EC2 Fleet example configurations - Amazon Elastic Compute Cloud
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EC2 Fleet example configurations

The following examples show launch configurations that you can use with the create-fleet command to create an EC2 Fleet. For more information about the parameters, see create-fleet in the Amazon CLI Command Reference.

Example 1: Launch Spot Instances as the default purchasing option

The following example specifies the minimum parameters required in an EC2 Fleet: a launch template, target capacity, and default purchasing option. The launch template is identified by its launch template ID and version number. The target capacity for the fleet is 2 instances, and the default purchasing option is spot, which results in the fleet launching 2 Spot Instances.

{ "LaunchTemplateConfigs": [ { "LaunchTemplateSpecification": { "LaunchTemplateId": "lt-0e8c754449b27161c", "Version": "1" } } ], "TargetCapacitySpecification": { "TotalTargetCapacity": 2, "DefaultTargetCapacityType": "spot" } }

Example 2: Launch On-Demand Instances as the default purchasing option

The following example specifies the minimum parameters required in an EC2 Fleet: a launch template, target capacity, and default purchasing option. The launch template is identified by its launch template ID and version number. The target capacity for the fleet is 2 instances, and the default purchasing option is on-demand, which results in the fleet launching 2 On-Demand Instances.

{ "LaunchTemplateConfigs": [ { "LaunchTemplateSpecification": { "LaunchTemplateId": "lt-0e8c754449b27161c", "Version": "1" } } ], "TargetCapacitySpecification": { "TotalTargetCapacity": 2, "DefaultTargetCapacityType": "on-demand" } }

Example 3: Launch On-Demand Instances as the primary capacity

The following example specifies the total target capacity of 2 instances for the fleet, and a target capacity of 1 On-Demand Instance. The default purchasing option is spot. The fleet launches 1 On-Demand Instance as specified, but needs to launch one more instance to fulfill the total target capacity. The purchasing option for the difference is calculated as TotalTargetCapacityOnDemandTargetCapacity = DefaultTargetCapacityType, which results in the fleet launching 1 Spot Instance.

{ "LaunchTemplateConfigs": [ { "LaunchTemplateSpecification": { "LaunchTemplateId": "lt-0e8c754449b27161c", "Version": "1" } } ], "TargetCapacitySpecification": { "TotalTargetCapacity": 2, "OnDemandTargetCapacity": 1, "DefaultTargetCapacityType": "spot" } }

Example 4: Launch Spot Instances using the lowest-price allocation strategy

If the allocation strategy for Spot Instances is not specified, the default allocation strategy, which is lowest-price, is used. The following example uses the lowest-price allocation strategy. The three launch specifications, which override the launch template, have different instance types but the same weighted capacity and subnet. The total target capacity is 2 instances and the default purchasing option is spot. The EC2 Fleet launches 2 Spot Instances using the instance type of the launch specification with the lowest price.

{ "LaunchTemplateConfigs": [ { "LaunchTemplateSpecification": { "LaunchTemplateId": "lt-0e8c754449b27161c", "Version": "1" } "Overrides": [ { "InstanceType": "c4.large", "WeightedCapacity": 1, "SubnetId": "subnet-a4f6c5d3" }, { "InstanceType": "c3.large", "WeightedCapacity": 1, "SubnetId": "subnet-a4f6c5d3" }, { "InstanceType": "c5.large", "WeightedCapacity": 1, "SubnetId": "subnet-a4f6c5d3" } ] } ], "TargetCapacitySpecification": { "TotalTargetCapacity": 2, "DefaultTargetCapacityType": "spot" } }

Example 5: Launch On-Demand Instances using multiple Capacity Reservations

You can configure a fleet to use On-Demand Capacity Reservations first when launching On-Demand Instances by setting the usage strategy for Capacity Reservations to use-capacity-reservations-first. This example demonstrates how the fleet selects the Capacity Reservations to use when there are more Capacity Reservations than are needed to fulfil the target capacity.

In this example, the fleet configuration is as follows:

  • Target capacity: 12 On-Demand Instances

  • Total unused Capacity Reservations: 15 (more than the fleet's target capacity of 12 On-Demand Instances)

  • Number of Capacity Reservation pools: 3 (m5.large, m4.xlarge, and m4.2xlarge)

  • Number of Capacity Reservations per pool: 5

  • On-Demand allocation strategy: lowest-price (When there are multiple unused Capacity Reservations in multiple instance pools, the fleet determines the pools in which to launch the On-Demand Instances based on the On-Demand allocation strategy.)

