예제 #1
0
    def run(self, run_type, collection):
        logger.debug(run_type)
        logger.debug(collection)
        collection_name = collection["collection_name"] if "collection_name" in collection else None
        milvus_instance = MilvusClient(collection_name=collection_name, host=self.host, port=self.port)
        logger.info(milvus_instance.show_collections())
        env_value = milvus_instance.get_server_config()
        logger.debug(env_value)

        if run_type in ["insert_performance", "insert_flush_performance"]:
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            ni_per = collection["ni_per"]
            build_index = collection["build_index"]
            if milvus_instance.exists_collection():
                milvus_instance.drop()
                time.sleep(10)
            milvus_instance.create_collection(collection_name, dimension, index_file_size, metric_type)
            if build_index is True:
                index_type = collection["index_type"]
                index_param = collection["index_param"]
                milvus_instance.create_index(index_type, index_param)
                logger.debug(milvus_instance.describe_index())
            res = self.do_insert(milvus_instance, collection_name, data_type, dimension, collection_size, ni_per)
            milvus_instance.flush()
            logger.debug("Table row counts: %d" % milvus_instance.count())
            if build_index is True:
                logger.debug("Start build index for last file")
                milvus_instance.create_index(index_type, index_param)
                logger.debug(milvus_instance.describe_index())

        elif run_type == "delete_performance":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            ni_per = collection["ni_per"]
            if not milvus_instance.exists_collection():
                logger.error(milvus_instance.show_collections())
                logger.warning("Table: %s not found" % collection_name)
                return
            length = milvus_instance.count()
            ids = [i for i in range(length)] 
            loops = int(length / ni_per)
            for i in range(loops):
                delete_ids = ids[i*ni_per : i*ni_per+ni_per]
                logger.debug("Delete %d - %d" % (delete_ids[0], delete_ids[-1]))
                milvus_instance.delete(delete_ids)
                milvus_instance.flush()
                logger.debug("Table row counts: %d" % milvus_instance.count())
            logger.debug("Table row counts: %d" % milvus_instance.count())
            milvus_instance.flush()
            logger.debug("Table row counts: %d" % milvus_instance.count())

        elif run_type == "build_performance":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            index_type = collection["index_type"]
            index_param = collection["index_param"]
            if not milvus_instance.exists_collection():
                logger.error("Table name: %s not existed" % collection_name)
                return
            search_params = {}
            start_time = time.time()
            # drop index
            logger.debug("Drop index")
            milvus_instance.drop_index()
            start_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            milvus_instance.create_index(index_type, index_param)
            logger.debug(milvus_instance.describe_index())
            logger.debug("Table row counts: %d" % milvus_instance.count())
            end_time = time.time()
            end_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            logger.debug("Diff memory: %s, current memory usage: %s, build time: %s" % ((end_mem_usage - start_mem_usage), end_mem_usage, round(end_time - start_time, 1)))

        elif run_type == "search_performance":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            run_count = collection["run_count"]
            top_ks = collection["top_ks"]
            nqs = collection["nqs"]
            search_params = collection["search_params"]
            # for debugging
            # time.sleep(3600)
            if not milvus_instance.exists_collection():
                logger.error("Table name: %s not existed" % collection_name)
                return
            logger.info(milvus_instance.count())
            result = milvus_instance.describe_index()
            logger.info(result)
            milvus_instance.preload_collection()
            mem_usage = milvus_instance.get_mem_info()["memory_used"]
            logger.info(mem_usage)
            for search_param in search_params:
                logger.info("Search param: %s" % json.dumps(search_param))
                res = self.do_query(milvus_instance, collection_name, top_ks, nqs, run_count, search_param)
                headers = ["Nq/Top-k"]
                headers.extend([str(top_k) for top_k in top_ks])
                logger.info("Search param: %s" % json.dumps(search_param))
                utils.print_table(headers, nqs, res)
                mem_usage = milvus_instance.get_mem_info()["memory_used"]
                logger.info(mem_usage)

        elif run_type == "locust_search_performance":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            ### spawn locust requests
            collection_num = collection["collection_num"]
            task = collection["task"]
            #. generate task code
            task_file = utils.get_unique_name()
            task_file_script = task_file+'.py'
            task_file_csv = task_file+'_stats.csv'
            task_type = task["type"]
            connection_type = "single"
            connection_num = task["connection_num"]
            if connection_num > 1:
                connection_type = "multi"
            clients_num = task["clients_num"]
            hatch_rate = task["hatch_rate"]
            during_time = task["during_time"]
            def_name = task_type
            task_params = task["params"]
            collection_names = []
            for i in range(collection_num):
                suffix = "".join(random.choice(string.ascii_letters + string.digits) for _ in range(5))
                collection_names.append(collection_name + "_" + suffix)
            # collection_names = ['sift_1m_1024_128_l2_Kg6co', 'sift_1m_1024_128_l2_egkBK', 'sift_1m_1024_128_l2_D0wtE',
            #                     'sift_1m_1024_128_l2_9naps', 'sift_1m_1024_128_l2_iJ0jj', 'sift_1m_1024_128_l2_nqUTm',
            #                     'sift_1m_1024_128_l2_GIF0D', 'sift_1m_1024_128_l2_EL2qk', 'sift_1m_1024_128_l2_qLRnC',
            #                     'sift_1m_1024_128_l2_8Ditg']
            # #####
            ni_per = collection["ni_per"]
            build_index = collection["build_index"]
            for c_name in collection_names:
                milvus_instance = MilvusClient(collection_name=c_name, host=self.host, port=self.port)
                if milvus_instance.exists_collection(collection_name=c_name):
                    milvus_instance.drop(name=c_name)
                    time.sleep(10)
                milvus_instance.create_collection(c_name, dimension, index_file_size, metric_type)
                if build_index is True:
                    index_type = collection["index_type"]
                    index_param = collection["index_param"]
                    milvus_instance.create_index(index_type, index_param)
                    logger.debug(milvus_instance.describe_index())
                res = self.do_insert(milvus_instance, c_name, data_type, dimension, collection_size, ni_per)
                milvus_instance.flush()
                logger.debug("Table row counts: %d" % milvus_instance.count(name=c_name))
                if build_index is True:
                    logger.debug("Start build index for last file")
                    milvus_instance.create_index(index_type, index_param)
                    logger.debug(milvus_instance.describe_index())
            code_str = """
import random
import string
from locust import User, task, between
from locust_task import MilvusTask
from client import MilvusClient

host = '%s'
port = %s
dim = %s
connection_type = '%s'
collection_names = %s
m = MilvusClient(host=host, port=port)


def get_collection_name():
    return random.choice(collection_names)
    
    
def get_client(collection_name):
    if connection_type == 'single':
        return MilvusTask(m=m)
    elif connection_type == 'multi':
        return MilvusTask(connection_type='multi', host=host, port=port, collection_name=collection_name)
        

class QueryTask(User):
    wait_time = between(0.001, 0.002)
        
    @task()
    def %s(self):
        top_k = %s
        X = [[random.random() for i in range(dim)] for i in range(%s)]
        search_param = %s
        collection_name = get_collection_name()
        print(collection_name)
        client = get_client(collection_name)
        client.query(X, top_k, search_param, collection_name=collection_name)
            """ % (self.host, self.port, dimension, connection_type, collection_names, def_name, task_params["top_k"], task_params["nq"], task_params["search_param"])
            with open(task_file_script, 'w+') as fd:
                fd.write(code_str)
            locust_cmd = "locust -f %s --headless --csv=%s -u %d -r %d -t %s" % (
                    task_file_script,
                    task_file,
                    clients_num,
                    hatch_rate,
                    during_time)
            logger.info(locust_cmd)
            try:
                res = os.system(locust_cmd)
            except Exception as e:
                logger.error(str(e))
                return
            #. retrieve and collect test statistics
            metric = None
            with open(task_file_csv, newline='') as fd:
                dr = csv.DictReader(fd)
                for row in dr:
                    if row["Name"] != "Aggregated":
                        continue
                    metric = row
            logger.info(metric)
            # clean up temp files

        elif run_type == "search_ids_stability":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            search_params = collection["search_params"]
            during_time = collection["during_time"]
            ids_length = collection["ids_length"]
            ids = collection["ids"]
            logger.info(milvus_instance.count())
            index_info = milvus_instance.describe_index()
            logger.info(index_info)
            g_top_k = int(collection["top_ks"].split("-")[1])
            l_top_k = int(collection["top_ks"].split("-")[0])
            g_id = int(ids.split("-")[1])
            l_id = int(ids.split("-")[0])
            g_id_length = int(ids_length.split("-")[1])
            l_id_length = int(ids_length.split("-")[0])

