RWKV-LM/RWKV-v4neo/run.py

########################################################################################################
# The RWKV Language Model - https://github.com/BlinkDL/RWKV-LM
########################################################################################################

import numpy as np
import math, os, sys, types, time, gc
import torch
from src.utils import TOKENIZER
try:
    os.environ["CUDA_VISIBLE_DEVICES"] = sys.argv[1]
except:
    pass
torch.backends.cudnn.benchmark = True
torch.backends.cudnn.allow_tf32 = True
torch.backends.cuda.matmul.allow_tf32 = True
np.set_printoptions(precision=4, suppress=True, linewidth=200)
args = types.SimpleNamespace()

########################################################################################################
# Step 1: set model & config (use v4 to run your trained-from-scratch models. v4 and v4neo are compatible)
########################################################################################################

args.RUN_DEVICE = "cuda" # 'cuda' // 'cpu' (already fast)
args.FLOAT_MODE = "fp16" # fp16 (good for GPU, does not work for CPU) // fp32 (good for CPU) // bf16 (less accurate, but works for CPU)

# if args.RUN_DEVICE == "cuda":
#     os.environ["RWKV_RUN_BACKEND"] = 'nvfuser' # !!!BUGGY!!! wrong output
os.environ["RWKV_JIT_ON"] = '1' # '1' or '0'. very useful for GPU/CPU fp32, but might be harmful for GPU fp16. please benchmark !!!

TOKEN_MODE = "pile"
WORD_NAME = [
    "20B_tokenizer.json",
    "20B_tokenizer.json",
]  # [vocab, vocab] for Pile model
UNKNOWN_CHAR = None
vocab_size = 50277

# Download Pile models: https://huggingface.co/BlinkDL
# or, set MODEL_NAME to your fine-tuned model

# MODEL_NAME = "/fsx/BlinkDL/rwkv-release/RWKV-4-Pile-169M-20220807-8023"
# n_layer = 12
# n_embd = 768
# ctx_len = 1024

# MODEL_NAME = '/fsx/BlinkDL/rwkv-release/RWKV-4-Pile-430M-20220808-8066'
# n_layer = 24
# n_embd = 1024
# ctx_len = 1024

# MODEL_NAME = '/fsx/BlinkDL/HF-MODEL/rwkv-4-pile-1b5/RWKV-4-Pile-1B5-20220903-8040'
# n_layer = 24
# n_embd = 2048
# ctx_len = 1024

# MODEL_NAME = '/fsx/BlinkDL/HF-MODEL/rwkv-4-pile-3b/RWKV-4-Pile-3B-20221008-8023'
# n_layer = 32
# n_embd = 2560
# ctx_len = 1024

MODEL_NAME = '/fsx/BlinkDL/HF-MODEL/rwkv-4-pile-7b/RWKV-4-Pile-7B-20221115-8047'
n_layer = 32
n_embd = 4096
ctx_len = 1024

args.MODEL_NAME = MODEL_NAME
args.n_layer = n_layer
args.n_embd = n_embd
args.ctx_len = ctx_len
args.vocab_size = vocab_size
args.head_qk = 0
args.pre_ffn = 0
args.grad_cp = 0
args.my_pos_emb = 0
os.environ["RWKV_RUN_DEVICE"] = args.RUN_DEVICE

########################################################################################################
# Step 2: set prompt & sampling stuffs
########################################################################################################

# context = 'A'
# context = "\nIn the"
# context = '\nSugar:'
context = "\nIn a shocking finding, scientist discovered a herd of dragons living in a remote, previously unexplored valley, in Tibet. Even more surprising to the researchers was the fact that the dragons spoke perfect Chinese."

# context = "\n深圳是" # test Chinese
# context = "\n東京は" # test Japanese

# ###### A good prompt for Q&A ######
# context = '''
# Questions & Helpful Answers
# Ask Research Experts
# Question:
# Can penguins fly?

# Full Answer:
# '''

# ###### A good prompt for chatbot ######
# context = '''
# The following is a conversation between a highly knowledgeable and intelligent AI assistant called Bot, and a human user called User. In the following interactions, User and Bot converse in natural language, and Bot always answer User's questions. Bot is very smart, polite and humorous. Bot knows a lot, and always tells the truth. The conversation begins.

