ReddRadar
Agent skill
data-processing-ray-data
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SKILL.md
Ray Data - Scalable ML Data Processing
Distributed data processing library for ML and AI workloads.
When to use Ray Data
Use Ray Data when:
- Processing large datasets (>100GB) for ML training
- Need distributed data preprocessing across cluster
- Building batch inference pipelines
- Loading multi-modal data (images, audio, video)
- Scaling data processing from laptop to cluster
Key features:
- Streaming execution: Process data larger than memory
- GPU support: Accelerate transforms with GPUs
- Framework integration: PyTorch, TensorFlow, HuggingFace
- Multi-modal: Images, Parquet, CSV, JSON, audio, video
Use alternatives instead:
- Pandas: Small data (<1GB) on single machine
- Dask: Tabular data, SQL-like operations
- Spark: Enterprise ETL, SQL queries
Quick start
Installation
pip install -U 'ray[data]'
Load and transform data
import ray
# Read Parquet files
ds = ray.data.read_parquet("s3://bucket/data/*.parquet")
# Transform data (lazy execution)
ds = ds.map_batches(lambda batch: {"processed": batch["text"].str.lower()})
# Consume data
for batch in ds.iter_batches(batch_size=100):
print(batch)
Integration with Ray Train
import ray
from ray.train import ScalingConfig
from ray.train.torch import TorchTrainer
# Create dataset
train_ds = ray.data.read_parquet("s3://bucket/train/*.parquet")
def train_func(config):
# Access dataset in training
train_ds = ray.train.get_dataset_shard("train")
for epoch in range(10):
for batch in train_ds.iter_batches(batch_size=32):
# Train on batch
pass
# Train with Ray
trainer = TorchTrainer(
train_func,
datasets={"train": train_ds},
scaling_config=ScalingConfig(num_workers=4, use_gpu=True)
)
trainer.fit()
Reading data
From cloud storage
import ray
# Parquet (recommended for ML)
ds = ray.data.read_parquet("s3://bucket/data/*.parquet")
# CSV
ds = ray.data.read_csv("s3://bucket/data/*.csv")
# JSON
ds = ray.data.read_json("gs://bucket/data/*.json")
# Images
ds = ray.data.read_images("s3://bucket/images/")
From Python objects
# From list
ds = ray.data.from_items([{"id": i, "value": i * 2} for i in range(1000)])
# From range
ds = ray.data.range(1000000) # Synthetic data
# From pandas
import pandas as pd
df = pd.DataFrame({"col1": [1, 2, 3], "col2": [4, 5, 6]})
ds = ray.data.from_pandas(df)
Transformations
Map batches (vectorized)
# Batch transformation (fast)
def process_batch(batch):
batch["doubled"] = batch["value"] * 2
return batch
ds = ds.map_batches(process_batch, batch_size=1000)
Row transformations
# Row-by-row (slower)
def process_row(row):
row["squared"] = row["value"] ** 2
return row
ds = ds.map(process_row)
Filter
# Filter rows
ds = ds.filter(lambda row: row["value"] > 100)
Group by and aggregate
# Group by column
ds = ds.groupby("category").count()
# Custom aggregation
ds = ds.groupby("category").map_groups(lambda group: {"sum": group["value"].sum()})
GPU-accelerated transforms
# Use GPU for preprocessing
def preprocess_images_gpu(batch):
import torch
images = torch.tensor(batch["image"]).cuda()
# GPU preprocessing
processed = images * 255
return {"processed": processed.cpu().numpy()}
ds = ds.map_batches(
preprocess_images_gpu,
batch_size=64,
num_gpus=1 # Request GPU
)
Writing data
# Write to Parquet
ds.write_parquet("s3://bucket/output/")
# Write to CSV
ds.write_csv("output/")
# Write to JSON
ds.write_json("output/")
Performance optimization
Repartition
# Control parallelism
ds = ds.repartition(100) # 100 blocks for 100-core cluster
Batch size tuning
# Larger batches = faster vectorized ops
ds.map_batches(process_fn, batch_size=10000) # vs batch_size=100
Streaming execution
# Process data larger than memory
ds = ray.data.read_parquet("s3://huge-dataset/")
for batch in ds.iter_batches(batch_size=1000):
process(batch) # Streamed, not loaded to memory
Common patterns
Batch inference
import ray
# Load model
def load_model():
# Load once per worker
return MyModel()
# Inference function
class BatchInference:
def __init__(self):
self.model = load_model()
def __call__(self, batch):
predictions = self.model(batch["input"])
return {"prediction": predictions}
# Run distributed inference
ds = ray.data.read_parquet("s3://data/")
predictions = ds.map_batches(BatchInference, batch_size=32, num_gpus=1)
predictions.write_parquet("s3://output/")
Data preprocessing pipeline
# Multi-step pipeline
ds = (
ray.data.read_parquet("s3://raw/")
.map_batches(clean_data)
.map_batches(tokenize)
.map_batches(augment)
.write_parquet("s3://processed/")
)
Integration with ML frameworks
PyTorch
# Convert to PyTorch
torch_ds = ds.to_torch(label_column="label", batch_size=32)
for batch in torch_ds:
# batch is dict with tensors
inputs, labels = batch["features"], batch["label"]
TensorFlow
# Convert to TensorFlow
tf_ds = ds.to_tf(feature_columns=["image"], label_column="label", batch_size=32)
for features, labels in tf_ds:
# Train model
pass
Supported data formats
| Format | Read | Write | Use Case |
|---|---|---|---|
| Parquet | ✅ | ✅ | ML data (recommended) |
| CSV | ✅ | ✅ | Tabular data |
| JSON | ✅ | ✅ | Semi-structured |
| Images | ✅ | ❌ | Computer vision |
| NumPy | ✅ | ✅ | Arrays |
| Pandas | ✅ | ❌ | DataFrames |
Performance benchmarks
Scaling (processing 100GB data):
- 1 node (16 cores): ~30 minutes
- 4 nodes (64 cores): ~8 minutes
- 16 nodes (256 cores): ~2 minutes
GPU acceleration (image preprocessing):
- CPU only: 1,000 images/sec
- 1 GPU: 5,000 images/sec
- 4 GPUs: 18,000 images/sec
Use cases
Production deployments:
- Pinterest: Last-mile data processing for model training
- ByteDance: Scaling offline inference with multi-modal LLMs
- Spotify: ML platform for batch inference
References
- Transformations Guide - Map, filter, groupby operations
- Integration Guide - Ray Train, PyTorch, TensorFlow
Resources
- Docs: https://docs.ray.io/en/latest/data/data.html
- GitHub: https://github.com/ray-project/ray ⭐ 36,000+
- Version: Ray 2.40.0+
- Examples: https://docs.ray.io/en/latest/data/examples/overview.html
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