Kairo / kairo_model.py
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import torch
import torch.nn as nn
from torch.nn import functional as F
class KairoGPTConfig:
def __init__(self, vocab_size, block_size=4096, n_layer=14, n_head=14, n_embd=896, dropout=0.1):
self.vocab_size = vocab_size
self.block_size = block_size
self.n_layer = n_layer
self.n_head = n_head
self.n_embd = n_embd
self.dropout = dropout
class CausalSelfAttention(nn.Module):
def __init__(self, cfg):
super().__init__()
assert cfg.n_embd % cfg.n_head == 0
self.qkv = nn.Linear(cfg.n_embd, 3 * cfg.n_embd)
self.proj = nn.Linear(cfg.n_embd, cfg.n_embd)
self.attn_drop_p = cfg.dropout
self.resid_drop = nn.Dropout(cfg.dropout)
self.n_head = cfg.n_head
def forward(self, x):
B, T, C = x.shape
q, k, v = self.qkv(x).split(C, dim=2)
q = q.view(B, T, self.n_head, C // self.n_head).transpose(1, 2)
k = k.view(B, T, self.n_head, C // self.n_head).transpose(1, 2)
v = v.view(B, T, self.n_head, C // self.n_head).transpose(1, 2)
y = F.scaled_dot_product_attention(
q, k, v,
dropout_p=self.attn_drop_p if self.training else 0.0,
is_causal=True,
)
y = y.transpose(1, 2).contiguous().view(B, T, C)
return self.resid_drop(self.proj(y))
class Block(nn.Module):
def __init__(self, cfg):
super().__init__()
self.ln1 = nn.LayerNorm(cfg.n_embd)
self.attn = CausalSelfAttention(cfg)
self.ln2 = nn.LayerNorm(cfg.n_embd)
self.mlp = nn.Sequential(
nn.Linear(cfg.n_embd, 4 * cfg.n_embd),
nn.GELU(),
nn.Linear(4 * cfg.n_embd, cfg.n_embd),
nn.Dropout(cfg.dropout),
)
def forward(self, x):
x = x + self.attn(self.ln1(x))
x = x + self.mlp(self.ln2(x))
return x
class KairoGPT(nn.Module):
def __init__(self, cfg):
super().__init__()
self.cfg = cfg
self.tok_emb = nn.Embedding(cfg.vocab_size, cfg.n_embd)
self.pos_emb = nn.Parameter(torch.zeros(1, cfg.block_size, cfg.n_embd))
self.drop = nn.Dropout(cfg.dropout)
self.blocks = nn.Sequential(*[Block(cfg) for _ in range(cfg.n_layer)])
self.ln_f = nn.LayerNorm(cfg.n_embd)
self.head = nn.Linear(cfg.n_embd, cfg.vocab_size, bias=False)
self.apply(self._init_weights)
def _init_weights(self, module):
if isinstance(module, (nn.Linear, nn.Embedding)):
nn.init.normal_(module.weight, mean=0.0, std=0.02)
if isinstance(module, nn.Linear) and module.bias is not None:
nn.init.zeros_(module.bias)
def forward(self, idx, targets=None):
B, T = idx.shape
x = self.drop(self.tok_emb(idx) + self.pos_emb[:, :T, :])
x = self.blocks(x)
x = self.ln_f(x)
logits = self.head(x)
loss = None
if targets is not None:
loss = F.cross_entropy(logits.view(-1, logits.size(-1)), targets.view(-1))
return logits, loss
@torch.no_grad()
def generate(self, idx, max_new_tokens, temperature=0.8, top_k=40):
for _ in range(max_new_tokens):
idx_cond = idx[:, -self.cfg.block_size:]
logits, _ = self(idx_cond)
logits = logits[:, -1, :] / temperature
if top_k is not None:
v, _ = torch.topk(logits, top_k)
logits[logits < v[:, [-1]]] = float("-inf")
probs = F.softmax(logits, dim=-1)
next_id = torch.multinomial(probs, num_samples=1)
idx = torch.cat((idx, next_id), dim=1)
return idx
@torch.no_grad()
def generate_stream(self, idx, max_new_tokens, temperature=0.8, top_k=40):
for _ in range(max_new_tokens):
idx_cond = idx[:, -self.cfg.block_size:]
logits, _ = self(idx_cond)
logits = logits[:, -1, :] / temperature
if top_k is not None:
v, _ = torch.topk(logits, top_k)
logits[logits < v[:, [-1]]] = float("-inf")
probs = F.softmax(logits, dim=-1)
next_id = torch.multinomial(probs, num_samples=1)
idx = torch.cat((idx, next_id), dim=1)
yield next_id.item()