self.caterpillar_height = caterpillar_height
self.attention_dropout = attention_dropout
+ warnings.warn("flash back", RuntimeWarning)
+ self.proba_flashback = 0.1
+
self.w_G = randw(nb_heads, caterpillar_height, dim_model)
self.b_G = nn.Parameter(
torch.full(
N = bs.x.size(0)
T = bs.x.size(1)
+ H = self.w_V.size(0)
DV = self.w_V.size(1)
DK = self.w_K.size(1)
DM = self.w_O.size(1)
self.rec_V[:, :, t0:t1] = next_V.flatten(2, 3)
self.rec_K[:, :, t0:t1] = next_K.flatten(2, 3)
- warnings.warn("flash back", RuntimeWarning)
- if self.training:
- insert_flash_back(self.rec_V, V, self.rec_K, K, t0, t1, CL, proba=1e-2 / CL)
+ if self.training and self.proba_flashback:
+ insert_flash_back(
+ self.rec_V,
+ V,
+ self.rec_K,
+ K,
+ t0,
+ t1,
+ CL,
+ proba=self.proba_flashback / CL,
+ )
+
+ # n = torch.arange(N, device=X.device)[:, None, None, None]
+ # t = torch.arange(t0, t1, device=X.device)[None, None, :, None]
+ # dv = torch.arange(DV)[None, None, None, :]
+ # dk = torch.arange(DK)[None, None, None, :]
+
+ # u = (
+ # torch.rand(N, CH, t1 - t0, 1, device=X.device).mul(t).long() // CL
+ # ) * CL
+
+ # src_time = t - u - t0
+ # src_head = torch.randint(H, (N, CH, t1 - t0, 1), device=X.device)
+
+ # mk = (
+ # torch.rand(self.rec_V[:, :, t0:t1].size()) <= self.proba_flashback
+ # ).long()
+ # self.rec_V[:, :, t0:t1] = V[n, src_head, src_time, dv]
+ # self.rec_K[:, :, t0:t1] = K[n, src_head, src_time, dk]
+
+ exit(0)
######################################################################
# compute the readout
projects / mygptrnn.git / commitdiff