourceOptions? opts = null)
public VmVgpuPolicy(String name, VmVgpuPolicyArgs args)
public VmVgpuPolicy(String name, VmVgpuPolicyArgs args, CustomResourceOptions options)
type: vcd:VmVgpuPolicy
properties: # The arguments to resource properties.
options: # Bag of options to control resource's behavior.
Parameters
- name string
- The unique name of the resource.
- args VmVgpuPolicyArgs
- The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- resource_name str
- The unique name of the resource.
- args VmVgpuPolicyArgs
- The arguments to resource properties.
- opts ResourceOptions
- Bag of options to control resource's behavior.
- ctx Context
- Context object for the current deployment.
- name string
- The unique name of the resource.
- args VmVgpuPolicyArgs
- The arguments to resource properties.
- opts ResourceOption
- Bag of options to control resource's behavior.
- name string
- The unique name of the resource.
- args VmVgpuPolicyArgs
- The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- name String
- The unique name of the resource.
- args VmVgpuPolicyArgs
- The arguments to resource properties.
- options CustomResourceOptions
- Bag of options to control resource's behavior.
Constructor example
The following reference example uses placeholder values for all input properties.
var vmVgpuPolicyResource = new Vcd.VmVgpuPolicy("vmVgpuPolicyResource", new()
{
VgpuProfile = new Vcd.Inputs.VmVgpuPolicyVgpuProfileArgs
{
Count = 0,
Id = "string",
},
Cpu = new Vcd.Inputs.VmVgpuPolicyCpuArgs
{
CoresPerSocket = "string",
Count = "string",
LimitInMhz = "string",
ReservationGuarantee = "string",
Shares = "string",
SpeedInMhz = "string",
},
Description = "string",
Memory = new Vcd.Inputs.VmVgpuPolicyMemoryArgs
{
LimitInMb = "string",
ReservationGuarantee = "string",
Shares = "string",
SizeInMb = "string",
},
Name = "string",
ProviderVdcScopes = new[]
{
new Vcd.Inputs.VmVgpuPolicyProviderVdcScopeArgs
{
ProviderVdcId = "string",
ClusterNames = new[]
{
"string",
},
VmGroupId = "string",
},
},
VmVgpuPolicyId = "string",
});
example, err := vcd.NewVmVgpuPolicy(ctx, "vmVgpuPolicyResource", &vcd.VmVgpuPolicyArgs{
VgpuProfile: &vcd.VmVgpuPolicyVgpuProfileArgs{
Count: pulumi.Float64(0),
Id: pulumi.String("string"),
},
Cpu: &vcd.VmVgpuPolicyCpuArgs{
CoresPerSocket: pulumi.String("string"),
Count: pulumi.String("string"),
LimitInMhz: pulumi.String("string"),
ReservationGuarantee: pulumi.String("string"),
Shares: pulumi.String("string"),
SpeedInMhz: pulumi.String("string"),
},
Description: pulumi.String("string"),
Memory: &vcd.VmVgpuPolicyMemoryArgs{
LimitInMb: pulumi.String("string"),
ReservationGuarantee: pulumi.String("string"),
Shares: pulumi.String("string"),
SizeInMb: pulumi.String("string"),
},
Name: pulumi.String("string"),
ProviderVdcScopes: vcd.VmVgpuPolicyProviderVdcScopeArray{
&vcd.VmVgpuPolicyProviderVdcScopeArgs{
ProviderVdcId: pulumi.String("string"),
ClusterNames: pulumi.StringArray{
pulumi.String("string"),
},
VmGroupId: pulumi.String("string"),
},
},
VmVgpuPolicyId: pulumi.String("string"),
})
var vmVgpuPolicyResource = new VmVgpuPolicy("vmVgpuPolicyResource", VmVgpuPolicyArgs.builder()
.vgpuProfile(VmVgpuPolicyVgpuProfileArgs.builder()
.count(0)
.id("string")
.build())
.cpu(VmVgpuPolicyCpuArgs.builder()
.coresPerSocket("string")
.count("string")
.limitInMhz("string")
.reservationGuarantee("string")
.shares("string")
.speedInMhz("string")
.build())
.description("string")
.memory(VmVgpuPolicyMemoryArgs.builder()
.limitInMb("string")
.reservationGuarantee("string")
.shares("string")
.sizeInMb("string")
.build())
.name("string")
.providerVdcScopes(VmVgpuPolicyProviderVdcScopeArgs.builder()
.providerVdcId("string")
.clusterNames("string")
.vmGroupId("string")
.build())
.vmVgpuPolicyId("string")
.build());
vm_vgpu_policy_resource = vcd.VmVgpuPolicy("vmVgpuPolicyResource",
