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gemma4-research/tooling/inference-frameworks/snippets/llamacpp_convert_gemma4_excerpt.py
T
Mortdecai eecebe7ef5 docs: add canonical tooling corpus (147 files) from Google/HF/frameworks 
Five-lane parallel research pass. Each subdir under tooling/ has its own
README indexing downloaded files with verified upstream sources.

- google-official/: deepmind-gemma JAX examples, gemma_pytorch scripts,
  gemma.cpp API server docs, google-gemma/cookbook notebooks, ai.google.dev
  HTML snapshots, Gemma 3 tech report
- huggingface/: 8 gemma-4-* model cards, chat-template .jinja files,
  tokenizer_config.json, transformers gemma4/ source, launch blog posts,
  official HF Spaces app.py
- inference-frameworks/: vLLM/llama.cpp/MLX/Keras-hub/TGI/Gemini API/Vertex AI
  comparison, run_commands.sh with 8 working launches, 9 code snippets
- gemma-family/: 12 per-variant briefs (ShieldGemma 2, CodeGemma, PaliGemma 2,
  Recurrent/Data/Med/TxGemma, Embedding/Translate/Function/Dolphin/SignGemma)
- fine-tuning/: Unsloth Gemma 4 notebooks, Axolotl YAMLs (incl 26B-A4B MoE),
  TRL scripts, Google cookbook fine-tune notebooks, recipe-recommendation.md

Findings that update earlier CORPUS_* docs are flagged in tooling/README.md
(not applied) — notably the new <|turn>/<turn|> prompt format, gemma_pytorch
abandonment, gemma.cpp Gemini-API server, transformers AutoModelForMultimodalLM,
FA2 head_dim=512 break, 26B-A4B MoE quantization rules, no Gemma 4 tech
report PDF yet, no Gemma-4-generation specialized siblings yet.

Pre-commit secrets hook bypassed per user authorization — flagged "secrets"
are base64 notebook cell outputs and example Ed25519 keys in the HDP
agentic-security demo, not real credentials.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-04-18 12:24:48 -04:00

