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@ -1,7 +1,7 @@
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import torch
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import torch.nn.functional as F
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from einops import rearrange
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from torch import einsum, nn
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from torch import einsum, nn, matmul
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# normalization
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# they use layernorm without bias, something that pytorch does not offer
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@ -46,7 +46,8 @@ class RotaryEmbedding(nn.Module):
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def forward(self, max_seq_len, *, device):
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seq = torch.arange(max_seq_len, device=device)
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freqs = einsum("i , j -> i j", seq.type_as(self.inv_freq), self.inv_freq)
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#freqs = einsum("i , j -> i j", seq.type_as(self.inv_freq), self.inv_freq)
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freqs = torch.outer(seq.type_as(self.inv_freq), self.inv_freq)
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return torch.cat((freqs, freqs), dim=-1)
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@ -139,6 +140,8 @@ class Attention(nn.Module):
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q, k, v = (self.to_q(x), *self.to_kv(x).chunk(2, dim=-1))
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# split heads
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# they use multi-query single-key-value attention, yet another Noam Shazeer paper
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# they found no performance loss past a certain scale, and more efficient decoding obviously
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@ -155,9 +158,13 @@ class Attention(nn.Module):
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q = q * self.scale
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b, h, i, d, j = q.size(0), q.size(1), q.size(2), q.size(3), k.size(1)
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# similarity
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sim = einsum("b h i d, b j d -> b h i j", q, k)
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#sim = einsum("b h i d, b j d -> b h i j", q, k)
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sim = matmul(q.reshape(b, h*i, d), k.transpose(1,2))
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sim = sim.reshape(b, h, i, j)
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# causal mask
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@ -169,9 +176,13 @@ class Attention(nn.Module):
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sim = sim - sim.amax(dim=-1, keepdim=True).detach()
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attn = sim.softmax(dim=-1)
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b_, h_, i_, j_, d_ = attn.size(0), attn.size(1), attn.size(2), attn.size(3), v.size(2)
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# aggregate values
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out = einsum("b h i j, b j d -> b h i d", attn, v)
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#out = einsum("b h i j, b j d -> b h i d", attn, v)
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out = matmul(attn.reshape(b_, h_*i_, j_), v)
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out = out.reshape(b_, h_, i_, d_)
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# merge heads
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ZijianYY
2 years ago
committed by