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Returns information about a model compilation job.
To create a model compilation job, use CreateCompilationJob . To get information about multiple model compilation jobs, use ListCompilationJobs .
See also: AWS API Documentation
describe-compilation-job
--compilation-job-name <value>
[--cli-input-json <value>]
[--generate-cli-skeleton <value>]
[--debug]
[--endpoint-url <value>]
[--no-verify-ssl]
[--no-paginate]
[--output <value>]
[--query <value>]
[--profile <value>]
[--region <value>]
[--version <value>]
[--color <value>]
[--no-sign-request]
[--ca-bundle <value>]
[--cli-read-timeout <value>]
[--cli-connect-timeout <value>]
--compilation-job-name
(string)
The name of the model compilation job that you want information about.
--cli-input-json
(string)
Performs service operation based on the JSON string provided. The JSON string follows the format provided by --generate-cli-skeleton
. If other arguments are provided on the command line, the CLI values will override the JSON-provided values. It is not possible to pass arbitrary binary values using a JSON-provided value as the string will be taken literally.
--generate-cli-skeleton
(string)
Prints a JSON skeleton to standard output without sending an API request. If provided with no value or the value input
, prints a sample input JSON that can be used as an argument for --cli-input-json
. If provided with the value output
, it validates the command inputs and returns a sample output JSON for that command.
--debug
(boolean)
Turn on debug logging.
--endpoint-url
(string)
Override command's default URL with the given URL.
--no-verify-ssl
(boolean)
By default, the AWS CLI uses SSL when communicating with AWS services. For each SSL connection, the AWS CLI will verify SSL certificates. This option overrides the default behavior of verifying SSL certificates.
--no-paginate
(boolean)
Disable automatic pagination. If automatic pagination is disabled, the AWS CLI will only make one call, for the first page of results.
--output
(string)
The formatting style for command output.
--query
(string)
A JMESPath query to use in filtering the response data.
--profile
(string)
Use a specific profile from your credential file.
--region
(string)
The region to use. Overrides config/env settings.
--version
(string)
Display the version of this tool.
--color
(string)
Turn on/off color output.
--no-sign-request
(boolean)
Do not sign requests. Credentials will not be loaded if this argument is provided.
--ca-bundle
(string)
The CA certificate bundle to use when verifying SSL certificates. Overrides config/env settings.
--cli-read-timeout
(int)
The maximum socket read time in seconds. If the value is set to 0, the socket read will be blocking and not timeout. The default value is 60 seconds.
--cli-connect-timeout
(int)
The maximum socket connect time in seconds. If the value is set to 0, the socket connect will be blocking and not timeout. The default value is 60 seconds.
CompilationJobName -> (string)
The name of the model compilation job.
CompilationJobArn -> (string)
The Amazon Resource Name (ARN) of the model compilation job.
CompilationJobStatus -> (string)
The status of the model compilation job.
CompilationStartTime -> (timestamp)
The time when the model compilation job started the
CompilationJob
instances.You are billed for the time between this timestamp and the timestamp in the
CompilationEndTime
field. In Amazon CloudWatch Logs, the start time might be later than this time. That's because it takes time to download the compilation job, which depends on the size of the compilation job container.
CompilationEndTime -> (timestamp)
The time when the model compilation job on a compilation job instance ended. For a successful or stopped job, this is when the job's model artifacts have finished uploading. For a failed job, this is when Amazon SageMaker detected that the job failed.
StoppingCondition -> (structure)
Specifies a limit to how long a model compilation job can run. When the job reaches the time limit, Amazon SageMaker ends the compilation job. Use this API to cap model training costs.
MaxRuntimeInSeconds -> (integer)
The maximum length of time, in seconds, that a training or compilation job can run before it is stopped.