vgpu_profile={
"count": 0,
"id": "string",
},
cpu={
"cores_per_socket": "string",
"count": "string",
"limit_in_mhz": "string",
"reservation_guarantee": "string",
"shares": "string",
"speed_in_mhz": "string",
},
description="string",
memory={
"limit_in_mb": "string",
"reservation_guarantee": "string",
"shares": "string",
"size_in_mb": "string",
},
name="string",
provider_vdc_scopes=[{
"provider_vdc_id": "string",
"cluster_names": ["string"],
"vm_group_id": "string",
}],
vm_vgpu_policy_id="string")
const vmVgpuPolicyResource = new vcd.VmVgpuPolicy("vmVgpuPolicyResource", {
vgpuProfile: {
count: 0,
id: "string",
},
cpu: {
coresPerSocket: "string",
count: "string",
limitInMhz: "string",
reservationGuarantee: "string",
shares: "string",
speedInMhz: "string",
},
description: "string",
memory: {
limitInMb: "string",
reservationGuarantee: "string",
shares: "string",
sizeInMb: "string",
},
name: "string",
providerVdcScopes: [{
providerVdcId: "string",
clusterNames: ["string"],
vmGroupId: "string",
}],
vmVgpuPolicyId: "string",
});
type: vcd:VmVgpuPolicy
properties:
cpu:
coresPerSocket: string
count: string
limitInMhz: string
reservationGuarantee: string
shares: string
speedInMhz: string
description: string
memory:
limitInMb: string
reservationGuarantee: string
shares: string
sizeInMb: string
name: string
providerVdcScopes:
- clusterNames:
- string
providerVdcId: string
vmGroupId: string
vgpuProfile:
count: 0
id: string
vmVgpuPolicyId: string
VmVgpuPolicy Resource Properties
To learn more about resource properties and how to use them, see Inputs and Outputs in the Architecture and Concepts docs.
Inputs
In Python, inputs that are objects can be passed either as argument classes or as dictionary literals.
The VmVgpuPolicy resource accepts the following input properties:
- Vgpu
Profile VmVgpu Policy Vgpu Profile - Defines the vGPU profile ID and count.
- Cpu
Vm
Vgpu Policy Cpu - Configuration options for CPU resources. If this is set, a VM created with this policy can't specify a custom sizing policy. See [cpu] for more details.
- Description string
- A brief description of the vGPU policy.
- Memory
Vm
Vgpu Policy Memory - Memory resource configuration settings. If this is set, a VM created with this policy can't specify a custom sizing policy. See [memory] for more details.
- Name string
- The unique name assigned to the vGPU policy for a virtual machine.
- Provider
Vdc List<VmScopes Vgpu Policy Provider Vdc Scope> - Defines the scope of the policy within
provider virtual data centers. If not provided, applies to all the current ant future PVDCs.
See
provider_vdc_scopefor more details. - Vm
Vgpu stringPolicy Id
- Vgpu
Profile VmVgpu Policy Vgpu Profile Args - Defines the vGPU profile ID and count.
- Cpu
Vm
Vgpu Policy Cpu Args - Configuration options for CPU resources. If this is set, a VM created with this policy can't specify a custom sizing policy. See [cpu] for more details.
- Description string
- A brief description of the vGPU policy.
- Memory
Vm
Vgpu Policy Memory Args - Memory resource configuration settings. If this is set, a VM created with this policy can't specify a custom sizing policy. See [memory] for more details.
- Name string
- The unique name assigned to the vGPU policy for a virtual machine.
- Provider
Vdc []VmScopes Vgpu Policy Provider Vdc Scope Args - Defines the scope of the policy within
provider virtual data centers. If not provided, applies to all the current ant future PVDCs.
See
provider_vdc_scopefor more details. - Vm
Vgpu stringPolicy Id
- vgpu
Profile VmVgpu Policy Vgpu Profile - Defines the vGPU profile ID and count.
- cpu
Vm
Vgpu Policy Cpu - Configuration options for CPU resources. If this is set, a VM created with this policy can't specify a custom sizing policy. See [cpu] for more details.
- description String
- A brief description of the vGPU policy.
