dask

GitHub

用于处理超出内存限制的Pandas/NumPy工作流的分布式计算工具。支持单机大内存扩展及多机集群并行,适用于大规模数据文件处理、分布式机器学习及高性能计算场景。

backend/cli/skills/data-engineering/dask/SKILL.md synthetic-sciences/openscience

触发场景

数据集超过可用内存限制 需要并行化Pandas或NumPy操作以提升性能 高效处理多个CSV/Parquet等格式的文件 在多台机器上分布计算负载

安装

npx skills add synthetic-sciences/openscience --skill dask -g -y
更多选项

非标准路径

npx skills add https://github.com/synthetic-sciences/openscience/tree/main/backend/cli/skills/data-engineering/dask -g -y

不安装直接使用

npx skills use synthetic-sciences/openscience@dask

指定 Agent (Claude Code)

npx skills add synthetic-sciences/openscience --skill dask -a claude-code -g -y

安装 repo 全部 skill

npx skills add synthetic-sciences/openscience --all -g -y

预览 repo 内 skill

npx skills add synthetic-sciences/openscience --list

SKILL.md

Frontmatter
{
    "name": "dask",
    "tags": [
        "Distributed Computing",
        "Parallel",
        "DataFrames",
        "Big Data"
    ],
    "author": "Synthetic Sciences",
    "license": "BSD-3-Clause license",
    "version": "1.0.0",
    "category": "data-engineering",
    "metadata": {
        "skill-author": "Synthetic Sciences"
    },
    "description": "Distributed computing for larger-than-RAM pandas\/NumPy workflows. Use when you need to scale existing pandas\/NumPy code beyond memory or across clusters. Best for parallel file processing, distributed ML, integration with existing pandas code. For out-of-core analytics on single machine use vaex; for in-memory speed use polars.",
    "dependencies": [
        "dask>=2024.1.0"
    ]
}

Dask

Overview

Dask is a Python library for parallel and distributed computing that enables three critical capabilities:

  • Larger-than-memory execution on single machines for data exceeding available RAM
  • Parallel processing for improved computational speed across multiple cores
  • Distributed computation supporting terabyte-scale datasets across multiple machines

Dask scales from laptops (processing ~100 GiB) to clusters (processing ~100 TiB) while maintaining familiar Python APIs.

When to Use This Skill

This skill should be used when:

  • Process datasets that exceed available RAM
  • Scale pandas or NumPy operations to larger datasets
  • Parallelize computations for performance improvements
  • Process multiple files efficiently (CSVs, Parquet, JSON, text logs)
  • Build custom parallel workflows with task dependencies
  • Distribute workloads across multiple cores or machines

Core Capabilities

Dask provides five main components, each suited to different use cases:

1. DataFrames - Parallel Pandas Operations

Purpose: Scale pandas operations to larger datasets through parallel processing.

When to Use:

  • Tabular data exceeds available RAM
  • Need to process multiple CSV/Parquet files together
  • Pandas operations are slow and need parallelization
  • Scaling from pandas prototype to production

Reference Documentation: For comprehensive guidance on Dask DataFrames, refer to references/dataframes.md which includes:

  • Reading data (single files, multiple files, glob patterns)
  • Common operations (filtering, groupby, joins, aggregations)
  • Custom operations with map_partitions
  • Performance optimization tips
  • Common patterns (ETL, time series, multi-file processing)

Quick Example:

import dask.dataframe as dd

# Read multiple files as single DataFrame
ddf = dd.read_csv('data/2024-*.csv')

# Operations are lazy until compute()
filtered = ddf[ddf['value'] > 100]
result = filtered.groupby('category').mean().compute()

Key Points:

  • Operations are lazy (build task graph) until .compute() called
  • Use map_partitions for efficient custom operations
  • Convert to DataFrame early when working with structured data from other sources

2. Arrays - Parallel NumPy Operations

Purpose: Extend NumPy capabilities to datasets larger than memory using blocked algorithms.

