手把手入门MO | 如何使用 Flink 将批量数据写入 MatrixOne
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大数据
1 概述
Apache Flink 是一个强大的框架和分布式处理引擎,专注于进行有状态计算,适用于处理无边界和有边界的数据流。Flink 能够在各种常见集群环境中高效运行,并以内存速度执行计算,支持处理任意规模的数据。
2 应用场景
事件驱动型应用
- 事件驱动型应用通常具备状态,并且它们从一个或多个事件流中提取数据,根据到达的事件触发计算、状态更新或执行其他外部动作。典型的事件驱动型应用包括反欺诈系统、异常检测、基于规则的报警系统和业务流程监控。
数据分析应用
- 数据分析任务的主要目标是从原始数据中提取有价值的信息和指标。Flink 支持流式和批量分析应用,适用于各种场景,例如电信网络质量监控、移动应用中的产品更新和实验评估分析、消费者技术领域的实时数据即席分析以及大规模图分析。
数据管道应用
- 提取 – 转换 – 加载(ETL)是在不同存储系统之间进行数据转换和迁移的常见方法。数据管道和 ETL 作业有相似之处,都可以进行数据转换和处理,然后将数据从一个存储系统移动到另一个存储系统。不同之处在于数据管道以持续流模式运行,而不是周期性触发。典型的数据管道应用包括电子商务中的实时查询索引构建和持续 ETL。
本篇文档将介绍两种示例,一种是实现将存量数据写入到 MatrixOne,另一种是使用计算引擎 Flink 将流式数据写入到 MatrixOne 数据库。
3 前期准备
硬件环境
本次实践对于机器的硬件要求如下:
软件环境
本次实践需要安装部署以下软件环境:
- 已完成单机部署 MatrixOne。
- 下载安装 lntelliJ IDEA(2022.2.1 or later version)。
- 根据你的系统环境选择 JDK 8+ version 版本进行下载安装。
- 下载并安装 Kafka,推荐版本为 2.13 – 3.5.0。
- 下载并安装 Flink,推荐版本为 1.17.0。
- 下载并安装 MySQL,推荐版本为 8.0.33。
4 示例一
从 MySQL 迁移数据至 MatrixOne
步骤一:初始化项目
1. 启动 IDEA,点击 File > New > Project,选择 Spring Initializer,并填写以下配置参数:
- Name:mo-spark-demo
- Location:~\Desktop
- Language:Java
- Type:Maven
- Group:com.example
- Artiface:matrixone-flink-demo
- Package name:com.matrixone.flink.demo
- JDK 1.8
2. 添加项目依赖,在项目根目录下的 pom.xml 内容编辑如下:
4.0.0
com.matrixone.flink
matrixone-flink-demo
1.0-SNAPSHOT
2.12
1.8
1.17.0
compile
org.apache.flink
flink-connector-hive_2.12
${flink.version}
org.apache.flink
flink-java
${flink.version}
org.apache.flink
flink-streaming-java
${flink.version}
org.apache.flink
flink-clients
${flink.version}
org.apache.flink
flink-table-api-java-bridge
${flink.version}
org.apache.flink
flink-table-planner_2.12
${flink.version}
org.apache.flink
flink-connector-jdbc
1.15.4
mysql
mysql-connector-java
8.0.33
org.apache.kafka
kafka_2.13
3.5.0
org.apache.flink
flink-connector-kafka
3.0.0-1.17
com.alibaba.fastjson2
fastjson2
2.0.34
org.apache.maven.plugins
maven-compiler-plugin
3.8.0
${java.version}
${java.version}
UTF-8
maven-assembly-plugin
2.6
jar-with-dependencies
make-assembly
package
single
步骤二:读取 MatrixOne 数据
使用 MySQL 客户端连接 MatrixOne 后,创建演示所需的数据库以及数据表。
1. 在 MatrixOne 中创建数据库、数据表,并导入数据:
CREATE DATABASE test; USE test; CREATE TABLE `person` (`id` INT DEFAULT NULL, `name` VARCHAR(255) DEFAULT NULL, `birthday` DATE DEFAULT NULL); INSERT INTO test.person (id, name, birthday) VALUES(1, 'zhangsan', '2023-07-09'),(2, 'lisi', '2023-07-08'),(3, 'wangwu', '2023-07-12');
2. 在 IDEA 中创建 MoRead.java 类,以使用 Flink 读取 MatrixOne 数据:
package com.matrixone.flink.demo;
import org.apache.flink.api.common.functions.MapFunction;
import org.apache.flink.api.common.typeinfo.BasicTypeInfo;
import org.apache.flink.api.java.ExecutionEnvironment;
import org.apache.flink.api.java.operators.DataSource;
import org.apache.flink.api.java.operators.MapOperator;
import org.apache.flink.api.java.typeutils.RowTypeInfo;
import org.apache.flink.connector.jdbc.JdbcInputFormat;
import org.apache.flink.types.Row;
import java.text.SimpleDateFormat;
/**
* @author MatrixOne
* @description
*/
public class MoRead {
private static String srcHost = "192.168.146.10";
private static Integer srcPort = 6001;
private static String srcUserName = "root";
private static String srcPassword = "111";
private static String srcDataBase = "test";
public static void main(String[] args) throws Exception {
ExecutionEnvironment environment = ExecutionEnvironment.getExecutionEnvironment();
// 设置并行度
environment.setParallelism(1);
SimpleDateFormat sdf = new SimpleDateFormat("yyyy-MM-dd");
// 设置查询的字段类型
RowTypeInfo rowTypeInfo = new RowTypeInfo(
new BasicTypeInfo[]{
BasicTypeInfo.INT_TYPE_INFO,
BasicTypeInfo.STRING_TYPE_INFO,
BasicTypeInfo.DATE_TYPE_INFO
},
new String[]{
"id",
"name",
"birthday"
}
);
DataSource dataSource = environment.createInput(JdbcInputFormat.buildJdbcInputFormat()
