Commit Graph

11 Commits

Author SHA1 Message Date
830d06ad01 gqa: real grouped-query attention (repeat_kv op + both SDPA paths + wiring + tests)
- repeat_kv CUDA kernel: fwd head-block gather, bwd DETERMINISTIC group-sum (each
  kv head sums its group of query-head grads; no atomics) + Tensor/ops node.
- Config gains num_kv_heads (default = n_heads → MHA); wk/wv project to kv_dim;
  attention() repeat_kv-broadcasts K/V to nh heads before the UNCHANGED composed
  & flash SDPA → GQA on both paths. group=1 is identity → MHA bit-identical.
- --kv-heads flag on train/train_ddp/export_safetensors/greedy_sample; export
  writes real num_key_value_heads (xserv repeat_kv grouping aligned).
- Tests: repeat_kv grad-check (group>1 grad-sum + group=1 identity); model gqa.rs
  (GQA flash==composed fp32/bf16, group=1 bit-identical to MHA, kv-proj shape);
  parity_dump+parity.py GQA path (repeat_interleave) via XTRAIN_PARITY_KV_HEADS.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-18 01:37:37 +08:00
c36cdf74d1 Merge t18-dropout into main
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>

# Conflicts:
#	README.md
#	crates/xtrain-autodiff/tests/autograd.rs
#	crates/xtrain-model/src/model.rs
#	crates/xtrain-train/src/bin/train.rs
#	crates/xtrain-train/src/train_loop.rs
#	docs/evolution.md
2026-06-18 00:41:41 +08:00
e625aa05dd dropout: wire into model (residual sites) + train/eval switch + flag (T18)
Config.dropout (default 0). TinyTransformer gets a Cell<bool> training switch
(train()/eval()/with_training, default eval = safe) + a Cell<u64> step_seed bumped
once per training forward. forward_batched derives a per-layer block_seed (pure fn
of step_seed×layer) and block_forward derives two per-site seeds, inserting
ops::dropout at the attn and ffn sub-block outputs (before each residual). The
seed is a pure function of (step_seed, layer, site) so the checkpoint (T13)
recompute re-derives the same masks → grads stay exact. p=0 or eval → no dropout
node → graph bit-identical to pre-T18.

train_loop: model.train() per step (restored after eval flips to eval); eval_loss
runs model.eval(). bin/train: --dropout flag → cfg.dropout. Export/sampling run in
eval (default), so exported weights are dropout-free (xserv closed loop unaffected).

Model-level tests (dropout.rs): p=0 bit-identical to no-dropout (logits/loss/grads);
eval(p>0) == p=0 identity; train differs from eval + finite; recompute-with-dropout
grads match non-recompute (fp32 + bf16).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-18 00:05:32 +08:00
0e20821633 autodiff+model: flash-attention op + --flash opt-in wiring
ops::flash_attention autograd node (fwd caches O(N) logsumexp instead of
O(N²) probs; bwd via Tensor::flash_attention_backward). Model gets a
use_flash bool + with_flash(bool) builder; the SDPA core in attention()
picks ops::flash_attention vs ops::attention. flash threads through
block_forward so the recompute (T13) segment also runs flash. Default
off = composed path, graph unchanged.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-17 23:10:32 +08:00
f202351be5 model: per-block activation recompute (--recompute)
Wrap each transformer block's forward in the checkpoint primitive when
recompute is enabled (Phase T13 / KI-3). To make the block forward a pure
segment fn (no `&self` borrow, so it can re-run in the backward closure),
extract the block body + its helpers (linear / norm_gamma / attention /
swiglu_mlp) into free functions parameterised by (cfg, compute_dtype) and add
`Block::block_params()` (the 11 leaves in the params() per-block order). The
non-recompute path calls `block_forward` directly — identical graph to before.

- `TinyTransformer::with_recompute(bool)` builder (opt-in; default off keeps the
  unchanged tape / bit-identical numerics).
- `--recompute` flag wired into bin/train and bin/train_ddp (DDP: each rank
  checkpoints independently).

