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opendan/src/aios_kernel/compute_kernel.py
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from abc import ABC, abstractmethod
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import random
from typing import Optional
import logging
import asyncio
from asyncio import Queue
from .agent import AgentPrompt
from .compute_node import ComputeNode
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from .compute_task import ComputeTask, ComputeTaskState, ComputeTaskResult, ComputeTaskType
logger = logging.getLogger(__name__)
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# How to dispatch different computing tasks (some tasks may contain a large amount of state for correct execution)
# to suitable computing nodes, achieving a balance of speed, cost, and power consumption,
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# is the CORE GOAL of the entire computing task schedule system (aios_kernel).
class ComputeKernel:
_instance = None
@classmethod
def get_instance(cls):
if cls._instance is None:
cls._instance = ComputeKernel()
return cls._instance
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def __init__(self) -> None:
self.is_start = False
self.task_queue = Queue()
self.is_start = False
self.compute_nodes = {}
def run(self, task: ComputeTask) -> None:
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# check there is compute node can support this task
if self.is_task_support(task) is False:
logger.error(
f"task {task.display()} is not support by any compute node")
return
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# add task to working_queue
self.task_queue.put_nowait(task)
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async def start(self):
if self.is_start is True:
logger.warn("compute_kernel is already start")
return
self.is_start = True
async def _run_task_loop():
while True:
task = await self.task_queue.get()
logger.info(f"compute_kernel get task: {task.display()}")
c_node: ComputeNode = self._schedule(task)
await c_node.push_task(task)
logger.warn("compute_kernel is stoped!")
asyncio.create_task(_run_task_loop())
def _schedule(self, task) -> ComputeNode:
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# find all the node which supports this task
support_nodes = []
total_weights = 0
for node in self.compute_nodes.values():
if node.is_support(task) is True:
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support_nodes.append({
"pos": total_weights,
"node": node
})
total_weights += node.weight()
# hit a random node with weight
hit_pos = random.randint(0, total_weights - 1)
for i in range(min(len(support_nodes) - 1, hit_pos), -1, -1):
if support_nodes[i]["pos"] <= hit_pos:
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return support_nodes[i]["node"]
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logger.warning(
f"task {task.display()} is not support by any compute node")
return None
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def add_compute_node(self, node: ComputeNode):
if self.compute_nodes.get(node.node_id) is not None:
logger.warn(
f"compute_node {node.display()} already in compute_kernel")
return
self.compute_nodes[node.node_id] = node
logger.info(f"add compute_node {node.display()} to compute_kernel")
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def disable_compute_node(self, node_id: str):
node = self.compute_nodes.get(node_id)
if node is None:
logger.warn(f"compute_node {node_id} not in compute_kernel")
return
node.enable = False
def is_task_support(self, task: ComputeTask) -> bool:
return True
# friendly interface for use:
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def llm_completion(self, prompt: AgentPrompt, mode_name: Optional[str] = None, max_token: int = 0,inner_functions = None):
# craete a llm_work_task ,push on queue's end
# then task_schedule would run this task.(might schedule some work_task to another host)
task_req = ComputeTask()
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task_req.set_llm_params(prompt, mode_name, max_token,inner_functions)
self.run(task_req)
return task_req
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async def do_llm_completion(self, prompt: AgentPrompt, mode_name: Optional[str] = None, max_token: int = 0, inner_functions = None) -> str:
task_req = self.llm_completion(prompt, mode_name, max_token,inner_functions)
async def check_timer():
check_times = 0
while True:
if task_req.state == ComputeTaskState.DONE:
break
if task_req.state == ComputeTaskState.ERROR:
break
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if check_times >= 120:
task_req.state = ComputeTaskState.ERROR
break
await asyncio.sleep(0.5)
check_times += 1
await asyncio.create_task(check_timer())
if task_req.state == ComputeTaskState.DONE:
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return task_req.result
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raise Exception("error!")
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def text_embedding(self,input:str,model_name:Optional[str] = None):
task_req = ComputeTask()
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task_req.set_text_embedding_params(input,model_name)
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self.run(task_req)
return task_req
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async def do_text_embedding(self,input:str,model_name:Optional[str] = None) -> [float]:
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task_req = self.text_embedding(input,model_name)
async def check_timer():
check_times = 0
while True:
if task_req.state == ComputeTaskState.DONE:
break
if task_req.state == ComputeTaskState.ERROR:
break
if check_times >= 20:
task_req.state = ComputeTaskState.ERROR
break
await asyncio.sleep(0.5)
check_times += 1
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await asyncio.create_task(check_timer())
if task_req.state == ComputeTaskState.DONE:
return task_req.result.result
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return "error!"
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async def do_text_to_speech(self,
input:str,
language_code:Optional[str] = None,
gender: Optional[str] = None,
age: Optional[str] = None,
voice_name: Optional[str] = None,
tone: Optional[str] = None):
task_req = ComputeTask()
task_req.params["text"] = input
task_req.params["language_code"] = language_code
task_req.params["gender"] = gender
task_req.params["age"] = age
task_req.params["voice_name"] = voice_name
task_req.params["tone"] = tone
task_req.task_type = ComputeTaskType.TEXT_2_VOICE
self.run(task_req)
check_times = 0
while True:
if task_req.state == ComputeTaskState.DONE:
break
if task_req.state == ComputeTaskState.ERROR:
break
if check_times >= 60:
task_req.state = ComputeTaskState.ERROR
break
await asyncio.sleep(0.5)
check_times += 1
if task_req.state == ComputeTaskState.DONE:
return task_req.result.result
else:
raise Exception("do_text_to_speech failed!")
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def text_2_image(self, prompt:str, model_name:Optional[str] = None):
task = ComputeTask()
task.set_text_2_image_params(prompt,model_name)
self.run(task)
return task
async def do_text_2_image(self, prompt:str, model_name:Optional[str] = None) -> [str, ComputeTaskResult]:
task_req = self.text_2_image(prompt,model_name)
async def check_timer():
check_times = 0
while True:
if task_req.state == ComputeTaskState.DONE:
break
if task_req.state == ComputeTaskState.ERROR:
break
#may be it will take a long time to generate a image
if check_times >= 60:
task_req.state = ComputeTaskState.ERROR
break
await asyncio.sleep(0.5)
check_times += 1
await asyncio.create_task(check_timer())
if task_req.state == ComputeTaskState.DONE:
return None, task_req.result
return task_req.error_str, None