// Code generated by smithy-go-codegen DO NOT EDIT. package types import ( smithydocument "github.com/aws/smithy-go/document" "time" ) // Entity that comprises information on categorical values in data. type CategoricalValues struct { // Indicates whether there is a potential data issue related to categorical values. // // This member is required. Status StatisticalIssueStatus // Indicates the number of categories in the data. NumberOfCategory *int32 noSmithyDocumentSerde } // Entity that comprises information of count and percentage. type CountPercent struct { // Indicates the count of occurences of the given statistic. // // This member is required. Count *int32 // Indicates the percentage of occurances of the given statistic. // // This member is required. Percentage float32 noSmithyDocumentSerde } // Provides information about a specified data ingestion job, including dataset // information, data ingestion configuration, and status. type DataIngestionJobSummary struct { // The Amazon Resource Name (ARN) of the dataset used in the data ingestion job. DatasetArn *string // The name of the dataset used for the data ingestion job. DatasetName *string // Specifies information for the input data for the data inference job, including // data Amazon S3 location parameters. IngestionInputConfiguration *IngestionInputConfiguration // Indicates the job ID of the data ingestion job. JobId *string // Indicates the status of the data ingestion job. Status IngestionJobStatus noSmithyDocumentSerde } // The configuration is the TargetSamplingRate , which is the sampling rate of the // data after post processing by Amazon Lookout for Equipment. For example, if you // provide data that has been collected at a 1 second level and you want the system // to resample the data at a 1 minute rate before training, the TargetSamplingRate // is 1 minute. When providing a value for the TargetSamplingRate , you must attach // the prefix "PT" to the rate you want. The value for a 1 second rate is therefore // PT1S, the value for a 15 minute rate is PT15M, and the value for a 1 hour rate // is PT1H type DataPreProcessingConfiguration struct { // The sampling rate of the data after post processing by Amazon Lookout for // Equipment. For example, if you provide data that has been collected at a 1 // second level and you want the system to resample the data at a 1 minute rate // before training, the TargetSamplingRate is 1 minute. When providing a value for // the TargetSamplingRate , you must attach the prefix "PT" to the rate you want. // The value for a 1 second rate is therefore PT1S, the value for a 15 minute rate // is PT15M, and the value for a 1 hour rate is PT1H TargetSamplingRate TargetSamplingRate noSmithyDocumentSerde } // DataQualitySummary gives aggregated statistics over all the sensors about a // completed ingestion job. It primarily gives more information about statistics // over different incorrect data like MissingCompleteSensorData, MissingSensorData, // UnsupportedDateFormats, InsufficientSensorData, DuplicateTimeStamps. type DataQualitySummary struct { // Parameter that gives information about duplicate timestamps in the input data. // // This member is required. DuplicateTimestamps *DuplicateTimestamps // Parameter that gives information about insufficient data for sensors in the // dataset. This includes information about those sensors that have complete data // missing and those with a short date range. // // This member is required. InsufficientSensorData *InsufficientSensorData // Parameter that gives information about data that is invalid over all the // sensors in the input data. // // This member is required. InvalidSensorData *InvalidSensorData // Parameter that gives information about data that is missing over all the // sensors in the input data. // // This member is required. MissingSensorData *MissingSensorData // Parameter that gives information about unsupported timestamps in the input data. // // This member is required. UnsupportedTimestamps *UnsupportedTimestamps noSmithyDocumentSerde } // Provides information about the data schema used with the given dataset. type DatasetSchema struct { // // // This value conforms to the media type: application/json InlineDataSchema *string noSmithyDocumentSerde } // Contains information about the specific data set, including name, ARN, and // status. type DatasetSummary struct { // The time at which the dataset was created in Amazon Lookout for Equipment. CreatedAt *time.Time // The Amazon Resource Name (ARN) of the specified dataset. DatasetArn *string // The name of the dataset. DatasetName *string // Indicates the status of the dataset. Status DatasetStatus noSmithyDocumentSerde } // Entity that comprises information abount duplicate timestamps in the dataset. type DuplicateTimestamps struct { // Indicates the total number of duplicate timestamps. // // This member is required. TotalNumberOfDuplicateTimestamps *int32 noSmithyDocumentSerde } // Contains information about the specific inference event, including start and // end time, diagnostics information, event duration and so on. type InferenceEventSummary struct { // An array which specifies the names and values of all sensors contributing to an // inference event. Diagnostics *string // Indicates the size of an inference event in seconds. EventDurationInSeconds *int64 // Indicates the ending time of an inference event. EventEndTime *time.Time // Indicates the starting time of an inference event. EventStartTime *time.Time // The Amazon Resource Name (ARN) of the inference scheduler being used for the // inference event. InferenceSchedulerArn *string // The name of the inference scheduler being used for the inference events. InferenceSchedulerName *string noSmithyDocumentSerde } // Contains information about the specific inference execution, including input // and output data configuration, inference scheduling information, status, and so // on. type InferenceExecutionSummary struct { // CustomerResultObject *S3Object // Indicates the time reference in the dataset at which the inference execution // stopped. DataEndTime *time.Time // Specifies configuration information for the input data for the inference // scheduler, including delimiter, format, and dataset location. DataInputConfiguration *InferenceInputConfiguration // Specifies configuration information for the output results from for the // inference execution, including the output Amazon S3 location. DataOutputConfiguration *InferenceOutputConfiguration // Indicates the time reference in the dataset at which the inference execution // began. DataStartTime *time.Time // Specifies the reason for failure when an inference execution has failed. FailedReason *string // The Amazon Resource Name (ARN) of the inference scheduler being used for the // inference execution. InferenceSchedulerArn *string // The name of the inference scheduler being used for the inference execution. InferenceSchedulerName *string // The Amazon Resource Name (ARN) of the ML model used for the inference execution. ModelArn *string // The name of the ML model being used for the inference execution. ModelName *string // Indicates the start time at which the inference scheduler began the specific // inference execution. ScheduledStartTime *time.Time // Indicates the status of the inference execution. Status InferenceExecutionStatus noSmithyDocumentSerde } // Specifies configuration information for the input data for the inference, // including Amazon S3 location of input data.. type InferenceInputConfiguration struct { // Specifies configuration information for the input data for the inference, // including timestamp format and delimiter. InferenceInputNameConfiguration *InferenceInputNameConfiguration // Indicates the difference between your time zone and Coordinated Universal Time // (UTC). InputTimeZoneOffset *string // Specifies configuration information for the input data for the inference, // including Amazon S3 location of input data. S3InputConfiguration *InferenceS3InputConfiguration noSmithyDocumentSerde } // Specifies configuration information for the input data for the inference, // including timestamp format and delimiter. type InferenceInputNameConfiguration struct { // Indicates the delimiter character used between items in the data. ComponentTimestampDelimiter *string // The format of the timestamp, whether Epoch time, or standard, with or without // hyphens (-). TimestampFormat *string noSmithyDocumentSerde } // Specifies configuration information for the output results from for the // inference, including KMS key ID and output S3 location. type InferenceOutputConfiguration struct { // Specifies configuration information for the output results from for the // inference, output S3 location. // // This member is required. S3OutputConfiguration *InferenceS3OutputConfiguration // The ID number for the AWS KMS key used to encrypt the inference output. KmsKeyId *string noSmithyDocumentSerde } // Specifies configuration information for the input data for the inference, // including input data S3 location. type InferenceS3InputConfiguration struct { // The bucket containing the input dataset for the inference. // // This member is required. Bucket *string // The prefix for the S3 bucket used for the input data for the inference. Prefix *string noSmithyDocumentSerde } // Specifies configuration information for the output results from the inference, // including output S3 location. type InferenceS3OutputConfiguration struct { // The bucket containing the output results from the inference // // This member is required. Bucket *string // The prefix for the S3 bucket used for the output results from the inference. Prefix *string noSmithyDocumentSerde } // Contains information about the specific inference scheduler, including data // delay offset, model name and ARN, status, and so on. type InferenceSchedulerSummary struct { // A period of time (in minutes) by which inference on the data is delayed after // the data starts. For instance, if an offset delay time of five minutes was // selected, inference will not begin on the data until the first data measurement // after the five minute mark. For example, if five minutes is selected, the // inference scheduler will wake up at the configured frequency with the additional // five minute delay time to check the customer S3 bucket. The customer can upload // data at the same frequency and they don't need to stop and restart the scheduler // when uploading new data. DataDelayOffsetInMinutes *int64 // How often data is uploaded to the source S3 bucket for the input data. This // value is the length of time between data uploads. For instance, if you select 5 // minutes, Amazon Lookout for Equipment will upload the real-time data to the // source bucket once every 5 minutes. This frequency also determines how often // Amazon Lookout for Equipment starts a scheduled inference on your data. In this // example, it starts once every 5 