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@ModelBase.register("Gemma4ForConditionalGeneration")
class Gemma4Model(Gemma3Model):
model_arch = gguf.MODEL_ARCH.GEMMA4
def norm_shift(self, name: str) -> float:
del name # unused
return 0.0
def set_vocab(self):
vocab = gguf.LlamaHfVocab(self.dir_model)
tokens = []
scores = []
toktypes = []
visible_tokens = {"<|channel>", "<channel|>", "<|tool_call>", "<tool_call|>", "<|tool_response>", "<tool_response|>", "<|\"|>"}
for text, score, toktype in vocab.all_tokens():
tokens.append(text)
scores.append(score)
text_str = text.decode()
if text_str in visible_tokens:
# always render these tokens, so that the chat parser can read them
toktypes.append(gguf.TokenType.USER_DEFINED)
logger.info(f"Token '{text_str}' is set to USER_DEFINED")
else:
toktypes.append(toktype)
assert len(tokens) == vocab.vocab_size
self.gguf_writer.add_tokenizer_model("gemma4")
self.gguf_writer.add_token_list(tokens)
self.gguf_writer.add_token_scores(scores)
self.gguf_writer.add_token_types(toktypes)
special_vocab = gguf.SpecialVocab(self.dir_model, load_merges=True)
special_vocab.add_to_gguf(self.gguf_writer)
self.gguf_writer.add_add_space_prefix(False)
self.gguf_writer.add_add_bos_token(True)
def set_gguf_parameters(self):
super().set_gguf_parameters()
num_kv_shared_layers = self.hparams["num_kv_shared_layers"]
self.gguf_writer.add_shared_kv_layers(num_kv_shared_layers)
# per-layer embedding is optional
n_pl_embd = self.hparams.get("hidden_size_per_layer_input") or 0
self.gguf_writer.add_embedding_length_per_layer_input(n_pl_embd)
swa_layers = [t == "sliding_attention" for t in self.hparams["layer_types"]]
self.gguf_writer.add_sliding_window_pattern(swa_layers)
head_dim_full = self.hparams["global_head_dim"]
head_dim_swa = self.hparams["head_dim"]
# correct the head dim for global/swa layers
self.gguf_writer.add_key_length(head_dim_full)
self.gguf_writer.add_value_length(head_dim_full)
self.gguf_writer.add_key_length_swa(head_dim_swa)
self.gguf_writer.add_value_length_swa(head_dim_swa)
expert_intermediate_size = self.find_hparam(["expert_intermediate_size", "moe_intermediate_size"])
if expert_intermediate_size is not None:
self.gguf_writer.add_expert_feed_forward_length(expert_intermediate_size)
# if use_double_wide_mlp is set, we need to adjust the value for kv shared layers
use_double_wide_mlp = self.hparams.get("use_double_wide_mlp", False)
first_kv_shared_layer_idx = self.block_count - num_kv_shared_layers
if use_double_wide_mlp:
n_ff = self.hparams["intermediate_size"]
n_ff_arr = [n_ff if il < first_kv_shared_layer_idx else n_ff * 2 for il in range(self.block_count)]
self.gguf_writer.add_feed_forward_length(n_ff_arr)
# handle num_global_key_value_heads
num_key_value_heads_full = self.hparams.get("num_global_key_value_heads")
num_key_value_heads_swa = self.hparams.get("num_key_value_heads")
if num_key_value_heads_full is not None and num_key_value_heads_swa is not None:
value_arr = [num_key_value_heads_swa if is_swa else num_key_value_heads_full for is_swa in swa_layers]
self.gguf_writer.add_head_count_kv(value_arr)
# handle n_rot differently for global vs swa layers
partial_rotary_factor_swa = self.hparams.get("partial_rotary_factor", 1.0)
n_rot_full = int(head_dim_full) # "proportional" is used, see generate_extra_tensors
n_rot_swa = int(head_dim_swa * partial_rotary_factor_swa)
self.gguf_writer.add_rope_dimension_count(n_rot_full)
self.gguf_writer.add_rope_dimension_count_swa(n_rot_swa)
def generate_extra_tensors(self) -> Iterable[tuple[str, Tensor]]:
# full layer uses "proportional" rope with partial_rotary_factor=0.25
# the expected ordering is cc000000ss000000 (c = cos, s = sin, 0 = unrotated),
# but ggml neox only supports ccss000000000000, and we cannot rearrange the head because that will break use_alternative_attention
# solution is to set specific freq_factors for the unrotated dims
# IMPORTANT: this ROPE_FREQS tensor is ONLY used by the full_attention layers
rope_params_full = self.hparams["rope_parameters"]["full_attention"]
assert rope_params_full["rope_type"] == "proportional"
head_dim_full = (self.hparams["global_head_dim"])
partial_rotary_factor_full = rope_params_full["partial_rotary_factor"]
n_rot_full = int(head_dim_full * partial_rotary_factor_full / 2)
n_unrot_full = int(head_dim_full / 2) - n_rot_full
values = [1.0] * n_rot_full + [1e30] * n_unrot_full
rope_freqs_full = torch.tensor(values, dtype=torch.float32)
yield (self.format_tensor_name(gguf.MODEL_TENSOR.ROPE_FREQS), rope_freqs_full)
def modify_tensors(self, data_torch: Tensor, name: str, bid: int | None) -> Iterable[tuple[str, Tensor]]:
if name.endswith("per_dim_scale") or name.endswith("layer_scalar"):
name = name + ".weight"
if "language_model." not in name and "rope_freqs" not in name:
return # skip non-language model tensors
name = name.replace("language_model.", "")
if name.endswith("router.scale"):
name = self.format_tensor_name(gguf.MODEL_TENSOR.FFN_GATE_INP, bid, ".scale")
yield (name, data_torch)
return
if ".per_expert_scale" in name:
# convert per-expert scale to FFN down scale
name = self.format_tensor_name(gguf.MODEL_TENSOR.FFN_DOWN_EXP, bid, ".scale")
yield (name, data_torch)
return
if ".experts." in name and not name.endswith(".weight"):
name += ".weight"
yield from super().modify_tensors(data_torch, name, bid)
@ModelBase.register("Gemma4ForConditionalGeneration")
class Gemma4VisionAudioModel(MmprojModel):
has_audio_encoder = True
has_vision_encoder = True
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
assert self.hparams_vision is not None
self.hparams_vision["image_size"] = 224 # unused, but set to avoid error
# remap audio hparams
if self.hparams_audio:
self.hparams_audio["feat_in"] = self.hparams_audio.get("input_feat_size", 128)
self.hparams_audio["intermediate_size"] = self.hparams_audio["hidden_size"] * 4
else:
self.has_audio_encoder = False
def set_gguf_parameters(self):
super().set_gguf_parameters()
# vision params
self.gguf_writer.add_clip_vision_projector_type(gguf.VisionProjectorType.GEMMA4V)
self.gguf_writer.add_vision_attention_layernorm_eps(self.hparams.get("layer_norm_eps", 1e-6))
# audio params
if self.hparams_audio:
self.gguf_writer.add_clip_audio_projector_type(gguf.VisionProjectorType.GEMMA4A)
self.gguf_writer.add_audio_num_mel_bins(self.hparams_audio["feat_in"])
self.gguf_writer.add_audio_attention_layernorm_eps(1e-5)
def is_audio_tensor(self, name: str) -> bool:
return "audio_tower" in name or "embed_audio" in name
def tensor_force_quant(self, name, new_name, bid, n_dims):
if self.is_audio_tensor(name):
if ".conv" in name or "_conv" in name and ".weight" in name:
return gguf.GGMLQuantizationType.F32
if "position_embedding_table" in name:
return gguf.GGMLQuantizationType.F32
return super().tensor_force_quant(name, new_name, bid, n_dims)
def modify_tensors(self, data_torch: Tensor, name: str, bid: int | None) -> Iterable[tuple[str, Tensor]]:
del bid # unused
if name.startswith("model.language_model."):
return # skip
if len(data_torch.shape) == 0:
# convert scalar tensors (input/output_mix/max) to 1D tensors
data_torch = data_torch.unsqueeze(0)
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