When to Use:

  • Arrays exceed available RAM
  • NumPy operations need parallelization
  • Working with scientific datasets (HDF5, Zarr, NetCDF)
  • Need parallel linear algebra or array operations

Reference Documentation: For comprehensive guidance on Dask Arrays, refer to references/arrays.md which includes:

  • Creating arrays (from NumPy, random, from disk)
  • Chunking strategies and optimization
  • Common operations (arithmetic, reductions, linear algebra)
  • Custom operations with map_blocks
  • Integration with HDF5, Zarr, and XArray

Quick Example:

import dask.array as da

# Create large array with chunks
x = da.random.random((100000, 100000), chunks=(10000, 10000))

# Operations are lazy
y = x + 100
z = y.mean(axis=0)

# Compute result
result = z.compute()

Key Points:

  • Chunk size is critical (aim for ~100 MB per chunk)
  • Operations work on chunks in parallel
  • Rechunk data when needed for efficient operations
  • Use map_blocks for operations not available in Dask

3. Bags - Parallel Processing of Unstructured Data

Purpose: Process unstructured or semi-structured data (text, JSON, logs) with functional operations.

When to Use:

  • Processing text files, logs, or JSON records
  • Data cleaning and ETL before structured analysis
  • Working with Python objects that don't fit array/dataframe formats
  • Need memory-efficient streaming processing

Reference Documentation: For comprehensive guidance on Dask Bags, refer to references/bags.md which includes:

  • Reading text and JSON files
  • Functional operations (map, filter, fold, groupby)
  • Converting to DataFrames
  • Common patterns (log analysis, JSON processing, text processing)
  • Performance considerations

Quick Example:

import dask.bag as db
import json

# Read and parse JSON files
bag = db.read_text('logs/*.json').map(json.loads)

# Filter and transform
valid = bag.filter(lambda x: x['status'] == 'valid')
processed = valid.map(lambda x: {'id': x['id'], 'value': x['value']})

# Convert to DataFrame for analysis
ddf = processed.to_dataframe()

Key Points:

  • Use for initial data cleaning, then convert to DataFrame/Array
  • Use foldby instead of groupby for better performance
  • Operations are streaming and memory-efficient
  • Convert to structured formats (DataFrame) for complex operations

4. Futures - Task-Based Parallelization

Purpose: Build custom parallel workflows with fine-grained control over task execution and dependencies.

When to Use:

  • Building dynamic, evolving workflows
  • Need immediate task execution (not lazy)
  • Computations depend on runtime conditions
  • Implementing custom parallel algorithms
  • Need stateful computations

Reference Documentation: For comprehensive guidance on Dask Futures, refer to references/futures.md which includes:

  • Setting up distributed client
  • Submitting tasks and working with futures
  • Task dependencies and data movement
  • Advanced coordination (queues, locks, events, actors)
  • Common patterns (parameter sweeps, dynamic tasks, iterative algorithms)

Quick Example:

from dask.distributed import Client

client = Client()  # Create local cluster

# Submit tasks (executes immediately)
def process(x):
    return x ** 2

futures = client.map(process, range(100))

# Gather results
results = client.gather(futures)

client.close()

Key Points:

  • Requires distributed client (even for single machine)
  • Tasks execute immediately when submitted
  • Pre-scatter large data to avoid repeated transfers
  • ~1ms overhead per task (not suitable for millions of tiny tasks)
  • Use actors for stateful workflows

5. Schedulers - Execution Backends

Purpose: Control how and where Dask tasks execute (threads, processes, distributed).

When to Choose Scheduler:

  • Threads (default): NumPy/Pandas operations, GIL-releasing libraries, shared memory benefit
  • Processes: Pure Python code, text processing, GIL-bound operations
  • Synchronous: Debugging with pdb, profiling, understanding errors
  • Distributed: Need dashboard, multi-machine clusters, advanced features

Reference Documentation: For comprehensive guidance on Dask Schedulers, refer to references/schedulers.md which includes:

  • Detailed scheduler descriptions and characteristics
  • Configuration methods (global, context manager, per-compute)
  • Performance considerations and overhead
  • Common patterns and troubleshooting
  • Thread configuration for optimal performance

Quick Example:

import dask
import dask.dataframe as dd

# Use threads for DataFrame (default, good for numeric)
ddf = dd.read_csv('data.csv')
result1 = ddf.mean().compute()  # Uses threads

# Use processes for Python-heavy work
import dask.bag as db
bag = db.read_text('logs/*.txt')
result2 = bag.map(python_function).compute(scheduler='processes')

# Use synchronous for debugging
dask.config.set(scheduler='synchronous')
result3 = problematic_computation.compute()  # Can use pdb

# Use distributed for monitoring and scaling
from dask.distributed import Client
client = Client()
result4 = computation.compute()  # Uses distributed with dashboard

