blakeblackshear.frigate/frigate/edgetpu.py

import datetime
import logging
import multiprocessing as mp
import os
import queue
import signal
import threading
from abc import ABC, abstractmethod
from typing import Dict

import numpy as np
import tflite_runtime.interpreter as tflite
from setproctitle import setproctitle
from tflite_runtime.interpreter import load_delegate

from frigate.util import EventsPerSecond, SharedMemoryFrameManager, listen

logger = logging.getLogger(__name__)


def load_labels(path, encoding="utf-8"):
    """Loads labels from file (with or without index numbers).
    Args:
      path: path to label file.
      encoding: label file encoding.
    Returns:
      Dictionary mapping indices to labels.
    """
    with open(path, "r", encoding=encoding) as f:
        lines = f.readlines()
        if not lines:
            return {}

        if lines[0].split(" ", maxsplit=1)[0].isdigit():
            pairs = [line.split(" ", maxsplit=1) for line in lines]
            return {int(index): label.strip() for index, label in pairs}
        else:
            return {index: line.strip() for index, line in enumerate(lines)}


class ObjectDetector(ABC):
    @abstractmethod
    def detect(self, tensor_input, threshold=0.4):
        pass


class LocalObjectDetector(ObjectDetector):
    def __init__(self, tf_device=None, num_threads=3, labels=None):
        self.fps = EventsPerSecond()
        if labels is None:
            self.labels = {}
        else:
            self.labels = load_labels(labels)

        device_config = {"device": "usb"}
        if not tf_device is None:
            device_config = {"device": tf_device}

        edge_tpu_delegate = None

        if tf_device != "cpu":
            try:
                logger.info(f"Attempting to load TPU as {device_config['device']}")
                edge_tpu_delegate = load_delegate("libedgetpu.so.1.0", device_config)
                logger.info("TPU found")
                self.interpreter = tflite.Interpreter(
                    model_path="/edgetpu_model.tflite",
                    experimental_delegates=[edge_tpu_delegate],
                )
            except ValueError:
                logger.info("No EdgeTPU detected.")
                raise
        else:
            self.interpreter = tflite.Interpreter(
                model_path="/cpu_model.tflite", num_threads=num_threads
            )

        self.interpreter.allocate_tensors()

        self.tensor_input_details = self.interpreter.get_input_details()
        self.tensor_output_details = self.interpreter.get_output_details()

    def detect(self, tensor_input, threshold=0.4):
        detections = []

        raw_detections = self.detect_raw(tensor_input)

        for d in raw_detections:
            if d[1] < threshold:
                break
            detections.append(
                (self.labels[int(d[0])], float(d[1]), (d[2], d[3], d[4], d[5]))
            )
        self.fps.update()
        return detections

    def detect_raw(self, tensor_input):
        self.interpreter.set_tensor(self.tensor_input_details[0]["index"], tensor_input)
        self.interpreter.invoke()
        boxes = np.squeeze(
            self.interpreter.get_tensor(self.tensor_output_details[0]["index"])
        )
        label_codes = np.squeeze(
            self.interpreter.get_tensor(self.tensor_output_details[1]["index"])
        )
        scores = np.squeeze(
            self.interpreter.get_tensor(self.tensor_output_details[2]["index"])
        )

        detections = np.zeros((20, 6), np.float32)
        for i, score in enumerate(scores):
            detections[i] = [
                label_codes[i],
                score,
                boxes[i][0],
                boxes[i][1],
                boxes[i][2],
                boxes[i][3],
            ]

        return detections


def run_detector(
    name: str,
    detection_queue: mp.Queue,
    out_events: Dict[str, mp.Event],
    avg_speed,
    start,
    model_shape,
    tf_device,
    num_threads,
):
    threading.current_thread().name = f"detector:{name}"
    logger = logging.getLogger(f"detector.{name}")
    logger.info(f"Starting detection process: {os.getpid()}")
    setproctitle(f"frigate.detector.{name}")
    listen()

