Text Generation
ELM
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# Copyright (c) 2024, SliceX AI, Inc. All Rights Reserved.
from elm.model import *
from elm.utils import batchify
from transformers import AutoTokenizer
import json
def load_elm_model_and_tokenizer(local_path,
model_config_dict,
device="cuda",
load_partial=True,
get_num_layers_from_ckpt=True):
"""Load ELM model and tokenizer from local checkpoint."""
model_args = ModelArgs(**model_config_dict)
model = load_elm_model_from_ckpt(local_path, device=device, model_args=model_args, load_partial=load_partial, get_num_layers_from_ckpt=get_num_layers_from_ckpt)
tokenizer = AutoTokenizer.from_pretrained(local_path)
tokenizer.padding_side = "left"
tokenizer.truncation_side = "left"
return model, tokenizer
def generate_elm_response_given_model(prompts, model, tokenizer,
device="cuda",
max_ctx_word_len=1024,
max_ctx_token_len=0,
max_new_tokens=500,
temperature=0.8, # set to 0 for greedy decoding
top_k=200,
return_tok_cnt=False,
return_gen_only=False,
early_stop_on_eos=False):
"""Generate responses from ELM model given an input list of prompts ([str])."""
if max_ctx_token_len > 0:
inputs = tokenizer(prompts, return_tensors="pt", padding=True, truncation=True, max_length=max_ctx_token_len).to(device)
else:
prompts = [" ".join(p.split(" ")[-max_ctx_word_len:]) for p in prompts]
inputs = tokenizer(prompts, return_tensors="pt", padding=True).to(device)
results = []
input_tok_cnt = torch.numel(inputs.input_ids)
model.eval()
out_tok_cnt = 0
with torch.no_grad():
temperature = temperature
top_k = top_k
outputs = model.generate(inputs.input_ids, max_new_tokens, temperature=temperature, top_k=top_k,
return_gen_only=return_gen_only)
if return_tok_cnt:
out_tok_cnt += torch.numel(outputs)
if early_stop_on_eos:
mod_outputs = []
for i in range(len(outputs)):
curr_out = outputs[i]
eos_loc_id = -1
for j in range(len(outputs[i])):
tok_id = outputs[i][j]
if tok_id == tokenizer.eos_token_id:
eos_loc_id = j
break
if eos_loc_id >= 0:
curr_out = outputs[i][:eos_loc_id]
mod_outputs.append(curr_out)
outputs = mod_outputs
detokenized_output = tokenizer.batch_decode(outputs, skip_special_tokens=False)
results = detokenized_output
if return_tok_cnt:
return results, (input_tok_cnt, out_tok_cnt)
return results
def generate_elm_responses(elm_model_path,
prompts,
device=None,
elm_model_config={},
eval_batch_size=1,
verbose=True):
if not device:
device = torch.device('cuda' if torch.cuda.is_available() else 'cpu')
print(f"Setting device to {device}")
model_config_dict = {
"hidden_size": elm_model_config.get("hidden_size", 2048),
"max_inp_len": elm_model_config.get("max_inp_len", 2048),
"num_attention_heads": elm_model_config.get("num_attention_heads", 32),
"num_layers": elm_model_config.get("num_layers", 48),
"bits": elm_model_config.get("bits", 256),
"vocab_size": elm_model_config.get("vocab_size", 50304),
"dropout": elm_model_config.get("dropout", 0.1),
"use_rotary_embeddings": elm_model_config.get("use_rotary_embeddings", True)
}
model, tokenizer = load_elm_model_and_tokenizer(local_path=elm_model_path, model_config_dict=model_config_dict, device=device, load_partial=True)
#prompts = [prompt if "[INST]" in prompt else f"[INST]{prompt}[/INST]" for prompt in prompts]
max_new_tokens = 128
if "classification" in elm_model_path or "detection" in elm_model_path:
max_new_tokens = 12
result = []
for prompt_batch in batchify(prompts, eval_batch_size):
responses, _ = generate_elm_response_given_model(prompt_batch,
model,
tokenizer,
device=device,
max_ctx_word_len=1024,
max_ctx_token_len=512,
max_new_tokens=max_new_tokens,
return_tok_cnt=True,
return_gen_only=False,
temperature=0.0,
early_stop_on_eos=True)
for prompt, response in zip(prompt_batch, responses):
response = response.split("[/INST]")[-1].strip()
result.append(response)
if verbose:
print(json.dumps({"prompt": prompt, "response": response}, indent=4))
print("\n***\n")
return result