How Sampling Works
When a dataset is first created, a background job begins to generate a sample using the first set of rows of the dataset. This initial sample is usually very quick to generate, so that you can get to work right away on your transformations.
- The default sample is the initial sample.
- By default, each sample is 10 MB in size or the entire dataset if it's smaller.
- If the source data is larger than 10MB in size, a random sample is automatically generated for you when the recipe is first loaded in the Transformer page.
- The initial sample is selected by default. When the automatic random sample has finished generation, it can be manually selected for display.
- If your source of data is a directory containing multiple files, the initial sample for the combined dataset is generated from the first set of rows in the first filename listed in the directory.
If the matching file is a multi-sheet Excel file, the sample is taken from the first sheet in the file.If you are wrangling a dataset with parameters, the initial sample loaded in the Transformer page is taken from the first matching dataset.
Additional samples can be generated from the context panel on the right side of the Transformer page. Sample jobs are independent job executions. When a sample job succeeds or fails, a notification is displayed for you.
As you develop your recipe, you might need to take new samples of the data. For example, you might need to focus on the mismatched or invalid values that appear in a single column. Through the Transformer page, you can specify the type of sample that you wish to create and initiate the job to create the sample. This sampling job occurs in the background.You can create a new sample at any time. When a sample is created, it is stored within your storage directory on the backend datastore.For more information on creating samples, see Samples Panel.
Depending on the type of sample you select, it may be generated based on one of the following methods, in increasing order of time to create:
- on a specified set of rows (firstrows)
on a quick scan across the dataset
Tip: Quick scan samples are executed in the Trifacta Photon running environment.
on a full scan of the entire dataset
Tip: Full scan samples are executed in the cluster running environment.
When a non-initial sample is executed for a single dataset-recipe combination, the following steps occur:
- All of the steps of the recipe are executed on the dataset on the backend cluster, up to the currently selected recipe step.
- The generated sample is executed on the current state of the dataset.
NOTE: When a sample is executed from the Samples panel, it is launched based on the steps leading up to current location in the recipe steps. For example, if your recipe includes joining in other datasets, those steps are executed, and the sample is generated with dependencies on these other datasets. As a result, if you change your recipe steps that occur before the step where the sample was generated, you can invalidate your sample. More information is available below.
When your flow contains multiple datasets and flows, all of the preceding steps leading up to the currently selected step of the recipe are executed, which can mean:
- The number of datasets that must be accessed increases.
- The number of recipe steps that must be executed on the backend increases.
- The time to process the sampling job increases.
- When the sample is displayed in the Transformer page, all steps after the one from which it was executed are computed in the web browser. So, if you have a lengthy series of steps or complex operations after the step where you generated a sample, you can cause performance issues of the Transformer page, including the occasional browser crash. Try generating a new sample later in your flow for better performance.
- If you have added an expensive transformation step, such as a complex union or join, you can improve performance of the Transformer page by generating and using a new sample after the transformation step.
NOTE: When a flow is shared, its samples are shared with other users. However, if those users do not have access to the underlying files that back a sample, they do not have access to the sample and must create their own.
Important notes on sampling
- When sampling from compressed data, the data is uncompressed and then expanded. As a result, the sample size reflects the uncompressed data.
- Changes to preceding steps that alter the number of rows or columns in your dataset can invalidate the current sample, which means that the sample is no longer a valid representation of the state of the dataset in the recipe. In this case, Trifacta automatically switches you back to the most recently collected sample that is currently valid. Details are below.
Parameterization of samples
Any parameters that are associated with your dataset can be applied to sampling:
- Parameters: Subsequent samples generated from the Transformer page are sampled across all datasets matched by parameter values.
Variables: You can apply override values to the defaults for your dataset's variables at sample execution time. In this manner, you can draw your samples from specific sources files within your dataset with parameters.
After you have created a sample, you cannot delete it through the application.
NOTE: Trifacta does not delete samples after they have been created. If you are concerned about data accumulation, you should configure periodic purges of the appropriate directories on the base storage layer. For more information, please contact your IT administrator.
After you have collected multiple samples of multiple types on your dataset, you can choose the proper sample to use for your current task, based on:
- How well each sample represents the underlying dataset. Does the current sample reflect the likely statistics and outliers of the entire dataset at scale?
- How well each sample supports your next recipe step. If you're developing steps for managing bad data or outliers, for example, you may need to choose a different sample.