    stop_event = mp.Event()

    def receiveSignal(signalNumber, frame):
        stop_event.set()

    signal.signal(signal.SIGTERM, receiveSignal)
    signal.signal(signal.SIGINT, receiveSignal)

    frame_manager = SharedMemoryFrameManager()
    object_detector = LocalObjectDetector(tf_device=tf_device, num_threads=num_threads)

    outputs = {}
    for name in out_events.keys():
        out_shm = mp.shared_memory.SharedMemory(name=f"out-{name}", create=False)
        out_np = np.ndarray((20, 6), dtype=np.float32, buffer=out_shm.buf)
        outputs[name] = {"shm": out_shm, "np": out_np}

    while not stop_event.is_set():
        try:
            connection_id = detection_queue.get(timeout=5)
        except queue.Empty:
            continue
        input_frame = frame_manager.get(
            connection_id, (1, model_shape[0], model_shape[1], 3)
        )

        if input_frame is None:
            continue

        # detect and send the output
        start.value = datetime.datetime.now().timestamp()
        detections = object_detector.detect_raw(input_frame)
        duration = datetime.datetime.now().timestamp() - start.value
        outputs[connection_id]["np"][:] = detections[:]
        out_events[connection_id].set()
        start.value = 0.0

        avg_speed.value = (avg_speed.value * 9 + duration) / 10


class EdgeTPUProcess:
    def __init__(
        self,
        name,
        detection_queue,
        out_events,
        model_shape,
        tf_device=None,
        num_threads=3,
    ):
        self.name = name
        self.out_events = out_events
        self.detection_queue = detection_queue
        self.avg_inference_speed = mp.Value("d", 0.01)
        self.detection_start = mp.Value("d", 0.0)
        self.detect_process = None
        self.model_shape = model_shape
        self.tf_device = tf_device
        self.num_threads = num_threads
        self.start_or_restart()

    def stop(self):
        self.detect_process.terminate()
        logging.info("Waiting for detection process to exit gracefully...")
        self.detect_process.join(timeout=30)
        if self.detect_process.exitcode is None:
            logging.info("Detection process didnt exit. Force killing...")
            self.detect_process.kill()
            self.detect_process.join()

    def start_or_restart(self):
        self.detection_start.value = 0.0
        if (not self.detect_process is None) and self.detect_process.is_alive():
            self.stop()
        self.detect_process = mp.Process(
            target=run_detector,
            name=f"detector:{self.name}",
            args=(
                self.name,
                self.detection_queue,
                self.out_events,
                self.avg_inference_speed,
                self.detection_start,
                self.model_shape,
                self.tf_device,
                self.num_threads,
            ),
        )
        self.detect_process.daemon = True
        self.detect_process.start()


class RemoteObjectDetector:
    def __init__(self, name, labels, detection_queue, event, model_shape):
        self.labels = load_labels(labels)
        self.name = name
        self.fps = EventsPerSecond()
        self.detection_queue = detection_queue
        self.event = event
        self.shm = mp.shared_memory.SharedMemory(name=self.name, create=False)
        self.np_shm = np.ndarray(
            (1, model_shape[0], model_shape[1], 3), dtype=np.uint8, buffer=self.shm.buf
        )
        self.out_shm = mp.shared_memory.SharedMemory(
            name=f"out-{self.name}", create=False
        )
        self.out_np_shm = np.ndarray((20, 6), dtype=np.float32, buffer=self.out_shm.buf)

    def detect(self, tensor_input, threshold=0.4):
        detections = []

        # copy input to shared memory
        self.np_shm[:] = tensor_input[:]
        self.event.clear()
        self.detection_queue.put(self.name)
        result = self.event.wait(timeout=10.0)