.setDrivername("com.mysql.cj.jdbc.Driver")
.setDBUrl("jdbc:mysql://" + srcHost + ":" + srcPort + "/" + srcDataBase)
.setUsername(srcUserName)
.setPassword(srcPassword)
.setQuery("select * from person")
.setRowTypeInfo(rowTypeInfo)
.finish());
// 将 Wed Jul 12 00:00:00 CST 2023 日期格式转换为 2023-07-12
MapOperator mapOperator = dataSource.map((MapFunction) row -> {
row.setField("birthday", sdf.format(row.getField("birthday")));
return row;
});
mapOperator.print();
}
}
步骤三:将 MySQL 数据写入 MatrixOne
现在可以开始使用 Flink 将 MySQL 数据迁移到 MatrixOne。
1. 准备 MySQL 数据:
在 node3 上,使用 Mysql 客户端连接本地 Mysql,创建所需数据库、数据表、并插入数据:
mysql -h127.0.0.1 -P3306 -uroot -proot mysql> CREATE DATABASE motest; mysql> USE motest; mysql> CREATE TABLE `person` (`id` int DEFAULT NULL, `name` varchar(255) DEFAULT NULL, `birthday` date DEFAULT NULL); mysql> INSERT INTO motest.person (id, name, birthday) VALUES(2, 'lisi', '2023-07-09'),(3, 'wangwu', '2023-07-13'),(4, 'zhaoliu', '2023-08-08');
2. 清空 MatrixOne 表数据:
在 node3 上,使用 MySQL 客户端连接 node1 的 MatrixOne。由于本示例继续使用前面读取 MatrixOne 数据的示例中的 test 数据库,因此我们需要首先清空 person 表的数据。
-- 在 node3 上,使用 Mysql 客户端连接 node1 的 MatrixOne mysql -h192.168.146.10 -P6001 -uroot -p111 mysql> TRUNCATE TABLE test.person;
3. 在 IDEA 中编写代码:
创建 Person.java 和 Mysql2Mo.java 类,使用 Flink 读取 MySQL 数据,执行简单的 ETL 操作(将 Row 转换为 Person 对象),最终将数据写入 MatrixOne 中。
package com.matrixone.flink.demo.entity;
import java.util.Date;
public class Person {
private int id;
private String name;
private Date birthday;
public int getId() {
return id;
}
public void setId(int id) {
this.id = id;
}
public String getName() {
return name;
}
public void setName(String name) {
this.name = name;
}
public Date getBirthday() {
return birthday;
}
public void setBirthday(Date birthday) {
this.birthday = birthday;
}
}
package com.matrixone.flink.demo;
import com.matrixone.flink.demo.entity.Person;
import org.apache.flink.api.common.functions.MapFunction;
import org.apache.flink.api.common.typeinfo.BasicTypeInfo;
import org.apache.flink.api.java.typeutils.RowTypeInfo;
import org.apache.flink.connector.jdbc.*;
import org.apache.flink.streaming.api.datastream.DataStreamSink;
import org.apache.flink.streaming.api.datastream.DataStreamSource;
import org.apache.flink.streaming.api.datastream.SingleOutputStreamOperator;
import org.apache.flink.streaming.api.environment.StreamExecutionEnvironment;
import org.apache.flink.types.Row;
import java.sql.Date;
/**
* @author MatrixOne
* @description
*/
public class Mysql2Mo {
private static String srcHost = "127.0.0.1";
private static Integer srcPort = 3306;
private static String srcUserName = "root";
private static String srcPassword = "root";
private static String srcDataBase = "motest";
private static String destHost = "192.168.146.10";
private static Integer destPort = 6001;
private static String destUserName = "root";
private static String destPassword = "111";
private static String destDataBase = "test";
private static String destTable = "person";
public static void main(String[] args) throws Exception {
StreamExecutionEnvironment environment = StreamExecutionEnvironment.getExecutionEnvironment();
//设置并行度
environment.setParallelism(1);
//设置查询的字段类型
RowTypeInfo rowTypeInfo = new RowTypeInfo(
new BasicTypeInfo[]{
BasicTypeInfo.INT_TYPE_INFO,
BasicTypeInfo.STRING_TYPE_INFO,
BasicTypeInfo.DATE_TYPE_INFO
},
new String[]{
"id",
"name",
"birthday"
}
);
//添加 srouce
DataStreamSource dataSource = environment.createInput(JdbcInputFormat.buildJdbcInputFormat()
.setDrivername("com.mysql.cj.jdbc.Driver")
.setDBUrl("jdbc:mysql://" + srcHost + ":" + srcPort + "/" + srcDataBase)
.setUsername(srcUserName)
.setPassword(srcPassword)
.setQuery("select * from person")
.setRowTypeInfo(rowTypeInfo)
.finish());
//进行 ETL
SingleOutputStreamOperator mapOperator = dataSource.map((MapFunction) row -> {