- memory
Vm
Vgpu Policy Memory - Memory resource configuration settings. If this is set, a VM created with this policy can't specify a custom sizing policy. See [memory] for more details.
- name String
- The unique name assigned to the vGPU policy for a virtual machine.
- provider
Vdc List<VmScopes Vgpu Policy Provider Vdc Scope> - Defines the scope of the policy within
provider virtual data centers. If not provided, applies to all the current ant future PVDCs.
See
provider_vdc_scopefor more details. - vm
Vgpu StringPolicy Id
- vgpu
Profile VmVgpu Policy Vgpu Profile - Defines the vGPU profile ID and count.
- cpu
Vm
Vgpu Policy Cpu - Configuration options for CPU resources. If this is set, a VM created with this policy can't specify a custom sizing policy. See [cpu] for more details.
- description string
- A brief description of the vGPU policy.
- memory
Vm
Vgpu Policy Memory - Memory resource configuration settings. If this is set, a VM created with this policy can't specify a custom sizing policy. See [memory] for more details.
- name string
- The unique name assigned to the vGPU policy for a virtual machine.
- provider
Vdc VmScopes Vgpu Policy Provider Vdc Scope[] - Defines the scope of the policy within
provider virtual data centers. If not provided, applies to all the current ant future PVDCs.
See
provider_vdc_scopefor more details. - vm
Vgpu stringPolicy Id
- vgpu_
profile VmVgpu Policy Vgpu Profile Args - Defines the vGPU profile ID and count.
- cpu
Vm
Vgpu Policy Cpu Args - Configuration options for CPU resources. If this is set, a VM created with this policy can't specify a custom sizing policy. See [cpu] for more details.
- description str
- A brief description of the vGPU policy.
- memory
Vm
Vgpu Policy Memory Args - Memory resource configuration settings. If this is set, a VM created with this policy can't specify a custom sizing policy. See [memory] for more details.
- name str
- The unique name assigned to the vGPU policy for a virtual machine.
- provider_
vdc_ Sequence[Vmscopes Vgpu Policy Provider Vdc Scope Args] - Defines the scope of the policy within
provider virtual data centers. If not provided, applies to all the current ant future PVDCs.
See
provider_vdc_scopefor more details. - vm_
vgpu_ strpolicy_ id
- vgpu
Profile Property Map - Defines the vGPU profile ID and count.
- cpu Property Map
- Configuration options for CPU resources. If this is set, a VM created with this policy can't specify a custom sizing policy. See [cpu] for more details.
- description String
- A brief description of the vGPU policy.
- memory Property Map
- Memory resource configuration settings. If this is set, a VM created with this policy can't specify a custom sizing policy. See [memory] for more details.
- name String
- The unique name assigned to the vGPU policy for a virtual machine.
- provider
Vdc List<Property Map>Scopes - Defines the scope of the policy within
provider virtual data centers. If not provided, applies to all the current ant future PVDCs.
See
provider_vdc_scopefor more details. - vm
Vgpu StringPolicy Id
Outputs
All input properties are implicitly available as output properties. Additionally, the VmVgpuPolicy resource produces the following output properties:
- Id string
- The provider-assigned unique ID for this managed resource.
- Id string
- The provider-assigned unique ID for this managed resource.
- id String
- The provider-assigned unique ID for this managed resource.
- id string
- The provider-assigned unique ID for this managed resource.
- id str
- The provider-assigned unique ID for this managed resource.
- id String
- The provider-assigned unique ID for this managed resource.
Look up Existing VmVgpuPolicy Resource
Get an existing VmVgpuPolicy resource’s state with the given name, ID, and optional extra properties used to qualify the lookup.
public static get(name: string, id: Input<ID>, state?: VmVgpuPolicyState, opts?: CustomResourceOptions): VmVgpuPolicy@staticmethod
def get(resource_name: str,
id: str,
opts: Optional[ResourceOptions] = None,
cpu: Optional[VmVgpuPolicyCpuArgs] = None,
description: Optional[str] = None,
memory: Optional[VmVgpuPolicyMemoryArgs] = None,
name: Optional[str] = None,
provider_vdc_scopes: Optional[Sequence[VmVgpuPolicyProviderVdcScopeArgs]] = None,
vgpu_profile: Optional[VmVgpuPolicyVgpuProfileArgs] = None,
vm_vgpu_policy_id: Optional[str] = None) -> VmVgpuPolicyfunc GetVmVgpuPolicy(ctx *Context, name string, id IDInput, state *VmVgpuPolicyState, opts ...ResourceOption) (*VmVgpuPolicy, error)public static VmVgpuPolicy Get(string name, Input<string> id, VmVgpuPolicyState? state, CustomResourceOptions? opts = null)public static VmVgpuPolicy get(String name, Output<String> id, VmVgpuPolicyState state, CustomResourceOptions options)resources: _: type: vcd:VmVgpuPolicy get: id: ${id}- name
- The unique name of the resulting resource.
