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Prefill and Decode wrapper models for CoreML conversion.
Key design: all dynamic indexing is eliminated. Positions are encoded into
cos/sin/mask inputs by the caller, not computed inside the model. This makes
the models fully traceable by torch.jit.trace and convertible by coremltools.
"""
import torch
import torch.nn as nn
import torch.nn.functional as F
from attention import (
LlamaDecoderLayerDecode,
LlamaRMSNorm,
precompute_rope_frequencies,
)
# Model constants
NUM_LAYERS = 30
HIDDEN_SIZE = 576
NUM_HEADS = 9
NUM_KV_HEADS = 3
HEAD_DIM = 64
INTERMEDIATE_SIZE = 1536
VOCAB_SIZE = 20802
RMS_NORM_EPS = 1e-5
ROPE_THETA = 100000.0
MAX_CONTEXT = 512
PREFILL_SEQ_LEN = 512
SPEAKER_DIM = 128
class PlaprePico(nn.Module):
"""Generates one token at a time using the KV cache.
Also used for token-by-token prefill. Speaker conditioning is handled
internally: at position 0, pass is_speaker_step=1.0 and the raw
speaker_embedding. The model projects it and replaces the token embedding.
Inputs:
input_ids: (1, 1) int32
causal_mask: (1, 1, 1, 2048) float16 — 0 or -inf
cos: (1, 1, 1, 64) float16 — RoPE cos for current position
sin: (1, 1, 1, 64) float16 — RoPE sin for current position
update_mask: (1, 1, 2048, 1) float16 — one-hot at current position
speaker_embedding: (1, 128) float16 — raw speaker embedding (used at position 0)
is_speaker_step: (1,) float16 — 1.0 at position 0, 0.0 otherwise
State buffers:
k_cache_0..29, v_cache_0..29: (1, 3, 2048, 64) float16
Output:
logits: (1, 1, 20802) float16
"""
def __init__(self):
super().__init__()
self.embed_tokens = nn.Embedding(VOCAB_SIZE, HIDDEN_SIZE)
self.speaker_proj = nn.Linear(SPEAKER_DIM, HIDDEN_SIZE, bias=True)
self.layers = nn.ModuleList(
[
LlamaDecoderLayerDecode(
hidden_size=HIDDEN_SIZE,
num_heads=NUM_HEADS,
num_kv_heads=NUM_KV_HEADS,
head_dim=HEAD_DIM,
intermediate_size=INTERMEDIATE_SIZE,
rms_norm_eps=RMS_NORM_EPS,
max_context=MAX_CONTEXT,
)
for _ in range(NUM_LAYERS)
]
)
self.norm = LlamaRMSNorm(HIDDEN_SIZE, eps=RMS_NORM_EPS)
# KV cache state buffers
for i in range(NUM_LAYERS):
self.register_buffer(
f"k_cache_{i}",
torch.zeros(1, NUM_KV_HEADS, MAX_CONTEXT, HEAD_DIM, dtype=torch.float16),
)
self.register_buffer(
f"v_cache_{i}",
torch.zeros(1, NUM_KV_HEADS, MAX_CONTEXT, HEAD_DIM, dtype=torch.float16),
)
def forward(
self,
input_ids: torch.Tensor,
causal_mask: torch.Tensor,
cos: torch.Tensor,
sin: torch.Tensor,
update_mask: torch.Tensor,
speaker_embedding: torch.Tensor,
is_speaker_step: torch.Tensor,
) -> torch.Tensor:
hidden = self.embed_tokens(input_ids) # (1, 1, 576)
# Speaker conditioning: at position 0, replace token embedding with
# speaker_proj(embedding). Use is_speaker_step as a blend factor:
# hidden = (1 - flag) * embed + flag * speaker_proj(emb)
# When flag=0 this is a no-op; when flag=1 it fully replaces.
spk_proj = self.speaker_proj(speaker_embedding).unsqueeze(1) # (1, 1, 576)
