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name: clickhouse-architect description: ClickHouse schema design and optimization. TRIGGERS - ClickHouse schema, compression codecs, MergeTree, ORDER BY tuning, partition key. allowed-tools: Read, Bash, Grep, Skill

ClickHouse Architect

<!-- ADR: 2025-12-09-clickhouse-architect-skill -->

Prescriptive schema design, compression selection, and performance optimization for ClickHouse (v24.4+). Covers both ClickHouse Cloud (SharedMergeTree) and self-hosted (ReplicatedMergeTree) deployments.

Core Methodology

Schema Design Workflow

Follow this sequence when designing or reviewing ClickHouse schemas:

1. Define ORDER BY key (3-5 columns, lowest cardinality first)
2. Select compression codecs per column type
3. Configure PARTITION BY for data lifecycle management
4. Add performance accelerators (projections, indexes)
5. Validate with audit queries (see scripts/)
6. Document with COMMENT statements (see references/schema-documentation.md)

ORDER BY Key Selection

The ORDER BY clause is the most critical decision in ClickHouse schema design.

Rules:

• Limit to 3-5 columns maximum (each additional column has diminishing returns)
• Place lowest cardinality columns first (e.g., tenant_id before timestamp)
• Include all columns used in WHERE clauses for range queries
• PRIMARY KEY must be a prefix of ORDER BY (or omit to use full ORDER BY)

Example:

-- Correct: Low cardinality first, 4 columns
CREATE TABLE trades (
    exchange LowCardinality(String),
    symbol LowCardinality(String),
    timestamp DateTime64(3),
    trade_id UInt64,
    price Float64,
    quantity Float64
) ENGINE = MergeTree()
ORDER BY (exchange, symbol, timestamp, trade_id);

-- Wrong: High cardinality first (10x slower queries)
ORDER BY (trade_id, timestamp, symbol, exchange);

Compression Codec Quick Reference

| Column Type | Default Codec | Read-Heavy Alternative | Example | | ------------------------ | -------------------------- | ------------------------- | -------------------------------------------------- | | DateTime/DateTime64 | CODEC(DoubleDelta, ZSTD) | CODEC(DoubleDelta, LZ4) | timestamp DateTime64(3) CODEC(DoubleDelta, ZSTD) | | Float prices/gauges | CODEC(Gorilla, ZSTD) | CODEC(Gorilla, LZ4) | price Float64 CODEC(Gorilla, ZSTD) | | Integer counters | CODEC(T64, ZSTD) | — | count UInt64 CODEC(T64, ZSTD) | | Slowly changing integers | CODEC(Delta, ZSTD) | CODEC(Delta, LZ4) | version UInt32 CODEC(Delta, ZSTD) | | String (low cardinality) | LowCardinality(String) | — | status LowCardinality(String) | | General data | CODEC(ZSTD(3)) | CODEC(LZ4) | Default compression level 3 |

When to use LZ4 over ZSTD: LZ4 provides 1.76x faster decompression. Use LZ4 for read-heavy workloads with monotonic sequences (timestamps, counters). Use ZSTD (default) when compression ratio matters or data patterns are unknown.

Note on codec combinations:

Delta/DoubleDelta + Gorilla combinations are blocked by default (allow_suspicious_codecs) because Gorilla already performs implicit delta compression internally—combining them is redundant, not dangerous. A historical corruption bug (PR #45615, Jan 2023) was fixed, but the blocking remains as a best practice guardrail.

Use each codec family independently for its intended data type:

-- Correct usage
price Float64 CODEC(Gorilla, ZSTD)              -- Floats: use Gorilla
timestamp DateTime64 CODEC(DoubleDelta, ZSTD)   -- Timestamps: use DoubleDelta
timestamp DateTime64 CODEC(DoubleDelta, LZ4)    -- Read-heavy: use LZ4

PARTITION BY Guidelines

PARTITION BY is for data lifecycle management, NOT query optimization.

