Data Explorer
Data and analytics skill, available on Zeplik
Data Explorer is a ready-to-run data and analytics skill on Zeplik. Produces a full profile with quality flags. Ask in plain language and Zeplik applies the skill's method for you inside the conversation, on whichever AI model you prefer.
The Data Explorer skill loads automatically when your request matches it, or you can invoke it directly by typing /explore-data in any chat. It works with attachments, connectors, and any model that supports the task, so you get the same expert method every time without setting anything up.
What the Data Explorer skill can do
- Profile any table or file for shape, types, and structure
- Classify columns as identifiers, dimensions, metrics, dates, or text
- Flag data quality issues like nulls, duplicates, and suspicious values
- Suggest follow-up analyses based on the column profile
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Pick a prompt to open it in the Zeplik app. If you are not signed in yet, your prompt is waiting for you the moment you do.
How the Data Explorer skill works
/explore-data - Profile and Explore a Dataset
If you see unfamiliar placeholders or need to check which tools are connected, see CONNECTORS.md.
Generate a comprehensive data profile for a table or uploaded file. Understand its shape, quality, and patterns before diving into analysis.
Usage
/explore-data <table_name or file>
Workflow
1. Access the Data
If a data warehouse MCP server is connected:
- Resolve the table name (handle schema prefixes, suggest matches if ambiguous)
- Query table metadata: column names, types, descriptions if available
- Run profiling queries against the live data
If a file is provided (CSV, Excel, Parquet, JSON):
- Read the file and load into a working dataset
- Infer column types from the data
If neither:
- Ask the user to provide a table name (with their warehouse connected) or upload a file
- If they describe a table schema, provide guidance on what profiling queries to run
2. Understand Structure
Before analyzing any data, understand its structure:
Table-level questions:
- How many rows and columns?
- What is the grain (one row per what)?
- What is the primary key? Is it unique?
- When was the data last updated?
- How far back does the data go?
Column classification — categorize each column as one of:
- Identifier: Unique keys, foreign keys, entity IDs
- Dimension: Categorical attributes for grouping/filtering (status, type, region, category)
- Metric: Quantitative values for measurement (revenue, count, duration, score)
- Temporal: Dates and timestamps (created_at, updated_at, event_date)
- Text: Free-form text fields (description, notes, name)
- Boolean: True/false flags
- Structural: JSON, arrays, nested structures
3. Generate Data Profile
Run the following profiling checks:
Table-level metrics:
- Total row count
- Column count and types breakdown
- Approximate table size (if available from metadata)
- Date range coverage (min/max of date columns)
All columns:
- Null count and null rate
- Distinct count and cardinality ratio (distinct / total)
- Most common values (top 5-10 with frequencies)
- Least common values (bottom 5 to spot anomalies)
Numeric columns (metrics):
min, max, mean, median (p50)
standard deviation
percentiles: p1, p5, p25, p75, p95, p99
zero count
negative count (if unexpected)
String columns (dimensions, text):
min length, max length, avg length
empty string count
pattern analysis (do values follow a format?)
case consistency (all upper, all lower, mixed?)
leading/trailing whitespace count
Date/timestamp columns:
min date, max date
null dates
future dates (if unexpected)
distribution by month/week
gaps in time series
Boolean columns:
true count, false count, null count
true rate
Present the profile as a clean summary table, grouped by column type (dimensions, metrics, dates, IDs).