    Note that you can also use the prioritized allocation strategy instead of the lowest-price allocation strategy.

Capacity Reservations

The account has the following 15 unused Capacity Reservations in 3 different pools. The number of Capacity Reservations in each pool is indicated by AvailableInstanceCount.

{ "CapacityReservationId": "cr-111", "InstanceType": "m5.large", "InstancePlatform": "Linux/UNIX", "AvailabilityZone": "us-east-1a", "AvailableInstanceCount": 5, "InstanceMatchCriteria": "open", "State": "active" } { "CapacityReservationId": "cr-222", "InstanceType": "m4.xlarge", "InstancePlatform": "Linux/UNIX", "AvailabilityZone": "us-east-1a", "AvailableInstanceCount": 5, "InstanceMatchCriteria": "open", "State": "active" } { "CapacityReservationId": "cr-333", "InstanceType": "m4.2xlarge", "InstancePlatform": "Linux/UNIX", "AvailabilityZone": "us-east-1a", "AvailableInstanceCount":5, "InstanceMatchCriteria": "open", "State": "active" }

Fleet configuration

The following fleet configuration shows only the pertinent configurations for this example. The total target capacity is 12, and the default target capacity type is on-demand. The On-Demand allocation strategy is lowest-price. The usage strategy for Capacity Reservations is use-capacity-reservations-first.

In this example, the On-Demand Instance price is:

  • m5.large – $0.096 per hour

  • m4.xlarge – $0.20 per hour

  • m4.2xlarge – $0.40 per hour

Note

The fleet type must be of type instant. Other fleet types do not support use-capacity-reservations-first.

{ "LaunchTemplateConfigs": [ { "LaunchTemplateSpecification": { "LaunchTemplateId": "lt-abc1234567example", "Version": "1" } "Overrides": [ { "InstanceType": "m5.large", "AvailabilityZone": "us-east-1a", "WeightedCapacity": 1 }, { "InstanceType": "m4.xlarge", "AvailabilityZone": "us-east-1a", "WeightedCapacity": 1 }, { "InstanceType": "m4.2xlarge", "AvailabilityZone": "us-east-1a", "WeightedCapacity": 1 } ] } ], "TargetCapacitySpecification": { "TotalTargetCapacity": 12, "DefaultTargetCapacityType": "on-demand" }, "OnDemandOptions": { "AllocationStrategy": "lowest-price" "CapacityReservationOptions": { "UsageStrategy": "use-capacity-reservations-first" } }, "Type": "instant", }

After you create the instant fleet using the preceding configuration, the following 12 instances are launched to meet the target capacity:

  • 5 m5.large On-Demand Instances in us-east-1am5.large in us-east-1a is the lowest price, and there are 5 available unused m5.large Capacity Reservations

  • 5 m4.xlarge On-Demand Instances in us-east-1a – m4.xlarge in us-east-1a is the next lowest price, and there are 5 available unused m4.xlarge Capacity Reservations

  • 2 m4.2xlarge On-Demand Instances in us-east-1a – m4.2xlarge in us-east-1a is the third lowest price, and there are 5 available unused m4.2xlarge Capacity Reservations of which only 2 are needed to meet the target capacity

After the fleet is launched, you can run describe-capacity-reservations to see how many unused Capacity Reservations are remaining. In this example, you should see the following response, which shows that all of the m5.large and m4.xlarge Capacity Reservations were used, with 3 m4.2xlarge Capacity Reservations remaining unused.

{ "CapacityReservationId": "cr-111", "InstanceType": "m5.large", "AvailableInstanceCount": 0 } { "CapacityReservationId": "cr-222", "InstanceType": "m4.xlarge", "AvailableInstanceCount": 0 } { "CapacityReservationId": "cr-333", "InstanceType": "m4.2xlarge", "AvailableInstanceCount": 3 }

Example 6: Launch On-Demand Instances using Capacity Reservations when the total target capacity exceeds the number of unused Capacity Reservations

You can configure a fleet to use On-Demand Capacity Reservations first when launching On-Demand Instances by setting the usage strategy for Capacity Reservations to use-capacity-reservations-first. This example demonstrates how the fleet selects the instance pools in which to launch On-Demand Instances when the total target capacity exceeds the number of available unused Capacity Reservations.

