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Add script to convert GGMLv3 LLaMA models to GGUF #2682

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merged 11 commits into from
Aug 21, 2023
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Add script to convert GGMLv3 LLaMA models to GGUF #2682

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8afc1ef
First pass at converting GGMLv3 LLaMA models to GGUF
KerfuffleV2 Aug 20, 2023
f7e61fd
Cleanups, better output during conversion
KerfuffleV2 Aug 20, 2023
08959c8
Fix vocab space conversion logic
KerfuffleV2 Aug 20, 2023
8083e20
More vocab conversion fixes
KerfuffleV2 Aug 20, 2023
ff25134
Add description to converted GGUF files
KerfuffleV2 Aug 20, 2023
80912f0
Improve help text, expand warning
KerfuffleV2 Aug 20, 2023
f56db21
Allow specifying name and description for output GGUF
KerfuffleV2 Aug 20, 2023
e854cd7
Allow overriding vocab and hyperparams from original model metadata
KerfuffleV2 Aug 20, 2023
996aaca
Use correct params override var name
KerfuffleV2 Aug 20, 2023
f68aef5
Fix wrong type size for Q8_K
KerfuffleV2 Aug 21, 2023
0547760
Set default value for gguf add_tensor raw_shape KW arg
KerfuffleV2 Aug 21, 2023
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334 changes: 334 additions & 0 deletions convert-llama-ggmlv3-to-gguf.py
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import sys, struct, math, argparse
from pathlib import Path

import numpy as np

import gguf

# Note: Does not support GGML_QKK_64
QK_K = 256
# Items here are (block size, type size)
GGML_QUANT_SIZES = {
gguf.GGMLQuantizationType.F32 : (1, 4),
gguf.GGMLQuantizationType.F16 : (1, 2),
gguf.GGMLQuantizationType.Q4_0 : (32, 2 + 16),
gguf.GGMLQuantizationType.Q4_1 : (32, 2 + 2 + 16),
gguf.GGMLQuantizationType.Q5_0 : (32, 2 + 4 + 16),
gguf.GGMLQuantizationType.Q5_1 : (32, 2 + 2 + 4 + 16),
gguf.GGMLQuantizationType.Q8_0 : (32, 2 + 32),
gguf.GGMLQuantizationType.Q8_1 : (32, 4 + 4 + 32),
gguf.GGMLQuantizationType.Q2_K : (256, 2 + 2 + QK_K // 16 + QK_K // 4),
gguf.GGMLQuantizationType.Q3_K : (256, 2 + QK_K // 4 + QK_K // 8 + 12),
gguf.GGMLQuantizationType.Q4_K : (256, 2 + 2 + QK_K // 2 + 12),
gguf.GGMLQuantizationType.Q5_K : (256, 2 + 2 + QK_K // 2 + QK_K // 8 + 12),
gguf.GGMLQuantizationType.Q6_K : (256, 2 + QK_K // 2 + QK_K // 4 + QK_K // 16),
gguf.GGMLQuantizationType.Q8_K : (256, 4 + QK_K + QK_K // 8),
}

class Hyperparameters:
def __init__(self):
self.n_vocab = self.n_embd = self.n_mult = self.n_head = self.n_layer = self.n_rot = self.ftype = 0
self.n_ff = 0

def set_n_ff(self, model):
ff_tensor_idx = model.tensor_map.get(b'layers.0.feed_forward.w1.weight')
assert ff_tensor_idx is not None, 'Missing layer 0 FF tensor'
ff_tensor = model.tensors[ff_tensor_idx]
self.n_ff = ff_tensor.dims[1]

def load(self, data, offset):
(
self.n_vocab,
self.n_embd,
self.n_mult,
self.n_head,
self.n_layer,
self.n_rot,
self.ftype,
) = struct.unpack('<7I', data[offset:offset + (4 * 7)])
return 4 * 7

def __str__(self):
return f'<Hyperparameters: n_vocab={self.n_vocab}, n_embd={self.n_embd}, n_mult={self.n_mult}, n_head={self.n_head}, n_layer={self.n_layer}, n_rot={self.n_rot}, n_ff={self.n_ff}, ftype={self.ftype}>'

