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""" | |
A minimal, fast example generating text with Llama 3.1 in MLX. | |
To run, install the requirements: | |
pip install -U mlx transformers fire | |
Then generate text with: | |
python l3min.py "How tall is K2?" | |
""" | |
import fire | |
import json | |
import glob | |
from huggingface_hub import snapshot_download | |
import mlx.core as mx | |
import mlx.nn as nn | |
from pathlib import Path | |
import time | |
from transformers import AutoTokenizer | |
from types import SimpleNamespace | |
class DynamicNTKScalingRoPE(nn.Module): | |
def __init__( | |
self, | |
dims, | |
rope_scaling, | |
max_position_embeddings=2048, | |
base=10000, | |
): | |
super().__init__() | |
self.dims = dims | |
self.max_position_embeddings = max_position_embeddings | |
factor = rope_scaling["factor"] | |
low_freq_factor = rope_scaling["low_freq_factor"] | |
high_freq_factor = rope_scaling["high_freq_factor"] | |
old_context_len = rope_scaling["original_max_position_embeddings"] | |
low_freq_wavelen = old_context_len / low_freq_factor | |
high_freq_wavelen = old_context_len / high_freq_factor | |
freqs = base ** (mx.arange(0, self.dims, 2) / self.dims) | |
wavelens = 2 * mx.pi * freqs | |
smooths = (wavelens - high_freq_wavelen) / ( | |
low_freq_wavelen - high_freq_wavelen | |
) | |
new_base_freqs = freqs * (1 - smooths) * factor + smooths | |
new_base_freqs = mx.where(wavelens < high_freq_wavelen, freqs, new_base_freqs) | |
new_base_freqs = mx.where( | |
wavelens > low_freq_wavelen, freqs * factor, new_base_freqs | |
) | |
self.base = new_base_freqs.mean().item() | |
def __call__(self, x, offset=0): | |
seq_len = x.shape[1] + offset | |
base = self.base | |
if seq_len > self.max_position_embeddings: | |
base *= (seq_len / self.max_position_embeddings) ** ( | |
self.dims / (self.dims - 2) | |
) | |
return mx.fast.rope( | |
x, | |
self.dims, | |
traditional=False, | |
base=base, | |
scale=1.0, | |
offset=offset, | |
) | |
class Attention(nn.Module): | |
def __init__(self, args): | |
super().__init__() | |
dim = args.hidden_size | |
self.n_heads = n_heads = args.num_attention_heads | |
self.n_kv_heads = n_kv_heads = args.num_key_value_heads | |
self.head_dim = head_dim = args.hidden_size // n_heads | |
self.scale = head_dim ** (-0.5) | |
self.q_proj = nn.Linear(dim, n_heads * head_dim, bias=False) | |
self.k_proj = nn.Linear(dim, n_kv_heads * head_dim, bias=False) | |
self.v_proj = nn.Linear(dim, n_kv_heads * head_dim, bias=False) | |
self.o_proj = nn.Linear(n_heads * head_dim, dim, bias=False) | |
self.rope = DynamicNTKScalingRoPE( | |
dims=head_dim, | |
rope_scaling=args.rope_scaling, | |
max_position_embeddings=args.max_position_embeddings, | |
base=args.rope_theta, | |
) | |
def __call__(self, x, mask=None, cache=None): | |
B, L, _ = x.shape | |
queries, keys, values = self.q_proj(x), self.k_proj(x), self.v_proj(x) | |
queries = queries.reshape(B, L, self.n_heads, -1).transpose(0, 2, 1, 3) | |
keys = keys.reshape(B, L, self.n_kv_heads, -1).transpose(0, 2, 1, 3) | |
values = values.reshape(B, L, self.n_kv_heads, -1).transpose(0, 2, 1, 3) | |
if cache is not None: | |
key_cache, value_cache = cache | |
queries = self.rope(queries, offset=key_cache.shape[2]) | |
keys = self.rope(keys, offset=key_cache.shape[2]) | |
keys = mx.concatenate([key_cache, keys], axis=2) | |
values = mx.concatenate([value_cache, values], axis=2) | |
else: | |
queries = self.rope(queries) | |
keys = self.rope(keys) | |
output = mx.fast.scaled_dot_product_attention( | |
queries, keys, values, mask=mask, scale=self.scale | |
) | |
output = output.transpose(0, 2, 1, 3).reshape(B, L, -1) | |
return self.o_proj(output), (keys, values) | |
class MLP(nn.Module): | |
def __init__(self, args): | |
super().__init__() | |
dim = args.hidden_size | |
hidden_dim = args.intermediate_size | |
self.gate_proj = nn.Linear(dim, hidden_dim, bias=False) | |
self.down_proj = nn.Linear(hidden_dim, dim, bias=False) | |