In this example, the fleet configuration is as follows:

  • Target capacity: 16 On-Demand Instances

  • Total unused Capacity Reservations: 15 (less than the fleet's target capacity of 16 On-Demand Instances)

  • Number of Capacity Reservation pools: 3 (m5.large, m4.xlarge, and m4.2xlarge)

  • Number of Capacity Reservations per pool: 5

  • On-Demand allocation strategy: lowest-price (When the number of unused Capacity Reservations is less than the On-Demand target capacity, the fleet determines the pools in which to launch the remaining On-Demand capacity based on the On-Demand allocation strategy.)

    Note that you can also use the prioritized allocation strategy instead of the lowest-price allocation strategy.

Capacity Reservations

The account has the following 15 unused Capacity Reservations in 3 different pools. The number of Capacity Reservations in each pool is indicated by AvailableInstanceCount.

{ "CapacityReservationId": "cr-111", "InstanceType": "m5.large", "InstancePlatform": "Linux/UNIX", "AvailabilityZone": "us-east-1a", "AvailableInstanceCount": 5, "InstanceMatchCriteria": "open", "State": "active" } { "CapacityReservationId": "cr-222", "InstanceType": "m4.xlarge", "InstancePlatform": "Linux/UNIX", "AvailabilityZone": "us-east-1a", "AvailableInstanceCount": 5, "InstanceMatchCriteria": "open", "State": "active" } { "CapacityReservationId": "cr-333", "InstanceType": "m4.2xlarge", "InstancePlatform": "Linux/UNIX", "AvailabilityZone": "us-east-1a", "AvailableInstanceCount":5, "InstanceMatchCriteria": "open", "State": "active" }

Fleet configuration

The following fleet configuration shows only the pertinent configurations for this example. The total target capacity is 16, and the default target capacity type is on-demand. The On-Demand allocation strategy is lowest-price. The usage strategy for Capacity Reservations is use-capacity-reservations-first.

In this example, the On-Demand Instance price is:

  • m5.large – $0.096 per hour

  • m4.xlarge – $0.20 per hour

  • m4.2xlarge – $0.40 per hour

Note

The fleet type must be instant. Other fleet types do not support use-capacity-reservations-first.

{ "LaunchTemplateConfigs": [ { "LaunchTemplateSpecification": { "LaunchTemplateId": "lt-0e8c754449b27161c", "Version": "1" } "Overrides": [ { "InstanceType": "m5.large", "AvailabilityZone": "us-east-1a", "WeightedCapacity": 1 }, { "InstanceType": "m4.xlarge", "AvailabilityZone": "us-east-1a", "WeightedCapacity": 1 }, { "InstanceType": "m4.2xlarge", "AvailabilityZone": "us-east-1a", "WeightedCapacity": 1 } ] } ], "TargetCapacitySpecification": { "TotalTargetCapacity": 16, "DefaultTargetCapacityType": "on-demand" }, "OnDemandOptions": { "AllocationStrategy": "lowest-price" "CapacityReservationOptions": { "UsageStrategy": "use-capacity-reservations-first" } }, "Type": "instant", }

After you create the instant fleet using the preceding configuration, the following 16 instances are launched to meet the target capacity:

  • 6 m5.large On-Demand Instances in us-east-1am5.large in us-east-1a is the lowest price, and there are 5 available unused m5.large Capacity Reservations. The Capacity Reservations are used first to launch 5 On-Demand Instances. After the remaining m4.xlarge and m4.2xlarge Capacity Reservations are used, to meet the target capacity an additional On-Demand Instance is launched according to the On-Demand allocation strategy, which is lowest-price in this example.

  • 5 m4.xlarge On-Demand Instances in us-east-1am4.xlarge in us-east-1a is the next lowest price, and there are 5 available unused m4.xlarge Capacity Reservations

  • 5 m4.2xlarge On-Demand Instances in us-east-1am4.2xlarge in us-east-1a is the third lowest price, and there are 5 available unused m4.2xlarge Capacity Reservations

After the fleet is launched, you can run describe-capacity-reservations to see how many unused Capacity Reservations are remaining. In this example, you should see the following response, which shows that all of the Capacity Reservations in all of the pools were used.