4. Identify Data Quality Issues
Apply the quality assessment framework below. Flag potential problems:
- High null rates: Columns with >5% nulls (warn), >20% nulls (alert)
- Low cardinality surprises: Columns that should be high-cardinality but aren't (e.g., a "user_id" with only 50 distinct values)
- High cardinality surprises: Columns that should be categorical but have too many distinct values
- Suspicious values: Negative amounts where only positive expected, future dates in historical data, obviously placeholder values (e.g., "N/A", "TBD", "test", "999999")
- Duplicate detection: Check if there's a natural key and whether it has duplicates
- Distribution skew: Extremely skewed numeric distributions that could affect averages
- Encoding issues: Mixed case in categorical fields, trailing whitespace, inconsistent formats
5. Discover Relationships and Patterns
After profiling individual columns:
- Foreign key candidates: ID columns that might link to other tables
- Hierarchies: Columns that form natural drill-down paths (country > state > city)
- Correlations: Numeric columns that move together
- Derived columns: Columns that appear to be computed from others
- Redundant columns: Columns with identical or near-identical information
6. Suggest Interesting Dimensions and Metrics
Based on the column profile, recommend:
- Best dimension columns for slicing data (categorical columns with reasonable cardinality, 3-50 values)
- Key metric columns for measurement (numeric columns with meaningful distributions)
- Time columns suitable for trend analysis
- Natural groupings or hierarchies apparent in the data
- Potential join keys linking to other tables (ID columns, foreign keys)
7. Recommend Follow-Up Analyses
Suggest 3-5 specific analyses the user could run next:
- "Trend analysis on [metric] by [time_column] grouped by [dimension]"
- "Distribution deep-dive on [skewed_column] to understand outliers"
- "Data quality investigation on [problematic_column]"
- "Correlation analysis between [metric_a] and [metric_b]"
- "Cohort analysis using [date_column] and [status_column]"
Output Format
## Data Profile: [table_name]
### Overview
- Rows: 2,340,891
- Columns: 23 (8 dimensions, 6 metrics, 4 dates, 5 IDs)
- Date range: 2021-03-15 to 2024-01-22
### Column Details
[summary table]
### Data Quality Issues
[flagged issues with severity]
### Recommended Explorations
[numbered list of suggested follow-up analyses]
Quality Assessment Framework
Completeness Score
Rate each column:
- Complete (>99% non-null): Green
- Mostly complete (95-99%): Yellow -- investigate the nulls
- Incomplete (80-95%): Orange -- understand why and whether it matters
- Sparse (<80%): Red -- may not be usable without imputation
Consistency Checks
Look for:
- Value format inconsistency: Same concept represented differently ("USA", "US", "United States", "us")
- Type inconsistency: Numbers stored as strings, dates in various formats
- Referential integrity: Foreign keys that don't match any parent record
- Business rule violations: Negative quantities, end dates before start dates, percentages > 100
- Cross-column consistency: Status = "completed" but completed_at is null
Accuracy Indicators
Red flags that suggest accuracy issues:
- Placeholder values: 0, -1, 999999, "N/A", "TBD", "test", "xxx"
- Default values: Suspiciously high frequency of a single value
- Stale data: Updated_at shows no recent changes in an active system
- Impossible values: Ages > 150, dates in the far future, negative durations
- Round number bias: All values ending in 0 or 5 (suggests estimation, not measurement)
Timeliness Assessment
- When was the table last updated?
- What is the expected update frequency?
- Is there a lag between event time and load time?
- Are there gaps in the time series?
Pattern Discovery Techniques
Distribution Analysis
For numeric columns, characterize the distribution:
- Normal: Mean and median are close, bell-shaped
- Skewed right: Long tail of high values (common for revenue, session duration)
- Skewed left: Long tail of low values (less common)
- Bimodal: Two peaks (suggests two distinct populations)
- Power law: Few very large values, many small ones (common for user activity)
- Uniform: Roughly equal frequency across range (often synthetic or random)
Temporal Patterns
For time series data, look for:
- Trend: Sustained upward or downward movement
- Seasonality: Repeating patterns (weekly, monthly, quarterly, annual)
- Day-of-week effects: Weekday vs. weekend differences
- Holiday effects: Drops or spikes around known holidays
- Change points: Sudden shifts in level or trend
- Anomalies: Individual data points that break the pattern
Segmentation Discovery
Identify natural segments by:
- Finding categorical columns with 3-20 distinct values
- Comparing metric distributions across segment values
- Looking for segments with significantly different behavior
- Testing whether segments are homogeneous or contain sub-segments
Correlation Exploration
Between numeric columns:
- Compute correlation matrix for all metric pairs
- Flag strong correlations (|r| > 0.7) for investigation
- Note: Correlation does not imply causation -- flag this explicitly
- Check for non-linear relationships (e.g., quadratic, logarithmic)
Schema Understanding and Documentation
Schema Documentation Template
When documenting a dataset for team use:
