Logging
This guide walks through what logging in Braintrust is, why it's useful to log data, and what they look like in Braintrust. Before proceeding, make sure to read the quickstart guide and setup an API key.
What are logs?
Logs in Braintrust consist of traces, which roughly correspond to a single request or interaction in your application. Traces consist of one or more spans, each of which corresponds to a unit of work in your application (e.g. an LLM call). You usually collect logs as you run your application, both internally (staging) and externally (production), and utilize them to debug issues, track user behavior, and collect data into datasets.
See the tracing guide for more details on how to trace your code in Braintrust.
Why log in Braintrust?
By design, logs are exactly the same data structure as Experiments. This leads to a number of useful properties:
- If you instrument your code to run evals, you can reuse this instrumentation to generate logs
- Your logged traces capture exactly the same data as your evals
- You can reuse automated and human review scores across both experiments and logs
The killer insight here is that if you use Braintrust to both run evals and log traces, you are automatically recording data in exactly the right format to evaluate with it. This enables you to build a feedback loop between what you're observing in the real world and what you evaluate offline, which is one of, if not the, most important aspects of building high quality AI applications.
Writing logs
To log to Braintrust, simply wrap the code you wish to log. Braintrust will automatically capture and log information behind the scenes.
For full details, refer to the tracing guide, which describes how to log traces to braintrust.
Viewing logs
To view logs, navigate to the "Logs" tab in the appropriate project in the Braintrust UI. Logs are automatically updated in real-time as new traces are logged.
You can filter logs by tags, time range, and arbitrary subfields using Braintrust Query Language syntax. Here are a few examples of common filters:
Description | Syntax |
---|---|
Logs older than the past day | created < CURRENT_DATE - INTERVAL 1 DAY |
Logs with a user_id field equal to 1234 | metadata.user_id = '1234' |
Logs with a Factuality score greater than 0.5 | scores.Factuality > 0.5 |
Querying through the API
For basic filters and access to the logs, you can use the project logs endpoint. This endpoint supports the same query syntax as the UI, and also allows you to specify additional fields to return.
For more advanced queries, you can use BTQL endpoint.
User feedback
Braintrust supports logging user feedback, which can take multiple forms:
- A score for a specific span, e.g. the output of a request could be đ (corresponding to 1) or đ (corresponding to 0), or a document retrieved in a vector search might be marked as relevant or irrelevant on a scale of 0->1.
- An expected value, which gets saved in the
expected
field of a span, alongsideinput
andoutput
. This is a great place to store corrections. - A comment, which is a free-form text field that can be used to provide additional context.
- Additional metadata fields, which allow you to track information about the feedback, like the
user_id
orsession_id
.
Each time you submit feedback, you can specify one or more of these fields using the logFeedback()
/ log_feedback()
method, which
simply needs you to specify the span_id
corresponding to the span you want to log feedback for, and the feedback fields you want to update.
The following example shows how to log feedback within a simple API endpoint.
Collecting multiple scores
Often, you want to collect multiple scores for a single span. For example, multiple users might provide independent feedback on
a single document. Although each score and expected value is logged separately, each update overwrites the previous value. Instead, to
capture multiple scores, you should create a new span for each submission, and log the score in the scores
field. When you view
and use the trace, Braintrust will automatically average the scores for you in the parent span(s).
Tags and queues
Braintrust supports curating logs by adding tags, and then filtering on them in the UI. Tags naturally flow between logs, to datasets, and even to experiments, so you can use them to track various kinds of data across your application, and track how they change over time.
Configuring tags
Tags are configured at the project level, and in addition to a name, you can also specify a color and description. To configure tags, navigate to the "Configuration" tab in a project, where you can add, modify, and delete tags.
Adding tags in the SDK
You can also add tags to logs using the SDK. To do so, simply specify the tags
field when you log data.
Tags can only be applied to top-level spans, e.g those created via traced()
or logger.startSpan()
/ logger.start_span()
. You cannot apply tags to
subspans (those created from another span), because they are properties of the
whole trace, not individual spans.