            milvus_instance.preload_collection()
            start_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            logger.debug(start_mem_usage)
            start_time = time.time()
            while time.time() < start_time + during_time * 60:
                search_param = {}
                top_k = random.randint(l_top_k, g_top_k)
                ids_num = random.randint(l_id_length, g_id_length)
                l_ids = random.randint(l_id, g_id-ids_num)
                # ids_param = [random.randint(l_id_length, g_id_length) for _ in range(ids_num)]
                ids_param = [id for id in range(l_ids, l_ids+ids_num)]
                for k, v in search_params.items():
                    search_param[k] = random.randint(int(v.split("-")[0]), int(v.split("-")[1]))
                logger.debug("Query top-k: %d, ids_num: %d, param: %s" % (top_k, ids_num, json.dumps(search_param)))
                result = milvus_instance.query_ids(top_k, ids_param, search_param=search_param)
            end_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            metrics = {
                "during_time": during_time,
                "start_mem_usage": start_mem_usage,
                "end_mem_usage": end_mem_usage,
                "diff_mem": end_mem_usage - start_mem_usage,
            }
            logger.info(metrics)

        elif run_type == "search_performance_concurrents":
            data_type, dimension, metric_type = parser.parse_ann_collection_name(collection_name)
            hdf5_source_file = collection["source_file"]
            use_single_connection = collection["use_single_connection"]
            concurrents = collection["concurrents"]
            top_ks = collection["top_ks"]
            nqs = collection["nqs"]
            search_params = self.generate_combinations(collection["search_params"])
            if not milvus_instance.exists_collection():
                logger.error("Table name: %s not existed" % collection_name)
                return
            logger.info(milvus_instance.count())
            result = milvus_instance.describe_index()
            logger.info(result)
            milvus_instance.preload_collection()
            dataset = utils.get_dataset(hdf5_source_file)
            for concurrent_num in concurrents:
                top_k = top_ks[0] 
                for nq in nqs:
                    mem_usage = milvus_instance.get_mem_info()["memory_used"]
                    logger.info(mem_usage)
                    query_vectors = self.normalize(metric_type, np.array(dataset["test"][:nq]))
                    logger.debug(search_params)
                    for search_param in search_params:
                        logger.info("Search param: %s" % json.dumps(search_param))
                        total_time = 0.0
                        if use_single_connection is True:
                            connections = [MilvusClient(collection_name=collection_name, host=self.host, port=self.port)]
                            with concurrent.futures.ThreadPoolExecutor(max_workers=concurrent_num) as executor:
                                future_results = {executor.submit(
                                    self.do_query_qps, connections[0], query_vectors, top_k, search_param=search_param) : index for index in range(concurrent_num)}
                        else:
                            connections = [MilvusClient(collection_name=collection_name, host=self.hos, port=self.port) for i in range(concurrent_num)]
                            with concurrent.futures.ThreadPoolExecutor(max_workers=concurrent_num) as executor:
                                future_results = {executor.submit(
                                    self.do_query_qps, connections[index], query_vectors, top_k, search_param=search_param) : index for index in range(concurrent_num)}
                        for future in concurrent.futures.as_completed(future_results):
                            total_time = total_time + future.result()
                        qps_value = total_time / concurrent_num 
                        logger.debug("QPS value: %f, total_time: %f, request_nums: %f" % (qps_value, total_time, concurrent_num))
                    mem_usage = milvus_instance.get_mem_info()["memory_used"]
                    logger.info(mem_usage)

        elif run_type == "ann_accuracy":
            hdf5_source_file = collection["source_file"]
            collection_name = collection["collection_name"]
            index_file_sizes = collection["index_file_sizes"]
            index_types = collection["index_types"]
            index_params = collection["index_params"]
            top_ks = collection["top_ks"]
            nqs = collection["nqs"]
            search_params = collection["search_params"]
            # mapping to search param list
            search_params = self.generate_combinations(search_params)
            # mapping to index param list
            index_params = self.generate_combinations(index_params)

            data_type, dimension, metric_type = parser.parse_ann_collection_name(collection_name)
            dataset = utils.get_dataset(hdf5_source_file)
            if milvus_instance.exists_collection(collection_name):
                logger.info("Re-create collection: %s" % collection_name)
                milvus_instance.drop()
                time.sleep(DELETE_INTERVAL_TIME)
            true_ids = np.array(dataset["neighbors"])
            for index_file_size in index_file_sizes:
                milvus_instance.create_collection(collection_name, dimension, index_file_size, metric_type)
                logger.info(milvus_instance.describe())
                insert_vectors = self.normalize(metric_type, np.array(dataset["train"]))
                logger.debug(len(insert_vectors))
                # Insert batch once
                # milvus_instance.insert(insert_vectors)
                loops = len(insert_vectors) // INSERT_INTERVAL + 1
                for i in range(loops):
                    start = i*INSERT_INTERVAL
                    end = min((i+1)*INSERT_INTERVAL, len(insert_vectors))
                    tmp_vectors = insert_vectors[start:end]
                    if start < end:
                        if not isinstance(tmp_vectors, list):
                            milvus_instance.insert(tmp_vectors.tolist(), ids=[i for i in range(start, end)])
                        else:
                            milvus_instance.insert(tmp_vectors, ids=[i for i in range(start, end)])
                    milvus_instance.flush()
                logger.info("Table: %s, row count: %s" % (collection_name, milvus_instance.count()))
                if milvus_instance.count() != len(insert_vectors):
                    logger.error("Table row count is not equal to insert vectors")
                    return
                for index_type in index_types:
                    for index_param in index_params:
                        logger.debug("Building index with param: %s" % json.dumps(index_param))
                        milvus_instance.create_index(index_type, index_param=index_param)
                        logger.info(milvus_instance.describe_index())
                        logger.info("Start preload collection: %s" % collection_name)
                        milvus_instance.preload_collection()
                        for search_param in search_params:
                            for nq in nqs:
                                query_vectors = self.normalize(metric_type, np.array(dataset["test"][:nq]))
                                for top_k in top_ks:
                                    logger.debug("Search nq: %d, top-k: %d, search_param: %s" % (nq, top_k, json.dumps(search_param)))
                                    if not isinstance(query_vectors, list):
                                        result = milvus_instance.query(query_vectors.tolist(), top_k, search_param=search_param)
                                    else:
                                        result = milvus_instance.query(query_vectors, top_k, search_param=search_param)
                                    result_ids = result.id_array
                                    acc_value = self.get_recall_value(true_ids[:nq, :top_k].tolist(), result_ids)
                                    logger.info("Query ann_accuracy: %s" % acc_value)


        elif run_type == "stability":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            search_params = collection["search_params"]
            insert_xb = collection["insert_xb"]
            insert_interval = collection["insert_interval"]
            delete_xb = collection["delete_xb"]
            # flush_interval = collection["flush_interval"]
            # compact_interval = collection["compact_interval"]
            during_time = collection["during_time"]
            if not milvus_instance.exists_collection():
                logger.error(milvus_instance.show_collections())
                logger.error("Table name: %s not existed" % collection_name)
                return
            g_top_k = int(collection["top_ks"].split("-")[1])
            g_nq = int(collection["nqs"].split("-")[1])
            l_top_k = int(collection["top_ks"].split("-")[0])
            l_nq = int(collection["nqs"].split("-")[0])
            milvus_instance.preload_collection()
            start_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            start_row_count = milvus_instance.count()
            logger.debug(milvus_instance.describe_index())
            logger.info(start_row_count)
            start_time = time.time()
            i = 0
            ids = []
            insert_vectors = [[random.random() for _ in range(dimension)] for _ in range(insert_xb)]
            query_vectors = [[random.random() for _ in range(dimension)] for _ in range(10000)]
            while time.time() < start_time + during_time * 60:
                i = i + 1
                for _ in range(insert_interval):
                    top_k = random.randint(l_top_k, g_top_k)
                    nq = random.randint(l_nq, g_nq)
                    search_param = {}
                    for k, v in search_params.items():
                        search_param[k] = random.randint(int(v.split("-")[0]), int(v.split("-")[1]))
                    logger.debug("Query nq: %d, top-k: %d, param: %s" % (nq, top_k, json.dumps(search_param)))
                    result = milvus_instance.query(query_vectors[0:nq], top_k, search_param=search_param)
                count = milvus_instance.count()
                insert_ids = [(count+x) for x in range(len(insert_vectors))]
                ids.extend(insert_ids)
                _, res = milvus_instance.insert(insert_vectors, ids=insert_ids)
                logger.debug("%d, row_count: %d" % (i, milvus_instance.count()))
                milvus_instance.delete(ids[-delete_xb:])
                milvus_instance.flush()
                milvus_instance.compact()
            end_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            end_row_count = milvus_instance.count()
            metrics = {
                "during_time": during_time,
                "start_mem_usage": start_mem_usage,
                "end_mem_usage": end_mem_usage,
                "diff_mem": end_mem_usage - start_mem_usage,
                "row_count_increments": end_row_count - start_row_count
            }
            logger.info(metrics)

