A unified interface for memory efficient per tensor loading of safetensors files as raw bytes from offset, handling CPU/GPU pinned transfers, and converting between tensors and dicts.
Project description
unifiedefficientloader
A unified interface for loading safetensors, handling CPU/GPU pinned transfers, and converting between tensors and dicts.
Documentation
Full API reference and guides in docs/.
Installation
You can install this package via pip. Since it heavily relies on torch and safetensors but doesn't strictly force them as hard dependencies for package building/installation, make sure you have them installed in your environment:
pip install unifiedefficientloader
pip install torch safetensors tqdm
Usage
Unified Safetensors Loader
from unifiedefficientloader import UnifiedSafetensorsLoader
# Standard mode (preload all)
with UnifiedSafetensorsLoader("model.safetensors", low_memory=False) as loader:
tensor = loader.get_tensor("weight_name")
# Low memory mode (streaming)
with UnifiedSafetensorsLoader("model.safetensors", low_memory=True) as loader:
for key in loader.keys():
tensor = loader.get_tensor(key)
# Process tensor...
loader.mark_processed(key) # Frees memory
Loading Specific Tensors Dynamically (Header Analysis)
You can analyze the file's header without loading the entire multi-gigabyte safetensors file into memory. This allows you to locate specific data (like embedded JSON dictionaries stored as uint8 tensors) and load only those specific tensors directly from their file offsets.
from unifiedefficientloader import UnifiedSafetensorsLoader, tensor_to_dict
with UnifiedSafetensorsLoader("model.safetensors", low_memory=True) as loader:
# 1. Analyze the header metadata without loading any tensors
# loader._header contains the full safetensors header directory
uint8_tensor_keys = [
key for key, info in loader._header.items()
if isinstance(info, dict) and info.get("dtype") == "U8"
]
# 2. Load ONLY those specific tensors using their keys
for key in uint8_tensor_keys:
# get_tensor dynamically reads only the bytes for this tensor
# based on the offsets found in the header
loaded_tensor = loader.get_tensor(key)
# 3. Decode the uint8 tensor back into a Python dictionary
extracted_dict = tensor_to_dict(loaded_tensor)
print(f"Decoded {key}:", extracted_dict)
Optimized Asynchronous Streaming via ThreadPoolExecutor
For maximum I/O throughput while maintaining strict memory backpressure, use async_stream. This utilizes a ThreadPoolExecutor for background disk reading and a bounded queue to prevent memory exhaustion. By setting pin_memory=True, memory pinning is performed sequentially in the main thread to avoid OS-level lock contention and preserve high DMA transfer speeds.
from unifiedefficientloader import UnifiedSafetensorsLoader, transfer_to_gpu_pinned
with UnifiedSafetensorsLoader("model.safetensors", low_memory=True) as loader:
keys_to_load = loader.keys()
# Create the continuous streaming generator
# prefetch_batches controls how many batches to buffer in memory
stream = loader.async_stream(
keys_to_load,
batch_size=8,
prefetch_batches=2,
pin_memory=True
)
# Iterate directly over the generator
for batch in stream:
for key, pinned_tensor in batch:
# Transfer directly to GPU via DMA (pinning is already done)
gpu_tensor = transfer_to_gpu_pinned(pinned_tensor, device="cuda")
# ... process gpu_tensor ...
loader.mark_processed(key)
Unified Data Loader
A high-performance, threaded alternative to PyTorch's standard DataLoader. It eliminates multiprocessing IPC overhead and features a zero-copy pipeline capable of streaming batches directly from pinned CPU memory to VRAM (direct_gpu=True).
from unifiedefficientloader import UnifiedDataLoader
from torchvision import datasets, transforms
dataset = datasets.FakeData(transform=transforms.ToTensor())
# Replaces torch.utils.data.DataLoader
# Pre-allocates pinned buffer pools and streams directly to GPU
loader = UnifiedDataLoader(
dataset,
batch_size=32,
shuffle=True,
num_workers=4,
direct_gpu=True
)
for batch_image, batch_label in loader:
# batch is already on the GPU (device="cuda")
pass
Direct-to-GPU Streaming (Zero-Copy)
For the absolute fastest loading times on CUDA devices, use the direct_gpu=True flag. This creates a pipeline that pre-allocates pinned memory pools and GPU memory slabs. Tensors are loaded from disk directly into pinned buffers, and immediately asynchronously copied to the GPU using CUDA streams, hiding the PCIe transfer latency completely behind the disk I/O.
from unifiedefficientloader import UnifiedSafetensorsLoader
with UnifiedSafetensorsLoader("model.safetensors", low_memory=True, direct_gpu=True) as loader:
stream = loader.async_stream(
loader.keys(),
batch_size=8,
prefetch_batches=2,
)
for batch in stream:
for key, gpu_tensor in batch:
# gpu_tensor is already on the GPU
assert gpu_tensor.device.type == "cuda"
# ... process gpu_tensor ...
loader.mark_processed(key) # releases GPU buffer back to pool
Zero-Copy MMAP Loading
use_mmap=True maps the file into virtual memory via the uel native extension. No data is copied into RAM — PyTorch holds a direct pointer into OS page cache.
from unifiedefficientloader import UnifiedSafetensorsLoader
with UnifiedSafetensorsLoader("model.safetensors", low_memory=True, use_mmap=True) as loader:
state_dict = loader.load_all()
# all tensors are zero-copy views into mapped memory
Requires the uel native extension to be compiled. Falls back silently to standard IO if unavailable. See docs/mmap.md and docs/building.md.
Tensor/Dict Conversion
from unifiedefficientloader import dict_to_tensor, tensor_to_dict
my_dict = {"param": 1.0, "name": "test"}
tensor = dict_to_tensor(my_dict)
recovered_dict = tensor_to_dict(tensor)
Pinned Memory Transfers
import torch
from unifiedefficientloader import transfer_to_gpu_pinned
tensor = torch.randn(100, 100)
# Transfers using pinned memory if CUDA is available, otherwise falls back gracefully
gpu_tensor = transfer_to_gpu_pinned(tensor, device="cuda:0")
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