For compilation jobs, if the job does not complete during this time, a
TimeOut
error is generated. We recommend starting with 900 seconds and increasing as necessary based on your model.For all other jobs, if the job does not complete during this time, SageMaker ends the job. When
RetryStrategy
is specified in the job request,MaxRuntimeInSeconds
specifies the maximum time for all of the attempts in total, not each individual attempt. The default value is 1 day. The maximum value is 28 days.The maximum time that a
TrainingJob
can run in total, including any time spent publishing metrics or archiving and uploading models after it has been stopped, is 30 days.MaxWaitTimeInSeconds -> (integer)
The maximum length of time, in seconds, that a managed Spot training job has to complete. It is the amount of time spent waiting for Spot capacity plus the amount of time the job can run. It must be equal to or greater than
MaxRuntimeInSeconds
. If the job does not complete during this time, SageMaker ends the job.When
RetryStrategy
is specified in the job request,MaxWaitTimeInSeconds
specifies the maximum time for all of the attempts in total, not each individual attempt.MaxPendingTimeInSeconds -> (integer)
The maximum length of time, in seconds, that a training or compilation job can be pending before it is stopped.
InferenceImage -> (string)
The inference image to use when compiling a model. Specify an image only if the target device is a cloud instance.
ModelPackageVersionArn -> (string)
The Amazon Resource Name (ARN) of the versioned model package that was provided to SageMaker Neo when you initiated a compilation job.
CreationTime -> (timestamp)
The time that the model compilation job was created.
LastModifiedTime -> (timestamp)
The time that the status of the model compilation job was last modified.
FailureReason -> (string)
If a model compilation job failed, the reason it failed.
ModelArtifacts -> (structure)
Information about the location in Amazon S3 that has been configured for storing the model artifacts used in the compilation job.
S3ModelArtifacts -> (string)
The path of the S3 object that contains the model artifacts. For example,s3://bucket-name/keynameprefix/model.tar.gz
.
ModelDigests -> (structure)
Provides a BLAKE2 hash value that identifies the compiled model artifacts in Amazon S3.
ArtifactDigest -> (string)
Provides a hash value that uniquely identifies the stored model artifacts.
RoleArn -> (string)
The Amazon Resource Name (ARN) of an IAM role that Amazon SageMaker assumes to perform the model compilation job.
InputConfig -> (structure)
Information about the location in Amazon S3 of the input model artifacts, the name and shape of the expected data inputs, and the framework in which the model was trained.
S3Uri -> (string)
The S3 path where the model artifacts, which result from model training, are stored. This path must point to a single gzip compressed tar archive (.tar.gz suffix).DataInputConfig -> (string)
Specifies the name and shape of the expected data inputs for your trained model with a JSON dictionary form. The data inputs are
Framework
specific.
TensorFlow
: You must specify the name and shape (NHWC format) of the expected data inputs using a dictionary format for your trained model. The dictionary formats required for the console and CLI are different.
- Examples for one input:
- If using the console,
{"input":[1,1024,1024,3]}
- If using the CLI,
{\"input\":[1,1024,1024,3]}
- Examples for two inputs:
- If using the console,
{"data1": [1,28,28,1], "data2":[1,28,28,1]}
- If using the CLI,
{\"data1\": [1,28,28,1], \"data2\":[1,28,28,1]}
KERAS
: You must specify the name and shape (NCHW format) of expected data inputs using a dictionary format for your trained model. Note that while Keras model artifacts should be uploaded in NHWC (channel-last) format,DataInputConfig
should be specified in NCHW (channel-first) format. The dictionary formats required for the console and CLI are different.
- Examples for one input:
- If using the console,
{"input_1":[1,3,224,224]}
- If using the CLI,
{\"input_1\":[1,3,224,224]}
- Examples for two inputs:
- If using the console,
{"input_1": [1,3,224,224], "input_2":[1,3,224,224]}
- If using the CLI,
{\"input_1\": [1,3,224,224], \"input_2\":[1,3,224,224]}
MXNET/ONNX/DARKNET
: You must specify the name and shape (NCHW format) of the expected data inputs in order using a dictionary format for your trained model. The dictionary formats required for the console and CLI are different.