        elif run_type == "loop_stability":
            # init data
            milvus_instance.clean_db()
            pull_interval = collection["pull_interval"]
            pull_interval_seconds = pull_interval * 60
            collection_num = collection["collection_num"]
            dimension = collection["dimension"] if "dimension" in collection else 128
            insert_xb = collection["insert_xb"] if "insert_xb" in collection else 100000
            index_types = collection["index_types"] if "index_types" in collection else ['ivf_sq8']
            index_param = {"nlist": 2048}
            collection_names = []
            milvus_instances_map = {}
            insert_vectors = [[random.random() for _ in range(dimension)] for _ in range(insert_xb)]
            for i in range(collection_num):
                name = utils.get_unique_name(prefix="collection_")
                collection_names.append(name)
                metric_type = random.choice(["l2", "ip"])
                index_file_size = random.randint(10, 20)
                milvus_instance.create_collection(name, dimension, index_file_size, metric_type)
                milvus_instance = MilvusClient(collection_name=name, host=self.host)
                index_type = random.choice(index_types)
                milvus_instance.create_index(index_type, index_param=index_param)
                logger.info(milvus_instance.describe_index())
                insert_vectors = utils.normalize(metric_type, insert_vectors)
                milvus_instance.insert(insert_vectors)
                milvus_instance.flush()
                milvus_instances_map.update({name: milvus_instance})
                logger.info(milvus_instance.describe_index())
                logger.info(milvus_instance.describe())

            tasks = ["insert_rand", "delete_rand", "query_rand", "flush"]
            i = 1
            while True:
                logger.info("Loop time: %d" % i)
                start_time = time.time()
                while time.time() - start_time < pull_interval_seconds:
                    # choose collection
                    tmp_collection_name = random.choice(collection_names)
                    # choose task from task
                    task_name = random.choice(tasks)
                    logger.info(tmp_collection_name)
                    logger.info(task_name)
                    # execute task
                    task_run = getattr(milvus_instances_map[tmp_collection_name], task_name)
                    task_run()
                # new connection
                for name in collection_names:
                    milvus_instance = MilvusClient(collection_name=name, host=self.host)
                    milvus_instances_map.update({name: milvus_instance})
                i = i + 1
        elif run_type == "locust_mix_performance":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            # ni_per = collection["ni_per"]
            # build_index = collection["build_index"]
            # if milvus_instance.exists_collection():
            #     milvus_instance.drop()
            #     time.sleep(10)
            # milvus_instance.create_collection(collection_name, dimension, index_file_size, metric_type)
            # if build_index is True:
            #     index_type = collection["index_type"]
            #     index_param = collection["index_param"]
            #     milvus_instance.create_index(index_type, index_param)
            #     logger.debug(milvus_instance.describe_index())
            # res = self.do_insert(milvus_instance, collection_name, data_type, dimension, collection_size, ni_per)
            # milvus_instance.flush()
            # logger.debug("Table row counts: %d" % milvus_instance.count())
            # if build_index is True:
            #     logger.debug("Start build index for last file")
            #     milvus_instance.create_index(index_type, index_param)
            #     logger.debug(milvus_instance.describe_index())
            task = collection["tasks"]
            task_file = utils.get_unique_name()
            task_file_script = task_file + '.py'
            task_file_csv = task_file + '_stats.csv'
            task_types = task["types"]
            connection_type = "single"
            connection_num = task["connection_num"]
            if connection_num > 1:
                connection_type = "multi"
            clients_num = task["clients_num"]
            hatch_rate = task["hatch_rate"]
            during_time = task["during_time"]
            def_strs = ""
            for task_type in task_types:
                _type = task_type["type"]
                weight = task_type["weight"]
                if _type == "flush":
                    def_str = """
    @task(%d)
    def flush(self):
        client = get_client(collection_name)
        client.flush(collection_name=collection_name)
                    """ % weight
                if _type == "compact":
                    def_str = """
    @task(%d)
    def compact(self):
        client = get_client(collection_name)
        client.compact(collection_name)
                    """ % weight
                if _type == "query":
                    def_str = """
    @task(%d)
    def query(self):
        client = get_client(collection_name)
        params = %s
        X = [[random.random() for i in range(dim)] for i in range(params["nq"])]
        client.query(X, params["top_k"], params["search_param"], collection_name=collection_name)
                    """ % (weight, task_type["params"])
                if _type == "insert":
                    def_str = """
    @task(%d)
    def insert(self):
        client = get_client(collection_name)
        params = %s
        ids = [random.randint(10, 1000000) for i in range(params["nb"])]
        X = [[random.random() for i in range(dim)] for i in range(params["nb"])]
        client.insert(X,ids=ids, collection_name=collection_name)
                """ % (weight, task_type["params"])
                if _type == "delete":
                    def_str = """
    @task(%d)
    def delete(self):
        client = get_client(collection_name)
        ids = [random.randint(1, 1000000) for i in range(1)]
        client.delete(ids, collection_name)
                    """ % weight
                def_strs += def_str
                print(def_strs)
                code_str = """
import random
import json
from locust import User, task, between
from locust_task import MilvusTask
from client import MilvusClient

host = '%s'
port = %s
collection_name = '%s'
dim = %s
connection_type = '%s'
m = MilvusClient(host=host, port=port)


def get_client(collection_name):
    if connection_type == 'single':
        return MilvusTask(m=m)
    elif connection_type == 'multi':
        return MilvusTask(connection_type='multi', host=host, port=port, collection_name=collection_name)
        
        
class MixTask(User):
    wait_time = between(0.001, 0.002)
    %s
    """ % (self.host, self.port, collection_name, dimension, connection_type, def_strs)
            with open(task_file_script, "w+") as fd:
                fd.write(code_str)
            locust_cmd = "locust -f %s --headless --csv=%s -u %d -r %d -t %s" % (
                task_file_script,
                task_file,
                clients_num,
                hatch_rate,
                during_time)
            logger.info(locust_cmd)
            try:
                res = os.system(locust_cmd)
            except Exception as e:
                logger.error(str(e))
                return

            # . retrieve and collect test statistics
            metric = None
            with open(task_file_csv, newline='') as fd:
                dr = csv.DictReader(fd)
                for row in dr:
                    if row["Name"] != "Aggregated":
                        continue
                    metric = row
            logger.info(metric)

        else:
            logger.warning("Run type not defined")
            return
        logger.debug("Test finished")
예제 #2
0
    def run(self, run_type, collection):
        logger.debug(run_type)
        logger.debug(collection)
        collection_name = collection["collection_name"]
        milvus_instance = MilvusClient(collection_name=collection_name,
                                       ip=self.ip,
                                       port=self.port)
        logger.info(milvus_instance.show_collections())
        env_value = milvus_instance.get_server_config()
        logger.debug(env_value)

        if run_type in ["insert_performance", "insert_flush_performance"]:
            (data_type, collection_size, index_file_size, dimension,
             metric_type) = parser.collection_parser(collection_name)
            ni_per = collection["ni_per"]
            build_index = collection["build_index"]
            if milvus_instance.exists_collection():
                milvus_instance.delete()
                time.sleep(10)
            milvus_instance.create_collection(collection_name, dimension,
                                              index_file_size, metric_type)
            if build_index is True:
                index_type = collection["index_type"]
                index_param = collection["index_param"]
                milvus_instance.create_index(index_type, index_param)
                logger.debug(milvus_instance.describe_index())
            res = self.do_insert(milvus_instance, collection_name, data_type,
                                 dimension, collection_size, ni_per)
            milvus_instance.flush()
            logger.debug("Table row counts: %d" % milvus_instance.count())
            if build_index is True:
                logger.debug("Start build index for last file")
                milvus_instance.create_index(index_type, index_param)
                logger.debug(milvus_instance.describe_index())

        elif run_type == "delete_performance":
            (data_type, collection_size, index_file_size, dimension,
             metric_type) = parser.collection_parser(collection_name)
            ni_per = collection["ni_per"]
            if not milvus_instance.exists_collection():
                logger.error(milvus_instance.show_collections())
                logger.warning("Table: %s not found" % collection_name)
                return
            length = milvus_instance.count()
            ids = [i for i in range(length)]
            loops = int(length / ni_per)
            for i in range(loops):
                delete_ids = ids[i * ni_per:i * ni_per + ni_per]
                logger.debug("Delete %d - %d" %
                             (delete_ids[0], delete_ids[-1]))
                milvus_instance.delete_vectors(delete_ids)
                milvus_instance.flush()
                logger.debug("Table row counts: %d" % milvus_instance.count())
            logger.debug("Table row counts: %d" % milvus_instance.count())
            milvus_instance.flush()
            logger.debug("Table row counts: %d" % milvus_instance.count())

        elif run_type == "build_performance":
            (data_type, collection_size, index_file_size, dimension,
             metric_type) = parser.collection_parser(collection_name)
            index_type = collection["index_type"]
            index_param = collection["index_param"]
            if not milvus_instance.exists_collection():
                logger.error("Table name: %s not existed" % collection_name)
                return
            search_params = {}
            start_time = time.time()
            # drop index
            logger.debug("Drop index")
            milvus_instance.drop_index()
            start_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            milvus_instance.create_index(index_type, index_param)
            logger.debug(milvus_instance.describe_index())
            logger.debug("Table row counts: %d" % milvus_instance.count())
            end_time = time.time()
            end_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            logger.debug(
                "Diff memory: %s, current memory usage: %s, build time: %s" %
                ((end_mem_usage - start_mem_usage), end_mem_usage,
                 round(end_time - start_time, 1)))

