Infra Ops Text to SQL
Provides tools to convert natural language questions into SQL queries and execute them against a SQLite database, returning the real answer.
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Here is a step-by-step guide with screenshots.
Infra Ops Text to SQL: QLoRA Fine Tuning with MCP Serving
Python ยท MLX ยท License
๐ฏ What Is This?
This project fine-tunes Llama-3.1-8B-Instruct using QLoRA to translate plain-English questions about a company's infrastructure into working SQL queries, execute them, and return the real answer. No engineer has to write the query by hand.
In large engineering organizations, infrastructure data is scattered across many related tables: teams, services, servers, incidents, deployments, alerts, on-call schedules. Answering even a simple operational question means writing a multi-table SQL join.
Teams own services, and services run on servers spread across multiple regions.
Incidents, alerts, and config changes are all tied to a specific service, with timestamps that matter (when something broke, when it was acknowledged, when it was resolved).
On-call shifts and service dependencies add further relationships that make some questions, like "which service caused a cascading failure," genuinely hard to query without SQL expertise.
Most people who need to answer a question like this don't know how to write the SQL required to get it. This project closes that gap by fine-tuning a model specifically for this task, then serving it as a tool an AI agent can call directly.
Related MCP server: rds-mcp
๐ What It Does?
Converts a plain-English question into SQL, correctly joining across multiple related tables where needed
Executes that SQL against a real database and returns the real answer, not just the query text
Fine-tunes Llama-3.1-8B-Instruct with QLoRA (4-bit quantization plus LoRA adapters), training only 5.24M of the model's 8.03B parameters (0.065%) via MLX
Evaluates with execution accuracy across three difficulty tiers (easy, medium, hard), comparing actual query results against the correct results, not text similarity
Serves the fine-tuned model as an MCP server, so any MCP-compatible AI client (Claude Desktop, Cline, MCP Inspector) can call it directly in conversation
๐ Model Performance
The model was evaluated on a 375-question held-out test set, before and after QLoRA fine-tuning. Correctness is measured by execution accuracy. For each test question, both the model's generated SQL and the correct SQL are run against the database, and their results are compared. If the two results match, the answer counts as correct, even if the two queries are worded completely differently.
Tier | Baseline (few-shot) | Fine-tuned (QLoRA) | Delta |
Easy | 94.48% | 100.00% | +5.52 pts |
Medium | 74.62% | 99.23% | +24.61 pts |
Hard | 20.00% | 97.00% | +77.00 pts |
Overall | 67.73% | 98.93% | +31.20 pts |
The largest gains are on hard-tier queries: subqueries, self-referencing joins, and date-window logic, where the base model largely failed and the fine-tuned model succeeds almost every time.
๐ฅ๏ธ How It Works?
Database Build: A script generates a 10-table engineering-operations database. The database contains 24 teams, 96 services, and 384 servers spread across 4 regions, along with incidents, deployments, alerts, on-call shifts, service dependencies, resource usage records, and configuration changes. All data is realistic, randomized, and reproducible.
Dataset Generation: 63 hand-written SQL query templates, spanning 23 easy, 25 medium, and 15 hard patterns, are filled in with real entity values pulled directly from the database, producing 2,500 unique question and SQL pairs. Every single one is verified to execute correctly before training begins. The result is split into 1,875 for training, 250 for validation, and 375 held out for testing.
Baseline Evaluation: The unmodified base model is tested on all 375 held-out questions using few-shot prompting, establishing the "before" results.
QLoRA Fine Tuning: The base model is frozen and quantized to 4-bit, and LoRA adapters are inserted into the last 8 of its 32 transformer layers, then trained for 600 iterations on the training examples via MLX.
Fine-Tuned Evaluation: The trained model is tested zero-shot on the same 375 held-out questions, and the results are compared tier by tier against the baseline.
MCP Serving: The fine-tuned model is wrapped as an MCP server exposing two tools, one that converts a question into SQL and returns the real answer, and one that returns the database schema, so it can be called live by any MCP-compatible AI client.