flag = is_speaker_step.view(1, 1, 1) # (1, 1, 1) for broadcast
hidden = hidden * (1.0 - flag) + spk_proj * flag
# Unrolled layer loop — explicit self.k_cache_N access required for
# torch.jit.trace to generate prim::SetAttr, which coremltools converts
# to coreml_update_state. getattr() in a loop doesn't work.
hidden, new_k_0, new_v_0 = self.layers[0](hidden, cos, sin, causal_mask, self.k_cache_0, self.v_cache_0, update_mask)
self.k_cache_0 += (new_k_0 - self.k_cache_0)
self.v_cache_0 += (new_v_0 - self.v_cache_0)
hidden, new_k_1, new_v_1 = self.layers[1](hidden, cos, sin, causal_mask, self.k_cache_1, self.v_cache_1, update_mask)
self.k_cache_1 += (new_k_1 - self.k_cache_1)
self.v_cache_1 += (new_v_1 - self.v_cache_1)
hidden, new_k_2, new_v_2 = self.layers[2](hidden, cos, sin, causal_mask, self.k_cache_2, self.v_cache_2, update_mask)
self.k_cache_2 += (new_k_2 - self.k_cache_2)
self.v_cache_2 += (new_v_2 - self.v_cache_2)
hidden, new_k_3, new_v_3 = self.layers[3](hidden, cos, sin, causal_mask, self.k_cache_3, self.v_cache_3, update_mask)
self.k_cache_3 += (new_k_3 - self.k_cache_3)
self.v_cache_3 += (new_v_3 - self.v_cache_3)
hidden, new_k_4, new_v_4 = self.layers[4](hidden, cos, sin, causal_mask, self.k_cache_4, self.v_cache_4, update_mask)
self.k_cache_4 += (new_k_4 - self.k_cache_4)
self.v_cache_4 += (new_v_4 - self.v_cache_4)
hidden, new_k_5, new_v_5 = self.layers[5](hidden, cos, sin, causal_mask, self.k_cache_5, self.v_cache_5, update_mask)
self.k_cache_5 += (new_k_5 - self.k_cache_5)
self.v_cache_5 += (new_v_5 - self.v_cache_5)
hidden, new_k_6, new_v_6 = self.layers[6](hidden, cos, sin, causal_mask, self.k_cache_6, self.v_cache_6, update_mask)
self.k_cache_6 += (new_k_6 - self.k_cache_6)
self.v_cache_6 += (new_v_6 - self.v_cache_6)
hidden, new_k_7, new_v_7 = self.layers[7](hidden, cos, sin, causal_mask, self.k_cache_7, self.v_cache_7, update_mask)
self.k_cache_7 += (new_k_7 - self.k_cache_7)
self.v_cache_7 += (new_v_7 - self.v_cache_7)
hidden, new_k_8, new_v_8 = self.layers[8](hidden, cos, sin, causal_mask, self.k_cache_8, self.v_cache_8, update_mask)
self.k_cache_8 += (new_k_8 - self.k_cache_8)
self.v_cache_8 += (new_v_8 - self.v_cache_8)
hidden, new_k_9, new_v_9 = self.layers[9](hidden, cos, sin, causal_mask, self.k_cache_9, self.v_cache_9, update_mask)
self.k_cache_9 += (new_k_9 - self.k_cache_9)
self.v_cache_9 += (new_v_9 - self.v_cache_9)
hidden, new_k_10, new_v_10 = self.layers[10](hidden, cos, sin, causal_mask, self.k_cache_10, self.v_cache_10, update_mask)
self.k_cache_10 += (new_k_10 - self.k_cache_10)
self.v_cache_10 += (new_v_10 - self.v_cache_10)
hidden, new_k_11, new_v_11 = self.layers[11](hidden, cos, sin, causal_mask, self.k_cache_11, self.v_cache_11, update_mask)
self.k_cache_11 += (new_k_11 - self.k_cache_11)
self.v_cache_11 += (new_v_11 - self.v_cache_11)
hidden, new_k_12, new_v_12 = self.layers[12](hidden, cos, sin, causal_mask, self.k_cache_12, self.v_cache_12, update_mask)
self.k_cache_12 += (new_k_12 - self.k_cache_12)
self.v_cache_12 += (new_v_12 - self.v_cache_12)
hidden, new_k_13, new_v_13 = self.layers[13](hidden, cos, sin, causal_mask, self.k_cache_13, self.v_cache_13, update_mask)
self.k_cache_13 += (new_k_13 - self.k_cache_13)
self.v_cache_13 += (new_v_13 - self.v_cache_13)
hidden, new_k_14, new_v_14 = self.layers[14](hidden, cos, sin, causal_mask, self.k_cache_14, self.v_cache_14, update_mask)
self.k_cache_14 += (new_k_14 - self.k_cache_14)