Tip: You can begin work on an outdated yet still valid sample while you generate a new one based on the current recipe.
- Some advanced sampling options are available only with execution across a scan of the full dataset.
- Undo/redo do not change the sample state, even if the sample becomes invalid.
- When a new sample is generated, any Sort transformations that have been applied previously must be re-applied. Depending on the type of output, sort order may not be preserved.
- Samples taken from a dataset with parameters are limited to a maximum of 50 files when executed on the Trifacta Photon running environment. You can modify parameters as they apply to sampling jobs. See Samples Panel.
With each step that is added or modified to your recipe, Trifacta checks to see if the current sample is valid. Samples are valid based on the state of your flow and recipe at the step when the sample was collected. If you add steps before the step where it was created, the currently active sample can be invalidated. For example, if you change the source of data, then the sample in the Transformer page no longer applies, and a new sample must be displayed.
Tip: After you have completed a step that significantly changes the number of rows, columns, or both in your dataset, you may need to generate a new sample, factoring in any costs associated with running the job. Performance costs may be displayed in the Transformer page.
NOTE: If you modify a SQL statement for an imported dataset, any samples based on the old SQL statement are invalidated.
- The Transformer page reverts to displaying the most recently collected sample that is currently valid.
You can generate a new sample of the same type through the Samples panel. If no sample is valid, you must generate a new sample before you can open the dataset.
A sample that is invalidated is listed under the Unavailable tab. It cannot be selected for use. If subsequent steps make it valid again, it re-appears in the Available tab.
The data that is displayed in the data grid is based on all of the upstream samples after which all subsequent steps in each upstream recipe are performed in the browser. If you have a large number of steps or complex steps between the recipe locations for your samples in use and your current recipe location, you may experience performance slow-downs or crashes in the data grid. For more information on sampling best practices, see https://community.trifacta.com/s/article/Best-Practices-Managing-Samples-in-Complex-Flows.
All steps between the step in your current sample and the currently displayed step must be computed in the browser. As you build more complex recipes, it's a good idea to create samples at various steps in your recipe, particularly after you have executed a complex step. This type of sample checkpointing can improve overall performance.
For example, as soon as you load a new recipe, you should take a sample, which can speed up the process of loading.
Tip: You can annotate your recipe with comments, such as:
sample: random and then create a new sample at that location.
Trifacta currently supports the following sampling methods.
First rows samples
This sample is taken from the first set of rows in the transformed dataset based on the current cursor location in the recipe. The first N rows in the dataset are collected based on the recipe steps up to the configured sample size.
- This sample may span multiple datasets and files, depending on how the recipe is constructed.
- The first rows sample is different from the initial sample, which is gathered without reference to any recipe steps.
These samples are fast to generate. These samples may load faster in the application than samples of other types.
Tip: If you have chained together multiple recipes, all steps in all linked recipes must be run to provide visual updates. If you are experiencing performance problems related to this kind of updating, you can select a recipe in the middle of the chain of recipes and switch it off the initial sample to a different sample. When invoked, the recipes from the preceding datasets do not need to be executed, which can improve performance.
Random selection of a subset of rows in the dataset. These samples are comparatively fast to generate. You can apply quick scan or full scan to determine the scope of the sample.
Find specific values in one or more columns. For the matching set of values, a random sample is generated.
You must define your filter in the Filter textbox.
Find mismatched or missing data or both in one or more columns.
You specify one or more columns and whether the anomaly is:
- either of the above
Optionally, you can define an additional filter on other columns.
Find all unique values within a column and create a sample that contains the unique values, up to the sample size limit. The distribution of the column values in the sample reflects the distribution of the column values in the dataset. Sampled values are sorted by frequency, relative to the specified column.
Optionally, you can apply a filter to this one.
Tip: Collecting samples containing all unique values can be useful if you are performing mapping transformations, such as values to columns. If your mapping contains too many unique values among your key-value pairs, you can try to delete all columns except the one containing key-value pairs in a step, collect the sample, add the mapping step, and then delete the step where all other columns are removed.
Cluster sampling collects contiguous rows in the dataset that correspond to a random selection from the unique values in a column. All rows corresponding to the selected unique values appear in the sample, up to the maximum sample size. This sampling is useful for time-series analysis and advanced aggregations.
Optionally, you can apply an advanced filter to the column.
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