{ "CapacityReservationId": "cr-111", "InstanceType": "m5.large", "AvailableInstanceCount": 0 } { "CapacityReservationId": "cr-222", "InstanceType": "m4.xlarge", "AvailableInstanceCount": 0 } { "CapacityReservationId": "cr-333", "InstanceType": "m4.2xlarge", "AvailableInstanceCount": 0 }

Example 7: Launch On-Demand Instances using targeted Capacity Reservations

You can configure a fleet to use targeted On-Demand Capacity Reservations first when launching On-Demand Instances by setting the usage strategy for Capacity Reservations to use-capacity-reservations-first. This example demonstrates how to launch On-Demand Instances into targeted Capacity Reservations, where the attributes of the Capacity Reservations are the same except for their Availability Zones (us-east-1a and us-east-1b). It also demonstrates how the fleet selects the instance pools in which to launch On-Demand Instances when the total target capacity exceeds the number of available unused Capacity Reservations.

In this example, the fleet configuration is as follows:

  • Target capacity: 10 On-Demand Instances

  • Total unused targeted Capacity Reservations: 6 (less than the fleet's On-Demand target capacity of 10 On-Demand Instances)

  • Number of Capacity Reservation pools: 2 (us-east-1a and us-east-1b)

  • Number of Capacity Reservations per pool: 3

  • On-Demand allocation strategy: lowest-price (When the number of unused Capacity Reservations is less than the On-Demand target capacity, the fleet determines the pools in which to launch the remaining On-Demand capacity based on the On-Demand allocation strategy.)

    Note that you can also use the prioritized allocation strategy instead of the lowest-price allocation strategy.

For a walkthrough of the procedures that you must perform to accomplish this example, see Tutorial: Launch On-Demand Instances using targeted Capacity Reservations.

Capacity Reservations

The account has the following 6 unused Capacity Reservations in 2 different pools. In this example, the pools differ by their Availability Zones. The number of Capacity Reservations in each pool is indicated by AvailableInstanceCount.

{ "CapacityReservationId": "cr-111", "InstanceType": "c5.xlarge", "InstancePlatform": "Linux/UNIX", "AvailabilityZone": "us-east-1a", "AvailableInstanceCount": 3, "InstanceMatchCriteria": "open", "State": "active" } { "CapacityReservationId": "cr-222", "InstanceType": "c5.xlarge", "InstancePlatform": "Linux/UNIX", "AvailabilityZone": "us-east-1b", "AvailableInstanceCount": 3, "InstanceMatchCriteria": "open", "State": "active" }

Fleet configuration

The following fleet configuration shows only the pertinent configurations for this example. The total target capacity is 10, and the default target capacity type is on-demand. The On-Demand allocation strategy is lowest-price. The usage strategy for Capacity Reservations is use-capacity-reservations-first.

In this example, the On-Demand Instance price for c5.xlarge in us-east-1 is $0.17 per hour.

Note

The fleet type must be instant. Other fleet types do not support use-capacity-reservations-first.

{ "LaunchTemplateConfigs": [ { "LaunchTemplateSpecification": { "LaunchTemplateName": "my-launch-template", "Version": "1" }, "Overrides": [ { "InstanceType": "c5.xlarge", "AvailabilityZone": "us-east-1a" }, { "InstanceType": "c5.xlarge", "AvailabilityZone": "us-east-1b" } ] } ], "TargetCapacitySpecification": { "TotalTargetCapacity": 10, "DefaultTargetCapacityType": "on-demand" }, "OnDemandOptions": { "AllocationStrategy": "lowest-price", "CapacityReservationOptions": { "UsageStrategy": "use-capacity-reservations-first" } }, "Type": "instant" }

After you create the instant fleet using the preceding configuration, the following 10 instances are launched to meet the target capacity:

  • The Capacity Reservations are used first to launch 6 On-Demand Instances as follows:

    • 3 On-Demand Instances are launched into the 3 c5.xlarge targeted Capacity Reservations in us-east-1a

    • 3 On-Demand Instances are launched into the 3 c5.xlarge targeted Capacity Reservations in us-east-1b

  • To meet the target capacity, 4 additional On-Demand Instances are launched into regular On-Demand capacity according to the On-Demand allocation strategy, which is lowest-price in this example. However, because the pools are the same price (because price is per Region and not per Availability Zone), the fleet launches the remaining 4 On-Demand Instances into either of the pools.