        elif run_type == "search_performance":
            (data_type, collection_size, index_file_size, dimension,
             metric_type) = parser.collection_parser(collection_name)
            run_count = collection["run_count"]
            top_ks = collection["top_ks"]
            nqs = collection["nqs"]
            search_params = collection["search_params"]
            # for debugging
            # time.sleep(3600)
            if not milvus_instance.exists_collection():
                logger.error("Table name: %s not existed" % collection_name)
                return
            logger.info(milvus_instance.count())
            result = milvus_instance.describe_index()
            logger.info(result)
            milvus_instance.preload_collection()
            mem_usage = milvus_instance.get_mem_info()["memory_used"]
            logger.info(mem_usage)
            for search_param in search_params:
                logger.info("Search param: %s" % json.dumps(search_param))
                res = self.do_query(milvus_instance, collection_name, top_ks,
                                    nqs, run_count, search_param)
                headers = ["Nq/Top-k"]
                headers.extend([str(top_k) for top_k in top_ks])
                logger.info("Search param: %s" % json.dumps(search_param))
                utils.print_table(headers, nqs, res)
                mem_usage = milvus_instance.get_mem_info()["memory_used"]
                logger.info(mem_usage)

        elif run_type == "search_ids_stability":
            (data_type, collection_size, index_file_size, dimension,
             metric_type) = parser.collection_parser(collection_name)
            search_params = collection["search_params"]
            during_time = collection["during_time"]
            ids_length = collection["ids_length"]
            ids = collection["ids"]
            logger.info(milvus_instance.count())
            index_info = milvus_instance.describe_index()
            logger.info(index_info)
            g_top_k = int(collection["top_ks"].split("-")[1])
            l_top_k = int(collection["top_ks"].split("-")[0])
            g_id = int(ids.split("-")[1])
            l_id = int(ids.split("-")[0])
            g_id_length = int(ids_length.split("-")[1])
            l_id_length = int(ids_length.split("-")[0])

            milvus_instance.preload_collection()
            start_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            logger.debug(start_mem_usage)
            start_time = time.time()
            while time.time() < start_time + during_time * 60:
                search_param = {}
                top_k = random.randint(l_top_k, g_top_k)
                ids_num = random.randint(l_id_length, g_id_length)
                l_ids = random.randint(l_id, g_id - ids_num)
                # ids_param = [random.randint(l_id_length, g_id_length) for _ in range(ids_num)]
                ids_param = [id for id in range(l_ids, l_ids + ids_num)]
                for k, v in search_params.items():
                    search_param[k] = random.randint(int(v.split("-")[0]),
                                                     int(v.split("-")[1]))
                logger.debug("Query top-k: %d, ids_num: %d, param: %s" %
                             (top_k, ids_num, json.dumps(search_param)))
                result = milvus_instance.query_ids(top_k,
                                                   ids_param,
                                                   search_param=search_param)
            end_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            metrics = {
                "during_time": during_time,
                "start_mem_usage": start_mem_usage,
                "end_mem_usage": end_mem_usage,
                "diff_mem": end_mem_usage - start_mem_usage,
            }
            logger.info(metrics)

        elif run_type == "search_performance_concurrents":
            data_type, dimension, metric_type = parser.parse_ann_collection_name(
                collection_name)
            hdf5_source_file = collection["source_file"]
            use_single_connection = collection["use_single_connection"]
            concurrents = collection["concurrents"]
            top_ks = collection["top_ks"]
            nqs = collection["nqs"]
            search_params = self.generate_combinations(
                collection["search_params"])
            if not milvus_instance.exists_collection():
                logger.error("Table name: %s not existed" % collection_name)
                return
            logger.info(milvus_instance.count())
            result = milvus_instance.describe_index()
            logger.info(result)
            milvus_instance.preload_collection()
            dataset = utils.get_dataset(hdf5_source_file)
            for concurrent_num in concurrents:
                top_k = top_ks[0]
                for nq in nqs:
                    mem_usage = milvus_instance.get_mem_info()["memory_used"]
                    logger.info(mem_usage)
                    query_vectors = self.normalize(
                        metric_type, np.array(dataset["test"][:nq]))
                    logger.debug(search_params)
                    for search_param in search_params:
                        logger.info("Search param: %s" %
                                    json.dumps(search_param))
                        total_time = 0.0
                        if use_single_connection is True:
                            connections = [
                                MilvusClient(collection_name=collection_name,
                                             ip=self.ip,
                                             port=self.port)
                            ]
                            with concurrent.futures.ThreadPoolExecutor(
                                    max_workers=concurrent_num) as executor:
                                future_results = {
                                    executor.submit(self.do_query_qps,
                                                    connections[0],
                                                    query_vectors,
                                                    top_k,
                                                    search_param=search_param):
                                    index
                                    for index in range(concurrent_num)
                                }
                        else:
                            connections = [
                                MilvusClient(collection_name=collection_name,
                                             ip=self.ip,
                                             port=self.port)
                                for i in range(concurrent_num)
                            ]
                            with concurrent.futures.ThreadPoolExecutor(
                                    max_workers=concurrent_num) as executor:
                                future_results = {
                                    executor.submit(self.do_query_qps,
                                                    connections[index],
                                                    query_vectors,
                                                    top_k,
                                                    search_param=search_param):
                                    index
                                    for index in range(concurrent_num)
                                }
                        for future in concurrent.futures.as_completed(
                                future_results):
                            total_time = total_time + future.result()
                        qps_value = total_time / concurrent_num
                        logger.debug(
                            "QPS value: %f, total_time: %f, request_nums: %f" %
                            (qps_value, total_time, concurrent_num))
                    mem_usage = milvus_instance.get_mem_info()["memory_used"]
                    logger.info(mem_usage)

        elif run_type == "ann_accuracy":
            hdf5_source_file = collection["source_file"]
            collection_name = collection["collection_name"]
            index_file_sizes = collection["index_file_sizes"]
            index_types = collection["index_types"]
            index_params = collection["index_params"]
            top_ks = collection["top_ks"]
            nqs = collection["nqs"]
            search_params = collection["search_params"]
            # mapping to search param list
            search_params = self.generate_combinations(search_params)
            # mapping to index param list
            index_params = self.generate_combinations(index_params)

            data_type, dimension, metric_type = parser.parse_ann_collection_name(
                collection_name)
            dataset = utils.get_dataset(hdf5_source_file)
            if milvus_instance.exists_collection(collection_name):
                logger.info("Re-create collection: %s" % collection_name)
                milvus_instance.delete()
                time.sleep(DELETE_INTERVAL_TIME)
            true_ids = np.array(dataset["neighbors"])
            for index_file_size in index_file_sizes:
                milvus_instance.create_collection(collection_name, dimension,
                                                  index_file_size, metric_type)
                logger.info(milvus_instance.describe())
                insert_vectors = self.normalize(metric_type,
                                                np.array(dataset["train"]))
                logger.debug(len(insert_vectors))
                # Insert batch once
                # milvus_instance.insert(insert_vectors)
                loops = len(insert_vectors) // INSERT_INTERVAL + 1
                for i in range(loops):
                    start = i * INSERT_INTERVAL
                    end = min((i + 1) * INSERT_INTERVAL, len(insert_vectors))
                    tmp_vectors = insert_vectors[start:end]
                    if start < end:
                        if not isinstance(tmp_vectors, list):
                            milvus_instance.insert(
                                tmp_vectors.tolist(),
                                ids=[i for i in range(start, end)])
                        else:
                            milvus_instance.insert(
                                tmp_vectors,
                                ids=[i for i in range(start, end)])
                    milvus_instance.flush()
                logger.info("Table: %s, row count: %s" %
                            (collection_name, milvus_instance.count()))
                if milvus_instance.count() != len(insert_vectors):
                    logger.error(
                        "Table row count is not equal to insert vectors")
                    return
                for index_type in index_types:
                    for index_param in index_params:
                        logger.debug("Building index with param: %s" %
                                     json.dumps(index_param))
                        milvus_instance.create_index(index_type,
                                                     index_param=index_param)
                        logger.info(milvus_instance.describe_index())
                        logger.info("Start preload collection: %s" %
                                    collection_name)
                        milvus_instance.preload_collection()
                        for search_param in search_params:
                            for nq in nqs:
                                query_vectors = self.normalize(
                                    metric_type,
                                    np.array(dataset["test"][:nq]))
                                for top_k in top_ks:
                                    logger.debug(
                                        "Search nq: %d, top-k: %d, search_param: %s"
                                        %
                                        (nq, top_k, json.dumps(search_param)))
                                    if not isinstance(query_vectors, list):
                                        result = milvus_instance.query(
                                            query_vectors.tolist(),
                                            top_k,
                                            search_param=search_param)
                                    else:
                                        result = milvus_instance.query(
                                            query_vectors,
                                            top_k,
                                            search_param=search_param)
                                    result_ids = result.id_array
                                    acc_value = self.get_recall_value(
                                        true_ids[:nq, :top_k].tolist(),
                                        result_ids)
                                    logger.info("Query ann_accuracy: %s" %
                                                acc_value)