Person person = new Person();
person.setId((Integer) row.getField("id"));
person.setName((String) row.getField("name"));
person.setBirthday((java.util.Date)row.getField("birthday"));
return person;
});
//设置 matrixone sink 信息
mapOperator.addSink(
JdbcSink.sink(
"insert into " + destTable + " values(?,?,?)",
(ps, t) -> {
ps.setInt(1, t.getId());
ps.setString(2, t.getName());
ps.setDate(3, new Date(t.getBirthday().getTime()));
},
new JdbcConnectionOptions.JdbcConnectionOptionsBuilder()
.withDriverName("com.mysql.cj.jdbc.Driver")
.withUrl("jdbc:mysql://" + destHost + ":" + destPort + "/" + destDataBase)
.withUsername(destUserName)
.withPassword(destPassword)
.build()
)
);
environment.execute();
}
}
步骤四:查看执行结果
在 MatrixOne 中执行如下 SQL 查看执行结果:
mysql> select * from test.person; +------+---------+------------+ | id | name | birthday | +------+---------+------------+ | 2 | lisi | 2023-07-09 | | 3 | wangwu | 2023-07-13 | | 4 | zhaoliu | 2023-08-08 | +------+---------+------------+ 3 rows in set (0.01 sec)
5 示例二
将 Kafka 数据写入 MatrixOne
步骤一:启动 Kafka 服务
Kafka 集群协调和元数据管理可以通过 KRaft 或 ZooKeeper 来实现。在这里,我们将使用 Kafka 3.5.0 版本,无需依赖独立的 ZooKeeper 软件,而是使用 Kafka 自带的 KRaft 来进行元数据管理。请按照以下步骤配置配置文件,该文件位于 Kafka 软件根目录下的 config/kraft/server.properties。
配置文件内容如下:
# Licensed to the Apache Software Foundation (ASF) under one or more # contributor license agreements. See the NOTICE file distributed with # this work for additional information regarding copyright ownership. # The ASF licenses this file to You under the Apache License, Version 2.0 # (the "License"); you may not use this file except in compliance with # the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # # This configuration file is intended for use in KRaft mode, where # Apache ZooKeeper is not present. See config/kraft/README.md for details. # ############################# Server Basics ############################# # The role of this server. Setting this puts us in KRaft mode process.roles=broker,controller # The node id associated with this instance's roles node.id=1 # The connect string for the controller quorum controller.quorum.voters=1@192.168.146.12:9093 ############################# Socket Server Settings ############################# # The address the socket server listens on. # Combined nodes (i.e. those with `process.roles=broker,controller`) must list the controller listener here at a minimum. # If the broker listener is not defined, the default listener will use a host name that is equal to the value of java.net.InetAddress.getCanonicalHostName(), # with PLAINTEXT listener name, and port 9092. # FORMAT: # listeners = listener_name://host_name:port # EXAMPLE: # listeners = PLAINTEXT://your.host.name:9092 #listeners=PLAINTEXT://:9092,CONTROLLER://:9093 listeners=PLAINTEXT://192.168.146.12:9092,CONTROLLER://192.168.146.12:9093 # Name of listener used for communication between brokers. inter.broker.listener.name=PLAINTEXT # Listener name, hostname and port the broker will advertise to clients. # If not set, it uses the value for "listeners". #advertised.listeners=PLAINTEXT://localhost:9092 # A comma-separated list of the names of the listeners used by the controller. # If no explicit mapping set in `listener.security.protocol.map`, default will be using PLAINTEXT protocol # This is required if running in KRaft mode. controller.listener.names=CONTROLLER # Maps listener names to security protocols, the default is for them to be the same. See the config documentation for more details listener.security.protocol.map=CONTROLLER:PLAINTEXT,PLAINTEXT:PLAINTEXT,SSL:SSL,SASL_PLAINTEXT:SASL_PLAINTEXT,SASL_SSL:SASL_SSL # The number of threads that the server uses for receiving requests from the network and sending responses to the network num.network.threads=3 # The