        # if it timed out
        if result is None:
            return detections

        for d in self.out_np_shm:
            if d[1] < threshold:
                break
            detections.append(
                (self.labels[int(d[0])], float(d[1]), (d[2], d[3], d[4], d[5]))
            )
        self.fps.update()
        return detections

    def cleanup(self):
        self.shm.unlink()
        self.out_shm.unlink()
split into separate processes 2020-02-16 04:07:54 +01:00			`import datetime`
naming threads and processes for logs 2020-11-04 13:28:07 +01:00			`import logging`
refactor some classes into new files 2020-02-09 14:39:24 +01:00			`import multiprocessing as mp`
naming threads and processes for logs 2020-11-04 13:28:07 +01:00			`import os`
upgrade to python3.8 and switch from plasma store to shared_memory 2020-09-22 04:02:00 +02:00			`import queue`
graceful exit of subprocesses 2020-11-29 23:19:59 +01:00			`import signal`
formatting cleanup 2021-02-17 14:23:32 +01:00			`import threading`
Refactor with a working false positive test 2020-08-22 14:05:20 +02:00			`from abc import ABC, abstractmethod`
upgrade to python3.8 and switch from plasma store to shared_memory 2020-09-22 04:02:00 +02:00			`from typing import Dict`
naming threads and processes for logs 2020-11-04 13:28:07 +01:00
refactor some classes into new files 2020-02-09 14:39:24 +01:00			`import numpy as np`
			`import tflite_runtime.interpreter as tflite`
formatting cleanup 2021-02-17 14:23:32 +01:00			`from setproctitle import setproctitle`
refactor some classes into new files 2020-02-09 14:39:24 +01:00			`from tflite_runtime.interpreter import load_delegate`
naming threads and processes for logs 2020-11-04 13:28:07 +01:00
			`from frigate.util import EventsPerSecond, SharedMemoryFrameManager, listen`
refactor some classes into new files 2020-02-09 14:39:24 +01:00
use a queue for logging 2020-11-04 04:26:39 +01:00			`logger = logging.getLogger(__name__)`

formatting cleanup 2021-02-17 14:23:32 +01:00
			`def load_labels(path, encoding="utf-8"):`
			`"""Loads labels from file (with or without index numbers).`
			`Args:`
			`path: path to label file.`
			`encoding: label file encoding.`
			`Returns:`
			`Dictionary mapping indices to labels.`
			`"""`
			`with open(path, "r", encoding=encoding) as f:`
			`lines = f.readlines()`
			`if not lines:`
			`return {}`

			`if lines[0].split(" ", maxsplit=1)[0].isdigit():`
			`pairs = [line.split(" ", maxsplit=1) for line in lines]`
			`return {int(index): label.strip() for index, label in pairs}`
			`else:`
			`return {index: line.strip() for index, line in enumerate(lines)}`

refactor some classes into new files 2020-02-09 14:39:24 +01:00
Refactor with a working false positive test 2020-08-22 14:05:20 +02:00			`class ObjectDetector(ABC):`
			`@abstractmethod`
formatting cleanup 2021-02-17 14:23:32 +01:00			`def detect(self, tensor_input, threshold=0.4):`
Refactor with a working false positive test 2020-08-22 14:05:20 +02:00			`pass`

formatting cleanup 2021-02-17 14:23:32 +01:00
Refactor with a working false positive test 2020-08-22 14:05:20 +02:00			`class LocalObjectDetector(ObjectDetector):`
add num_threads fixes #322 2020-12-19 17:04:13 +01:00			`def __init__(self, tf_device=None, num_threads=3, labels=None):`
allow setting the camera fps if needed 2020-09-13 14:46:38 +02:00			`self.fps = EventsPerSecond()`
Refactor with a working false positive test 2020-08-22 14:05:20 +02:00			`if labels is None:`
			`self.labels = {}`
			`else:`
			`self.labels = load_labels(labels)`

allow setting specific edgetpu in config 2020-09-07 19:49:47 +02:00			`device_config = {"device": "usb"}`
			`if not tf_device is None:`
			`device_config = {"device": tf_device}`