Key Points:

  • Threads: Lowest overhead (~10 µs/task), best for numeric work
  • Processes: Avoids GIL (~10 ms/task), best for Python work
  • Distributed: Monitoring dashboard (~1 ms/task), scales to clusters
  • Can switch schedulers per computation or globally

Best Practices

For comprehensive performance optimization guidance, memory management strategies, and common pitfalls to avoid, refer to references/best-practices.md. Key principles include:

Start with Simpler Solutions

Before using Dask, explore:

  • Better algorithms
  • Efficient file formats (Parquet instead of CSV)
  • Compiled code (Numba, Cython)
  • Data sampling

Critical Performance Rules

1. Don't Load Data Locally Then Hand to Dask

# Wrong: Loads all data in memory first
import pandas as pd
df = pd.read_csv('large.csv')
ddf = dd.from_pandas(df, npartitions=10)

# Correct: Let Dask handle loading
import dask.dataframe as dd
ddf = dd.read_csv('large.csv')

2. Avoid Repeated compute() Calls

# Wrong: Each compute is separate
for item in items:
    result = dask_computation(item).compute()

# Correct: Single compute for all
computations = [dask_computation(item) for item in items]
results = dask.compute(*computations)

3. Don't Build Excessively Large Task Graphs

  • Increase chunk sizes if millions of tasks
  • Use map_partitions/map_blocks to fuse operations
  • Check task graph size: len(ddf.__dask_graph__())

4. Choose Appropriate Chunk Sizes

  • Target: ~100 MB per chunk (or 10 chunks per core in worker memory)
  • Too large: Memory overflow
  • Too small: Scheduling overhead

5. Use the Dashboard

from dask.distributed import Client
client = Client()
print(client.dashboard_link)  # Monitor performance, identify bottlenecks

Common Workflow Patterns

ETL Pipeline

import dask.dataframe as dd

# Extract: Read data
ddf = dd.read_csv('raw_data/*.csv')

# Transform: Clean and process
ddf = ddf[ddf['status'] == 'valid']
ddf['amount'] = ddf['amount'].astype('float64')
ddf = ddf.dropna(subset=['important_col'])

# Load: Aggregate and save
summary = ddf.groupby('category').agg({'amount': ['sum', 'mean']})
summary.to_parquet('output/summary.parquet')

Unstructured to Structured Pipeline

import dask.bag as db
import json

# Start with Bag for unstructured data
bag = db.read_text('logs/*.json').map(json.loads)
bag = bag.filter(lambda x: x['status'] == 'valid')

# Convert to DataFrame for structured analysis
ddf = bag.to_dataframe()
result = ddf.groupby('category').mean().compute()

Large-Scale Array Computation

import dask.array as da

# Load or create large array
x = da.from_zarr('large_dataset.zarr')

# Process in chunks
normalized = (x - x.mean()) / x.std()

# Save result
da.to_zarr(normalized, 'normalized.zarr')

Custom Parallel Workflow

from dask.distributed import Client

client = Client()

# Scatter large dataset once
data = client.scatter(large_dataset)

# Process in parallel with dependencies
futures = []
for param in parameters:
    future = client.submit(process, data, param)
    futures.append(future)

# Gather results
results = client.gather(futures)

Selecting the Right Component

Use this decision guide to choose the appropriate Dask component:

Data Type:

  • Tabular data → DataFrames
  • Numeric arrays → Arrays
  • Text/JSON/logs → Bags (then convert to DataFrame)
  • Custom Python objects → Bags or Futures

Operation Type:

  • Standard pandas operations → DataFrames
  • Standard NumPy operations → Arrays
  • Custom parallel tasks → Futures
  • Text processing/ETL → Bags

Control Level:

  • High-level, automatic → DataFrames/Arrays
  • Low-level, manual → Futures

Workflow Type:

  • Static computation graph → DataFrames/Arrays/Bags
  • Dynamic, evolving → Futures

Integration Considerations

File Formats

  • Efficient: Parquet, HDF5, Zarr (columnar, compressed, parallel-friendly)
  • Compatible but slower: CSV (use for initial ingestion only)
  • For Arrays: HDF5, Zarr, NetCDF