- id
- The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
- resource_name
- The unique name of the resulting resource.
- id
- The unique provider ID of the resource to lookup.
- name
- The unique name of the resulting resource.
- id
- The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
- name
- The unique name of the resulting resource.
- id
- The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
- name
- The unique name of the resulting resource.
- id
- The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
- Cpu
Vm
Vgpu Policy Cpu - Configuration options for CPU resources. If this is set, a VM created with this policy can't specify a custom sizing policy. See [cpu] for more details.
- Description string
- A brief description of the vGPU policy.
- Memory
Vm
Vgpu Policy Memory - Memory resource configuration settings. If this is set, a VM created with this policy can't specify a custom sizing policy. See [memory] for more details.
- Name string
- The unique name assigned to the vGPU policy for a virtual machine.
- Provider
Vdc List<VmScopes Vgpu Policy Provider Vdc Scope> - Defines the scope of the policy within
provider virtual data centers. If not provided, applies to all the current ant future PVDCs.
See
provider_vdc_scopefor more details. - Vgpu
Profile VmVgpu Policy Vgpu Profile - Defines the vGPU profile ID and count.
- Vm
Vgpu stringPolicy Id
- Cpu
Vm
Vgpu Policy Cpu Args - Configuration options for CPU resources. If this is set, a VM created with this policy can't specify a custom sizing policy. See [cpu] for more details.
- Description string
- A brief description of the vGPU policy.
- Memory
Vm
Vgpu Policy Memory Args - Memory resource configuration settings. If this is set, a VM created with this policy can't specify a custom sizing policy. See [memory] for more details.
- Name string
- The unique name assigned to the vGPU policy for a virtual machine.
- Provider
Vdc []VmScopes Vgpu Policy Provider Vdc Scope Args - Defines the scope of the policy within
provider virtual data centers. If not provided, applies to all the current ant future PVDCs.
See
provider_vdc_scopefor more details. - Vgpu
Profile VmVgpu Policy Vgpu Profile Args - Defines the vGPU profile ID and count.
- Vm
Vgpu stringPolicy Id
- cpu
Vm
Vgpu Policy Cpu - Configuration options for CPU resources. If this is set, a VM created with this policy can't specify a custom sizing policy. See [cpu] for more details.
- description String
- A brief description of the vGPU policy.
- memory
Vm
Vgpu Policy Memory - Memory resource configuration settings. If this is set, a VM created with this policy can't specify a custom sizing policy. See [memory] for more details.
- name String
- The unique name assigned to the vGPU policy for a virtual machine.
- provider
Vdc List<VmScopes Vgpu Policy Provider Vdc Scope> - Defines the scope of the policy within
provider virtual data centers. If not provided, applies to all the current ant future PVDCs.
See
provider_vdc_scopefor more details. - vgpu
Profile VmVgpu Policy Vgpu Profile - Defines the vGPU profile ID and count.
- vm
Vgpu StringPolicy Id
- cpu
Vm
Vgpu Policy Cpu - Configuration options for CPU resources. If this is set, a VM created with this policy can't specify a custom sizing policy. See [cpu] for more details.
- description string
- A brief description of the vGPU policy.
- memory
Vm
Vgpu Policy Memory - Memory resource configuration settings. If this is set, a VM created with this policy can't specify a custom sizing policy. See [memory] for more details.
- name string
- The unique name assigned to the vGPU policy for a virtual machine.
- provider
Vdc VmScopes Vgpu Policy Provider Vdc Scope[] - Defines the scope of the policy within
provider virtual data centers. If not provided, applies to all the current ant future PVDCs.
See
provider_vdc_scopefor more details. - vgpu
Profile VmVgpu Policy Vgpu Profile - Defines the vGPU profile ID and count.
- vm
Vgpu stringPolicy Id
- cpu
Vm
Vgpu Policy Cpu Args - Configuration options for CPU resources. If this is set, a VM created with this policy can't specify a custom sizing policy. See [cpu] for more details.
- description str
- A brief description of the vGPU policy.