You can also apply tags while capturing feedback via the logFeedback()
/ log_feedback()
method.
Filtering by tags
To filter by tags, simply select the tags you want to filter by in the UI.
Using tags to create queues
You can also use tags to create queues, which are a way to organize logs into groups. Queues are useful for tracking logs you want to
look at later, or for organizing logs into different categories. To create a queue, you should create two tags: one for the queue,
and one to indicate that the event is no longer in the queue. For example, you might create a triage
tag, and a triaged
tag.
As you're reviewing logs, simply add the triage
tag to the logs you want to review later. To see the logs in the queue, filter by the
triage
tag. You can add an additional label, like NOT (tags includes 'triaged')
to exclude logs that have been marked as done.
Online evaluation
Although you can log scores from your application, it can be awkward and computationally intensive to run evals code in your production environment. To solve this, Braintrust supports server-side online evaluations that are automatically run asynchronously as you upload logs. You can pick from the pre-built autoevals functions or your custom scorers, and define a sampling rate along with more granular filters to control which logs get evaluated.
Configuring online evaluation
To create an online evaluation, navigate to the "Configuration" tab in a project and create an online scoring rule.
The score will now automatically run at the specified sampling rate for all logs in the project.
Defining custom scoring logic
In addition to the pre-built autoevals, you can define your own custom scoring logic by creating custom scorers. Currently, you can do that by visiting the Playground and creating custom scorers.
Implementation considerations
Data model
- Each log entry is associated with an organization and a project. If you do not specify a project name or id in
initLogger()
/init_logger()
, the SDK will create and use a project named "Global". - Although logs are associated with a single project, you can still use them in evaluations or datasets that belong to any project.
- Like evaluation experiments, log entries contain optional
input
,output
,expected
,scores
,metadata
, andmetrics
fields. These fields are optional, but we encourage you to use them to provide context to your logs. - Logs are indexed automatically to enable efficient search. When you load logs, Braintrust automatically returns the most recently
updated log entries first. You can also search by arbitrary subfields, e.g.
metadata.user_id = '1234'
. Currently, inequality filters, e.g.scores.accuracy > 0.5
do not use an index.
Production vs. staging
There are a few ways to handle production vs. staging data. The most common pattern we see is to split them into different projects, so that they are separated and code changes to staging cannot affect production. Separating projects also allows you to enforce access controls at the project level.
Alternatively, if it's easier to keep things in one project (e.g. to have a single spot to triage them), you can use tags to separate them. If you need to physically isolate production and staging, you can create separate organizations, each mapping to a different deployment.
Experiments, prompts, and playgrounds can all use data across projects. For example, if you want to reference a prompt from your production project in your staging logs, or evaluate using a dataset from staging in a different project, you can do so.
Initializing
The initLogger()
/init_logger()
method initializes the logger. Unlike the experiment init()
method, the logger lazily
initializes itself, so that you can call initLogger()
/init_logger()
at the top of your file (in module scope). The first
time you log()
or start a span, the logger will log into Braintrust and retrieve/initialize project details.
Flushing
The SDK can operate in two modes: either it sends log statements to the server after each request, or it buffers them in
memory and sends them over in batches. Batching reduces the number of network requests and makes the log()
command as fast as possible.
Each SDK flushes logs to the server as fast as possible, and attempts to flush any outstanding logs when the program terminates.
You can enable background batching by setting the asyncFlush
/ async_flush
flag to true
in initLogger()
/init_logger()
.
When async flush mode is on, you can use the .flush()
method to manually flush any outstanding logs to the server.
Serverless environments
The asyncFlush
/ async_flush
flag controls whether or not logs are flushed
when a trace completes. This flag should be set to false
in serverless environments where the process
may halt as soon as the request completes. By default, asyncFlush
is set to false
in the Typescript SDK, since
most Typescript applications are serverless, and True
in Python.
Vercel
Braintrust automatically utilizes Vercel's waitUntil
functionality if it's available, so you can set asyncFlush: true
in
Vercel and your requests will not need to block on logging.