After the fleet is launched, you can run describe-capacity-reservations to see how many unused Capacity Reservations are remaining. In this example, you should see the following response, which shows that all of the Capacity Reservations in all of the pools were used.

{ "CapacityReservationId": "cr-111", "InstanceType": "c5.xlarge", "AvailableInstanceCount": 0 } { "CapacityReservationId": "cr-222", "InstanceType": "c5.xlarge", "AvailableInstanceCount": 0 }

Example 8: Configure Capacity Rebalancing to launch replacement Spot Instances

The following example configures the EC2 Fleet to launch a replacement Spot Instance when Amazon EC2 emits a rebalance recommendation for a Spot Instance in the fleet. To configure the automatic replacement of Spot Instances, for ReplacementStrategy, specify launch-before-terminate. To configure the time delay from when the new replacement Spot Instances are launched to when the old Spot Instances are automatically deleted, for termination-delay, specify a value in seconds. For more information, see Configuration options.

Note

We recommend using launch-before-terminate only if you can predict how long your instance shutdown procedures will take to complete so that the old instances are only terminated after these procedures are completed. You are charged for all instances while they are running.

The effectiveness of the Capacity Rebalancing strategy depends on the number of Spot capacity pools specified in the EC2 Fleet request. We recommend that you configure the fleet with a diversified set of instance types and Availability Zones, and for AllocationStrategy, specify capacity-optimized. For more information about what you should consider when configuring an EC2 Fleet for Capacity Rebalancing, see Capacity Rebalancing.

{ "ExcessCapacityTerminationPolicy": "termination", "LaunchTemplateConfigs": [ { "LaunchTemplateSpecification": { "LaunchTemplateName": "LaunchTemplate", "Version": "1" }, "Overrides": [ { "InstanceType": "c3.large", "WeightedCapacity": 1, "Placement": { "AvailabilityZone": "us-east-1a" } }, { "InstanceType": "c4.large", "WeightedCapacity": 1, "Placement": { "AvailabilityZone": "us-east-1a" } }, { "InstanceType": "c5.large", "WeightedCapacity": 1, "Placement": { "AvailabilityZone": "us-east-1a" } } ] } ], "TargetCapacitySpecification": { "TotalTargetCapacity": 5, "DefaultTargetCapacityType": "spot" }, "SpotOptions": { "AllocationStrategy": "capacity-optimized", "MaintenanceStrategies": { "CapacityRebalance": { "ReplacementStrategy": "launch-before-terminate", "TerminationDelay": "720" } } } }

Example 9: Launch Spot Instances in a capacity-optimized fleet

The following example demonstrates how to configure an EC2 Fleet with a Spot allocation strategy that optimizes for capacity. To optimize for capacity, you must set AllocationStrategy to capacity-optimized.

In the following example, the three launch specifications specify three Spot capacity pools. The target capacity is 50 Spot Instances. The EC2 Fleet attempts to launch 50 Spot Instances into the Spot capacity pool with optimal capacity for the number of instances that are launching.

{ "SpotOptions": { "AllocationStrategy": "capacity-optimized", }, "LaunchTemplateConfigs": [ { "LaunchTemplateSpecification": { "LaunchTemplateName": "my-launch-template", "Version": "1" }, "Overrides": [ { "InstanceType": "r4.2xlarge", "Placement": { "AvailabilityZone": "us-west-2a" }, }, { "InstanceType": "m4.2xlarge", "Placement": { "AvailabilityZone": "us-west-2b" }, }, { "InstanceType": "c5.2xlarge", "Placement": { "AvailabilityZone": "us-west-2b" } } ] } ], "TargetCapacitySpecification": { "TotalTargetCapacity": 50, "DefaultTargetCapacityType": "spot" } }

Example 10: Launch Spot Instances in a capacity-optimized fleet with priorities

The following example demonstrates how to configure an EC2 Fleet with a Spot allocation strategy that optimizes for capacity while using priority on a best-effort basis.

When using the capacity-optimized-prioritized allocation strategy, you can use the Priority parameter to specify the priorities of the Spot capacity pools, where the lower the number the higher priority. You can also set the same priority for several Spot capacity pools if you favor them equally. If you do not set a priority for a pool, the pool will be considered last in terms of priority.