refactor some classes into new files 2020-02-09 14:39:24 +01:00			`edge_tpu_delegate = None`
support multiple coral devices (fixes #100) 2020-10-10 13:57:43 +02:00
formatting cleanup 2021-02-17 14:23:32 +01:00			`if tf_device != "cpu":`
Added support for PCIe TPU, as well as USB Also added message showing which found 2020-08-30 00:42:41 +02:00			`try:`
log level configuration 2020-12-04 13:59:03 +01:00			`logger.info(f"Attempting to load TPU as {device_config['device']}")`
formatting cleanup 2021-02-17 14:23:32 +01:00			`edge_tpu_delegate = load_delegate("libedgetpu.so.1.0", device_config)`
log level configuration 2020-12-04 13:59:03 +01:00			`logger.info("TPU found")`
don't fallback to the CPU fixes #381 2021-01-16 05:43:42 +01:00			`self.interpreter = tflite.Interpreter(`
formatting cleanup 2021-02-17 14:23:32 +01:00			`model_path="/edgetpu_model.tflite",`
			`experimental_delegates=[edge_tpu_delegate],`
			`)`
Added support for PCIe TPU, as well as USB Also added message showing which found 2020-08-30 00:42:41 +02:00			`except ValueError:`
don't fallback to the CPU fixes #381 2021-01-16 05:43:42 +01:00			`logger.info("No EdgeTPU detected.")`
			`raise`
refactor some classes into new files 2020-02-09 14:39:24 +01:00			`else:`
			`self.interpreter = tflite.Interpreter(`
formatting cleanup 2021-02-17 14:23:32 +01:00			`model_path="/cpu_model.tflite", num_threads=num_threads`
			`)`

refactor some classes into new files 2020-02-09 14:39:24 +01:00			`self.interpreter.allocate_tensors()`

			`self.tensor_input_details = self.interpreter.get_input_details()`
			`self.tensor_output_details = self.interpreter.get_output_details()`
formatting cleanup 2021-02-17 14:23:32 +01:00
			`def detect(self, tensor_input, threshold=0.4):`
Refactor with a working false positive test 2020-08-22 14:05:20 +02:00			`detections = []`

			`raw_detections = self.detect_raw(tensor_input)`

			`for d in raw_detections:`
			`if d[1] < threshold:`
			`break`
formatting cleanup 2021-02-17 14:23:32 +01:00			`detections.append(`
			`(self.labels[int(d[0])], float(d[1]), (d[2], d[3], d[4], d[5]))`
			`)`
allow setting the camera fps if needed 2020-09-13 14:46:38 +02:00			`self.fps.update()`
Refactor with a working false positive test 2020-08-22 14:05:20 +02:00			`return detections`

refactor some classes into new files 2020-02-09 14:39:24 +01:00			`def detect_raw(self, tensor_input):`
formatting cleanup 2021-02-17 14:23:32 +01:00			`self.interpreter.set_tensor(self.tensor_input_details[0]["index"], tensor_input)`
refactor some classes into new files 2020-02-09 14:39:24 +01:00			`self.interpreter.invoke()`
formatting cleanup 2021-02-17 14:23:32 +01:00			`boxes = np.squeeze(`
			`self.interpreter.get_tensor(self.tensor_output_details[0]["index"])`
			`)`
			`label_codes = np.squeeze(`
			`self.interpreter.get_tensor(self.tensor_output_details[1]["index"])`
			`)`
			`scores = np.squeeze(`
			`self.interpreter.get_tensor(self.tensor_output_details[2]["index"])`
			`)`
refactor some classes into new files 2020-02-09 14:39:24 +01:00
formatting cleanup 2021-02-17 14:23:32 +01:00			`detections = np.zeros((20, 6), np.float32)`
refactor some classes into new files 2020-02-09 14:39:24 +01:00			`for i, score in enumerate(scores):`
formatting cleanup 2021-02-17 14:23:32 +01:00			`detections[i] = [`
			`label_codes[i],`
			`score,`
			`boxes[i][0],`
			`boxes[i][1],`
			`boxes[i][2],`
			`boxes[i][3],`
			`]`