Correctness gate: tests/recompute.rs builds two identical models (recompute
on/off), runs the same batched loss+backward, and asserts the forward logits,
the loss, and EVERY parameter grad match within tight fp tol — parameterised
over fp32 and bf16 (T12 composition).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-17 09:42:42 +08:00
48922cb628 perf: keep bf16 logits (no persistent fp32 logits buffer)
At vocab 50257 the logits tensor [B*S, vocab] is ~1.6GB fp32 at batch
32 — held across the whole backward. Keep it bf16: cross_entropy
upcasts the bf16 logits to fp32 internally (transient) + caches fp32
probs, and its backward casts dx back to bf16 to chain into the
bf16 lm_head matmul backward. The sampler casts bf16 logits→f32 before
the host argmax/softmax. Halves the persistent logits activation.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-16 14:20:48 +08:00
0a2a4dcaa8 train: --bf16 flag (fp32-master AMP) + bf16 correctness test
- TinyTransformer::with_compute_dtype(BF16): embedding stays fp32
  master then casts to bf16; each linear casts its fp32 weight to bf16
  on the fly; logits cast back to fp32 for cross-entropy. Default F32
  reproduces the v0-v4 forward graph bit-for-bit.
- --bf16 flag on bin/train and bin/train_ddp (off by default).
- tests/bf16.rs: same fp32 master weights run fp32 vs bf16; assert
  loss/logits/grads within a loose bf16 tol, no NaN, and grads are
  fp32 (master untouched).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-16 14:14:55 +08:00
5353b38402 model: batched forward [B,S]
forward_batched(ids[B*S], batch)/loss_batched: run B equal-length sequences as
ONE forward over flattened [B*S] ids, so every linear is one big [B*S,dim] GEMM.
Attention reshapes to [B*nh,S,hd], runs the fused batched causal SDPA (per-seq
mask + RoPE period=S, no cross-sequence attention), writes back [B*S,dim]. The
old per-(batch,head) loop + host-round-tripping split/merge_heads + the additive
causal_mask leaf are gone. forward(ids[seq]) is now forward_batched(ids,1), so
the sampler / inference path (batch=1) is unchanged.

+batched_ids_tensor helper. New batched.rs test: batched forward == looped
single-sequence (logits identical 0.0, grads 6.4e-4, loss identical). PyTorch
parity now exercises B>1 (B=2,S=4): loss 5e-8, logits 6.9e-6, all 25 param
grads within rtol — verifying per-seq RoPE position + per-seq causal masking.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-16 00:44:25 +08:00
15f1e526c7 train: parameterize model size (scaling ladder)
Add Config::from_arch(vocab, n_heads, head_dim, n_layers, ffn) so the model
size is a tunable rung instead of a hardcoded tiny config, and Config::core_params()
(num_params minus the two vocab×dim tables) — the figure the ladder is sized
against (the 50257-vocab embed+lm_head adds a fixed ~25M that is not capacity).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-15 18:34:39 +08:00
7a4f69e430 model: add per-head QK-norm (Qwen3-compat) for xserv export
xserv's Qwen3 forward unconditionally applies per-head RMSNorm to Q and K
(q_norm/k_norm, shape [head_dim]) before RoPE — even gamma=1 is a real RMS
divide, not identity. xtrain never had this, so an exact xserv<->xtrain loop
was structurally impossible. Add it (reusing the 2D rms_norm op on the
[seq*nh, hd] head rows, inserted between reshape and rope to mirror
qwen3.rs's order) so the trained model is genuinely Qwen3-compatible.

params() inserts q_norm,k_norm after wv; num_params() counts them; the
PyTorch parity refs (parity.py / adamw_parity.py) + their name lists add the
same step so the dumps stay self-consistent.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-15 17:33:19 +08:00
e3912c2380 model: tiny RoPE+RMSNorm+SwiGLU transformer + overfit test
New crate xtrain-model: a from-scratch decoder built entirely from the
autodiff op set.
- Config (tiny: dim=32, 2 layers, 2 heads, head_dim=16, ffn=64).
- TinyTransformer: embedding -> N x {pre-RMSNorm -> multi-head causal
  attention (RoPE, additive causal mask, per-head SDPA) -> residual;
  pre-RMSNorm -> SwiGLU MLP -> residual} -> final RMSNorm -> LM head.
  x@W weight convention (engine GEMM is plain A@B); dim=n_heads*head_dim.
- params()/zero_grad-able leaves for the optimizer; param_to_host export.
- overfit test: char-level bring-up (embedded text -> vocab -> shifted
  targets), minimal hand-written GD (p -= lr*grad) memorises one fixed
  batch -> loss ~0 + greedy argmax matches targets. End-to-end fwd+bwd
  correctness signal. Gated #![cfg(not(no_cuda))].

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-15 16:05:20 +08:00