        elif run_type == "stability":
            (data_type, collection_size, index_file_size, dimension,
             metric_type) = parser.collection_parser(collection_name)
            search_params = collection["search_params"]
            insert_xb = collection["insert_xb"]
            insert_interval = collection["insert_interval"]
            delete_xb = collection["delete_xb"]
            # flush_interval = collection["flush_interval"]
            # compact_interval = collection["compact_interval"]
            during_time = collection["during_time"]
            if not milvus_instance.exists_collection():
                logger.error(milvus_instance.show_collections())
                logger.error("Table name: %s not existed" % collection_name)
                return
            g_top_k = int(collection["top_ks"].split("-")[1])
            g_nq = int(collection["nqs"].split("-")[1])
            l_top_k = int(collection["top_ks"].split("-")[0])
            l_nq = int(collection["nqs"].split("-")[0])
            milvus_instance.preload_collection()
            start_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            start_row_count = milvus_instance.count()
            logger.debug(milvus_instance.describe_index())
            logger.info(start_row_count)
            start_time = time.time()
            i = 0
            ids = []
            insert_vectors = [[random.random() for _ in range(dimension)]
                              for _ in range(insert_xb)]
            query_vectors = [[random.random() for _ in range(dimension)]
                             for _ in range(10000)]
            while time.time() < start_time + during_time * 60:
                i = i + 1
                for j in range(insert_interval):
                    top_k = random.randint(l_top_k, g_top_k)
                    nq = random.randint(l_nq, g_nq)
                    search_param = {}
                    for k, v in search_params.items():
                        search_param[k] = random.randint(
                            int(v.split("-")[0]), int(v.split("-")[1]))
                    logger.debug("Query nq: %d, top-k: %d, param: %s" %
                                 (nq, top_k, json.dumps(search_param)))
                    result = milvus_instance.query(query_vectors[0:nq],
                                                   top_k,
                                                   search_param=search_param)
                count = milvus_instance.count()
                insert_ids = [(count + x) for x in range(len(insert_vectors))]
                ids.extend(insert_ids)
                status, res = milvus_instance.insert(insert_vectors,
                                                     ids=insert_ids)
                logger.debug("%d, row_count: %d" %
                             (i, milvus_instance.count()))
                milvus_instance.delete_vectors(ids[-delete_xb:])
                milvus_instance.flush()
                milvus_instance.compact()
            end_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            end_row_count = milvus_instance.count()
            metrics = {
                "during_time": during_time,
                "start_mem_usage": start_mem_usage,
                "end_mem_usage": end_mem_usage,
                "diff_mem": end_mem_usage - start_mem_usage,
                "row_count_increments": end_row_count - start_row_count
            }
            logger.info(metrics)

        else:
            logger.warning("Run type not defined")
            return
        logger.debug("Test finished")
예제 #3
0
    def run(self, run_type, collection):
        logger.debug(run_type)
        logger.debug(collection)
        collection_name = collection["collection_name"]
        milvus_instance = MilvusClient(collection_name=collection_name, ip=self.ip)
        self.env_value = milvus_instance.get_server_config()

        # ugly implemention
        self.env_value.pop("logs")

        if run_type == "insert_performance":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            ni_per = collection["ni_per"]
            build_index = collection["build_index"]
            if milvus_instance.exists_collection():
                milvus_instance.delete()
                time.sleep(10)
            index_info = {}
            search_params = {}
            milvus_instance.create_collection(collection_name, dimension, index_file_size, metric_type)
            if build_index is True:
                index_type = collection["index_type"]
                index_param = collection["index_param"]
                index_info = {
                    "index_type": index_type,
                    "index_param": index_param
                }
                milvus_instance.create_index(index_type, index_param)
                logger.debug(milvus_instance.describe_index())
            res = self.do_insert(milvus_instance, collection_name, data_type, dimension, collection_size, ni_per)
            logger.info(res)
            milvus_instance.flush()
            collection_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": collection_name
            }
            metric = self.report_wrapper(milvus_instance, self.env_value, self.hostname, collection_info, index_info, search_params)
            metric.metrics = {
                "type": run_type,
                "value": {
                    "total_time": res["total_time"],
                    "qps": res["qps"],
                    "ni_time": res["ni_time"]
                } 
            }
            report(metric)
            if build_index is True:
                logger.debug("Start build index for last file")
                milvus_instance.create_index(index_type, index_param)
                logger.debug(milvus_instance.describe_index())

        if run_type == "insert_flush_performance":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            ni_per = collection["ni_per"]
            if milvus_instance.exists_collection():
                milvus_instance.delete()
                time.sleep(10)
            index_info = {}
            search_params = {}
            milvus_instance.create_collection(collection_name, dimension, index_file_size, metric_type)
            res = self.do_insert(milvus_instance, collection_name, data_type, dimension, collection_size, ni_per)
            logger.info(res)
            logger.debug(milvus_instance.count())
            start_time = time.time()
            milvus_instance.flush()
            end_time = time.time()
            logger.debug(milvus_instance.count())
            collection_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": collection_name
            }
            metric = self.report_wrapper(milvus_instance, self.env_value, self.hostname, collection_info, index_info, search_params)
            metric.metrics = {
                "type": run_type,
                "value": {
                    "flush_time": round(end_time - start_time, 1)
                }
            }
            report(metric)

        elif run_type == "build_performance":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            index_type = collection["index_type"]
            index_param = collection["index_param"]
            collection_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": collection_name
            }
            index_info = {
                "index_type": index_type,
                "index_param": index_param
            }
            if not milvus_instance.exists_collection():
                logger.error("Table name: %s not existed" % collection_name)
                return
            search_params = {}
            start_time = time.time()
            # drop index
            logger.debug("Drop index")
            milvus_instance.drop_index()
            start_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            milvus_instance.create_index(index_type, index_param)
            logger.debug(milvus_instance.describe_index())
            logger.debug(milvus_instance.count())
            end_time = time.time()
            end_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            metric = self.report_wrapper(milvus_instance, self.env_value, self.hostname, collection_info, index_info, search_params)
            metric.metrics = {
                "type": "build_performance",
                "value": {
                    "build_time": round(end_time - start_time, 1),
                    "start_mem_usage": start_mem_usage,
                    "end_mem_usage": end_mem_usage,
                    "diff_mem": end_mem_usage - start_mem_usage
                } 
            }
            report(metric)

        elif run_type == "delete_performance":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            ni_per = collection["ni_per"]
            search_params = {}
            collection_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": collection_name
            }
            if not milvus_instance.exists_collection():
                logger.error("Table name: %s not existed" % collection_name)
                return
            length = milvus_instance.count()
            logger.info(length)
            index_info = milvus_instance.describe_index()
            logger.info(index_info)
            ids = [i for i in range(length)]
            loops = int(length / ni_per)
            milvus_instance.preload_collection()
            start_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            start_time = time.time()
            for i in range(loops):
                delete_ids = ids[i*ni_per : i*ni_per+ni_per]
                logger.debug("Delete %d - %d" % (delete_ids[0], delete_ids[-1]))
                milvus_instance.delete_vectors(delete_ids)
                milvus_instance.flush()
                logger.debug("Table row counts: %d" % milvus_instance.count())
            logger.debug("Table row counts: %d" % milvus_instance.count())
            milvus_instance.flush()
            end_time = time.time()
            end_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            logger.debug("Table row counts: %d" % milvus_instance.count())
            metric = self.report_wrapper(milvus_instance, self.env_value, self.hostname, collection_info, index_info, search_params)
            metric.metrics = {
                "type": "delete_performance",
                "value": {
                    "delete_time": round(end_time - start_time, 1),
                    "start_mem_usage": start_mem_usage,
                    "end_mem_usage": end_mem_usage,
                    "diff_mem": end_mem_usage - start_mem_usage
                }
            }
            report(metric)

        elif run_type == "search_performance":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            run_count = collection["run_count"]
            top_ks = collection["top_ks"]
            nqs = collection["nqs"]
            search_params = collection["search_params"]
            collection_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": collection_name
            }
            # fro debugging
            # time.sleep(3600)
            if not milvus_instance.exists_collection():
                logger.error("Table name: %s not existed" % collection_name)
                return

