Package to programmatically access a RIME deployment
Project description
RIME SDK
The RIME SDK provides an interface to RIME backend services for starting and viewing the progress of RIME stress test jobs.
There are four objects available in the rime_sdk
package:
- RIMEClient
- RIMEStressTestJob
- RIMEProject
- CustomImage
To use these objects, import them from the package like so:
from rime_sdk import RIMEClient, RIMEStressTestJob, RIMEProject, CustomImage
These calls will throw a ValueError
if there are connection issues or arguments are malformed.
RIMEClient
The RIMEClient
provides an interface to RIME's backend services for creating projects, starting stress test jobs, and querying the backend for current stress test jobs.
To initialize the RIMEClient, provide the address of your RIME instance.
rime_client = RIMEClient("my_vpc.rime.com", "api-key")
start_stress_test()
This allows you to start an AI Stress Testing job on the RIME backend.
Arguments:
-
test_run_config: dict
Specifies paths to the model and dataset to be used in stress testing.
-
project_id: Optional[str] = None
Specify the project to file the stress test result under. If omitted, the stress test result will be stored in the default project.
-
custom_image: Optional[CustomImage] = None
Specify a custom Docker image to run the stress test job on. This image could include custom libraries that your model depends on. If no custom image is provided, the backend will use the default image specified by the cluster configuration.
Return Value:
A RIMEStressTestJob
object that provides an interface for monitoring the job in the backend.
Example:
# This example will likely not work for you because it requires permissions to a specific S3 bucket.
# This demonstrates how you might specify such a configuration.
config = {
"run_name": "Titanic",
"data_info": {
"label_col": "Survived",
"ref_path": "s3://rime-datasets/titanic/titanic_example.csv", "eval_path": "s3://rime-datasets/titanic/titanic_example.csv"
},
"model_info": {
"path": "s3://rime-models/titanic_s3_test/titanic_example_model.py"
}
}
# Run the job using the specified config and the default Docker image in the RIME backend.
# Store the results under project ID "foo"
job = rime_client.start_stress_test_job(test_run_config=config, project_id="foo")
create_project()
Projects allow you to organize stress test runs as you see fit. A natural way to organize stress test runs is to create a project for each specific ML task, such as predicting whether a transaction is fradulent.
Arguments:
-
name: str
The name of the project. You can change this later in the UI.
-
description: str
A short blurb about the project.
Return Value:
A RIMEProject
that describes the created project.
Its project_id
attribute can be used in start_stress_test()
and list_stress_test_jobs()
.
Example:
project = rime_client.create_project(name='foo', description='bar')
list_stress_test_jobs()
Query the backend for a list of jobs filtered by status and project ID.
This is a good way to recover RIMEStressTestJob
objects.
Note that this only returns jobs from the last two days, because the time-to-live of job objects in the backend is set at two days.
Arguments:
-
status_filters: Optional[List[str]] = None
Select jobs by a union of statuses. If this is omitted, jobs will not be filtered by status. Acceptable values are in the following array:
['UNKNOWN_JOB_STATUS', 'PENDING', 'RUNNING', 'FAILING', 'SUCCEEDED']
-
project_id: Optional[str] = None
Select jobs by project. If this is omitted, jobs from across different projects will be returned.
Return Value:
A list of RIMEStressTestJob
objects.
These are not guaranteed to be in any sorted order.
Example:
# Get all running and succeeded jobs for project 'foo'
jobs = rime_client.list_stress_test_jobs(status_filters=['RUNNING', 'SUCCEEDED'], project_id='foo')
RIMEStressTestJob
This object provides an interface for monitoring the status of a stress test job in the RIME backend.
get_status()
Query the RIME backend for the job's status.
This includes flags for blocking until the job is complete and printing information to stdout
.
This method can help with monitoring the progress of stress test jobs, because it prints out helpful information such as running time and the progress of the test run.
Arguments:
-
verbose: bool = False
Whether to print additional status information to
stdout
. If this flag is enabled and the job status is'SUCCEEDED'
or'FAILING'
, the logs of the testing engine will be dumped tostdout
to help with debuggability. Note that this logs have no strict form and will be subject to significant change in future versions. -
wait_until_finish: bool = False
Whether to block until the job status is
'SUCCEEDED'
or'FAILING'
. Ifverbose
is enabled too, information about the job including running time and progress will be printed tostdout
everypoll_rate_sec
. -
poll_rate_sec: float = 5.0
How often to ping the RIME backend services for the status of the job. Units are in seconds.
Return Value:
A dictionary representing the status of the RIMEStressTestJob
.
{
"name": str
"type": str
"status": str
"start_time_secs": int64
"running_time_secs": double
}
type
will be an element in the following array:
['MODEL_STRESS_TEST', 'UNKNOWN_JOB_TYPE']
status
will be an element in the following array:
['UNKNOWN_JOB_STATUS', 'PENDING', 'RUNNING', 'FAILING', 'SUCCEEDED']
Example:
# Block until this job is finished and dump monitoring info to stdout.
job_status = job.get_status(verbose=True, wait_until_finish=True)
get_result_csv()
This method constructs a CSV file of stress testing results that were produced by the RIME stress testing job.
It allows RIME users to programmatically parse results and make decisions based on RIME evaluations of their model and dataset.
Note this method will only succeed if the job has status 'SUCCEEDED'
.
Arguments:
-
filepath: str
Path to where the CSV results will be written. Beware that this overwrites existing files.
-
version: Optional[str] = None
Semantic version of the CSV to be returned. This allows users to pin the version of the results CSV, which is helpful if you write any code on top of RIME data. If you upgrade the SDK and do not pin the version in your code, it may break because the CSV is not guaranteed to be stable across versions. The latest version of the CSV will be returned by default.
Example:
# Wait until the job has finished, since this method only works on SUCCEEDED jobs.
job.get_status(verbose=True, wait_until_finish=True)
# Dump the CSV of results in `results.csv`.
# Pin the version to RIME version 0.12.0.
job.get_result_csv("results.csv", version="0.12.0")
RIMEProject
This object describes a project in the RIME backend.
Attributes:
-
project_id: str
How to refer to the project in the backend. Use this attribute to specify the project for the backend in
start_stress_test_job()
andlist_stress_test_jobs()
. -
name: str
-
description: str
CustomImage
This allows users to specify custom Docker images on which their stress test jobs will be run. An example use case is if you need a particular version of a library or an additional dependency to run your model.
Attributes:
-
name: str
The name and tag of the Docker image. This should specify exactly which image to pull.
-
pull_secret: CustomImage.PullSecret
If you need a particular registry credential to pull the specified Docker image, add the pull secret field to tell the RIME backend cluster which secret to use. This secret will already need to be stored in the cluster.
Example:
custom_image = CustomImage(name="company/testing-engine-with-xgboost:latest", pull_secret=CustomImage.PullSecret(name="my_secret_name"))
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