"""Validate the speed knobs: corr_every (stale AEP corr) x tf32, vs fp32 exact reference. Watch BOTH gradient cosine AND the achievable free-phase residual (tf32 may raise the res floor above res_est=1e-4 -> validity issue).""" import time, torch from lt_ep_train import EQBlock, get_batch, bptt_step, relax from holo_ep import holo_a_select torch.manual_seed(0) B, T = 16, 64 blk = EQBlock(128, 4, 256, T, attn_mode='thick') for p, w in zip(blk.allp, torch.load('/tmp/lt_ep/probe_w.pt')): with torch.no_grad(): p.copy_(w.to('cuda')) def cos(ga, gb, ps): keep = [p for p in ps if ga.get(id(p)) is not None and gb.get(id(p)) is not None] va = torch.cat([ga[id(p)].reshape(-1) for p in keep]); vb = torch.cat([gb[id(p)].reshape(-1) for p in keep]) return (va @ vb / (va.norm() * vb.norm() + 1e-12)).item() def gfrom(idx, zs, a): with torch.enable_grad(): xin = blk.embed(idx) f = blk.force(zs.detach(), xin, cg=True) g = torch.autograd.grad((a * f).sum(), blk.block, allow_unused=True) return {id(p): gv for p, gv in zip(blk.block, g)} print(f"{'tf32':>5} {'corr_ev':>8} {'res@400':>9} {'t_best':>7} {'cos':>6} {'sec':>6}") for bi in range(2): idx, y = get_batch('train', B, T) torch.backends.cuda.matmul.allow_tf32 = False ref = bptt_step(blk, idx, y, 400, 0.1) for tf32 in (False, True): torch.backends.cuda.matmul.allow_tf32 = tf32 torch.backends.cudnn.allow_tf32 = tf32 xin = blk.embed(idx).detach() zs = relax(blk, xin.clone(), xin, 400, 0.1) res = (relax(blk, zs, xin, 1, 0.1) - zs).norm().item() / zs.norm().item() for ck in (1, 2, 3): t0 = time.time() a, tb = holo_a_select(blk, zs, xin, y, 2, 0.02, 120, 0.1, corr_every=ck) dt = time.time() - t0 print(f"{str(tf32):>5} {ck:>8} {res:>9.1e} {tb:>7} {cos(gfrom(idx, zs, a), ref, blk.block):>6.3f} {dt:>6.1f}", flush=True)