class Vocab:
def __init__(self):
self.items = []

def load(self, data, offset, n_vocab):
orig_offset = offset
for _ in range(n_vocab):
itemlen = struct.unpack('<I', data[offset:offset + 4])[0]
assert itemlen < 4096, 'Absurd vocab item length'
offset += 4
vocab = bytes(data[offset:offset + itemlen])
offset += itemlen
score = struct.unpack('<f', data[offset:offset + 4])[0]
offset += 4
self.items.append((vocab, score))
return offset - orig_offset

class Tensor:
def __init__(self):
self.name = None
self.dims = ()
self.dtype = None
self.start_offset = 0
self.len_bytes = 0

def load(self, data, offset):
orig_offset = offset
(n_dims, name_len, dtype) = struct.unpack('<3I', data[offset:offset + 12])
assert n_dims >= 0 and n_dims <= 4, f'Invalid tensor dimensions {n_dims}'
assert name_len < 4096, 'Absurd tensor name length'
quant = GGML_QUANT_SIZES.get(dtype)
assert quant is not None, 'Unknown tensor type'
(blksize, tysize) = quant
offset += 12
self.dtype= dtype
self.dims = struct.unpack(f'<{n_dims}I', data[offset:offset + (4 * n_dims)])
offset += 4 * n_dims
self.name = bytes(data[offset:offset + name_len])
offset += name_len
pad = ((offset + 31) & ~31) - offset
offset += pad
n_elems = np.prod(self.dims)
n_bytes = (n_elems * tysize) // blksize
self.start_offset = offset
self.len_bytes = n_bytes
offset += n_bytes
# print(n_dims, name_len, dtype, self.dims, self.name, pad)
return offset - orig_offset

class GGMLV3Model:
def __init__(self):
self.hyperparameters = None
self.vocab = None
self.tensor_map = {}
self.tensors = []

def validate_header(self, data, offset):
if bytes(data[offset:offset + 4]) != b'tjgg' or struct.unpack('<I', data[offset + 4:offset + 8])[0] != 3:
raise ValueError('Only GGJTv3 supported')
return 8

def load(self, data, offset):
offset += self.validate_header(data, offset)
hp = Hyperparameters()
offset += hp.load(data, offset)
vocab = Vocab()
offset += vocab.load(data, offset, hp.n_vocab)
tensors = []
tensor_map = {}
while offset < len(data):
tensor = Tensor()
offset += tensor.load(data, offset)
tensor_map[tensor.name] = len(tensors)
tensors.append(tensor)
self.hyperparameters = hp
self.vocab = vocab
self.tensors = tensors
self.tensor_map = tensor_map
hp.set_n_ff(self)
return offset

class GGMLToGGUF:
def __init__(self, ggml_model, data, cfg, params_override = None, vocab_override = None):
hp = ggml_model.hyperparameters
self.model = ggml_model
self.data = data
self.cfg = cfg
self.params_override = params_override
self.vocab_override = vocab_override
if params_override is not None:
n_kv_head = params_override.n_head_kv
else:
if cfg.gqa == 1:
n_kv_head = hp.n_head
else:
gqa = float(cfg.gqa)
n_kv_head = None
for x in range(1, 256):
if float(hp.n_head) / float(x) == gqa:
n_kv_head = x
assert n_kv_head is not None, "Couldn't determine n_kv_head from GQA param"
print(f'- Guessed n_kv_head = {n_kv_head} based on GQA {cfg.gqa}')
self.n_kv_head = n_kv_head
self.name_map = gguf.get_tensor_name_map(gguf.MODEL_ARCH.LLAMA, ggml_model.hyperparameters.n_layer)

def save(self):
print('* Preparing to save GGUF file')
gguf_writer = gguf.GGUFWriter(self.cfg.output, gguf.MODEL_ARCH_NAMES[gguf.MODEL_ARCH.LLAMA], use_temp_file = False)
self.add_params(gguf_writer)
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self.add_vocab(gguf_writer)
self.add_tensors(gguf_writer)
print(" gguf: write header")
gguf_writer.write_header_to_file()
print(" gguf: write metadata")
gguf_writer.write_kv_data_to_file()
print(" gguf: write tensors")
gguf_writer.write_tensors_to_file()
gguf_writer.close()

