mirror of
https://git.adityakumar.xyz/llama.cpp.git
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cbef542879
- use f-strings where possible - drop first param of encode/decode functions since "utf-8" is the default
172 lines
6 KiB
Python
172 lines
6 KiB
Python
# Convert a GPTQ quantized LLaMA model to a ggml compatible file
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# Based on: https://github.com/qwopqwop200/GPTQ-for-LLaMa
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#
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import os
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import re
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import sys
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import json
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import struct
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import numpy as np
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import torch
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from sentencepiece import SentencePieceProcessor
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if len(sys.argv) != 4:
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print("Usage: convert-gptq-to-ggml.py llamaXXb-4bit.pt tokenizer.model out.bin\n")
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sys.exit(1)
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fname_model = sys.argv[1]
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fname_tokenizer = sys.argv[2]
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dir_out = sys.argv[3]
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model = torch.load(fname_model, map_location="cpu")
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n_vocab, n_embd = model['model.embed_tokens.weight'].shape
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n_layer = 1 + max(int(m.group(1)) for name in model
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if (m := re.match(r'model\.layers\.([0-9]+)', name)))
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# hardcoded:
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n_mult = 256
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n_head = {32: 32, 40: 40, 60: 52, 80: 64}[n_layer]
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tokenizer = SentencePieceProcessor(fname_tokenizer)
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assert tokenizer.vocab_size() == n_vocab
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fname_out = sys.argv[3]
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fout = open(fname_out, "wb")
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fout.write(struct.pack("i", 0x67676d66)) # magic: ggmf in hex
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fout.write(struct.pack("i", 1)) # file version
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fout.write(struct.pack("i", n_vocab))
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fout.write(struct.pack("i", n_embd))
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fout.write(struct.pack("i", n_mult))
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fout.write(struct.pack("i", n_head))
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fout.write(struct.pack("i", n_layer))
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fout.write(struct.pack("i", n_embd // n_head)) # rot (obsolete)
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fout.write(struct.pack("i", 4))
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# This loop unchanged from convert-pth-to-ggml.py:
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for i in range(tokenizer.vocab_size()):
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if tokenizer.is_unknown(i):
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text = " \u2047 ".encode()
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elif tokenizer.is_control(i):
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text = b""
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elif tokenizer.is_byte(i):
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piece = tokenizer.id_to_piece(i)
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if len(piece) != 6:
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print(f"Invalid token: {piece}")
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sys.exit(1)
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byte_value = int(piece[3:-1], 16)
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text = struct.pack("B", byte_value)
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else:
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text = tokenizer.id_to_piece(i).replace("\u2581", " ").encode()
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fout.write(struct.pack("i", len(text)))
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fout.write(text)
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fout.write(struct.pack("f", tokenizer.get_score(i)))
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def write_header(shape, dst_name, ftype_cur):
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sname = dst_name.encode()
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fout.write(struct.pack("iii", len(shape), len(sname), ftype_cur))
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fout.write(struct.pack("i" * len(shape), *shape[::-1]))
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fout.write(sname)
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# ensure tensor data is aligned
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tensor_data_offset = fout.tell()
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tensor_data_offset = (tensor_data_offset + 31) & -32
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fout.seek(tensor_data_offset)
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def convert_non_q4(src_name, dst_name):
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v = model[src_name]
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shape = v.shape
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print(f"Processing non-Q4 variable: {src_name} with shape: {shape} and type: {v.dtype}")
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if len(shape) == 1:
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print(" Converting to float32")
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v = v.to(torch.float32)
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ftype_cur = {torch.float16: 1, torch.float32: 0}[v.dtype]
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# header
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write_header(shape, dst_name, ftype_cur)
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# data
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v.numpy().tofile(fout)
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def convert_q4(src_name, dst_name, permute=False):
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zeros = model[f"{src_name}.zeros"].numpy()
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scales = model[f"{src_name}.scales"].numpy()
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bias = model[f"{src_name}.bias"].numpy()
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qweight = model[f"{src_name}.qweight"].numpy().T # transpose
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# Q4_1 does not support bias; good thing the bias is always all zeros.
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assert not np.any(bias)
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# Each int32 item is actually 8 int4 items packed together, and it's transposed.
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shape = (qweight.shape[0], qweight.shape[1] * 8)
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print(f"Processing Q4 variable: {src_name} with shape: {shape}")
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# The output format has the int4 weights in groups of 32 rather than 8.
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# It looks like this:
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# For each row:
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# For each group of 32 columns:
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# - addend (float32, 4 bytes)
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# - scale (float32, 4 bytes)
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# - weights (int4 * 32, 16 bytes)
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# Note that in the input, the scales and addends are shared between all
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# the columns in a row, so we end up wasting quite a bit of memory with
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# repeated scales and addends.
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addends = -zeros # flip sign
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# Since the output format is mixed between integers and floats, we have
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# to hackily view the floats as int32s just so numpy will let us
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# concatenate them.
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addends_view = addends.view(dtype=np.int32)
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scales_view = scales.view(dtype=np.int32)
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# Split into groups of 4 columns (i.e. 32 columns of quantized data):
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grouped = qweight.reshape([qweight.shape[0], qweight.shape[1] // 4, 4])
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# Repeat addends and scales:
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addends_rep = np.atleast_3d(addends_view).repeat(grouped.shape[1], axis=1)
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scales_rep = np.atleast_3d(scales_view).repeat(grouped.shape[1], axis=1)
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blob = np.concatenate([scales_rep, addends_rep, grouped], axis=2, casting='no')
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if permute:
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# Permute some rows to undo the permutation done by convert_llama_weights_to_hf.py.
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# This can be done after the above conversion because it doesn't affect column order/layout.
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blob = (blob.reshape(n_head, 2, shape[0] // n_head // 2, *blob.shape[1:])
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.swapaxes(1, 2)
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.reshape(blob.shape))
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# header
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write_header(shape, dst_name, 3) # ftype = Q4_1
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# data
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blob.tofile(fout)
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convert_non_q4("model.embed_tokens.weight", "tok_embeddings.weight")
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convert_non_q4("model.norm.weight", "norm.weight")
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convert_non_q4("lm_head.weight", "output.weight")
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for i in range(n_layer):
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convert_q4(f"model.layers.{i}.self_attn.q_proj", f"layers.{i}.attention.wq.weight", permute=True)
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convert_q4(f"model.layers.{i}.self_attn.k_proj", f"layers.{i}.attention.wk.weight", permute=True)
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convert_q4(f"model.layers.{i}.self_attn.v_proj", f"layers.{i}.attention.wv.weight")
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convert_q4(f"model.layers.{i}.self_attn.o_proj", f"layers.{i}.attention.wo.weight")
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convert_q4(f"model.layers.{i}.mlp.gate_proj", f"layers.{i}.feed_forward.w1.weight")
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convert_q4(f"model.layers.{i}.mlp.down_proj", f"layers.{i}.feed_forward.w2.weight")
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convert_q4(f"model.layers.{i}.mlp.up_proj", f"layers.{i}.feed_forward.w3.weight")
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convert_non_q4(f"model.layers.{i}.input_layernorm.weight", f"layers.{i}.attention_norm.weight")
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convert_non_q4(f"model.layers.{i}.post_attention_layernorm.weight", f"layers.{i}.ffn_norm.weight")
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fout.close()
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print(f"Done. Output file: {fname_out}")
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print()
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