self.v_cache_14 += (new_v_14 - self.v_cache_14)
hidden, new_k_15, new_v_15 = self.layers[15](hidden, cos, sin, causal_mask, self.k_cache_15, self.v_cache_15, update_mask)
self.k_cache_15 += (new_k_15 - self.k_cache_15)
self.v_cache_15 += (new_v_15 - self.v_cache_15)
hidden, new_k_16, new_v_16 = self.layers[16](hidden, cos, sin, causal_mask, self.k_cache_16, self.v_cache_16, update_mask)
self.k_cache_16 += (new_k_16 - self.k_cache_16)
self.v_cache_16 += (new_v_16 - self.v_cache_16)
hidden, new_k_17, new_v_17 = self.layers[17](hidden, cos, sin, causal_mask, self.k_cache_17, self.v_cache_17, update_mask)
self.k_cache_17 += (new_k_17 - self.k_cache_17)
self.v_cache_17 += (new_v_17 - self.v_cache_17)
hidden, new_k_18, new_v_18 = self.layers[18](hidden, cos, sin, causal_mask, self.k_cache_18, self.v_cache_18, update_mask)
self.k_cache_18 += (new_k_18 - self.k_cache_18)
self.v_cache_18 += (new_v_18 - self.v_cache_18)
hidden, new_k_19, new_v_19 = self.layers[19](hidden, cos, sin, causal_mask, self.k_cache_19, self.v_cache_19, update_mask)
self.k_cache_19 += (new_k_19 - self.k_cache_19)
self.v_cache_19 += (new_v_19 - self.v_cache_19)
hidden, new_k_20, new_v_20 = self.layers[20](hidden, cos, sin, causal_mask, self.k_cache_20, self.v_cache_20, update_mask)
self.k_cache_20 += (new_k_20 - self.k_cache_20)
self.v_cache_20 += (new_v_20 - self.v_cache_20)
hidden, new_k_21, new_v_21 = self.layers[21](hidden, cos, sin, causal_mask, self.k_cache_21, self.v_cache_21, update_mask)
self.k_cache_21 += (new_k_21 - self.k_cache_21)
self.v_cache_21 += (new_v_21 - self.v_cache_21)
hidden, new_k_22, new_v_22 = self.layers[22](hidden, cos, sin, causal_mask, self.k_cache_22, self.v_cache_22, update_mask)
self.k_cache_22 += (new_k_22 - self.k_cache_22)
self.v_cache_22 += (new_v_22 - self.v_cache_22)
hidden, new_k_23, new_v_23 = self.layers[23](hidden, cos, sin, causal_mask, self.k_cache_23, self.v_cache_23, update_mask)
self.k_cache_23 += (new_k_23 - self.k_cache_23)
self.v_cache_23 += (new_v_23 - self.v_cache_23)
hidden, new_k_24, new_v_24 = self.layers[24](hidden, cos, sin, causal_mask, self.k_cache_24, self.v_cache_24, update_mask)
self.k_cache_24 += (new_k_24 - self.k_cache_24)
self.v_cache_24 += (new_v_24 - self.v_cache_24)
hidden, new_k_25, new_v_25 = self.layers[25](hidden, cos, sin, causal_mask, self.k_cache_25, self.v_cache_25, update_mask)
self.k_cache_25 += (new_k_25 - self.k_cache_25)
self.v_cache_25 += (new_v_25 - self.v_cache_25)
hidden, new_k_26, new_v_26 = self.layers[26](hidden, cos, sin, causal_mask, self.k_cache_26, self.v_cache_26, update_mask)
self.k_cache_26 += (new_k_26 - self.k_cache_26)
self.v_cache_26 += (new_v_26 - self.v_cache_26)
hidden, new_k_27, new_v_27 = self.layers[27](hidden, cos, sin, causal_mask, self.k_cache_27, self.v_cache_27, update_mask)
self.k_cache_27 += (new_k_27 - self.k_cache_27)
self.v_cache_27 += (new_v_27 - self.v_cache_27)
hidden, new_k_28, new_v_28 = self.layers[28](hidden, cos, sin, causal_mask, self.k_cache_28, self.v_cache_28, update_mask)
self.k_cache_28 += (new_k_28 - self.k_cache_28)
self.v_cache_28 += (new_v_28 - self.v_cache_28)
hidden, new_k_29, new_v_29 = self.layers[29](hidden, cos, sin, causal_mask, self.k_cache_29, self.v_cache_29, update_mask)
self.k_cache_29 += (new_k_29 - self.k_cache_29)
self.v_cache_29 += (new_v_29 - self.v_cache_29)
hidden = self.norm(hidden)
logits = F.linear(hidden, self.embed_tokens.weight)
return logits
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