def add_params(self, gguf_writer):
hp = self.model.hyperparameters
cfg = self.cfg
desc = cfg.desc if cfg.desc is not None else 'converted from legacy GGJTv3 format'
try:
# Filenames aren't necessarily valid UTF8.
name = cfg.name if cfg.name is not None else cfg.input.name
except UnicodeDecodeError:
name = None
print('* Adding model parameters and KV items')
if name is not None:
gguf_writer.add_name(name)
gguf_writer.add_description(desc)
if self.params_override is not None:
po = self.params_override
assert po.n_embd == hp.n_embd, 'Model hyperparams mismatch'
assert po.n_layer == hp.n_layer, 'Model hyperparams mismatch'
assert po.n_head == hp.n_head, 'Model hyperparams mismatch'
gguf_writer.add_context_length (po.n_ctx)
gguf_writer.add_embedding_length (po.n_embd)
gguf_writer.add_block_count (po.n_layer)
gguf_writer.add_feed_forward_length (po.n_ff)
gguf_writer.add_rope_dimension_count(po.n_embd // po.n_head)
gguf_writer.add_head_count (po.n_head)
gguf_writer.add_head_count_kv (po.n_head_kv)
gguf_writer.add_layer_norm_rms_eps (po.f_norm_eps)
return
gguf_writer.add_context_length(cfg.context_length)
gguf_writer.add_embedding_length(hp.n_embd)
gguf_writer.add_block_count(hp.n_layer)
gguf_writer.add_feed_forward_length(hp.n_ff)
gguf_writer.add_rope_dimension_count(hp.n_embd // hp.n_head)
gguf_writer.add_head_count(hp.n_head)
gguf_writer.add_head_count_kv(self.n_kv_head)
gguf_writer.add_layer_norm_rms_eps(float(cfg.eps))

def add_vocab(self, gguf_writer):
hp = self.model.hyperparameters
gguf_writer.add_tokenizer_model('llama')
tokens = []
scores = []
toktypes = []
if self.vocab_override is not None:
vo = self.vocab_override
print('* Adding vocab item(s)')
for (idx, vitem) in enumerate(vo.all_tokens()):
if len(vitem) == 3:
tokens.append(vitem[0])
scores.append(vitem[1])
toktypes.append(vitem[2])
else:
# Maybe try to guess the token type here?
tokens.append(vitem[0])
scores.append(vitem[1])
assert len(tokens) == hp.n_vocab, f'Override vocab has a different number of items than hyperparameters - override = {len(tokens)} but n_vocab={hp.n_vocab}'
gguf_writer.add_token_list(tokens)
gguf_writer.add_token_scores(scores)
if len(toktypes) > 0:
gguf_writer.add_token_types(toktypes)
return
print(f'* Adding {hp.n_vocab} vocab item(s)')
for (tokid, (vbytes, vscore)) in enumerate(self.model.vocab.items):
tt = 1 # Normal
if len(vbytes) == 0:
tt = 3 # Control
elif tokid >= 3 and tokid <= 258 and len(vbytes) == 1:
hv = hex(vbytes[0])[2:].upper()
vbytes = bytes(f'<0x{hv}>', encoding = 'UTF-8')
tt = 6 # Byte
else:
vbytes = vbytes.replace(b' ', b'\xe2\x96\x81')
toktypes.append(tt)
tokens.append(vbytes)
scores.append(vscore)
gguf_writer.add_token_list(tokens)
gguf_writer.add_token_scores(scores)
gguf_writer.add_token_types(toktypes)

def add_tensors(self, gguf_writer):
nm = self.name_map
data = self.data
print(f'* Adding {len(self.model.tensors)} tensor(s)')
for tensor in self.model.tensors:
name = str(tensor.name, 'UTF-8')
if name.endswith('.weight'):
name = name[:-7]
suffix = '.weight'
elif name.endswith('.bias'):
name = name[:-5]
suffix = '.bias'
mapped_name = nm.get(name)
assert mapped_name is not None, f'Bad name {name}'
mapped_name += suffix
tempdims = list(tensor.dims[:])
if len(tempdims) > 1:
temp = tempdims[1]
tempdims[1] = tempdims[0]
tempdims[0] = temp
# print(f'+ {tensor.name} | {mapped_name} {tensor.dims} :: {tempdims}')
gguf_writer.add_tensor(mapped_name, data[tensor.start_offset:tensor.start_offset + tensor.len_bytes], raw_shape = tempdims, raw_dtype = tensor.dtype)