- Examples for one input:
- If using the console,
{"data":[1,3,1024,1024]}
- If using the CLI,
{\"data\":[1,3,1024,1024]}
- Examples for two inputs:
- If using the console,
{"var1": [1,1,28,28], "var2":[1,1,28,28]}
- If using the CLI,
{\"var1\": [1,1,28,28], \"var2\":[1,1,28,28]}
PyTorch
: You can either specify the name and shape (NCHW format) of expected data inputs in order using a dictionary format for your trained model or you can specify the shape only using a list format. The dictionary formats required for the console and CLI are different. The list formats for the console and CLI are the same.
- Examples for one input in dictionary format:
- If using the console,
{"input0":[1,3,224,224]}
- If using the CLI,
{\"input0\":[1,3,224,224]}
- Example for one input in list format:
[[1,3,224,224]]
- Examples for two inputs in dictionary format:
- If using the console,
{"input0":[1,3,224,224], "input1":[1,3,224,224]}
- If using the CLI,
{\"input0\":[1,3,224,224], \"input1\":[1,3,224,224]}
- Example for two inputs in list format:
[[1,3,224,224], [1,3,224,224]]
XGBOOST
: input data name and shape are not needed.DataInputConfig
supports the following parameters forCoreML
TargetDevice
(ML Model format):
shape
: Input shape, for example{"input_1": {"shape": [1,224,224,3]}}
. In addition to static input shapes, CoreML converter supports Flexible input shapes:
- Range Dimension. You can use the Range Dimension feature if you know the input shape will be within some specific interval in that dimension, for example:
{"input_1": {"shape": ["1..10", 224, 224, 3]}}
- Enumerated shapes. Sometimes, the models are trained to work only on a select set of inputs. You can enumerate all supported input shapes, for example:
{"input_1": {"shape": [[1, 224, 224, 3], [1, 160, 160, 3]]}}
default_shape
: Default input shape. You can set a default shape during conversion for both Range Dimension and Enumerated Shapes. For example{"input_1": {"shape": ["1..10", 224, 224, 3], "default_shape": [1, 224, 224, 3]}}
type
: Input type. Allowed values:Image
andTensor
. By default, the converter generates an ML Model with inputs of type Tensor (MultiArray). User can set input type to be Image. Image input type requires additional input parameters such asbias
andscale
.bias
: If the input type is an Image, you need to provide the bias vector.scale
: If the input type is an Image, you need to provide a scale factor.CoreML
ClassifierConfig
parameters can be specified using OutputConfigCompilerOptions
. CoreML converter supports Tensorflow and PyTorch models. CoreML conversion examples:
- Tensor type input:
"DataInputConfig": {"input_1": {"shape": [[1,224,224,3], [1,160,160,3]], "default_shape": [1,224,224,3]}}
- Tensor type input without input name (PyTorch):
"DataInputConfig": [{"shape": [[1,3,224,224], [1,3,160,160]], "default_shape": [1,3,224,224]}]
- Image type input:
"DataInputConfig": {"input_1": {"shape": [[1,224,224,3], [1,160,160,3]], "default_shape": [1,224,224,3], "type": "Image", "bias": [-1,-1,-1], "scale": 0.007843137255}}
"CompilerOptions": {"class_labels": "imagenet_labels_1000.txt"}
- Image type input without input name (PyTorch):
"DataInputConfig": [{"shape": [[1,3,224,224], [1,3,160,160]], "default_shape": [1,3,224,224], "type": "Image", "bias": [-1,-1,-1], "scale": 0.007843137255}]
"CompilerOptions": {"class_labels": "imagenet_labels_1000.txt"}
Depending on the model format,
DataInputConfig
requires the following parameters forml_eia2
OutputConfig:TargetDevice .