            logger.info(milvus_instance.count())
            index_info = milvus_instance.describe_index()
            logger.info(index_info)
            milvus_instance.preload_collection()
            logger.info("Start warm up query")
            res = self.do_query(milvus_instance, collection_name, [1], [1], 2, search_param=search_params[0])
            logger.info("End warm up query")
            for search_param in search_params:
                logger.info("Search param: %s" % json.dumps(search_param))
                res = self.do_query(milvus_instance, collection_name, top_ks, nqs, run_count, search_param)
                headers = ["Nq/Top-k"]
                headers.extend([str(top_k) for top_k in top_ks])
                logger.info("Search param: %s" % json.dumps(search_param))
                utils.print_table(headers, nqs, res)
                for index_nq, nq in enumerate(nqs):
                    for index_top_k, top_k in enumerate(top_ks):
                        search_param_group = {
                            "nq": nq,
                            "topk": top_k,
                            "search_param": search_param
                        }
                        search_time = res[index_nq][index_top_k]
                        metric = self.report_wrapper(milvus_instance, self.env_value, self.hostname, collection_info, index_info, search_param_group)
                        metric.metrics = {
                            "type": "search_performance",
                            "value": {
                                "search_time": search_time
                            } 
                        }
                        report(metric)

        elif run_type == "search_ids_stability":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            search_params = collection["search_params"]
            during_time = collection["during_time"]
            ids_length = collection["ids_length"]
            ids = collection["ids"]
            collection_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": collection_name
            }
            if not milvus_instance.exists_collection():
                logger.error("Table name: %s not existed" % collection_name)
                return
            logger.info(milvus_instance.count())
            index_info = milvus_instance.describe_index()
            logger.info(index_info)
            g_top_k = int(collection["top_ks"].split("-")[1])
            l_top_k = int(collection["top_ks"].split("-")[0])
            g_id = int(ids.split("-")[1])
            l_id = int(ids.split("-")[0])
            g_id_length = int(ids_length.split("-")[1])
            l_id_length = int(ids_length.split("-")[0])

            milvus_instance.preload_collection()
            start_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            logger.debug(start_mem_usage)
            start_time = time.time()
            while time.time() < start_time + during_time * 60:
                search_param = {}
                top_k = random.randint(l_top_k, g_top_k)
                ids_num = random.randint(l_id_length, g_id_length)
                ids_param = [random.randint(l_id_length, g_id_length) for _ in range(ids_num)]
                for k, v in search_params.items():
                    search_param[k] = random.randint(int(v.split("-")[0]), int(v.split("-")[1]))
                logger.debug("Query top-k: %d, ids_num: %d, param: %s" % (top_k, ids_num, json.dumps(search_param)))
                result = milvus_instance.query_ids(top_k, ids_param, search_param=search_param)
            end_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            metric = self.report_wrapper(milvus_instance, self.env_value, self.hostname, collection_info, index_info, {})
            metric.metrics = {
                "type": "search_ids_stability",
                "value": {
                    "during_time": during_time,
                    "start_mem_usage": start_mem_usage,
                    "end_mem_usage": end_mem_usage,
                    "diff_mem": end_mem_usage - start_mem_usage
                }
            }
            report(metric)

        # for sift/deep datasets
        # TODO: enable
        elif run_type == "accuracy":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            search_params = collection["search_params"]
            # mapping to search param list
            search_params = self.generate_combinations(search_params)

            top_ks = collection["top_ks"]
            nqs = collection["nqs"]
            collection_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": collection_name
            }
            if not milvus_instance.exists_collection():
                logger.error("Table name: %s not existed" % collection_name)
                return
            logger.info(milvus_instance.count())
            index_info = milvus_instance.describe_index()
            logger.info(index_info)
            milvus_instance.preload_collection()
            true_ids_all = self.get_groundtruth_ids(collection_size)
            for search_param in search_params:
                for top_k in top_ks:
                    for nq in nqs:
                        total = 0
                        search_param_group = {
                            "nq": nq,
                            "topk": top_k,
                            "search_param": search_param
                        }
                        logger.info("Query params: %s" % json.dumps(search_param_group))
                        result_ids, result_distances = self.do_query_ids(milvus_instance, collection_name, top_k, nq, search_param=search_param)
                        acc_value = self.get_recall_value(true_ids_all[:nq, :top_k].tolist(), result_ids)
                        logger.info("Query accuracy: %s" % acc_value)
                        metric = self.report_wrapper(milvus_instance, self.env_value, self.hostname, collection_info, index_info, search_param_group)
                        metric.metrics = {
                            "type": "accuracy",
                            "value": {
                                "acc": acc_value
                            } 
                        }
                        report(metric)

        elif run_type == "ann_accuracy":
            hdf5_source_file = collection["source_file"]
            collection_name = collection["collection_name"]
            index_file_sizes = collection["index_file_sizes"]
            index_types = collection["index_types"]
            index_params = collection["index_params"]
            top_ks = collection["top_ks"]
            nqs = collection["nqs"]
            search_params = collection["search_params"]
            # mapping to search param list
            search_params = self.generate_combinations(search_params)
            # mapping to index param list
            index_params = self.generate_combinations(index_params)

            data_type, dimension, metric_type = parser.parse_ann_collection_name(collection_name)
            collection_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": collection_name
            }
            dataset = utils.get_dataset(hdf5_source_file)
            if milvus_instance.exists_collection(collection_name):
                logger.info("Re-create collection: %s" % collection_name)
                milvus_instance.delete()
                time.sleep(DELETE_INTERVAL_TIME)
            true_ids = np.array(dataset["neighbors"])
            for index_file_size in index_file_sizes:
                milvus_instance.create_collection(collection_name, dimension, index_file_size, metric_type)
                logger.info(milvus_instance.describe())
                insert_vectors = self.normalize(metric_type, np.array(dataset["train"]))
                # Insert batch once
                # milvus_instance.insert(insert_vectors)
                loops = len(insert_vectors) // INSERT_INTERVAL + 1
                for i in range(loops):
                    start = i*INSERT_INTERVAL
                    end = min((i+1)*INSERT_INTERVAL, len(insert_vectors))
                    tmp_vectors = insert_vectors[start:end]
                    if start < end:
                        if not isinstance(tmp_vectors, list):
                            milvus_instance.insert(tmp_vectors.tolist(), ids=[i for i in range(start, end)])
                        else:
                            milvus_instance.insert(tmp_vectors, ids=[i for i in range(start, end)])
                milvus_instance.flush()
                logger.info("Table: %s, row count: %s" % (collection_name, milvus_instance.count()))
                if milvus_instance.count() != len(insert_vectors):
                    logger.error("Table row count is not equal to insert vectors")
                    return
                for index_type in index_types:
                    for index_param in index_params:
                        logger.debug("Building index with param: %s" % json.dumps(index_param))
                        milvus_instance.create_index(index_type, index_param=index_param)
                        logger.info(milvus_instance.describe_index())
                        logger.info("Start preload collection: %s" % collection_name)
                        milvus_instance.preload_collection()
                        index_info = {
                            "index_type": index_type,
                            "index_param": index_param
                        }
                        logger.debug(index_info)
                        for search_param in search_params:
                            for nq in nqs:
                                query_vectors = self.normalize(metric_type, np.array(dataset["test"][:nq]))
                                for top_k in top_ks:
                                    search_param_group = {
                                        "nq": len(query_vectors),
                                        "topk": top_k,
                                        "search_param": search_param 
                                    }
                                    logger.debug(search_param_group)
                                    if not isinstance(query_vectors, list):
                                        result = milvus_instance.query(query_vectors.tolist(), top_k, search_param=search_param)
                                    else:
                                        result = milvus_instance.query(query_vectors, top_k, search_param=search_param)
                                    result_ids = result.id_array
                                    acc_value = self.get_recall_value(true_ids[:nq, :top_k].tolist(), result_ids)
                                    logger.info("Query ann_accuracy: %s" % acc_value)
                                    metric = self.report_wrapper(milvus_instance, self.env_value, self.hostname, collection_info, index_info, search_param_group)
                                    metric.metrics = {
                                        "type": "ann_accuracy",
                                        "value": {
                                            "acc": acc_value
                                        } 
                                    }
                                    report(metric)

        elif run_type == "search_stability":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            search_params = collection["search_params"]
            during_time = collection["during_time"]
            collection_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": collection_name
            }
            if not milvus_instance.exists_collection():
                logger.error("Table name: %s not existed" % collection_name)
                return
            logger.info(milvus_instance.count())
            index_info = milvus_instance.describe_index()
            logger.info(index_info)
            g_top_k = int(collection["top_ks"].split("-")[1])
            g_nq = int(collection["nqs"].split("-")[1])
            l_top_k = int(collection["top_ks"].split("-")[0])
            l_nq = int(collection["nqs"].split("-")[0])
            milvus_instance.preload_collection()
            start_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            logger.debug(start_mem_usage)
            start_row_count = milvus_instance.count()
            logger.debug(milvus_instance.describe_index())
            logger.info(start_row_count)
            start_time = time.time()
            while time.time() < start_time + during_time * 60:
                search_param = {}
                top_k = random.randint(l_top_k, g_top_k)
                nq = random.randint(l_nq, g_nq)
                for k, v in search_params.items():
                    search_param[k] = random.randint(int(v.split("-")[0]), int(v.split("-")[1]))
                query_vectors = [[random.random() for _ in range(dimension)] for _ in range(nq)]
                logger.debug("Query nq: %d, top-k: %d, param: %s" % (nq, top_k, json.dumps(search_param)))
                result = milvus_instance.query(query_vectors, top_k, search_param=search_param)
            end_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            metric = self.report_wrapper(milvus_instance, self.env_value, self.hostname, collection_info, index_info, {})
            metric.metrics = {
                "type": "search_stability",
                "value": {
                    "during_time": during_time,
                    "start_mem_usage": start_mem_usage,
                    "end_mem_usage": end_mem_usage,
                    "diff_mem": end_mem_usage - start_mem_usage
                } 
            }
            report(metric)