- memory
Vm
Vgpu Policy Memory Args - Memory resource configuration settings. If this is set, a VM created with this policy can't specify a custom sizing policy. See [memory] for more details.
- name str
- The unique name assigned to the vGPU policy for a virtual machine.
- provider_
vdc_ Sequence[Vmscopes Vgpu Policy Provider Vdc Scope Args] - Defines the scope of the policy within
provider virtual data centers. If not provided, applies to all the current ant future PVDCs.
See
provider_vdc_scopefor more details. - vgpu_
profile VmVgpu Policy Vgpu Profile Args - Defines the vGPU profile ID and count.
- vm_
vgpu_ strpolicy_ id
- cpu Property Map
- Configuration options for CPU resources. If this is set, a VM created with this policy can't specify a custom sizing policy. See [cpu] for more details.
- description String
- A brief description of the vGPU policy.
- memory Property Map
- Memory resource configuration settings. If this is set, a VM created with this policy can't specify a custom sizing policy. See [memory] for more details.
- name String
- The unique name assigned to the vGPU policy for a virtual machine.
- provider
Vdc List<Property Map>Scopes - Defines the scope of the policy within
provider virtual data centers. If not provided, applies to all the current ant future PVDCs.
See
provider_vdc_scopefor more details. - vgpu
Profile Property Map - Defines the vGPU profile ID and count.
- vm
Vgpu StringPolicy Id
Supporting Types
VmVgpuPolicyCpu, VmVgpuPolicyCpuArgs
- Cores
Per stringSocket - The number of cores per socket for a VM. This is a VM hardware configuration. The number of vCPUs that is defined in the VM sizing policy must be divisible by the number of cores per socket. If the number of vCPUs is not divisible by the number of cores per socket, the number of cores per socket becomes invalid.
- Count string
- Defines the number of vCPUs configured for a VM. This is a VM hardware configuration. When a tenant assigns the VM sizing policy to a VM, this count becomes the configured number of vCPUs for the VM.
- Limit
In stringMhz - Defines the CPU limit in MHz for a VM. If not defined in the VDC compute policy, CPU limit is equal to the vCPU speed multiplied by the number of vCPUs. -1 means unlimited
- Reservation
Guarantee string - Defines how much of the CPU resources of a VM are reserved. The allocated CPU for a VM equals the number of vCPUs times the vCPU speed in MHz. The value of the attribute ranges between 0 and one. Value of 0 CPU reservation guarantee defines no CPU reservation. Value of 1 defines 100% of CPU reserved.
- string
- Defines the number of CPU shares for a VM. Shares specify the relative importance of a VM within a virtual data center. If a VM has twice as many shares of CPU as another VM, it is entitled to consume twice as much CPU when these two virtual machines are competing for resources. If not defined in the VDC compute policy, normal shares are applied to the VM.
- Speed
In stringMhz - Defines the vCPU speed of a core in MHz.
- Cores
Per stringSocket - The number of cores per socket for a VM. This is a VM hardware configuration. The number of vCPUs that is defined in the VM sizing policy must be divisible by the number of cores per socket. If the number of vCPUs is not divisible by the number of cores per socket, the number of cores per socket becomes invalid.
- Count string
- Defines the number of vCPUs configured for a VM. This is a VM hardware configuration. When a tenant assigns the VM sizing policy to a VM, this count becomes the configured number of vCPUs for the VM.
- Limit
In stringMhz - Defines the CPU limit in MHz for a VM. If not defined in the VDC compute policy, CPU limit is equal to the vCPU speed multiplied by the number of vCPUs. -1 means unlimited
- Reservation
Guarantee string - Defines how much of the CPU resources of a VM are reserved. The allocated CPU for a VM equals the number of vCPUs times the vCPU speed in MHz. The value of the attribute ranges between 0 and one. Value of 0 CPU reservation guarantee defines no CPU reservation. Value of 1 defines 100% of CPU reserved.
- string
- Defines the number of CPU shares for a VM. Shares specify the relative importance of a VM within a virtual data center. If a VM has twice as many shares of CPU as another VM, it is entitled to consume twice as much CPU when these two virtual machines are competing for resources. If not defined in the VDC compute policy, normal shares are applied to the VM.
- Speed
In stringMhz - Defines the vCPU speed of a core in MHz.
- cores
Per StringSocket - The number of cores per socket for a VM. This is a VM hardware configuration. The number of vCPUs that is defined in the VM sizing policy must be divisible by the number of cores per socket. If the number of vCPUs is not divisible by the number of cores per socket, the number of cores per socket becomes invalid.
