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public interface ImageObjectDetectionModelMetadataOrBuilder extends MessageOrBuilder
Implements
MessageOrBuilderMethods
getModelType()
public abstract String getModelType()
Optional. Type of the model. The available values are:
cloud-high-accuracy-1
- (default) A model to be used via prediction calls to AutoML API. Expected to have a higher latency, but should also have a higher prediction quality than other models.cloud-low-latency-1
- A model to be used via prediction calls to AutoML API. Expected to have low latency, but may have lower prediction quality than other models.mobile-low-latency-1
- A model that, in addition to providing prediction via AutoML API, can also be exported (see AutoMl.ExportModel) and used on a mobile or edge device with TensorFlow afterwards. Expected to have low latency, but may have lower prediction quality than other models.mobile-versatile-1
- A model that, in addition to providing prediction via AutoML API, can also be exported (see AutoMl.ExportModel) and used on a mobile or edge device with TensorFlow afterwards.mobile-high-accuracy-1
- A model that, in addition to providing prediction via AutoML API, can also be exported (see AutoMl.ExportModel) and used on a mobile or edge device with TensorFlow afterwards. Expected to have a higher latency, but should also have a higher prediction quality than other models.
string model_type = 1;
Type | Description |
String | The modelType. |
getModelTypeBytes()
public abstract ByteString getModelTypeBytes()
Optional. Type of the model. The available values are:
cloud-high-accuracy-1
- (default) A model to be used via prediction calls to AutoML API. Expected to have a higher latency, but should also have a higher prediction quality than other models.cloud-low-latency-1
- A model to be used via prediction calls to AutoML API. Expected to have low latency, but may have lower prediction quality than other models.mobile-low-latency-1
- A model that, in addition to providing prediction via AutoML API, can also be exported (see AutoMl.ExportModel) and used on a mobile or edge device with TensorFlow afterwards. Expected to have low latency, but may have lower prediction quality than other models.mobile-versatile-1
- A model that, in addition to providing prediction via AutoML API, can also be exported (see AutoMl.ExportModel) and used on a mobile or edge device with TensorFlow afterwards.mobile-high-accuracy-1
- A model that, in addition to providing prediction via AutoML API, can also be exported (see AutoMl.ExportModel) and used on a mobile or edge device with TensorFlow afterwards. Expected to have a higher latency, but should also have a higher prediction quality than other models.
string model_type = 1;
Type | Description |
ByteString | The bytes for modelType. |
getNodeCount()
public abstract long getNodeCount()
Output only. The number of nodes this model is deployed on. A node is an abstraction of a machine resource, which can handle online prediction QPS as given in the qps_per_node field.
int64 node_count = 3;
Type | Description |
long | The nodeCount. |
getNodeQps()
public abstract double getNodeQps()
Output only. An approximate number of online prediction QPS that can be supported by this model per each node on which it is deployed.
double node_qps = 4;
Type | Description |
double | The nodeQps. |
getStopReason()
public abstract String getStopReason()
Output only. The reason that this create model operation stopped,
e.g. BUDGET_REACHED
, MODEL_CONVERGED
.
string stop_reason = 5;
Type | Description |
String | The stopReason. |
getStopReasonBytes()
public abstract ByteString getStopReasonBytes()
Output only. The reason that this create model operation stopped,
e.g. BUDGET_REACHED
, MODEL_CONVERGED
.
string stop_reason = 5;
Type | Description |
ByteString | The bytes for stopReason. |
getTrainBudgetMilliNodeHours()
public abstract long getTrainBudgetMilliNodeHours()
The train budget of creating this model, expressed in milli node
hours i.e. 1,000 value in this field means 1 node hour. The actual
train_cost
will be equal or less than this value. If further model
training ceases to provide any improvements, it will stop without using
full budget and the stop_reason will be MODEL_CONVERGED
.
Note, node_hour = actual_hour * number_of_nodes_invovled.
For model type cloud-high-accuracy-1
(default) and cloud-low-latency-1
,
the train budget must be between 20,000 and 900,000 milli node hours,
inclusive. The default value is 216, 000 which represents one day in
wall time.
For model type mobile-low-latency-1
, mobile-versatile-1
,
mobile-high-accuracy-1
, mobile-core-ml-low-latency-1
,
mobile-core-ml-versatile-1
, mobile-core-ml-high-accuracy-1
, the train
budget must be between 1,000 and 100,000 milli node hours, inclusive.
The default value is 24, 000 which represents one day in wall time.
int64 train_budget_milli_node_hours = 6;
Type | Description |
long | The trainBudgetMilliNodeHours. |
getTrainCostMilliNodeHours()
public abstract long getTrainCostMilliNodeHours()
Output only. The actual train cost of creating this model, expressed in milli node hours, i.e. 1,000 value in this field means 1 node hour. Guaranteed to not exceed the train budget.
int64 train_cost_milli_node_hours = 7;
Type | Description |
long | The trainCostMilliNodeHours. |