- For TensorFlow models saved in the SavedModel format, specify the input names from
signature_def_key
and the input model shapes forDataInputConfig
. Specify thesignature_def_key
in `OutputConfig:CompilerOptions
https://docs.aws.amazon.com/sagemaker/latest/APIReference/API_OutputConfig.html#sagemaker-Type-OutputConfig-CompilerOptions`__ if the model does not use TensorFlow's default signature def key. For example:
"DataInputConfig": {"inputs": [1, 224, 224, 3]}
"CompilerOptions": {"signature_def_key": "serving_custom"}
- For TensorFlow models saved as a frozen graph, specify the input tensor names and shapes in
DataInputConfig
and the output tensor names foroutput_names
in `OutputConfig:CompilerOptions
https://docs.aws.amazon.com/sagemaker/latest/APIReference/API_OutputConfig.html#sagemaker-Type-OutputConfig-CompilerOptions`__ . For example:
"DataInputConfig": {"input_tensor:0": [1, 224, 224, 3]}
"CompilerOptions": {"output_names": ["output_tensor:0"]}
Framework -> (string)
Identifies the framework in which the model was trained. For example: TENSORFLOW.FrameworkVersion -> (string)
Specifies the framework version to use. This API field is only supported for the MXNet, PyTorch, TensorFlow and TensorFlow Lite frameworks.
For information about framework versions supported for cloud targets and edge devices, see Cloud Supported Instance Types and Frameworks and Edge Supported Frameworks .
OutputConfig -> (structure)
Information about the output location for the compiled model and the target device that the model runs on.
S3OutputLocation -> (string)
Identifies the S3 bucket where you want Amazon SageMaker to store the model artifacts. For example,s3://bucket-name/key-name-prefix
.TargetDevice -> (string)
Identifies the target device or the machine learning instance that you want to run your model on after the compilation has completed. Alternatively, you can specify OS, architecture, and accelerator using TargetPlatform fields. It can be used instead of
TargetPlatform
.Note
Currentlyml_trn1
is available only in US East (N. Virginia) Region, andml_inf2
is available only in US East (Ohio) Region.TargetPlatform -> (structure)
Contains information about a target platform that you want your model to run on, such as OS, architecture, and accelerators. It is an alternative of
TargetDevice
.The following examples show how to configure the
TargetPlatform
andCompilerOptions
JSON strings for popular target platforms:
- Raspberry Pi 3 Model B+
"TargetPlatform": {"Os": "LINUX", "Arch": "ARM_EABIHF"},
"CompilerOptions": {'mattr': ['+neon']}
- Jetson TX2
"TargetPlatform": {"Os": "LINUX", "Arch": "ARM64", "Accelerator": "NVIDIA"},
"CompilerOptions": {'gpu-code': 'sm_62', 'trt-ver': '6.0.1', 'cuda-ver': '10.0'}
- EC2 m5.2xlarge instance OS
"TargetPlatform": {"Os": "LINUX", "Arch": "X86_64", "Accelerator": "NVIDIA"},
"CompilerOptions": {'mcpu': 'skylake-avx512'}
- RK3399
"TargetPlatform": {"Os": "LINUX", "Arch": "ARM64", "Accelerator": "MALI"}
- ARMv7 phone (CPU)
"TargetPlatform": {"Os": "ANDROID", "Arch": "ARM_EABI"},
"CompilerOptions": {'ANDROID_PLATFORM': 25, 'mattr': ['+neon']}
- ARMv8 phone (CPU)
"TargetPlatform": {"Os": "ANDROID", "Arch": "ARM64"},
"CompilerOptions": {'ANDROID_PLATFORM': 29}
Os -> (string)
Specifies a target platform OS.
LINUX
: Linux-based operating systems.ANDROID
: Android operating systems. Android API level can be specified using theANDROID_PLATFORM
compiler option. For example,"CompilerOptions": {'ANDROID_PLATFORM': 28}
Arch -> (string)
Specifies a target platform architecture.
X86_64
: 64-bit version of the x86 instruction set.X86
: 32-bit version of the x86 instruction set.ARM64
: ARMv8 64-bit CPU.ARM_EABIHF
: ARMv7 32-bit, Hard Float.ARM_EABI
: ARMv7 32-bit, Soft Float. Used by Android 32-bit ARM platform.Accelerator -> (string)
Specifies a target platform accelerator (optional).