minutes. DataUploadFrequency DataUploadFrequency // The Amazon Resource Name (ARN) of the inference scheduler. InferenceSchedulerArn *string // The name of the inference scheduler. InferenceSchedulerName *string // Indicates whether the latest execution for the inference scheduler was // Anomalous (anomalous events found) or Normal (no anomalous events found). LatestInferenceResult LatestInferenceResult // The Amazon Resource Name (ARN) of the ML model used by the inference scheduler. ModelArn *string // The name of the ML model used for the inference scheduler. ModelName *string // Indicates the status of the inference scheduler. Status InferenceSchedulerStatus noSmithyDocumentSerde } // Gives statistics about how many files have been ingested, and which files have // not been ingested, for a particular ingestion job. type IngestedFilesSummary struct { // Indicates the number of files that were successfully ingested. // // This member is required. IngestedNumberOfFiles *int32 // Indicates the total number of files that were submitted for ingestion. // // This member is required. TotalNumberOfFiles *int32 // Indicates the number of files that were discarded. A file could be discarded // because its format is invalid (for example, a jpg or pdf) or not readable. DiscardedFiles []S3Object noSmithyDocumentSerde } // Specifies configuration information for the input data for the data ingestion // job, including input data S3 location. type IngestionInputConfiguration struct { // The location information for the S3 bucket used for input data for the data // ingestion. // // This member is required. S3InputConfiguration *IngestionS3InputConfiguration noSmithyDocumentSerde } // Specifies S3 configuration information for the input data for the data // ingestion job. type IngestionS3InputConfiguration struct { // The name of the S3 bucket used for the input data for the data ingestion. // // This member is required. Bucket *string // Pattern for matching the Amazon S3 files which will be used for ingestion. If // no KeyPattern is provided, we will use the default hierarchy file structure, // which is same as KeyPattern {prefix}/{component_name}/* KeyPattern *string // The prefix for the S3 location being used for the input data for the data // ingestion. Prefix *string noSmithyDocumentSerde } // Entity that comprises aggregated information on sensors having insufficient // data. type InsufficientSensorData struct { // Parameter that describes the total number of sensors that have data completely // missing for it. // // This member is required. MissingCompleteSensorData *MissingCompleteSensorData // Parameter that describes the total number of sensors that have a short date // range of less than 90 days of data overall. // // This member is required. SensorsWithShortDateRange *SensorsWithShortDateRange noSmithyDocumentSerde } // Entity that comprises aggregated information on sensors having insufficient // data. type InvalidSensorData struct { // Indicates the number of sensors that have at least some invalid values. // // This member is required. AffectedSensorCount *int32 // Indicates the total number of invalid values across all the sensors. // // This member is required. TotalNumberOfInvalidValues *int32 noSmithyDocumentSerde } // Contains information about the label group. type LabelGroupSummary struct { // The time at which the label group was created. CreatedAt *time.Time // The ARN of the label group. LabelGroupArn *string // The name of the label group. LabelGroupName *string // The time at which the label group was updated. UpdatedAt *time.Time noSmithyDocumentSerde } // Contains the configuration information for the S3 location being used to hold // label data. type LabelsInputConfiguration struct { // The name of the label group to be used for label data. LabelGroupName *string // Contains location information for the S3 location being used for label data. S3InputConfiguration *LabelsS3InputConfiguration noSmithyDocumentSerde } // The location information (prefix and bucket name) for the s3 location being // used for label data. type LabelsS3InputConfiguration struct { // The name of the S3 bucket holding the label data. // // This member is required. Bucket *string // The prefix for the S3 bucket used for the label data. Prefix *string noSmithyDocumentSerde } // Information about the label. type LabelSummary struct { // The time at which the label was created. CreatedAt *time.Time // The timestamp indicating the end of the label. EndTime *time.Time // Indicates that a label pertains to a particular piece of equipment. Equipment *string // Indicates the type of anomaly associated with the label. Data in this field // will be retained for service usage. Follow best practices for the security of // your data. FaultCode *string // The ARN of the label group. LabelGroupArn *string // The name of the label group. LabelGroupName *string // The ID of the label. LabelId *string // Indicates whether a labeled event represents an anomaly. Rating LabelRating // The timestamp indicating the start of the label. StartTime *time.Time noSmithyDocumentSerde } // Entity that comprises information on large gaps between consecutive timestamps // in data. type LargeTimestampGaps struct { // Indicates whether there is a potential data issue related to large gaps in // timestamps. // // This member is required. Status StatisticalIssueStatus // Indicates the size of the largest timestamp gap, in days. MaxTimestampGapInDays *int32 // Indicates the number of large timestamp gaps, if there are any. NumberOfLargeTimestampGaps *int32 noSmithyDocumentSerde } // Entity that comprises information on sensors that have sensor data completely // missing. type MissingCompleteSensorData struct { // Indicates the number of sensors that have data missing completely. // // This member is required. AffectedSensorCount *int32 noSmithyDocumentSerde } // Entity that comprises aggregated information on sensors having missing data. type MissingSensorData struct { // Indicates the number of sensors that have atleast some data missing. // // This member is required. AffectedSensorCount *int32 // Indicates the total number of missing values across all the sensors. // // This member is required. TotalNumberOfMissingValues *int32 noSmithyDocumentSerde } // Provides information about the specified ML model, including dataset and model // names and ARNs, as well as status. type ModelSummary struct { // The time at which the specific model was created. CreatedAt *time.Time // The Amazon Resource Name (ARN) of the dataset used to create the model. DatasetArn *string // The name of the dataset being used for the ML model. DatasetName *string // The Amazon Resource Name (ARN) of the ML model. ModelArn *string // The name of the ML model. ModelName *string // Indicates the status of the ML model. Status ModelStatus noSmithyDocumentSerde } // Entity that comprises information on monotonic values in the data. type MonotonicValues struct { // Indicates whether there is a potential data issue related to having monotonic // values. // // This member is required. Status StatisticalIssueStatus // Indicates the monotonicity of values. Can be INCREASING, DECREASING, or STATIC. Monotonicity Monotonicity noSmithyDocumentSerde } // Entity that comprises information on operating modes in data. type MultipleOperatingModes struct { // Indicates whether there is a potential data issue related to having multiple // operating modes. // // This member is required. Status StatisticalIssueStatus noSmithyDocumentSerde } // Contains information about an S3 bucket. type S3Object struct { // The name of the specific S3 bucket. // // This member is required. Bucket *string // The AWS Key Management Service (AWS KMS) key being used to encrypt the S3 // object. Without this key, data in the bucket is not accessible. // // This member is required. Key *string noSmithyDocumentSerde } // Summary of ingestion statistics like whether data exists, number of missing // values, number of invalid values and so on related to the particular sensor. type SensorStatisticsSummary struct { // Parameter that describes potential risk about whether data associated with the // sensor is categorical. CategoricalValues *CategoricalValues // Name of the component to which the particular sensor belongs for which the // statistics belong to. ComponentName *string // Indicates the time reference to indicate the end of valid data associated with // the sensor that the statistics belong to. DataEndTime *time.Time // Parameter that indicates whether data exists for the sensor that the statistics // belong to. DataExists bool // Indicates the time reference to indicate the beginning of valid data associated // with the sensor that the statistics belong to. DataStartTime *time.Time // Parameter that describes the total number of duplicate timestamp records // associated with the sensor that the statistics belong to. DuplicateTimestamps *CountPercent // Parameter that describes the total number of invalid date entries associated // with the sensor that the statistics belong to. InvalidDateEntries *CountPercent // Parameter that describes the total number of, and percentage of, values that // are invalid for the sensor that the statistics belong to. InvalidValues *CountPercent // Parameter that describes potential risk about whether data associated with the // sensor contains one or more large gaps between consecutive timestamps. LargeTimestampGaps *LargeTimestampGaps // Parameter that describes the total number of, and percentage of, values that // are missing for the sensor that the statistics belong to. MissingValues *CountPercent // Parameter that describes potential risk about whether data associated with the // sensor is mostly monotonic. MonotonicValues *MonotonicValues // Parameter that describes potential risk about whether data associated with the // sensor has more than one operating mode. MultipleOperatingModes *MultipleOperatingModes // Name of the sensor that the statistics belong to. SensorName *string noSmithyDocumentSerde } // Entity that comprises information on sensors that have shorter date range. type SensorsWithShortDateRange struct { // Indicates the number of sensors that have less than 90 days of data. // // This member is required. AffectedSensorCount *int32 noSmithyDocumentSerde } // A tag is a key-value pair that can be added to a resource as metadata. type Tag struct { // The key for the specified tag. // // This member is required. Key *string // The value for the specified tag. // // This member is required. Value *string noSmithyDocumentSerde } // Entity that comprises information abount unsupported timestamps in the dataset. type UnsupportedTimestamps struct { // Indicates the total number of unsupported timestamps across the ingested data. // // This member is required. TotalNumberOfUnsupportedTimestamps *int32 noSmithyDocumentSerde } type noSmithyDocumentSerde = smithydocument.NoSerde