def handle_metadata(cfg, hp):
import convert
assert cfg.model_metadata_dir.is_dir(), 'Metadata dir is not a directory'
hf_config_path = cfg.model_metadata_dir / "config.json"
orig_config_path = cfg.model_metadata_dir / "params.json"
# We pass a fake model here. "original" mode will check the shapes of some
# tensors if information is missing in the .json file: other than that, the
# model data isn't used so this should be safe (at least for now).
fakemodel = {
'tok_embeddings.weight': convert.LazyTensor.__new__(convert.LazyTensor),
'layers.0.feed_forward.w1.weight': convert.LazyTensor.__new__(convert.LazyTensor),
}
fakemodel['tok_embeddings.weight'].shape = [hp.n_vocab]
fakemodel['layers.0.feed_forward.w1.weight'].shape = [hp.n_ff]
if hf_config_path.exists():
params = convert.Params.loadHFTransformerJson(fakemodel, hf_config_path)
elif orig_config_path.exists():
params = convert.Params.loadOriginalParamsJson(fakemodel, orig_config_path)
else:
raise ValueError('Unable to load metadata')
vocab = convert.load_vocab(cfg.vocab_dir if cfg.vocab_dir is not None else cfg.model_metadata_dir, cfg.vocabtype)
convert.check_vocab_size(params, vocab)
return (params, vocab)

def handle_args():
parser = argparse.ArgumentParser(description = 'Convert GGMLv3 models to GGUF')
parser.add_argument('--input', '-i', type = Path, help = 'Input GGMLv3 filename')
parser.add_argument('--output', '-o', type = Path, help ='Output GGUF filename')
parser.add_argument('--name', help = 'Set model name')
parser.add_argument('--desc', help = 'Set model description')
parser.add_argument('--gqa', type = int, default = 1, help = 'grouped-query attention factor (use 8 for LLaMA2 70B)')
parser.add_argument('--eps', default = '5.0e-06', help = 'RMS norm eps: Use 1e-6 for LLaMA1 and OpenLLaMA, use 1e-5 for LLaMA2')
parser.add_argument('--context-length', '-c', type=int, default = 2048, help = 'Default max context length: LLaMA1 is typically 2048, LLaMA2 is typically 4096')
parser.add_argument('--model-metadata-dir', '-m', type = Path, help ='Load HuggingFace/.pth vocab and metadata from the specified directory')
parser.add_argument("--vocab-dir", type=Path, help="directory containing tokenizer.model, if separate from model file - only meaningful with --model-metadata-dir")
parser.add_argument("--vocabtype", choices=["spm", "bpe"], help="vocab format - only meaningful with --model-metadata-dir and/or --vocab-dir (default: spm)", default="spm")
return parser.parse_args()

def main():
cfg = handle_args()
print(f'* Using config: {cfg}')
print('\n=== WARNING === Be aware that this conversion script is best-effort. Use a native GGUF model if possible. === WARNING ===\n')
data = np.memmap(cfg.input, mode = 'r')
model = GGMLV3Model()
print('* Scanning GGML input file')
offset = model.load(data, 0)
print(f'* GGML model hyperparameters: {model.hyperparameters}')
vocab_override = None
params_override = None
if cfg.model_metadata_dir is not None:
(params_override, vocab_override) = handle_metadata(cfg, model.hyperparameters)
print('!! Note: When overriding params the --gqa, --eps and --context-length options are ignored.')
print(f'* Overriding params: {params_override}')
print(f'* Overriding vocab: {vocab_override}')
else:
print('\n=== WARNING === Special tokens may not be converted correctly. Use --model-metadata-dir if possible === WARNING ===\n')
converter = GGMLToGGUF(model, data, cfg, params_override = params_override, vocab_override = vocab_override)
converter.save()
print(f'* Successful completion. Output saved to: {cfg.output}')

main()
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