Agent-Skills.md

Agent Skills: Database Optimizer

Optimizes database queries and improves performance across PostgreSQL and MySQL systems. Use when investigating slow queries, analyzing execution plans, or optimizing database performance. Invoke for index design, query rewrites, configuration tuning, partitioning strategies, lock contention resolution.

UncategorizedID: jeffallan/claude-skills/database-optimizer

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jeffallan/claude-skills
JeffallanLicense: MIT
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pnpm dlx add-skill https://github.com/Jeffallan/claude-skills/tree/HEAD/skills/database-optimizer

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skills/database-optimizer/SKILL.md

Skill Metadata

Name
database-optimizer
Description
Optimizes database queries and improves performance across PostgreSQL and MySQL systems. Use when investigating slow queries, analyzing execution plans, or optimizing database performance. Invoke for index design, query rewrites, configuration tuning, partitioning strategies, lock contention resolution.

Database Optimizer

Senior database optimizer with expertise in performance tuning, query optimization, and scalability across multiple database systems.

When to Use This Skill

  • Analyzing slow queries and execution plans
  • Designing optimal index strategies
  • Tuning database configuration parameters
  • Optimizing schema design and partitioning
  • Reducing lock contention and deadlocks
  • Improving cache hit rates and memory usage

Core Workflow

  1. Analyze Performance — Capture baseline metrics and run EXPLAIN ANALYZE before any changes
  2. Identify Bottlenecks — Find inefficient queries, missing indexes, config issues
  3. Design Solutions — Create index strategies, query rewrites, schema improvements
  4. Implement Changes — Apply optimizations incrementally with monitoring; validate each change before proceeding to the next
  5. Validate Results — Re-run EXPLAIN ANALYZE, compare costs, measure wall-clock improvement, document changes

⚠️ Always test changes in non-production first. Revert immediately if write performance degrades or replication lag increases.

Reference Guide

Load detailed guidance based on context:

| Topic | Reference | Load When | |-------|-----------|-----------| | Query Optimization | references/query-optimization.md | Analyzing slow queries, execution plans | | Index Strategies | references/index-strategies.md | Designing indexes, covering indexes | | PostgreSQL Tuning | references/postgresql-tuning.md | PostgreSQL-specific optimizations | | MySQL Tuning | references/mysql-tuning.md | MySQL-specific optimizations | | Monitoring & Analysis | references/monitoring-analysis.md | Performance metrics, diagnostics |

Common Operations & Examples

Identify Top Slow Queries (PostgreSQL)

-- Requires pg_stat_statements extension
SELECT query,
       calls,
       round(total_exec_time::numeric, 2)  AS total_ms,
       round(mean_exec_time::numeric, 2)   AS mean_ms,
       round(stddev_exec_time::numeric, 2) AS stddev_ms,
       rows
FROM   pg_stat_statements
ORDER  BY mean_exec_time DESC
LIMIT  20;

Capture an Execution Plan

-- Use BUFFERS to expose cache hit vs. disk read ratio
EXPLAIN (ANALYZE, BUFFERS, FORMAT TEXT)
SELECT o.id, c.name
FROM   orders o
JOIN   customers c ON c.id = o.customer_id
WHERE  o.status = 'pending'
  AND  o.created_at > now() - interval '7 days';

Reading EXPLAIN Output — Key Patterns to Find

| Pattern | Symptom | Typical Remedy | |---------|---------|----------------| | Seq Scan on large table | High row estimate, no filter selectivity | Add B-tree index on filter column | | Nested Loop with large outer set | Exponential row growth in inner loop | Consider Hash Join; index inner join key | | cost=... rows=1 but actual rows=50000 | Stale statistics | Run ANALYZE <table>; | | Buffers: hit=10 read=90000 | Low buffer cache hit rate | Increase shared_buffers; add covering index | | Sort Method: external merge | Sort spilling to disk | Increase work_mem for the session |

Create a Covering Index

-- Covers the filter AND the projected columns, eliminating a heap fetch
CREATE INDEX CONCURRENTLY idx_orders_status_created_covering
    ON orders (status, created_at)
    INCLUDE (customer_id, total_amount);

Validate Improvement

-- Before optimization: save plan & timing
EXPLAIN (ANALYZE, BUFFERS) <query>;   -- note "Execution Time: X ms"

-- After optimization: compare
EXPLAIN (ANALYZE, BUFFERS) <query>;   -- target meaningful reduction in cost & time

-- Confirm index is actually used
SELECT indexname, idx_scan, idx_tup_read, idx_tup_fetch
FROM   pg_stat_user_indexes
WHERE  relname = 'orders';

MySQL: Find Slow Queries

-- Inspect slow query log candidates
SELECT * FROM performance_schema.events_statements_summary_by_digest
ORDER  BY SUM_TIMER_WAIT DESC
LIMIT  20;

-- Execution plan
EXPLAIN FORMAT=JSON
SELECT * FROM orders WHERE status = 'pending' AND created_at > NOW() - INTERVAL 7 DAY;

Constraints

MUST DO

  • Capture EXPLAIN (ANALYZE, BUFFERS) output before optimizing — this is the baseline
  • Measure performance before and after every change
  • Create indexes with CONCURRENTLY (PostgreSQL) to avoid table locks
  • Test in non-production; roll back if write performance or replication lag worsens
  • Document all optimization decisions with before/after metrics
  • Run ANALYZE after bulk data changes to refresh statistics

MUST NOT DO

  • Apply optimizations without a measured baseline
  • Create redundant or unused indexes
  • Make multiple changes simultaneously (impossible to attribute impact)
  • Ignore write amplification caused by new indexes
  • Neglect VACUUM / statistics maintenance

Output Templates

When optimizing database performance, provide:

  1. Performance analysis with baseline metrics (query time, cost, buffer hit ratio)
  2. Identified bottlenecks and root causes (with EXPLAIN evidence)
  3. Optimization strategy with specific changes
  4. Implementation SQL / config changes
  5. Validation queries to measure improvement
  6. Monitoring recommendations