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d9d - d[istribute]d - distributed training framework based on PyTorch that tries to be efficient yet hackable

Project description

The d9d Project

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d9d is a distributed training framework built on top of PyTorch 2.0. It aims to be hackable, modular, and efficient, designed to scale from single-GPU debugging to massive clusters running 6D-Parallelism.

LET'S START TRAINING 🚀

Installation

Just use your favourite package manager:

pip install d9d
poetry add d9d
uv add d9d

Extras

  • d9d[aim]: Aim experiment tracker integration.
  • d9d[visualization]: Plotting libraries required to some advanced visualization functionality.
  • d9d[flash-attention]: Efficient Scaled Dot-Product Attention kernels (currently Flash-Attention 4).
  • d9d[linear-attention]: Efficient Linear Attention kernels.
  • d9d[moe]: Efficient Mixture of Experts GPU kernels. You should build and install some dependencies manually before installation: DeepEP, grouped-gemm.
  • d9d[cce]: Efficient Fused Cross-Entropy kernels. You should build and install some dependencies manually before installation: Cut Cross Entropy.

Examples


About

Why another framework?

Distributed training frameworks such as Megatron-LM are monolithic in the way you run a script from the command line to train any of a set of predefined models, using predefined regimes. While powerful, these systems can be difficult to hack and integrate into novel research workflows. Their focus is often on providing a complete, end-to-end solution, which can limit flexibility for experimentally-driven research.

Conversely, creating your own distributed training solution from scratch is tricky. You have to implement many low-level components (like distributed checkpoints and synchronization) that are identical across setups, and manually tackle common performance bottlenecks.

d9d was designed to fill the gap between monolithic frameworks and homebrew setups, providing a modular yet effective solution for distributed training.

What d9d is and isn't

In terms of core concept:

  • IS a pluggable framework for implementing distributed training regimes for your deep learning models.
  • IS built on clear interfaces and building blocks that may be composed and implemented in your own way.
  • IS NOT an all-in-one CLI platform for setting up pre-training and post-training like torchtitan, Megatron-LM, or torchforge.

In terms of codebase & engineering:

  • IS built on a strong engineering foundation: We enforce strict type-checking and rigorous linting to catch errors before execution.
  • IS reliable: The framework is backed by a suite of over 450 tests, covering unit logic, integration flows, and End-to-End distributed scenarios.
  • IS eager to use performance hacks (like DeepEp or custom kernels) if they improve MFU, even if they aren't PyTorch-native.
  • IS NOT for legacy setups: We do not maintain backward compatibility with older PyTorch versions or hardware. We prioritize simplicity and modern APIs (like DTensor).

Key Philosophies

To achieve the balance between hackability and performance, d9d adheres to specific design principles:

  • Composition over Monoliths: We avoid "God Classes" like DistributedDataParallel or ParallelDims that assume ownership of the entire execution loop. Instead, we provide composable and extendable APIs. For instance, specific horizontal parallelism strategies for specific layers (parallelize_replicate, parallelize_expert_parallel, ...).
  • White-Box Modelling: We encourage standard PyTorch code. Models are not wrapped in obscure metadata specifications; they are standard nn.Modules that implement lightweight protocols.
  • Pragmatic Efficiency: While we prefer native PyTorch, we are eager to integrate non-native solutions if they improve MFU. For example, we implement MoE using DeepEp communications, reindexing kernels from Megatron-LM, and efficient grouped-GEMM implementations.
  • Graph-Based State Management: Our IO system treats model checkpoints as directed acyclic graphs. This allows you to transform architectures (e.g., merging q, k, v into qkv) on-the-fly while streaming from disk, without massive memory overhead.
  • DTensors: We mandate that distributed parameters be represented as torch.distributed.tensor.DTensor. This simplifies checkpointing by making them topology-aware automatically. We leverage modern PyTorch 2.0 APIs (DeviceMesh) as much as possible.

Community & Support

If you need help, want to discuss large-scale training strategies, or want to contribute to d9d, come join our community!

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