# User: who is president of usa?

# Bot: It’s Joe Biden; he was sworn in earlier this year.

# User: french revolution what year

# Bot: It started in 1789, but it lasted 10 years until 1799.

# User: guess i marry who ?

# Bot: Only if you tell me more about yourself - what are your interests?

# User: wat is lhc

# Bot: It’s a large and very expensive piece of science equipment. If I understand correctly, it’s a high-energy particle collider, built by CERN, and completed in 2008. They used it to confirm the existence of the Higgs boson in 2012.

# User:''' # type your question here

NUM_TRIALS = 999
LENGTH_PER_TRIAL = 333

TEMPERATURE = 1.0
top_p = 0.8
top_p_newline = 0.9  # only used in TOKEN_MODE = char

DEBUG_DEBUG = False  # True False --> show softmax output

########################################################################################################

print(f'\nUsing {args.RUN_DEVICE.upper()}. Loading {MODEL_NAME}...')
from src.model_run import RWKV_RNN

model = RWKV_RNN(args)

print(f'\nOptimizing speed...')
out, _ = model.forward([187], None)
# print(out)
gc.collect()
torch.cuda.empty_cache()

# input(0)

print(f'\nLoading tokenizer {WORD_NAME}...')
tokenizer = TOKENIZER(WORD_NAME, UNKNOWN_CHAR=UNKNOWN_CHAR)
if TOKEN_MODE == "pile":
    assert tokenizer.tokenizer.decode([187]) == '\n'

########################################################################################################

if tokenizer.charMode:
    context = tokenizer.refine_context(context)
    ctx = [tokenizer.stoi.get(s, tokenizer.UNKNOWN_CHAR) for s in context]
else:
    ctx = tokenizer.tokenizer.encode(context)
src_len = len(ctx)
src_ctx = ctx.copy()

print("\nYour prompt has " + str(src_len) + " tokens.")
print(
    "Note: currently the first run takes a while if your prompt is long, as we are using RNN to preprocess the prompt. Use GPT to build the hidden state for better speed.\n"
)

time_slot = {}
time_ref = time.time_ns()

def record_time(name):
    if name not in time_slot:
        time_slot[name] = 1e20
    tt = (time.time_ns() - time_ref) / 1e9
    if tt < time_slot[name]:
        time_slot[name] = tt

init_state = None
init_out = None
state = None
out = None

for TRIAL in range(1 if DEBUG_DEBUG else NUM_TRIALS):
    print(("-" * 50) + '\n' + context, end="")

    time_ref = time.time_ns()
    ctx = src_ctx.copy()

    if TRIAL == 0:
        for i in range(src_len):
            x = ctx[: i + 1]
            if i == src_len - 1:
                init_out, init_state = model.forward(x, init_state)
            else:
                init_state = model.forward(x, init_state, preprocess_only=True)
        gc.collect()
        torch.cuda.empty_cache()

    record_time('preprocess')
    out_last = src_len
    for i in range(src_len, src_len + (1 if DEBUG_DEBUG else LENGTH_PER_TRIAL)):
        x = ctx[: i + 1]
        x = x[-ctx_len:]

        if i == src_len:
            out = init_out.clone()
            state = init_state.clone()
        else:
            out, state = model.forward(x, state)
        if DEBUG_DEBUG:
            print("model", np.array(x), "==>", np.array(out), np.max(out.cpu().numpy()), np.min(out.cpu().numpy()))
        if TOKEN_MODE == "pile":
            out[0] = -999999999  # disable <|endoftext|>

        ttt = tokenizer.sample_logits(
            out,
            x,
            ctx_len,
            temperature=TEMPERATURE,
            top_p_usual=top_p,
            top_p_newline=top_p_newline,
        )
        ctx += [ttt]

        if tokenizer.charMode:
            char = tokenizer.itos[ttt]
            print(char, end="", flush=True)
        else:
            char = tokenizer.tokenizer.decode(ctx[out_last:])
            if '\ufffd' not in char: # is valid utf8 string?
                print(char, end="", flush=True)
                out_last = i+1

    record_time('total')
    # print(f'\n\n{time_slot}\n\n')
    print(
        f"\n\n--- preprocess {round(time_slot['preprocess'], 2)}s, generation {round(time_slot['total']-time_slot['preprocess'], 2)}s ", end = ''
    )

print(("-" * 50) + '\n')