- count String
- Defines the number of vCPUs configured for a VM. This is a VM hardware configuration. When a tenant assigns the VM sizing policy to a VM, this count becomes the configured number of vCPUs for the VM.
- limit
In StringMhz - Defines the CPU limit in MHz for a VM. If not defined in the VDC compute policy, CPU limit is equal to the vCPU speed multiplied by the number of vCPUs. -1 means unlimited
- reservation
Guarantee String - Defines how much of the CPU resources of a VM are reserved. The allocated CPU for a VM equals the number of vCPUs times the vCPU speed in MHz. The value of the attribute ranges between 0 and one. Value of 0 CPU reservation guarantee defines no CPU reservation. Value of 1 defines 100% of CPU reserved.
- String
- Defines the number of CPU shares for a VM. Shares specify the relative importance of a VM within a virtual data center. If a VM has twice as many shares of CPU as another VM, it is entitled to consume twice as much CPU when these two virtual machines are competing for resources. If not defined in the VDC compute policy, normal shares are applied to the VM.
- speed
In StringMhz - Defines the vCPU speed of a core in MHz.
- cores
Per stringSocket - The number of cores per socket for a VM. This is a VM hardware configuration. The number of vCPUs that is defined in the VM sizing policy must be divisible by the number of cores per socket. If the number of vCPUs is not divisible by the number of cores per socket, the number of cores per socket becomes invalid.
- count string
- Defines the number of vCPUs configured for a VM. This is a VM hardware configuration. When a tenant assigns the VM sizing policy to a VM, this count becomes the configured number of vCPUs for the VM.
- limit
In stringMhz - Defines the CPU limit in MHz for a VM. If not defined in the VDC compute policy, CPU limit is equal to the vCPU speed multiplied by the number of vCPUs. -1 means unlimited
- reservation
Guarantee string - Defines how much of the CPU resources of a VM are reserved. The allocated CPU for a VM equals the number of vCPUs times the vCPU speed in MHz. The value of the attribute ranges between 0 and one. Value of 0 CPU reservation guarantee defines no CPU reservation. Value of 1 defines 100% of CPU reserved.
- string
- Defines the number of CPU shares for a VM. Shares specify the relative importance of a VM within a virtual data center. If a VM has twice as many shares of CPU as another VM, it is entitled to consume twice as much CPU when these two virtual machines are competing for resources. If not defined in the VDC compute policy, normal shares are applied to the VM.
- speed
In stringMhz - Defines the vCPU speed of a core in MHz.
- cores_
per_ strsocket - The number of cores per socket for a VM. This is a VM hardware configuration. The number of vCPUs that is defined in the VM sizing policy must be divisible by the number of cores per socket. If the number of vCPUs is not divisible by the number of cores per socket, the number of cores per socket becomes invalid.
- count str
- Defines the number of vCPUs configured for a VM. This is a VM hardware configuration. When a tenant assigns the VM sizing policy to a VM, this count becomes the configured number of vCPUs for the VM.
- limit_
in_ strmhz - Defines the CPU limit in MHz for a VM. If not defined in the VDC compute policy, CPU limit is equal to the vCPU speed multiplied by the number of vCPUs. -1 means unlimited
- reservation_
guarantee str - Defines how much of the CPU resources of a VM are reserved. The allocated CPU for a VM equals the number of vCPUs times the vCPU speed in MHz. The value of the attribute ranges between 0 and one. Value of 0 CPU reservation guarantee defines no CPU reservation. Value of 1 defines 100% of CPU reserved.
- str
- Defines the number of CPU shares for a VM. Shares specify the relative importance of a VM within a virtual data center. If a VM has twice as many shares of CPU as another VM, it is entitled to consume twice as much CPU when these two virtual machines are competing for resources. If not defined in the VDC compute policy, normal shares are applied to the VM.
- speed_
in_ strmhz - Defines the vCPU speed of a core in MHz.
- cores
Per StringSocket - The number of cores per socket for a VM. This is a VM hardware configuration. The number of vCPUs that is defined in the VM sizing policy must be divisible by the number of cores per socket. If the number of vCPUs is not divisible by the number of cores per socket, the number of cores per socket becomes invalid.
- count String
- Defines the number of vCPUs configured for a VM. This is a VM hardware configuration. When a tenant assigns the VM sizing policy to a VM, this count becomes the configured number of vCPUs for the VM.