Conversion Between Collections

# Bag → DataFrame
ddf = bag.to_dataframe()

# DataFrame → Array (for numeric data)
arr = ddf.to_dask_array(lengths=True)

# Array → DataFrame
ddf = dd.from_dask_array(arr, columns=['col1', 'col2'])

With Other Libraries

  • XArray: Wraps Dask arrays with labeled dimensions (geospatial, imaging)
  • Dask-ML: Machine learning with scikit-learn compatible APIs
  • Distributed: Advanced cluster management and monitoring

Debugging and Development

Iterative Development Workflow

  1. Test on small data with synchronous scheduler:
dask.config.set(scheduler='synchronous')
result = computation.compute()  # Can use pdb, easy debugging
  1. Validate with threads on sample:
sample = ddf.head(1000)  # Small sample
# Test logic, then scale to full dataset
  1. Scale with distributed for monitoring:
from dask.distributed import Client
client = Client()
print(client.dashboard_link)  # Monitor performance
result = computation.compute()

Common Issues

Memory Errors:

  • Decrease chunk sizes
  • Use persist() strategically and delete when done
  • Check for memory leaks in custom functions

Slow Start:

  • Task graph too large (increase chunk sizes)
  • Use map_partitions or map_blocks to reduce tasks

Poor Parallelization:

  • Chunks too large (increase number of partitions)
  • Using threads with Python code (switch to processes)
  • Data dependencies preventing parallelism

Reference Files

All reference documentation files can be read as needed for detailed information:

  • references/dataframes.md - Complete Dask DataFrame guide
  • references/arrays.md - Complete Dask Array guide
  • references/bags.md - Complete Dask Bag guide
  • references/futures.md - Complete Dask Futures and distributed computing guide
  • references/schedulers.md - Complete scheduler selection and configuration guide
  • references/best-practices.md - Comprehensive performance optimization and troubleshooting

Load these files when users need detailed information about specific Dask components, operations, or patterns beyond the quick guidance provided here.