refactor some classes into new files 2020-02-09 14:39:24 +01:00			`return detections`

formatting cleanup 2021-02-17 14:23:32 +01:00
			`def run_detector(`
			`name: str,`
			`detection_queue: mp.Queue,`
			`out_events: Dict[str, mp.Event],`
			`avg_speed,`
			`start,`
			`model_shape,`
			`tf_device,`
			`num_threads,`
			`):`
naming threads and processes for logs 2020-11-04 13:28:07 +01:00			`threading.current_thread().name = f"detector:{name}"`
log level configuration 2020-12-04 13:59:03 +01:00			`logger = logging.getLogger(f"detector.{name}")`
			`logger.info(f"Starting detection process: {os.getpid()}")`
Set titles for forked processes 2021-01-03 20:41:02 +01:00			`setproctitle(f"frigate.detector.{name}")`
handle various scenarios with external process failures 2020-03-10 03:12:19 +01:00			`listen()`
graceful exit of subprocesses 2020-11-29 23:19:59 +01:00
			`stop_event = mp.Event()`
formatting cleanup 2021-02-17 14:23:32 +01:00
graceful exit of subprocesses 2020-11-29 23:19:59 +01:00			`def receiveSignal(signalNumber, frame):`
			`stop_event.set()`
formatting cleanup 2021-02-17 14:23:32 +01:00
graceful exit of subprocesses 2020-11-29 23:19:59 +01:00			`signal.signal(signal.SIGTERM, receiveSignal)`
			`signal.signal(signal.SIGINT, receiveSignal)`

upgrade to python3.8 and switch from plasma store to shared_memory 2020-09-22 04:02:00 +02:00			`frame_manager = SharedMemoryFrameManager()`
add num_threads fixes #322 2020-12-19 17:04:13 +01:00			`object_detector = LocalObjectDetector(tf_device=tf_device, num_threads=num_threads)`
refactor some classes into new files 2020-02-09 14:39:24 +01:00
update detection handoff to use shared memory 2020-09-24 13:58:23 +02:00			`outputs = {}`
			`for name in out_events.keys():`
			`out_shm = mp.shared_memory.SharedMemory(name=f"out-{name}", create=False)`
formatting cleanup 2021-02-17 14:23:32 +01:00			`out_np = np.ndarray((20, 6), dtype=np.float32, buffer=out_shm.buf)`
			`outputs[name] = {"shm": out_shm, "np": out_np}`

Wait on stop event when possible Generally eliminate the `while True` loops while waiting for a stop event and prefer to condition the loops on if the stop event is set, blocking on that where it makes sense. This generally comes in 3 flavors. First and simplest, when there is a sleep and the stop event is the only thing the loop blocks on, instead do a check using `stop_event.wait(timeout)` to instead block on the stop event for the designated amount of time. Second, when there is a different event that is blocking in the loop, condition the loop on `stop_event.is_set()` rather than breaking when it is set. Finally, when there is a separate internal condition that requires a counter, have the loop iterate over the counter and use `if stop_event.wait(timeout)` internal to the loop. 2021-05-21 17:39:14 +02:00			`while not stop_event.is_set():`
graceful exit of subprocesses 2020-11-29 23:19:59 +01:00			`try:`
			`connection_id = detection_queue.get(timeout=5)`
			`except queue.Empty:`
			`continue`
formatting cleanup 2021-02-17 14:23:32 +01:00			`input_frame = frame_manager.get(`
			`connection_id, (1, model_shape[0], model_shape[1], 3)`
			`)`
refactor some classes into new files 2020-02-09 14:39:24 +01:00
upgrade to python3.8 and switch from plasma store to shared_memory 2020-09-22 04:02:00 +02:00			`if input_frame is None:`
call the restart function and handle errors better in the detection process 2020-03-02 01:42:52 +01:00			`continue`
refactor some classes into new files 2020-02-09 14:39:24 +01:00
update detection handoff to use shared memory 2020-09-24 13:58:23 +02:00			`# detect and send the output`
call the restart function and handle errors better in the detection process 2020-03-02 01:42:52 +01:00			`start.value = datetime.datetime.now().timestamp()`
upgrade to python3.8 and switch from plasma store to shared_memory 2020-09-22 04:02:00 +02:00			`detections = object_detector.detect_raw(input_frame)`
formatting cleanup 2021-02-17 14:23:32 +01:00			`duration = datetime.datetime.now().timestamp() - start.value`
			`outputs[connection_id]["np"][:] = detections[:]`
update detection handoff to use shared memory 2020-09-24 13:58:23 +02:00			`out_events[connection_id].set()`
improve detection processing and restart when stuck 2020-03-01 14:16:49 +01:00			`start.value = 0.0`
call the restart function and handle errors better in the detection process 2020-03-02 01:42:52 +01:00
formatting cleanup 2021-02-17 14:23:32 +01:00			`avg_speed.value = (avg_speed.value * 9 + duration) / 10`