number of threads that the server uses for processing requests, which may include disk I/O num.io.threads=8 # The send buffer (SO_SNDBUF) used by the socket server socket.send.buffer.bytes=102400 # The receive buffer (SO_RCVBUF) used by the socket server socket.receive.buffer.bytes=102400 # The maximum size of a request that the socket server will accept (protection against OOM) socket.request.max.bytes=104857600 ############################# Log Basics ############################# # A comma separated list of directories under which to store log files log.dirs=/home/software/kafka_2.13-3.5.0/kraft-combined-logs # The default number of log partitions per topic. More partitions allow greater # parallelism for consumption, but this will also result in more files across # the brokers. num.partitions=1 # The number of threads per data directory to be used for log recovery at startup and flushing at shutdown. # This value is recommended to be increased for installations with data dirs located in RAID array. num.recovery.threads.per.data.dir=1 ############################# Internal Topic Settings ############################# # The replication factor for the group metadata internal topics "__consumer_offsets" and "__transaction_state" # For anything other than development testing, a value greater than 1 is recommended to ensure availability such as 3. offsets.topic.replication.factor=1 transaction.state.log.replication.factor=1 transaction.state.log.min.isr=1 ############################# Log Flush Policy ############################# # Messages are immediately written to the filesystem but by default we only fsync() to sync # the OS cache lazily. The following configurations control the flush of data to disk. # There are a few important trade-offs here: # 1. Durability: Unflushed data may be lost if you are not using replication. # 2. Latency: Very large flush intervals may lead to latency spikes when the flush does occur as there will be a lot of data to flush. # 3. Throughput: The flush is generally the most expensive operation, and a small flush interval may lead to excessive seeks. # The settings below allow one to configure the flush policy to flush data after a period of time or # every N messages (or both). This can be done globally and overridden on a per-topic basis. # The number of messages to accept before forcing a flush of data to disk #log.flush.interval.messages=10000 # The maximum amount of time a message can sit in a log before we force a flush #log.flush.interval.ms=1000 ############################# Log Retention Policy ############################# # The following configurations control the disposal of log segments. The policy can # be set to delete segments after a period of time, or after a given size has accumulated. # A segment will be deleted whenever *either* of these criteria are met. Deletion always happens # from the end of the log. # The minimum age of a log file to be eligible for deletion due to age log.retention.hours=72 # A size-based retention policy for logs. Segments are pruned from the log unless the remaining # segments drop below log.retention.bytes. Functions independently of log.retention.hours. #log.retention.bytes=1073741824 # The maximum size of a log segment file. When this size is reached a new log segment will be created. log.segment.bytes=1073741824 # The interval at which log segments are checked to see if they can be deleted according # to the retention policies log.retention.check.interval.ms=300000
文件配置完成后,执行如下命令,启动 Kafka 服务:
#生成集群ID $ KAFKA_CLUSTER_ID="$(bin/kafka-storage.sh random-uuid)" #设置日志目录格式 $ bin/kafka-storage.sh format -t $KAFKA_CLUSTER_ID -c config/kraft/server.properties #启动Kafka服务 $ bin/kafka-server-start.sh config/kraft/server.properties
步骤二:创建 Kafka 主题