- limit
In StringMhz - Defines the CPU limit in MHz for a VM. If not defined in the VDC compute policy, CPU limit is equal to the vCPU speed multiplied by the number of vCPUs. -1 means unlimited
- reservation
Guarantee String - Defines how much of the CPU resources of a VM are reserved. The allocated CPU for a VM equals the number of vCPUs times the vCPU speed in MHz. The value of the attribute ranges between 0 and one. Value of 0 CPU reservation guarantee defines no CPU reservation. Value of 1 defines 100% of CPU reserved.
- String
- Defines the number of CPU shares for a VM. Shares specify the relative importance of a VM within a virtual data center. If a VM has twice as many shares of CPU as another VM, it is entitled to consume twice as much CPU when these two virtual machines are competing for resources. If not defined in the VDC compute policy, normal shares are applied to the VM.
- speed
In StringMhz - Defines the vCPU speed of a core in MHz.
VmVgpuPolicyMemory, VmVgpuPolicyMemoryArgs
- Limit
In stringMb - Defines the memory limit in MB for a VM. If not defined in the VM sizing policy, memory limit is equal to the allocated memory for the VM.
- Reservation
Guarantee string - Defines the reserved amount of memory that is configured for a VM. The value of the attribute ranges between 0 and one. Value of 0 memory reservation guarantee defines no memory reservation. Value of 1 defines 100% of memory reserved.
- string
- Defines the number of memory shares for a VM. Shares specify the relative importance of a VM within a virtual data center. If a VM has twice as many shares of memory as another VM, it is entitled to consume twice as much memory when these two virtual machines are competing for resources. If not defined in the VDC compute policy, normal shares are applied to the VM.
- Size
In stringMb - Defines the memory configured for a VM in MB. This is a VM hardware configuration. When a tenant assigns the VM sizing policy to a VM, the VM receives the amount of memory defined by this attribute.
- Limit
In stringMb - Defines the memory limit in MB for a VM. If not defined in the VM sizing policy, memory limit is equal to the allocated memory for the VM.
- Reservation
Guarantee string - Defines the reserved amount of memory that is configured for a VM. The value of the attribute ranges between 0 and one. Value of 0 memory reservation guarantee defines no memory reservation. Value of 1 defines 100% of memory reserved.
- string
- Defines the number of memory shares for a VM. Shares specify the relative importance of a VM within a virtual data center. If a VM has twice as many shares of memory as another VM, it is entitled to consume twice as much memory when these two virtual machines are competing for resources. If not defined in the VDC compute policy, normal shares are applied to the VM.
- Size
In stringMb - Defines the memory configured for a VM in MB. This is a VM hardware configuration. When a tenant assigns the VM sizing policy to a VM, the VM receives the amount of memory defined by this attribute.
- limit
In StringMb - Defines the memory limit in MB for a VM. If not defined in the VM sizing policy, memory limit is equal to the allocated memory for the VM.
- reservation
Guarantee String - Defines the reserved amount of memory that is configured for a VM. The value of the attribute ranges between 0 and one. Value of 0 memory reservation guarantee defines no memory reservation. Value of 1 defines 100% of memory reserved.
- String
- Defines the number of memory shares for a VM. Shares specify the relative importance of a VM within a virtual data center. If a VM has twice as many shares of memory as another VM, it is entitled to consume twice as much memory when these two virtual machines are competing for resources. If not defined in the VDC compute policy, normal shares are applied to the VM.
- size
In StringMb - Defines the memory configured for a VM in MB. This is a VM hardware configuration. When a tenant assigns the VM sizing policy to a VM, the VM receives the amount of memory defined by this attribute.
- limit
In stringMb - Defines the memory limit in MB for a VM. If not defined in the VM sizing policy, memory limit is equal to the allocated memory for the VM.
- reservation
Guarantee string - Defines the reserved amount of memory that is configured for a VM. The value of the attribute ranges between 0 and one. Value of 0 memory reservation guarantee defines no memory reservation. Value of 1 defines 100% of memory reserved.
- string
- Defines the number of memory shares for a VM. Shares specify the relative importance of a VM within a virtual data center. If a VM has twice as many shares of memory as another VM, it is entitled to consume twice as much memory when these two virtual machines are competing for resources. If not defined in the VDC compute policy, normal shares are applied to the VM.
- size
In stringMb - Defines the memory configured for a VM in MB. This is a VM hardware configuration. When a tenant assigns the VM sizing policy to a VM, the VM receives the amount of memory defined by this attribute.