๐ ๏ธ Tech Stack
Layer | Tools |
ML Framework | MLX ยท mlx-lm |
Base Model | Llama-3.1-8B-Instruct (Meta), 4-bit via mlx-community |
Fine-Tuning | QLoRA (4-bit quantization plus LoRA adapters) |
Database | SQLite |
Serving | MCP (Model Context Protocol) Python SDK, FastMCP |
Testing Client | MCP Inspector |
Language | Python 3.11 |
๐ Project Structure
infra-ops-text-to-sql-qlora-mcp/
โโโ README.md โ project documentation
โโโ requirements.txt โ Python dependencies (mlx, mlx-lm, mcp)
โโโ train.sh โ runs QLoRA fine-tuning via MLX
โโโ common.py โ shared constants (model name, paths, schema prompt)
โโโ data/
โ โโโ build_db.py โ builds the engineering-operations database
โ โโโ generate_dataset.py โ generates the tiered training and evaluation data
โโโ scripts/
โ โโโ eval_utils.py โ executes SQL and compares results for execution accuracy
โ โโโ baseline_eval.py โ evaluates the base model with few-shot prompting
โ โโโ baseline_results.json โ saved baseline accuracy results
โ โโโ finetuned_eval.py โ evaluates the fine-tuned model, zero-shot
โ โโโ finetuned_results.json โ saved fine-tuned accuracy results
โ โโโ compare_results.py โ prints the before and after comparison table
โโโ mcp_server/
โโโ server.py โ exposes the fine-tuned model as MCP toolsRunning data/build_db.py and data/generate_dataset.py produces the database and dataset files locally. Running train.sh produces the trained adapter weights in adapters/. These generated files are not committed to the repository, since the project is fully reproducible from the source above.
๐ก What Makes This Different?
Execution accuracy, not text matching: correctness is measured by running the generated SQL and comparing actual results, not by comparing SQL text to a reference query. This avoids penalizing a differently worded but equally correct query, and avoids rewarding a similar-looking query that is actually wrong.
QLoRA fine-tuning trains the model directly on the target schema and query patterns. Measured on this project's own held-out test set, this improved hard-tier query accuracy from 20% (prompting alone) to 97%.
Serving via MCP makes it callable live by any MCP-compatible AI agent, not just runnable from a script. Tested with MCP Inspector.
Tiered evaluation (easy, medium, hard) shows exactly where fine-tuning helped most, instead of hiding the picture behind one blended accuracy number.
๐ฌ Evaluation Methodology
All 2,500 training examples were generated from 63 hand-written query patterns, filled in with real values pulled directly from the database. Every generated SQL query was verified to execute correctly against the database before training.
98.93% reflects the model correctly applying its 63 learned query patterns to new entity combinations it hadn't seen in that exact combination before, rather than generalization to entirely novel query structures or a different schema.
๐ Run Locally
git clone https://github.com/<your-username>/infra-ops-text-to-sql-qlora-mcp
cd infra-ops-text-to-sql-qlora-mcp
python3 -m venv .venv
source .venv/bin/activate
pip install -r requirements.txtBuild the data:
python data/build_db.py
python data/generate_dataset.pyEstablish the baseline, then fine-tune:
python scripts/baseline_eval.py # downloads the base model (about 4.5GB)
bash train.sh # took about 5 hours on 16GB RAM in practiceEvaluate and compare:
python scripts/finetuned_eval.py
python scripts/compare_results.pyServe it live:
npx @modelcontextprotocol/inspector python mcp_server/server.pyThis opens a browser UI to call the text_to_sql tool directly. Example from an actual run:
Q: "which teams have more than 2 unresolved incidents?"
Generated SQL:
SELECT t.name FROM incidents i JOIN services s ON i.service_id = s.service_id
JOIN teams t ON s.team_id = t.team_id WHERE i.resolved_at IS NULL
GROUP BY t.name HAVING COUNT(*) > 2;Result: 12 teams returned, including Compute Platform, Security, Storage, and Workflow Orchestration.
A harder example, involving date arithmetic:
Q: "what is the average time in minutes between an alert being triggered and acknowledged for services owned by the Security team?"
Result: approximately 34 minutes, computed by a correctly generated query joining alerts, services, and teams.
๐ Secrets Required
None. This project runs entirely locally. No API keys, no cloud services, no external accounts needed.
๐ฎ Future Work
Run a plain LoRA (8-bit, cloud GPU) comparison arm to complete a three-way comparison against this project's existing base model and QLoRA results, showing specifically the accuracy cost of 4-bit versus 8-bit quantization.
Expand the hard-tier template set to test deeper multi-hop reasoning.
๐ฉโ๐ป Author
Nirusha Mantralaya Ramesh
๐ GitHub: Nirusha-19
๐ License
MIT. Free to use, fork, and build upon.
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