			`class EdgeTPUProcess:`
			`def __init__(`
			`self,`
			`name,`
			`detection_queue,`
			`out_events,`
			`model_shape,`
			`tf_device=None,`
			`num_threads=3,`
			`):`
naming threads and processes for logs 2020-11-04 13:28:07 +01:00			`self.name = name`
update detection handoff to use shared memory 2020-09-24 13:58:23 +02:00			`self.out_events = out_events`
support multiple coral devices (fixes #100) 2020-10-10 13:57:43 +02:00			`self.detection_queue = detection_queue`
formatting cleanup 2021-02-17 14:23:32 +01:00			`self.avg_inference_speed = mp.Value("d", 0.01)`
			`self.detection_start = mp.Value("d", 0.0)`
improve detection processing and restart when stuck 2020-03-01 14:16:49 +01:00			`self.detect_process = None`
allow defining model shape and switch to mobiledet as default model 2020-12-09 14:18:53 +01:00			`self.model_shape = model_shape`
allow setting specific edgetpu in config 2020-09-07 19:49:47 +02:00			`self.tf_device = tf_device`
add num_threads fixes #322 2020-12-19 17:04:13 +01:00			`self.num_threads = num_threads`
improve detection processing and restart when stuck 2020-03-01 14:16:49 +01:00			`self.start_or_restart()`
formatting cleanup 2021-02-17 14:23:32 +01:00
upgrade to python3.8 and switch from plasma store to shared_memory 2020-09-22 04:02:00 +02:00			`def stop(self):`
			`self.detect_process.terminate()`
use a queue for logging 2020-11-04 04:26:39 +01:00			`logging.info("Waiting for detection process to exit gracefully...")`
upgrade to python3.8 and switch from plasma store to shared_memory 2020-09-22 04:02:00 +02:00			`self.detect_process.join(timeout=30)`
			`if self.detect_process.exitcode is None:`
use a queue for logging 2020-11-04 04:26:39 +01:00			`logging.info("Detection process didnt exit. Force killing...")`
upgrade to python3.8 and switch from plasma store to shared_memory 2020-09-22 04:02:00 +02:00			`self.detect_process.kill()`
			`self.detect_process.join()`
refactor some classes into new files 2020-02-09 14:39:24 +01:00
improve detection processing and restart when stuck 2020-03-01 14:16:49 +01:00			`def start_or_restart(self):`
			`self.detection_start.value = 0.0`
			`if (not self.detect_process is None) and self.detect_process.is_alive():`
upgrade to python3.8 and switch from plasma store to shared_memory 2020-09-22 04:02:00 +02:00			`self.stop()`
formatting cleanup 2021-02-17 14:23:32 +01:00			`self.detect_process = mp.Process(`
			`target=run_detector,`
			`name=f"detector:{self.name}",`
			`args=(`
			`self.name,`
			`self.detection_queue,`
			`self.out_events,`
			`self.avg_inference_speed,`
			`self.detection_start,`
			`self.model_shape,`
			`self.tf_device,`
			`self.num_threads,`
			`),`
			`)`
refactor some classes into new files 2020-02-09 14:39:24 +01:00			`self.detect_process.daemon = True`
			`self.detect_process.start()`