Rules:

• Partition by time units (month, week) for TTL and data management
• Keep partition count under 1000 total across all tables
• Each partition should contain 1-300 parts maximum
• Never partition by high-cardinality columns

Example:

-- Correct: Monthly partitions for TTL management
PARTITION BY toYYYYMM(timestamp)

-- Wrong: Daily partitions (too many parts)
PARTITION BY toYYYYMMDD(timestamp)

-- Wrong: High-cardinality partition key
PARTITION BY user_id

Anti-Patterns Checklist (v24.4+)

| Pattern | Severity | Modern Status | Fix | | ------------------------------- | -------- | ------------------ | ------------------------------------- | | Too many parts (>300/partition) | Critical | Still critical | Reduce partition granularity | | Small batch inserts (<1000) | Critical | Still critical | Batch to 10k-100k rows | | High-cardinality first ORDER BY | Critical | Still critical | Reorder: lowest cardinality first | | No memory limits | High | Still critical | Set max_memory_usage | | Denormalization overuse | High | Still critical | Use dictionaries + materialized views | | Large JOINs | Medium | 180x improved | Still avoid for ultra-low-latency | | Mutations (UPDATE/DELETE) | Medium | 1700x improved | Use lightweight updates (v24.4+) |

Table Engine Selection

| Deployment | Engine | Use Case | | ------------------- | --------------------- | ------------------------------- | | ClickHouse Cloud | SharedMergeTree | Default for cloud deployments | | Self-hosted cluster | ReplicatedMergeTree | Multi-node with replication | | Self-hosted single | MergeTree | Single-node development/testing |

Cloud (SharedMergeTree):

CREATE TABLE trades (...)
ENGINE = SharedMergeTree('/clickhouse/tables/{shard}/trades', '{replica}')
ORDER BY (exchange, symbol, timestamp);

Self-hosted (ReplicatedMergeTree):

CREATE TABLE trades (...)
ENGINE = ReplicatedMergeTree('/clickhouse/tables/{shard}/trades', '{replica}')
ORDER BY (exchange, symbol, timestamp);

Skill Delegation Guide

<!-- ADR: 2025-12-10-clickhouse-skill-delegation -->

This skill is the hub for ClickHouse-related tasks. When the user's needs extend beyond schema design, invoke the related skills below.

Delegation Decision Matrix

| User Need | Invoke Skill | Trigger Phrases | | ----------------------------------------------- | ------------------------------------------ | ---------------------------------------------------- | | Create database users, manage permissions | devops-tools:clickhouse-cloud-management | "create user", "GRANT", "permissions", "credentials" | | Configure DBeaver, generate connection JSON | devops-tools:clickhouse-pydantic-config | "DBeaver", "client config", "connection setup" | | Validate schema contracts against live database | quality-tools:schema-e2e-validation | "validate schema", "Earthly E2E", "schema contract" |

Typical Workflow Sequence

1. Schema Design (THIS SKILL) → Design ORDER BY, compression, partitioning
2. User Setup → clickhouse-cloud-management (if cloud credentials needed)
3. Client Config → clickhouse-pydantic-config (generate DBeaver JSON)
4. Validation → schema-e2e-validation (CI/CD schema contracts)

Example: Full Stack Request

User: "I need to design a trades table for ClickHouse Cloud and set up DBeaver to query it."

Expected behavior:

1. Use THIS skill for schema design
2. Invoke clickhouse-cloud-management for creating database user
3. Invoke clickhouse-pydantic-config for DBeaver configuration

Performance Accelerators

Projections

Create alternative sort orders that ClickHouse automatically selects:

ALTER TABLE trades ADD PROJECTION trades_by_symbol (
    SELECT * ORDER BY symbol, timestamp
);
ALTER TABLE trades MATERIALIZE PROJECTION trades_by_symbol;

Materialized Views

Pre-compute aggregations for dashboard queries:

CREATE MATERIALIZED VIEW trades_hourly_mv
ENGINE = SummingMergeTree()
ORDER BY (exchange, symbol, hour)
AS SELECT
    exchange,
    symbol,
    toStartOfHour(timestamp) AS hour,
    sum(quantity) AS total_volume,
    count() AS trade_count
FROM trades
GROUP BY exchange, symbol, hour;

Dictionaries

Replace JOINs with O(1) dictionary lookups for large-scale star schemas:

When to use dictionaries (v24.4+):

• Fact tables with 100M+ rows joining dimension tables
• Dimension tables 1k-500k rows with monotonic keys
• LEFT ANY JOIN semantics required

When JOINs are sufficient (v24.4+):

• Dimension tables <500 rows (JOIN overhead negligible)
• v24.4+ predicate pushdown provides 8-180x improvements
• Complex JOIN types (FULL, RIGHT, multi-condition)

Benchmark context: 6.6x speedup measured on Star Schema Benchmark (1.4B rows).

CREATE DICTIONARY symbol_info (
    symbol String,
    name String,
    sector String
)
PRIMARY KEY symbol
SOURCE(CLICKHOUSE(TABLE 'symbols'))
LAYOUT(FLAT())  -- Best for <500k entries with monotonic keys
LIFETIME(3600);

-- Use in queries (O(1) lookup)
SELECT
    symbol,
    dictGet('symbol_info', 'name', symbol) AS symbol_name
FROM trades;

Scripts

Execute comprehensive schema audit:

clickhouse-client --multiquery < scripts/schema-audit.sql

The audit script checks:

• Part count per partition (threshold: 300)
• Compression ratios by column
• Query performance patterns
• Replication lag (if applicable)
• Memory usage patterns

Additional Resources

Reference Files

| Reference | Content | | ------------------------------------------------------------------------------------------ | ---------------------------------------------- | | references/schema-design-workflow.md | Complete workflow with examples | | references/compression-codec-selection.md | Decision tree + benchmarks | | references/anti-patterns-and-fixes.md | 13 deadly sins + v24.4+ status | | references/audit-and-diagnostics.md | Query interpretation guide | | references/idiomatic-architecture.md | Parameterized views, dictionaries, dedup | | references/schema-documentation.md | COMMENT patterns + naming for AI understanding |

External Documentation

• ClickHouse Best Practices
• Altinity Knowledge Base
• ClickHouse Blog

Python Driver Policy

<!-- ADR: 2025-12-10-clickhouse-python-driver-policy -->

Use clickhouse-connect (official) for all Python integrations.

# ✅ RECOMMENDED: clickhouse-connect (official, HTTP)
import clickhouse_connect

client = clickhouse_connect.get_client(
    host='localhost',
    port=8123,  # HTTP port
    username='default',
    password=''
)
result = client.query("SELECT * FROM trades LIMIT 1000")
df = client.query_df("SELECT * FROM trades")  # Pandas integration

Why NOT clickhouse-driver

| Factor | clickhouse-connect | clickhouse-driver | | --------------- | ------------------ | ------------------- | | Maintainer | ClickHouse Inc. | Solo developer | | Weekly commits | Yes (active) | Sparse (months) | | Open issues | 41 (addressed) | 76 (accumulating) | | Downloads/week | 2.7M | 1.5M | | Bus factor risk | Low (company) | High (1 person) |

Do NOT use clickhouse-driver despite its ~26% speed advantage for large exports. The maintenance risk outweighs performance gains:

• Single maintainer (mymarilyn) with no succession plan
• Issues accumulating without response
• Risk of abandonment breaks production code

Exception: Only consider clickhouse-driver if you have extreme performance requirements (exporting millions of rows) AND accept the maintenance risk.

Related Skills

| Skill | Purpose | | ------------------------------------------ | ----------------------------- | | devops-tools:clickhouse-cloud-management | User/permission management | | devops-tools:clickhouse-pydantic-config | DBeaver connection generation | | quality-tools:schema-e2e-validation | YAML schema contracts | | quality-tools:multi-agent-e2e-validation | Database migration validation |