## Table: [schema.table_name]
**Description**: [What this table represents]
**Grain**: [One row per...]
**Primary Key**: [column(s)]
**Row Count**: [approximate, with date]
**Update Frequency**: [real-time / hourly / daily / weekly]
**Owner**: [team or person responsible]
### Key Columns
| Column | Type | Description | Example Values | Notes |
|--------|------|-------------|----------------|-------|
| user_id | STRING | Unique user identifier | "usr_abc123" | FK to users.id |
| event_type | STRING | Type of event | "click", "view", "purchase" | 15 distinct values |
| revenue | DECIMAL | Transaction revenue in USD | 29.99, 149.00 | Null for non-purchase events |
| created_at | TIMESTAMP | When the event occurred | 2024-01-15 14:23:01 | Partitioned on this column |
### Relationships
- Joins to `users` on `user_id`
- Joins to `products` on `product_id`
- Parent of `event_details` (1:many on event_id)
### Known Issues
- [List any known data quality issues]
- [Note any gotchas for analysts]
### Common Query Patterns
- [Typical use cases for this table]
Schema Exploration Queries
When connected to a data warehouse, use these patterns to discover schema:
-- List all tables in a schema (PostgreSQL)
SELECT table_name, table_type
FROM information_schema.tables
WHERE table_schema = 'public'
ORDER BY table_name;
-- Column details (PostgreSQL)
SELECT column_name, data_type, is_nullable, column_default
FROM information_schema.columns
WHERE table_name = 'my_table'
ORDER BY ordinal_position;
-- Table sizes (PostgreSQL)
SELECT relname, pg_size_pretty(pg_total_relation_size(relid))
FROM pg_catalog.pg_statio_user_tables
ORDER BY pg_total_relation_size(relid) DESC;
-- Row counts for all tables (general pattern)
-- Run per-table: SELECT COUNT(*) FROM table_name
Lineage and Dependencies
When exploring an unfamiliar data environment:
- Start with the "output" tables (what reports or dashboards consume)
- Trace upstream: What tables feed into them?
- Identify raw/staging/mart layers
- Map the transformation chain from raw data to analytical tables
- Note where data is enriched, filtered, or aggregated
Tips
- For very large tables (100M+ rows), profiling queries use sampling by default -- mention if you need exact counts
- If exploring a new dataset for the first time, this command gives you the lay of the land before writing specific queries
- The quality flags are heuristic -- not every flag is a real problem, but each is worth a quick look
Zeplik output presentation
Present the final deliverable as a single polished artifact: clear headings, tables where the content is tabular, fenced code where it is code. Lead with the deliverable itself; keep process commentary to a single short line. If the skill produced multiple files or sections, end with a compact list of them with one-line purposes.
How to use the Data Explorer skill
Sign in to Zeplik
Create a free Zeplik account or sign in. New accounts start with free credits, so you can try the Data Explorer skill right away.
Describe your data and analytics task
Ask in plain language, or type /explore-data to invoke the skill directly. Zeplik recognizes the Data Explorer skill and applies its method.
Review and refine the result
Zeplik returns a clear, structured answer. Ask follow-ups in the same chat to refine it or take the next step.
Source and credit
- Author
- Anthropic
- License
- Apache-2.0
Adapted from the open-source anthropics/knowledge-work-plugins project and tuned to run natively on Zeplik. View source on GitHub.
Frequently asked questions
- What is the Data Explorer skill?
- Data Explorer is a ready-to-run data and analytics skill on Zeplik. Produces a full profile with quality flags. Ask in plain language and Zeplik applies the skill's method for you inside the conversation, on whichever AI model you prefer.
- How do I use Data Explorer on Zeplik?
- Sign in to Zeplik and ask in plain language, or type /explore-data in any chat to invoke it directly. The skill applies its method and returns a result you can refine in the same conversation.
- Which AI model does the Data Explorer skill use?
- Any model you choose. Zeplik works across every model in one chat, so the Data Explorer skill runs on your preferred model for the task.
- Where does the Data Explorer skill come from?
- The Data Explorer skill is adapted from the open-source anthropics/knowledge-work-plugins project (Apache-2.0) and tuned to run natively on Zeplik. The original source is linked on this page.
- How much does the Data Explorer skill cost?
- Using the skill is free to start. You only spend Zeplik credits when the assistant runs, and new accounts begin with free credits.
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More on Zeplik
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