formatting cleanup 2021-02-17 14:23:32 +01:00
			`class RemoteObjectDetector:`
allow defining model shape and switch to mobiledet as default model 2020-12-09 14:18:53 +01:00			`def __init__(self, name, labels, detection_queue, event, model_shape):`
refactor some classes into new files 2020-02-09 14:39:24 +01:00			`self.labels = load_labels(labels)`
improve detection processing and restart when stuck 2020-03-01 14:16:49 +01:00			`self.name = name`
improve watchdog and coral fps tracking 2020-02-22 03:44:53 +01:00			`self.fps = EventsPerSecond()`
improve detection processing and restart when stuck 2020-03-01 14:16:49 +01:00			`self.detection_queue = detection_queue`
update detection handoff to use shared memory 2020-09-24 13:58:23 +02:00			`self.event = event`
cleanup detection shms 2020-10-11 16:40:20 +02:00			`self.shm = mp.shared_memory.SharedMemory(name=self.name, create=False)`
formatting cleanup 2021-02-17 14:23:32 +01:00			`self.np_shm = np.ndarray(`
			`(1, model_shape[0], model_shape[1], 3), dtype=np.uint8, buffer=self.shm.buf`
			`)`
			`self.out_shm = mp.shared_memory.SharedMemory(`
			`name=f"out-{self.name}", create=False`
			`)`
			`self.out_np_shm = np.ndarray((20, 6), dtype=np.float32, buffer=self.out_shm.buf)`

			`def detect(self, tensor_input, threshold=0.4):`
refactor some classes into new files 2020-02-09 14:39:24 +01:00			`detections = []`
improve detection processing and restart when stuck 2020-03-01 14:16:49 +01:00
upgrade to python3.8 and switch from plasma store to shared_memory 2020-09-22 04:02:00 +02:00			`# copy input to shared memory`
			`self.np_shm[:] = tensor_input[:]`
update detection handoff to use shared memory 2020-09-24 13:58:23 +02:00			`self.event.clear()`
upgrade to python3.8 and switch from plasma store to shared_memory 2020-09-22 04:02:00 +02:00			`self.detection_queue.put(self.name)`
prevent the camera process from hanging 2020-10-12 04:28:58 +02:00			`result = self.event.wait(timeout=10.0)`

			`# if it timed out`
			`if result is None:`
			`return detections`
improve detection processing and restart when stuck 2020-03-01 14:16:49 +01:00
update detection handoff to use shared memory 2020-09-24 13:58:23 +02:00			`for d in self.out_np_shm:`
improve detection processing and restart when stuck 2020-03-01 14:16:49 +01:00			`if d[1] < threshold:`
			`break`
formatting cleanup 2021-02-17 14:23:32 +01:00			`detections.append(`
			`(self.labels[int(d[0])], float(d[1]), (d[2], d[3], d[4], d[5]))`
			`)`
improve watchdog and coral fps tracking 2020-02-22 03:44:53 +01:00			`self.fps.update()`
Added support for PCIe TPU, as well as USB Also added message showing which found 2020-08-30 00:42:41 +02:00			`return detections`
formatting cleanup 2021-02-17 14:23:32 +01:00
support multiple coral devices (fixes #100) 2020-10-10 13:57:43 +02:00			`def cleanup(self):`
			`self.shm.unlink()`
naming threads and processes for logs 2020-11-04 13:28:07 +01:00			`self.out_shm.unlink()`