版本历史

  • e9844a4 当前 2026-07-11 17:24

依赖关系

  • required dask>=2024.1.0

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backend/cli/skills/ml-training/hugging-face-evaluation/SKILL.md
backend/cli/skills/ml-training/knowledge-distillation/SKILL.md
backend/cli/skills/ml-training/litgpt/SKILL.md
backend/cli/skills/ml-training/llama-factory/SKILL.md
backend/cli/skills/ml-training/lm-evaluation-harness/SKILL.md
backend/cli/skills/ml-training/mamba/SKILL.md
backend/cli/skills/ml-training/megatron-core/SKILL.md
backend/cli/skills/ml-training/ml-benchmark-evaluation/SKILL.md
backend/cli/skills/ml-training/mlflow/SKILL.md
backend/cli/skills/ml-training/model-economics/SKILL.md
backend/cli/skills/ml-training/model-merging/SKILL.md
backend/cli/skills/ml-training/model-pruning/SKILL.md
backend/cli/skills/ml-training/moe-training/SKILL.md
backend/cli/skills/ml-training/nanogpt/SKILL.md
backend/cli/skills/ml-training/nemo-curator/SKILL.md
backend/cli/skills/ml-training/nnsight/SKILL.md
backend/cli/skills/ml-training/openrlhf/SKILL.md
backend/cli/skills/ml-training/peft/SKILL.md
backend/cli/skills/ml-training/prime-intellect-lab/SKILL.md
backend/cli/skills/ml-training/pufferlib/SKILL.md
backend/cli/skills/ml-training/pytorch-fsdp/SKILL.md
backend/cli/skills/ml-training/pytorch-lightning/SKILL.md
backend/cli/skills/ml-training/pyvene/SKILL.md
backend/cli/skills/ml-training/rwkv/SKILL.md
backend/cli/skills/ml-training/saelens/SKILL.md
backend/cli/skills/ml-training/simpo/SKILL.md
backend/cli/skills/ml-training/stable-baselines3/SKILL.md
backend/cli/skills/ml-training/tensorboard/SKILL.md
backend/cli/skills/ml-training/torchforge/SKILL.md
backend/cli/skills/ml-training/torchtitan/SKILL.md
backend/cli/skills/ml-training/training-data-pipeline/SKILL.md
backend/cli/skills/ml-training/transformer-lens/SKILL.md
backend/cli/skills/ml-training/trl-fine-tuning/SKILL.md
backend/cli/skills/ml-training/unsloth/SKILL.md
backend/cli/skills/ml-training/verl/SKILL.md
backend/cli/skills/other/hugging-face-trackio/SKILL.md
backend/cli/skills/other/labarchive-integration/SKILL.md
backend/cli/skills/other/skill-installer/SKILL.md
backend/cli/skills/physics/astropy/SKILL.md
backend/cli/skills/physics/autoregressive-neural-pde-solver/SKILL.md
backend/cli/skills/physics/bayesian-inference/SKILL.md
backend/cli/skills/physics/conservation-law-discovery/SKILL.md
backend/cli/skills/physics/dimensional-analysis/SKILL.md
backend/cli/skills/physics/dynamical-systems/SKILL.md
backend/cli/skills/physics/fluid-dynamics/SKILL.md
backend/cli/skills/physics/fluidsim/SKILL.md
backend/cli/skills/physics/hamiltonian-mechanics/SKILL.md
backend/cli/skills/physics/neural-operator/SKILL.md
backend/cli/skills/physics/ode-solver/SKILL.md
backend/cli/skills/physics/pde-solver/SKILL.md
backend/cli/skills/physics/physics-databases/SKILL.md
backend/cli/skills/physics/physics-fitting/SKILL.md
backend/cli/skills/physics/physics-visualization/SKILL.md
backend/cli/skills/physics/pinn-training/SKILL.md
backend/cli/skills/physics/shock-capturing-neural-operators/SKILL.md
backend/cli/skills/physics/sindy-identification/SKILL.md
backend/cli/skills/physics/spectral-analysis/SKILL.md
backend/cli/skills/physics/statistical-mechanics/SKILL.md
backend/cli/skills/physics/symbolic-regression/SKILL.md
backend/cli/skills/physics/wave-propagation/SKILL.md
backend/cli/skills/quantum/cirq/SKILL.md
backend/cli/skills/quantum/pennylane/SKILL.md
backend/cli/skills/quantum/qiskit/SKILL.md
backend/cli/skills/quantum/qutip/SKILL.md
backend/cli/skills/research/hypothesis-generation/SKILL.md
backend/cli/skills/research/initialize-atlas-graph/SKILL.md
backend/cli/skills/research/market-research-reports/SKILL.md
backend/cli/skills/research/peer-review/SKILL.md
backend/cli/skills/research/research-grants/SKILL.md
backend/cli/skills/research/research-lookup/SKILL.md
backend/cli/skills/research/scientific-brainstorming/SKILL.md
backend/cli/skills/research/scientific-critical-thinking/SKILL.md
backend/cli/skills/visualization/dna-visualization/SKILL.md
backend/cli/skills/visualization/matplotlib/SKILL.md
backend/cli/skills/visualization/plotly/SKILL.md
backend/cli/skills/visualization/protein-diagram/SKILL.md
backend/cli/skills/visualization/scientific-visualization/SKILL.md
backend/cli/skills/visualization/seaborn/SKILL.md
backend/cli/skills/writing/citation-management/SKILL.md
backend/cli/skills/writing/hugging-face-paper-publisher/SKILL.md
backend/cli/skills/writing/latex-posters/SKILL.md
backend/cli/skills/writing/literature-review/SKILL.md
backend/cli/skills/writing/ml-paper-writing/SKILL.md
backend/cli/skills/writing/pptx-posters/SKILL.md
backend/cli/skills/writing/scientific-writing/SKILL.md
backend/cli/skills/writing/venue-templates/SKILL.md
backend/cli/skills/biology/clinical-decision-support/SKILL.md
backend/cli/skills/biology/esm/SKILL.md
backend/cli/skills/biology/lamindb/SKILL.md
backend/cli/skills/biology/pydicom/SKILL.md
backend/cli/skills/coding/exploratory-data-analysis/SKILL.md
backend/cli/skills/coding/matlab/SKILL.md
backend/cli/skills/coding/shap/SKILL.md
backend/cli/skills/coding/sympy/SKILL.md
backend/cli/skills/data-engineering/geopandas/SKILL.md
backend/cli/skills/ml-training/hugging-face-model-trainer/SKILL.md
backend/cli/skills/other/get-available-resources/SKILL.md
backend/cli/skills/other/hugging-face-jobs/SKILL.md
backend/cli/skills/other/iso-13485-certification/SKILL.md

元信息

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0
版本
e9844a4
Hash
46c6bbab
收录时间
2026-07-11 17:24

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