To prioritize Spot capacity pools, you must set AllocationStrategy to capacity-optimized-prioritized. EC2 Fleet will optimize for capacity first, but will honor the priorities on a best-effort basis (for example, if honoring the priorities will not significantly affect EC2 Fleet's ability to provision optimal capacity). This is a good option for workloads where the possibility of disruption must be minimized and the preference for certain instance types matters.

In the following example, the three launch specifications specify three Spot capacity pools. Each pool is prioritized, where the lower the number the higher priority. The target capacity is 50 Spot Instances. The EC2 Fleet attempts to launch 50 Spot Instances into the Spot capacity pool with the highest priority on a best-effort basis, but optimizes for capacity first.

{ "SpotOptions": { "AllocationStrategy": "capacity-optimized-prioritized" }, "LaunchTemplateConfigs": [ { "LaunchTemplateSpecification": { "LaunchTemplateName": "my-launch-template", "Version": "1" }, "Overrides": [ { "InstanceType": "r4.2xlarge", "Priority": 1, "Placement": { "AvailabilityZone": "us-west-2a" }, }, { "InstanceType": "m4.2xlarge", "Priority": 2, "Placement": { "AvailabilityZone": "us-west-2b" }, }, { "InstanceType": "c5.2xlarge", "Priority": 3, "Placement": { "AvailabilityZone": "us-west-2b" } } ] } ], "TargetCapacitySpecification": { "TotalTargetCapacity": 50, "DefaultTargetCapacityType": "spot" }

Example 11: Launch Spot Instances in a price-capacity-optimized fleet

The following example demonstrates how to configure an EC2 Fleet with a Spot allocation strategy that optimizes for both capacity and lowest price. To optimize for capacity while taking price into consideration, you must set the Spot AllocationStrategy to price-capacity-optimized.

In the following example, the three launch specifications specify three Spot capacity pools. The target capacity is 50 Spot Instances. The EC2 Fleet attempts to launch 50 Spot Instances into the Spot capacity pool with optimal capacity for the number of instances that are launching while also choosing the pool that is the lowest priced.

{ "SpotOptions": { "AllocationStrategy": "price-capacity-optimized", "MinTargetCapacity": 2, "SingleInstanceType": true }, "OnDemandOptions": { "AllocationStrategy": "lowest-price" }, "LaunchTemplateConfigs": [ { "LaunchTemplateSpecification": { "LaunchTemplateName": "my-launch-template", "Version": "1" }, "Overrides": [ { "InstanceType": "r4.2xlarge", "Placement": { "AvailabilityZone": "us-west-2a" }, }, { "InstanceType": "m4.2xlarge", "Placement": { "AvailabilityZone": "us-west-2b" }, }, { "InstanceType": "c5.2xlarge", "Placement": { "AvailabilityZone": "us-west-2b" } } ] } ], "TargetCapacitySpecification": { "TotalTargetCapacity": 50, "OnDemandTargetCapacity":0, "SpotTargetCapacity":50, "DefaultTargetCapacityType": "spot" }, "Type": "instant" }

Example 12: Configure attribute-based instance type selection

The following example demonstrates how to configure an EC2 Fleet to use attribute-based instance type selection for identifying instance types. To specify the required instance attributes, you specify the attributes in the InstanceRequirements structure.

In the following example, two instance attributes are specified:

  • VCpuCount – A minimum of 2 vCPUs is specified. Because no maximum is specified, there is no maximum limit.

  • MemoryMiB – A minimum of 4 MiB of memory is specified. Because no maximum is specified, there is no maximum limit.

Any instance types that have 2 or more vCPUs and 4 MiB or more of memory will be identified. However, price protection and the allocation strategy might exclude some instance types when EC2 Fleet provisions the fleet.

For a list and descriptions of all the possible attributes that you can specify, see InstanceRequirements in the Amazon EC2 API Reference.

{ "SpotOptions": { "AllocationStrategy": "price-capacity-optimized" }, "LaunchTemplateConfigs": [{ "LaunchTemplateSpecification": { "LaunchTemplateName": "my-launch-template", "Version": "1" }, "Overrides": [{ "InstanceRequirements": { "VCpuCount": { "Min": 2 }, "MemoryMiB": { "Min": 4 } } }] }], "TargetCapacitySpecification": { "TotalTargetCapacity": 20, "DefaultTargetCapacityType": "spot" }, "Type": "instant" }