        elif run_type == "stability":
            (data_type, collection_size, index_file_size, dimension, metric_type) = parser.collection_parser(collection_name)
            search_params = collection["search_params"]
            insert_xb = collection["insert_xb"]
            insert_interval = collection["insert_interval"]
            delete_xb = collection["delete_xb"]
            during_time = collection["during_time"]
            collection_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": collection_name
            }
            if not milvus_instance.exists_collection():
                logger.error("Table name: %s not existed" % collection_name)
                return
            logger.info(milvus_instance.count())
            index_info = milvus_instance.describe_index()
            logger.info(index_info)
            g_top_k = int(collection["top_ks"].split("-")[1])
            g_nq = int(collection["nqs"].split("-")[1])
            l_top_k = int(collection["top_ks"].split("-")[0])
            l_nq = int(collection["nqs"].split("-")[0])
            milvus_instance.preload_collection()
            start_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            start_row_count = milvus_instance.count()
            logger.debug(milvus_instance.describe_index())
            logger.info(start_row_count)
            start_time = time.time()
            i = 0
            ids = []
            insert_vectors = [[random.random() for _ in range(dimension)] for _ in range(insert_xb)]
            query_vectors = [[random.random() for _ in range(dimension)] for _ in range(10000)]
            while time.time() < start_time + during_time * 60:
                i = i + 1
                for j in range(insert_interval):
                    top_k = random.randint(l_top_k, g_top_k)
                    nq = random.randint(l_nq, g_nq)
                    search_param = {}
                    for k, v in search_params.items():
                        search_param[k] = random.randint(int(v.split("-")[0]), int(v.split("-")[1]))
                    logger.debug("Query nq: %d, top-k: %d, param: %s" % (nq, top_k, json.dumps(search_param)))
                    result = milvus_instance.query(query_vectors[0:nq], top_k, search_param=search_param)
                count = milvus_instance.count()
                insert_ids = [(count+x) for x in range(len(insert_vectors))]
                ids.extend(insert_ids)
                status, res = milvus_instance.insert(insert_vectors, ids=insert_ids)
                logger.debug("%d, row_count: %d" % (i, milvus_instance.count()))
                milvus_instance.delete_vectors(ids[-delete_xb:])
                milvus_instance.flush()
                milvus_instance.compact()
            end_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            end_row_count = milvus_instance.count()
            metric = self.report_wrapper(milvus_instance, self.env_value, self.hostname, collection_info, index_info, {})
            metric.metrics = {
                "type": "stability",
                "value": {
                    "during_time": during_time,
                    "start_mem_usage": start_mem_usage,
                    "end_mem_usage": end_mem_usage,
                    "diff_mem": end_mem_usage - start_mem_usage,
                    "row_count_increments": end_row_count - start_row_count
                } 
            }
            report(metric)

        else:
            logger.warning("Run type not defined")
            return
        logger.debug("Test finished")
예제 #4
0
    def run(self, run_type, table):
        logger.debug(run_type)
        logger.debug(table)
        table_name = table["table_name"]
        milvus_instance = MilvusClient(table_name=table_name, ip=self.ip)
        self.env_value = milvus_instance.get_server_config()
        if run_type == "insert_performance":
            (data_type, table_size, index_file_size, dimension,
             metric_type) = parser.table_parser(table_name)
            ni_per = table["ni_per"]
            build_index = table["build_index"]
            if milvus_instance.exists_table():
                milvus_instance.delete()
                time.sleep(10)
            index_info = {}
            search_params = {}
            milvus_instance.create_table(table_name, dimension,
                                         index_file_size, metric_type)
            if build_index is True:
                index_type = table["index_type"]
                nlist = table["nlist"]
                index_info = {"index_type": index_type, "index_nlist": nlist}
                milvus_instance.create_index(index_type, nlist)
            res = self.do_insert(milvus_instance, table_name, data_type,
                                 dimension, table_size, ni_per)
            logger.info(res)
            table_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": table_name
            }
            metric = self.report_wrapper(milvus_instance, self.env_value,
                                         self.hostname, table_info, index_info,
                                         search_params)
            metric.metrics = {
                "type": "insert_performance",
                "value": {
                    "total_time": res["total_time"],
                    "qps": res["qps"],
                    "ni_time": res["ni_time"]
                }
            }
            report(metric)
            logger.debug("Wait for file merge")
            time.sleep(120)

        elif run_type == "build_performance":
            (data_type, table_size, index_file_size, dimension,
             metric_type) = parser.table_parser(table_name)
            index_type = table["index_type"]
            nlist = table["nlist"]
            table_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": table_name
            }
            index_info = {"index_type": index_type, "index_nlist": nlist}
            if not milvus_instance.exists_table():
                logger.error("Table name: %s not existed" % table_name)
                return
            search_params = {}
            start_time = time.time()
            # drop index
            logger.debug("Drop index")
            milvus_instance.drop_index()
            start_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            milvus_instance.create_index(index_type, nlist)
            logger.debug(milvus_instance.describe_index())
            end_time = time.time()
            end_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            metric = self.report_wrapper(milvus_instance, self.env_value,
                                         self.hostname, table_info, index_info,
                                         search_params)
            metric.metrics = {
                "type": "build_performance",
                "value": {
                    "build_time": round(end_time - start_time, 1),
                    "start_mem_usage": start_mem_usage,
                    "end_mem_usage": end_mem_usage,
                    "diff_mem": end_mem_usage - start_mem_usage
                }
            }
            report(metric)

        elif run_type == "search_performance":
            (data_type, table_size, index_file_size, dimension,
             metric_type) = parser.table_parser(table_name)
            run_count = table["run_count"]
            search_params = table["search_params"]
            table_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": table_name
            }
            if not milvus_instance.exists_table():
                logger.error("Table name: %s not existed" % table_name)
                return
            logger.info(milvus_instance.count())
            result = milvus_instance.describe_index()
            index_info = {
                "index_type": result["index_type"],
                "index_nlist": result["nlist"]
            }
            logger.info(index_info)
            nprobes = search_params["nprobes"]
            top_ks = search_params["top_ks"]
            nqs = search_params["nqs"]
            milvus_instance.preload_table()
            logger.info("Start warm up query")
            res = self.do_query(milvus_instance, table_name, [1], [1], 1, 2)
            logger.info("End warm up query")
            for nprobe in nprobes:
                logger.info("Search nprobe: %s" % nprobe)
                res = self.do_query(milvus_instance, table_name, top_ks, nqs,
                                    nprobe, run_count)
                headers = ["Nq/Top-k"]
                headers.extend([str(top_k) for top_k in top_ks])
                utils.print_table(headers, nqs, res)
                for index_nq, nq in enumerate(nqs):
                    for index_top_k, top_k in enumerate(top_ks):
                        search_param = {
                            "nprobe": nprobe,
                            "nq": nq,
                            "topk": top_k
                        }
                        search_time = res[index_nq][index_top_k]
                        metric = self.report_wrapper(milvus_instance,
                                                     self.env_value,
                                                     self.hostname, table_info,
                                                     index_info, search_param)
                        metric.metrics = {
                            "type": "search_performance",
                            "value": {
                                "search_time": search_time
                            }
                        }
                        report(metric)

