Gahow Wang 7fb1a29057 ops: embedding/reshape/transpose/split-merge-heads fwd+bwd
Phase T5 structural ops on top of the T4 set, needed to assemble the
tiny transformer:
- embedding: gather rows by I32 ids (CUDA kernel) / scatter-add backward
  (atomic, so repeated ids accumulate). csrc/ops/model.cu + ffi.
- reshape: contiguous metadata-only view (Tensor::reshape), no kernel.
- transpose_3d01: [a,b,c]->[b,a,c] for the multi-head layout (kernel).
- autograd nodes: embedding/reshape/transpose_3d01/transpose_2d, plus
  split_heads (->Vec<Var>) / merge_heads for per-head attention.
- tape: Var::zero_grad + set_value so a hand-written GD step can update
  params and clear grads between steps.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-15 16:05:09 +08:00
2026-06-15 15:53:55 +08:00

xtrain

A from-scratch Rust + CUDA LLM training engine — the sibling of xserv (the inference side). GPU-first.

The goal is to learn the full training-systems stack by hand: autograd / backward passes / optimizers (AdamW) / the training loop / distributed logic. Heavy lifting is borrowed where it makes sense (GEMM → cuBLAS after a hand-written version, multi-GPU comms → NCCL, tokenizer → reused from xserv), but the core is written from scratch. The target architecture is a tiny modern transformer (RoPE + RMSNorm + SwiGLU, ~130M params) whose forward aligns with xserv's Qwen3, so the backward passes map one-to-one onto xserv's existing forward kernels and trained weights can flow back into xserv.

Status

Bootstrapping (P0). This repo currently contains only the project skeleton and a working Rust↔CUDA build chain, verified by a trivial vector-add CUDA kernel.

Layout

xtrain/
├── Cargo.toml              # workspace
├── csrc/                   # CUDA sources (.cu)
│   └── test/vecadd.cu      # trivial element-wise vector-add (smoke test)
└── crates/
    └── xtrain-cuda/        # CUDA Runtime FFI + build.rs (nvcc → sm_120)
        ├── build.rs        # compiles csrc/*.cu via the `cc` crate, links cudart
        ├── src/            # ffi / error / device / memory
        └── tests/          # vecadd smoke test

The build mirrors xserv's approach: build.rs invokes nvcc (via the cc crate) to compile csrc/*.cu targeting sm_120 (RTX 5090) and links them into the Rust crate over hand-written extern "C" FFI.

Building & testing

CUDA compilation and execution happen on a GPU box (dash5, 8× RTX 5090, sm_120):

export PATH=/usr/local/cuda/bin:$HOME/.cargo/bin:$PATH
cargo build
cargo test -p xtrain-cuda -- --nocapture   # runs the vecadd smoke test

On a machine without nvcc/GPU, build.rs detects the missing toolchain, skips CUDA compilation, and sets a no_cuda cfg — so host-side cargo check still works (the GPU smoke test is compiled out).

Description
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