NAME

Paws::SageMaker::OutputConfig

USAGE

This class represents one of two things:

Arguments in a call to a service

Use the attributes of this class as arguments to methods. You shouldn't make instances of this class. Each attribute should be used as a named argument in the calls that expect this type of object.

As an example, if Att1 is expected to be a Paws::SageMaker::OutputConfig object:

$service_obj->Method(Att1 => { CompilerOptions => $value, ..., TargetPlatform => $value  });

Results returned from an API call

Use accessors for each attribute. If Att1 is expected to be an Paws::SageMaker::OutputConfig object:

$result = $service_obj->Method(...);
$result->Att1->CompilerOptions

DESCRIPTION

Contains information about the output location for the compiled model and the target device that the model runs on. TargetDevice and TargetPlatform are mutually exclusive, so you need to choose one between the two to specify your target device or platform. If you cannot find your device you want to use from the TargetDevice list, use TargetPlatform to describe the platform of your edge device and CompilerOptions if there are specific settings that are required or recommended to use for particular TargetPlatform.

ATTRIBUTES

CompilerOptions => Str

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 specify CompilerOptions.

  • DTYPE: Specifies the data type for the input. When compiling for ml_* (except for ml_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 (https://github.com/aws/aws-neuron-sdk/blob/master/docs/neuron-cc/command-line-reference.md).

  • CoreML: Compilation for the CoreML OutputConfig$TargetDevice 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.

  • EIA: Compilation for the Elastic Inference Accelerator supports the following compiler options:

    • precision_mode: Specifies the precision of compiled artifacts. Supported values are "FP16" and "FP32". Default is "FP32".

    • signature_def_key: Specifies the signature to use for models in SavedModel format. Defaults is TensorFlow's default signature def key.

    • output_names: Specifies a list of output tensor names for models in FrozenGraph format. Set at most one API field, either: signature_def_key or output_names.

    For example: {"precision_mode": "FP32", "output_names": ["output:0"]}

KmsKeyId => Str

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 (https://docs.aws.amazon.com/AmazonS3/latest/userguide/UsingKMSEncryption.html) 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

REQUIRED S3OutputLocation => Str

Identifies the S3 bucket where you want Amazon SageMaker to store the model artifacts. For example, s3://bucket-name/key-name-prefix.

TargetDevice => Str

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.

TargetPlatform => Paws::SageMaker::TargetPlatform

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 and CompilerOptions 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}

SEE ALSO

This class forms part of Paws, describing an object used in Paws::SageMaker

BUGS and CONTRIBUTIONS

The source code is located here: https://github.com/pplu/aws-sdk-perl

Please report bugs to: https://github.com/pplu/aws-sdk-perl/issues