self.up_proj = nn.Linear(dim, hidden_dim, bias=False) | |
def __call__(self, x): | |
return self.down_proj(nn.silu(self.gate_proj(x)) * self.up_proj(x)) | |
class TransformerBlock(nn.Module): | |
def __init__(self, args): | |
super().__init__() | |
self.self_attn = Attention(args) | |
self.mlp = MLP(args) | |
self.input_layernorm = nn.RMSNorm(args.hidden_size, eps=args.rms_norm_eps) | |
self.post_attention_layernorm = nn.RMSNorm( | |
args.hidden_size, eps=args.rms_norm_eps | |
) | |
def __call__(self, x, mask=None, cache=None): | |
r, cache = self.self_attn(self.input_layernorm(x), mask, cache) | |
h = x + r | |
r = self.mlp(self.post_attention_layernorm(h)) | |
out = h + r | |
return out, cache | |
class LlamaModel(nn.Module): | |
def __init__(self, args): | |
super().__init__() | |
self.embed_tokens = nn.Embedding(args.vocab_size, args.hidden_size) | |
self.layers = [ | |
TransformerBlock(args=args) for _ in range(args.num_hidden_layers) | |
] | |
self.norm = nn.RMSNorm(args.hidden_size, eps=args.rms_norm_eps) | |
def __call__(self, inputs, cache=None): | |
h = self.embed_tokens(inputs) | |
mask = None | |
if h.shape[1] > 1: | |
mask = nn.MultiHeadAttention.create_additive_causal_mask(h.shape[1]) | |
mask = mask.astype(h.dtype) | |
if cache is None: | |
cache = [None] * len(self.layers) | |
for e, layer in enumerate(self.layers): | |
h, cache[e] = layer(h, mask, cache[e]) | |
return self.norm(h), cache | |
class Model(nn.Module): | |
def __init__(self, args): | |
super().__init__() | |
self.model = LlamaModel(args) | |
self.lm_head = nn.Linear(args.hidden_size, args.vocab_size, bias=False) | |
def __call__(self, inputs, cache=None): | |
out, cache = self.model(inputs, cache) | |
return self.lm_head(out), cache | |
def load(hf_repo): | |
model_path = Path( | |
snapshot_download( | |
repo_id=hf_repo, | |
allow_patterns=["*.json", "*.safetensors"], | |
) | |
) | |
with open(model_path / "config.json", "r") as f: | |
config = json.load(f) | |
weight_files = glob.glob(str(model_path / "model*.safetensors")) | |
weights = {} | |
for wf in weight_files: | |
weights.update(mx.load(wf)) | |
model = Model(SimpleNamespace(**config)) | |
if (quantization := config.get("quantization", None)) is not None: | |
nn.quantize(model, **quantization) | |
model.load_weights(list(weights.items())) | |
mx.eval(model.parameters()) | |
tokenizer = AutoTokenizer.from_pretrained(model_path) | |
tokenizer.decode([0]) | |
return model, tokenizer | |
def generate_step(prompt, model): | |
cache = None | |
def _step(y): | |
nonlocal cache | |
logits, cache = model(y, cache=cache) | |
return mx.argmax(logits[:, -1, :], axis=-1) | |
y = _step(prompt) | |
mx.async_eval(y) | |
while True: | |
next_y = _step(y[None]) | |
mx.async_eval(next_y) | |
yield y.item() | |
y = next_y | |
def generate( | |
prompt, | |
model="mlx-community/Meta-Llama-3.1-8B-Instruct-4bit", | |
max_tokens=128, | |
): | |
print("[INFO] Loading model from disk.") | |
model, tokenizer = load(model) | |
prompt = tokenizer.apply_chat_template( | |
[{"role": "user", "content": prompt}], | |
add_generation_prompt=True, | |
return_tensors="mlx", | |
) | |
print("[INFO] Starting generation...") | |
tic = time.time() | |
s = 0 | |
tokens = [] | |
for token, n in zip(generate_step(prompt, model), range(max_tokens)): | |
tokens.append(token) | |
if n == 0: | |
prompt_tps = prompt.size / (time.time() - tic) | |
tic = time.time() | |
if token == tokenizer.eos_token_id: | |
break | |
words = tokenizer.decode(tokens) | |
print(words[s:], end="", flush=True) | |
if words[-1] == "\n": | |
tokens = [] | |
s = 0 | |
else: | |
s = len(words) | |
print(tokenizer.decode(tokens)[s:], flush=True) | |
gen_tps = (n + 1) / (time.time() - tic) | |
print("=" * 10) | |
print(f"Prompt: {prompt_tps:.3f} tokens-per-sec") | |
print(f"Generation: {gen_tps:.3f} tokens-per-sec") | |
if __name__ == "__main__": | |
fire.Fire(generate) |
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