        # for sift/deep datasets
        elif run_type == "accuracy":
            (data_type, table_size, index_file_size, dimension,
             metric_type) = parser.table_parser(table_name)
            search_params = table["search_params"]
            table_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": table_name
            }
            if not milvus_instance.exists_table():
                logger.error("Table name: %s not existed" % table_name)
                return
            logger.info(milvus_instance.count())
            result = milvus_instance.describe_index()
            index_info = {
                "index_type": result["index_type"],
                "index_nlist": result["nlist"]
            }
            logger.info(index_info)
            nprobes = search_params["nprobes"]
            top_ks = search_params["top_ks"]
            nqs = search_params["nqs"]
            milvus_instance.preload_table()
            true_ids_all = self.get_groundtruth_ids(table_size)
            for nprobe in nprobes:
                logger.info("Search nprobe: %s" % nprobe)
                for top_k in top_ks:
                    for nq in nqs:
                        total = 0
                        search_param = {
                            "nprobe": nprobe,
                            "nq": nq,
                            "topk": top_k
                        }
                        result_ids, result_distances = self.do_query_ids(
                            milvus_instance, table_name, top_k, nq, nprobe)
                        acc_value = self.get_recall_value(
                            true_ids_all[:nq, :top_k].tolist(), result_ids)
                        logger.info("Query accuracy: %s" % acc_value)
                        metric = self.report_wrapper(milvus_instance,
                                                     self.env_value,
                                                     self.hostname, table_info,
                                                     index_info, search_param)
                        metric.metrics = {
                            "type": "accuracy",
                            "value": {
                                "acc": acc_value
                            }
                        }
                        report(metric)

        elif run_type == "ann_accuracy":
            hdf5_source_file = table["source_file"]
            table_name = table["table_name"]
            index_file_sizes = table["index_file_sizes"]
            index_types = table["index_types"]
            nlists = table["nlists"]
            search_params = table["search_params"]
            nprobes = search_params["nprobes"]
            top_ks = search_params["top_ks"]
            nqs = search_params["nqs"]
            data_type, dimension, metric_type = parser.parse_ann_table_name(
                table_name)
            table_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": table_name
            }
            dataset = utils.get_dataset(hdf5_source_file)
            if milvus_instance.exists_table(table_name):
                logger.info("Re-create table: %s" % table_name)
                milvus_instance.delete(table_name)
                time.sleep(DELETE_INTERVAL_TIME)
            true_ids = np.array(dataset["neighbors"])
            for index_file_size in index_file_sizes:
                milvus_instance.create_table(table_name, dimension,
                                             index_file_size, metric_type)
                logger.info(milvus_instance.describe())
                insert_vectors = self.normalize(metric_type,
                                                np.array(dataset["train"]))
                # Insert batch once
                # milvus_instance.insert(insert_vectors)
                loops = len(insert_vectors) // INSERT_INTERVAL + 1
                for i in range(loops):
                    start = i * INSERT_INTERVAL
                    end = min((i + 1) * INSERT_INTERVAL, len(insert_vectors))
                    tmp_vectors = insert_vectors[start:end]
                    if start < end:
                        if not isinstance(tmp_vectors, list):
                            milvus_instance.insert(
                                tmp_vectors.tolist(),
                                ids=[i for i in range(start, end)])
                        else:
                            milvus_instance.insert(
                                tmp_vectors,
                                ids=[i for i in range(start, end)])
                time.sleep(20)
                logger.info("Table: %s, row count: %s" %
                            (table_name, milvus_instance.count()))
                if milvus_instance.count() != len(insert_vectors):
                    logger.error(
                        "Table row count is not equal to insert vectors")
                    return
                for index_type in index_types:
                    for nlist in nlists:
                        milvus_instance.create_index(index_type, nlist)
                        # logger.info(milvus_instance.describe_index())
                        logger.info(
                            "Start preload table: %s, index_type: %s, nlist: %s"
                            % (table_name, index_type, nlist))
                        milvus_instance.preload_table()
                        index_info = {
                            "index_type": index_type,
                            "index_nlist": nlist
                        }
                        for nprobe in nprobes:
                            for nq in nqs:
                                query_vectors = self.normalize(
                                    metric_type,
                                    np.array(dataset["test"][:nq]))
                                for top_k in top_ks:
                                    search_params = {
                                        "nq": len(query_vectors),
                                        "nprobe": nprobe,
                                        "topk": top_k
                                    }
                                    if not isinstance(query_vectors, list):
                                        result = milvus_instance.query(
                                            query_vectors.tolist(), top_k,
                                            nprobe)
                                    else:
                                        result = milvus_instance.query(
                                            query_vectors, top_k, nprobe)
                                    result_ids = result.id_array
                                    acc_value = self.get_recall_value(
                                        true_ids[:nq, :top_k].tolist(),
                                        result_ids)
                                    logger.info("Query ann_accuracy: %s" %
                                                acc_value)
                                    metric = self.report_wrapper(
                                        milvus_instance, self.env_value,
                                        self.hostname, table_info, index_info,
                                        search_params)
                                    metric.metrics = {
                                        "type": "ann_accuracy",
                                        "value": {
                                            "acc": acc_value
                                        }
                                    }
                                    report(metric)
                milvus_instance.delete()

        elif run_type == "search_stability":
            (data_type, table_size, index_file_size, dimension,
             metric_type) = parser.table_parser(table_name)
            search_params = table["search_params"]
            during_time = table["during_time"]
            table_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": table_name
            }
            if not milvus_instance.exists_table():
                logger.error("Table name: %s not existed" % table_name)
                return
            logger.info(milvus_instance.count())
            result = milvus_instance.describe_index()
            index_info = {
                "index_type": result["index_type"],
                "index_nlist": result["nlist"]
            }
            search_param = {}
            logger.info(index_info)
            g_nprobe = int(search_params["nprobes"].split("-")[1])
            g_top_k = int(search_params["top_ks"].split("-")[1])
            g_nq = int(search_params["nqs"].split("-")[1])
            l_nprobe = int(search_params["nprobes"].split("-")[0])
            l_top_k = int(search_params["top_ks"].split("-")[0])
            l_nq = int(search_params["nqs"].split("-")[0])
            milvus_instance.preload_table()
            start_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            logger.debug(start_mem_usage)
            logger.info("Start warm up query")
            res = self.do_query(milvus_instance, table_name, [1], [1], 1, 2)
            logger.info("End warm up query")
            start_time = time.time()
            while time.time() < start_time + during_time * 60:
                top_k = random.randint(l_top_k, g_top_k)
                nq = random.randint(l_nq, g_nq)
                nprobe = random.randint(l_nprobe, g_nprobe)
                query_vectors = [[random.random() for _ in range(dimension)]
                                 for _ in range(nq)]
                logger.debug("Query nprobe:%d, nq:%d, top-k:%d" %
                             (nprobe, nq, top_k))
                result = milvus_instance.query(query_vectors, top_k, nprobe)
            end_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            metric = self.report_wrapper(milvus_instance, self.env_value,
                                         self.hostname, table_info, index_info,
                                         search_param)
            metric.metrics = {
                "type": "search_stability",
                "value": {
                    "during_time": during_time,
                    "start_mem_usage": start_mem_usage,
                    "end_mem_usage": end_mem_usage,
                    "diff_mem": end_mem_usage - start_mem_usage
                }
            }
            report(metric)

        elif run_type == "stability":
            (data_type, table_size, index_file_size, dimension,
             metric_type) = parser.table_parser(table_name)
            search_params = table["search_params"]
            insert_xb = table["insert_xb"]
            insert_interval = table["insert_interval"]
            during_time = table["during_time"]
            table_info = {
                "dimension": dimension,
                "metric_type": metric_type,
                "dataset_name": table_name
            }
            if not milvus_instance.exists_table():
                logger.error("Table name: %s not existed" % table_name)
                return
            logger.info(milvus_instance.count())
            result = milvus_instance.describe_index()
            index_info = {
                "index_type": result["index_type"],
                "index_nlist": result["nlist"]
            }
            search_param = {}
            logger.info(index_info)
            g_nprobe = int(search_params["nprobes"].split("-")[1])
            g_top_k = int(search_params["top_ks"].split("-")[1])
            g_nq = int(search_params["nqs"].split("-")[1])
            l_nprobe = int(search_params["nprobes"].split("-")[0])
            l_top_k = int(search_params["top_ks"].split("-")[0])
            l_nq = int(search_params["nqs"].split("-")[0])
            milvus_instance.preload_table()
            logger.info("Start warm up query")
            res = self.do_query(milvus_instance, table_name, [1], [1], 1, 2)
            logger.info("End warm up query")
            start_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            start_row_count = milvus_instance.count()
            start_time = time.time()
            i = 0
            while time.time() < start_time + during_time * 60:
                i = i + 1
                for j in range(insert_interval):
                    top_k = random.randint(l_top_k, g_top_k)
                    nq = random.randint(l_nq, g_nq)
                    nprobe = random.randint(l_nprobe, g_nprobe)
                    query_vectors = [[
                        random.random() for _ in range(dimension)
                    ] for _ in range(nq)]
                    logger.debug("Query nprobe:%d, nq:%d, top-k:%d" %
                                 (nprobe, nq, top_k))
                    result = milvus_instance.query(query_vectors, top_k,
                                                   nprobe)
                insert_vectors = [[random.random() for _ in range(dimension)]
                                  for _ in range(insert_xb)]
                status, res = milvus_instance.insert(
                    insert_vectors,
                    ids=[x for x in range(len(insert_vectors))])
                logger.debug("%d, row_count: %d" %
                             (i, milvus_instance.count()))
            end_mem_usage = milvus_instance.get_mem_info()["memory_used"]
            end_row_count = milvus_instance.count()
            metric = self.report_wrapper(milvus_instance, self.env_value,
                                         self.hostname, table_info, index_info,
                                         search_param)
            metric.metrics = {
                "type": "stability",
                "value": {
                    "during_time": during_time,
                    "start_mem_usage": start_mem_usage,
                    "end_mem_usage": end_mem_usage,
                    "diff_mem": end_mem_usage - start_mem_usage,
                    "row_count_increments": end_row_count - start_row_count
                }
            }
            report(metric)