- limit_
in_ strmb - Defines the memory limit in MB for a VM. If not defined in the VM sizing policy, memory limit is equal to the allocated memory for the VM.
- reservation_
guarantee str - Defines the reserved amount of memory that is configured for a VM. The value of the attribute ranges between 0 and one. Value of 0 memory reservation guarantee defines no memory reservation. Value of 1 defines 100% of memory reserved.
- str
- Defines the number of memory shares for a VM. Shares specify the relative importance of a VM within a virtual data center. If a VM has twice as many shares of memory as another VM, it is entitled to consume twice as much memory when these two virtual machines are competing for resources. If not defined in the VDC compute policy, normal shares are applied to the VM.
- size_
in_ strmb - Defines the memory configured for a VM in MB. This is a VM hardware configuration. When a tenant assigns the VM sizing policy to a VM, the VM receives the amount of memory defined by this attribute.
- limit
In StringMb - Defines the memory limit in MB for a VM. If not defined in the VM sizing policy, memory limit is equal to the allocated memory for the VM.
- reservation
Guarantee String - Defines the reserved amount of memory that is configured for a VM. The value of the attribute ranges between 0 and one. Value of 0 memory reservation guarantee defines no memory reservation. Value of 1 defines 100% of memory reserved.
- String
- Defines the number of memory shares for a VM. Shares specify the relative importance of a VM within a virtual data center. If a VM has twice as many shares of memory as another VM, it is entitled to consume twice as much memory when these two virtual machines are competing for resources. If not defined in the VDC compute policy, normal shares are applied to the VM.
- size
In StringMb - Defines the memory configured for a VM in MB. This is a VM hardware configuration. When a tenant assigns the VM sizing policy to a VM, the VM receives the amount of memory defined by this attribute.
VmVgpuPolicyProviderVdcScope, VmVgpuPolicyProviderVdcScopeArgs
- Provider
Vdc stringId - The ID of the provider VDC that should be in the scope.
- Cluster
Names List<string> - A set of vCenter cluster names on which the provider VDC is hosted.
If none are provided, the provider attempts to find one automatically. Can be fetched using
data.vcd_resource_pool.cluster_morefattribute. - Vm
Group stringId - Optional identifier for a VM group within the provider VDC scope.
- Provider
Vdc stringId - The ID of the provider VDC that should be in the scope.
- Cluster
Names []string - A set of vCenter cluster names on which the provider VDC is hosted.
If none are provided, the provider attempts to find one automatically. Can be fetched using
data.vcd_resource_pool.cluster_morefattribute. - Vm
Group stringId - Optional identifier for a VM group within the provider VDC scope.
- provider
Vdc StringId - The ID of the provider VDC that should be in the scope.
- cluster
Names List<String> - A set of vCenter cluster names on which the provider VDC is hosted.
If none are provided, the provider attempts to find one automatically. Can be fetched using
data.vcd_resource_pool.cluster_morefattribute. - vm
Group StringId - Optional identifier for a VM group within the provider VDC scope.
- provider
Vdc stringId - The ID of the provider VDC that should be in the scope.
- cluster
Names string[] - A set of vCenter cluster names on which the provider VDC is hosted.
If none are provided, the provider attempts to find one automatically. Can be fetched using
data.vcd_resource_pool.cluster_morefattribute. - vm
Group stringId - Optional identifier for a VM group within the provider VDC scope.
- provider_
vdc_ strid - The ID of the provider VDC that should be in the scope.
- cluster_
names Sequence[str] - A set of vCenter cluster names on which the provider VDC is hosted.
If none are provided, the provider attempts to find one automatically. Can be fetched using
data.vcd_resource_pool.cluster_morefattribute. - vm_
group_ strid - Optional identifier for a VM group within the provider VDC scope.
- provider
Vdc StringId - The ID of the provider VDC that should be in the scope.
- cluster
Names List<String> - A set of vCenter cluster names on which the provider VDC is hosted.
If none are provided, the provider attempts to find one automatically. Can be fetched using
data.vcd_resource_pool.cluster_morefattribute. - vm
Group StringId - Optional identifier for a VM group within the provider VDC scope.
VmVgpuPolicyVgpuProfile, VmVgpuPolicyVgpuProfileArgs
Package Details
- Repository
- vcd vmware/terraform-provider-vcd
- License
- Notes
- This Pulumi package is based on the
vcdTerraform Provider.