NVIDIA
: Nvidia graphics processing unit. It also requiresgpu-code
,trt-ver
,cuda-ver
compiler optionsMALI
: ARM Mali graphics processorINTEL_GRAPHICS
: Integrated Intel graphicsCompilerOptions -> (string)
Specifies additional parameters for compiler options in JSON format. The compiler options are
TargetPlatform
specific. It is required for NVIDIA accelerators and highly recommended for CPU compilations. For any other cases, it is optional to specifyCompilerOptions.
DTYPE
: Specifies the data type for the input. When compiling forml_*
(except forml_inf
) instances using PyTorch framework, provide the data type (dtype) of the model's input."float32"
is used if"DTYPE"
is not specified. Options for data type are:
- float32: Use either
"float"
or"float32"
.- int64: Use either
"int64"
or"long"
.For example,
{"dtype" : "float32"}
.
CPU
: Compilation for CPU supports the following compiler options.
mcpu
: CPU micro-architecture. For example,{'mcpu': 'skylake-avx512'}
mattr
: CPU flags. For example,{'mattr': ['+neon', '+vfpv4']}
ARM
: Details of ARM CPU compilations.
NEON
: NEON is an implementation of the Advanced SIMD extension used in ARMv7 processors. For example, add{'mattr': ['+neon']}
to the compiler options if compiling for ARM 32-bit platform with the NEON support.NVIDIA
: Compilation for NVIDIA GPU supports the following compiler options.
gpu_code
: Specifies the targeted architecture.trt-ver
: Specifies the TensorRT versions in x.y.z. format.cuda-ver
: Specifies the CUDA version in x.y format.For example,
{'gpu-code': 'sm_72', 'trt-ver': '6.0.1', 'cuda-ver': '10.1'}
ANDROID
: Compilation for the Android OS supports the following compiler options:
ANDROID_PLATFORM
: Specifies the Android API levels. Available levels range from 21 to 29. For example,{'ANDROID_PLATFORM': 28}
.mattr
: Add{'mattr': ['+neon']}
to compiler options if compiling for ARM 32-bit platform with NEON support.INFERENTIA
: Compilation for target ml_inf1 uses compiler options passed in as a JSON string. For example,"CompilerOptions": "\"--verbose 1 --num-neuroncores 2 -O2\""
. For information about supported compiler options, see Neuron Compiler CLI Reference Guide .CoreML
: Compilation for the CoreML OutputConfigTargetDevice
supports the following compiler options:
class_labels
: Specifies the classification labels file name inside input tar.gz file. For example,{"class_labels": "imagenet_labels_1000.txt"}
. Labels inside the txt file should be separated by newlines.KmsKeyId -> (string)
The Amazon Web Services Key Management Service key (Amazon Web Services KMS) that Amazon SageMaker uses to encrypt your output models with Amazon S3 server-side encryption after compilation job. If you don't provide a KMS key ID, Amazon SageMaker uses the default KMS key for Amazon S3 for your role's account. For more information, see KMS-Managed Encryption Keys in the Amazon Simple Storage Service Developer Guide.
The KmsKeyId can be any of the following formats:
- Key ID:
1234abcd-12ab-34cd-56ef-1234567890ab
- Key ARN:
arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab
- Alias name:
alias/ExampleAlias
- Alias name ARN:
arn:aws:kms:us-west-2:111122223333:alias/ExampleAlias
VpcConfig -> (structure)
A VpcConfig object that specifies the VPC that you want your compilation job to connect to. Control access to your models by configuring the VPC. For more information, see Protect Compilation Jobs by Using an Amazon Virtual Private Cloud .
SecurityGroupIds -> (list)
The VPC security group IDs. IDs have the form of
sg-xxxxxxxx
. Specify the security groups for the VPC that is specified in theSubnets
field.(string)
Subnets -> (list)
The ID of the subnets in the VPC that you want to connect the compilation job to for accessing the model in Amazon S3.
(string)
DerivedInformation -> (structure)
Information that SageMaker Neo automatically derived about the model.
DerivedDataInputConfig -> (string)
The data input configuration that SageMaker Neo automatically derived for the model. When SageMaker Neo derives this information, you don't need to specify the data input configuration when you create a compilation job.