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device_serve.py
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device_serve.py
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import argparse
import json
import threading
import time
from queue import Queue, Empty
import jax
import numpy as np
import optax
from mesh_transformer import util
from mesh_transformer.checkpoint import read_ckpt
from mesh_transformer.sampling import nucleaus_sample
from mesh_transformer.transformer_shard import CausalTransformer
import transformers
from smart_open import open
from mesh_transformer.util import clip_by_global_norm
from flask import Flask, request, make_response, jsonify
app = Flask(__name__)
requests_queue = Queue()
"""
curl --header "Content-Type: application/json" \
--request POST \
--data '{"context":"eleutherai", "top_p": 0.9, "temp": 0.75}' \
http://localhost:5000/complete
"""
def _build_cors_prelight_response():
response = make_response()
response.headers.add("Access-Control-Allow-Origin", "*")
response.headers.add('Access-Control-Allow-Headers', "*")
response.headers.add('Access-Control-Allow-Methods', "*")
return response
def _corsify_actual_response(response):
response.headers.add("Access-Control-Allow-Origin", "*")
return response
@app.route('/complete', methods=['POST', 'OPTIONS'])
def complete():
if request.method == "OPTIONS": # CORS preflight
return _build_cors_prelight_response()
elif request.method == "POST": # The actual request following the preflight
content = request.json
if requests_queue.qsize() > 100:
return {"error": "queue full, try again later"}
response_queue = Queue()
requests_queue.put(({
"context": content["context"],
"top_p": float(content["top_p"]),
"temp": float(content["temp"])
}, response_queue))
return _corsify_actual_response(jsonify({"completion": response_queue.get()}))
else:
raise RuntimeError("Weird - don't know how to handle method {}".format(request.method))
def parse_args():
# Parse command line arguments
parser = argparse.ArgumentParser()
parser.add_argument("--config", type=str, default=None, help="Config file location")
args = parser.parse_args()
return args
if __name__ == "__main__":
threading.Thread(target=app.run, kwargs={"port": 5000, "host": "0.0.0.0"}).start()
args = parse_args()
params = json.load(open(args.config))
gradient_accumulation_steps = params.get("gradient_accumulation_steps", 1)
per_replica_batch = params["per_replica_batch"]
cores_per_replica = params["cores_per_replica"]
assert cores_per_replica <= 8
bucket = params["bucket"]
model_dir = params["model_dir"]
layers = params["layers"]
d_model = params["d_model"]
n_heads = params["n_heads"]
n_vocab = params["n_vocab"]
seq = params["seq"]
norm = params["norm"]
params["sampler"] = nucleaus_sample
opt = optax.chain(
optax.scale(1 / gradient_accumulation_steps),
clip_by_global_norm(1),
optax.scale_by_adam(),
optax.additive_weight_decay(0),
optax.scale(-1),
optax.scale_by_schedule(util.gpt3_schedule(0, 1, 0, 0))
)
params["optimizer"] = opt
start = time.time()
print(f"jax devices: {jax.device_count()}")
print(f"jax runtime initialized in {time.time() - start:.06}s")
mesh_shape = (jax.device_count() // cores_per_replica, cores_per_replica)
devices = np.array(jax.devices()).reshape(mesh_shape)
with open(f"gs://{bucket}/{model_dir}/meta.json", "r") as f:
meta = json.load(f)
ckpt_step = meta["checkpoints"][-1]
print(f"using checkpoint {ckpt_step}")
total_batch = per_replica_batch * jax.device_count() // cores_per_replica * 8
with jax.experimental.maps.mesh(devices, ('dp', 'mp')):
network = CausalTransformer(params)
start = time.time()
network.state = read_ckpt(network.state, f"gs://{bucket}/{model_dir}/step_{ckpt_step}/", devices.shape[1])
print(f"network loaded in {time.time() - start:.06}s")
local_shards = max(jax.local_device_count() // mesh_shape[1], 1)
del network.state["opt_state"]
network.state = network.move_xmap(network.state, np.zeros(local_shards))
tokenizer = transformers.GPT2TokenizerFast.from_pretrained('gpt2')
while True:
all_ctx = []
all_top_p = []
all_temp = []
all_q = []
while len(all_ctx) < total_batch:
try:
o, q = requests_queue.get(block=False)
all_ctx.append(o["context"])
all_top_p.append(o["top_p"])
all_temp.append(o["temp"])
all_q.append(q)
except Empty:
if len(all_ctx):
break
else:
time.sleep(0.01)
start = time.time()
while len(all_ctx) < total_batch:
all_ctx.append("whatever")
all_top_p.append(1)
all_temp.append(1)
all_tokenized = []
all_length = []
for ctx in all_ctx:
padded_tokens = np.zeros(seq).astype(np.uint32)
length = 0
try:
tokens = tokenizer.encode(ctx)
provided_ctx = len(tokens)
pad_amount = seq - provided_ctx
pad_amount = max(pad_amount, 0)
padded_tokens = np.pad(tokens, ((pad_amount, 0),)).astype(np.uint32)[-seq:]
length = len(tokens)
except:
print("oops exception")
all_tokenized.append(padded_tokens)
all_length.append(length)
output = network.generate(np.array(all_tokenized),
np.array(all_length),
256,
{
"top_p": np.array(all_top_p),
"temp": np.array(all_temp)
})
for o, q in zip(output[1][0][:, :, 0], all_q):
q.put(tokenizer.decode(o))
print(f"completion done in {time.time() - start:06}s")