为了使 Flink 能够从中读取数据并写入到 MatrixOne,我们需要首先创建一个名为 “matrixone” 的 Kafka 主题。在下面的命令中,使用 –bootstrap-server 参数指定 Kafka 服务的监听地址为 192.168.146.12:9092:
$ bin/kafka-topics.sh --create --topic matrixone --bootstrap-server 192.168.146.12:9092
步骤三:读取 MatrixOne 数据
在连接到 MatrixOne 数据库之后,需要执行以下操作以创建所需的数据库和数据表:
1. 在 MatrixOne 中创建数据库和数据表,并导入数据:
CREATE TABLE `users` ( `id` INT DEFAULT NULL, `name` VARCHAR(255) DEFAULT NULL, `age` INT DEFAULT NULL )
2. 在 IDEA 集成开发环境中编写代码:
在 IDEA 中,创建两个类:User.java 和 Kafka2Mo.java。这些类用于使用 Flink 从 Kafka 读取数据,并将数据写入 MatrixOne 数据库中。
package com.matrixone.flink.demo.entity;
public class User {
private int id;
private String name;
private int age;
public int getId() {
return id;
}
public void setId(int id) {
this.id = id;
}
public String getName() {
return name;
}
public void setName(String name) {
this.name = name;
}
public int getAge() {
return age;
}
public void setAge(int age) {
this.age = age;
}
}
package com.matrixone.flink.demo;
import com.alibaba.fastjson2.JSON;
import com.matrixone.flink.demo.entity.User;
import org.apache.flink.api.common.eventtime.WatermarkStrategy;
import org.apache.flink.api.common.serialization.AbstractDeserializationSchema;
import org.apache.flink.connector.jdbc.JdbcExecutionOptions;
import org.apache.flink.connector.jdbc.JdbcSink;
import org.apache.flink.connector.jdbc.JdbcStatementBuilder;
import org.apache.flink.connector.jdbc.internal.options.JdbcConnectorOptions;
import org.apache.flink.connector.kafka.source.KafkaSource;
import org.apache.flink.connector.kafka.source.enumerator.initializer.OffsetsInitializer;
import org.apache.flink.streaming.api.datastream.DataStreamSource;
import org.apache.flink.streaming.api.environment.StreamExecutionEnvironment;
import org.apache.kafka.clients.consumer.OffsetResetStrategy;
import java.nio.charset.StandardCharsets;
/**
* @author MatrixOne
* @desc
*/
public class Kafka2Mo {
private static String srcServer = "192.168.146.12:9092";
private static String srcTopic = "matrixone";
private static String consumerGroup = "matrixone_group";
private static String destHost = "192.168.146.10";
private static Integer destPort = 6001;
private static String destUserName = "root";
private static String destPassword = "111";
private static String destDataBase = "test";
public static void main(String[] args) throws Exception {
//初始化环境
StreamExecutionEnvironment env = StreamExecutionEnvironment.getExecutionEnvironment();
//设置并行度
env.setParallelism(1);
//设置 kafka source 信息
KafkaSource source = KafkaSource.builder()
//Kafka 服务
.setBootstrapServers(srcServer)
//消息主题
.setTopics(srcTopic)
//消费组
.setGroupId(consumerGroup)
//偏移量 当没有提交偏移量则从最开始开始消费
.setStartingOffsets(OffsetsInitializer.committedOffsets(OffsetResetStrategy.LATEST))
//自定义解析消息内容
.setValueOnlyDeserializer(new AbstractDeserializationSchema() {
@Override
public User deserialize(byte[] message) {
return JSON.parseObject(new String(message, StandardCharsets.UTF_8), User.class);
}
})
.build();
DataStreamSource kafkaSource = env.fromSource(source, WatermarkStrategy.noWatermarks(), "kafka_maxtixone");
//kafkaSource.print();
//设置 matrixone sink 信息
kafkaSource.addSink(JdbcSink.sink(
"insert into users (id,name,age) values(?,?,?)",
(JdbcStatementBuilder) (preparedStatement, user) -> {
preparedStatement.setInt(1, user.getId());
preparedStatement.setString(2, user.getName());
preparedStatement.setInt(3, user.getAge());
},
JdbcExecutionOptions.builder()
//默认值 5000
.withBatchSize(1000)
//默认值为 0
.withBatchIntervalMs(200)
//最大尝试次数
.withMaxRetries(5)
.build(),
JdbcConnectorOptions.builder()
.setDBUrl("jdbc:mysql://"+destHost+":"+destPort+"/"+destDataBase)
.setUsername(destUserName)
.setPassword(destPassword)
.setDriverName("com.mysql.cj.jdbc.Driver")
.build()
));
env.execute();
}
}
代码编写完成后,你可以运行 Flink 任务,即在 IDEA 中选择 Kafka2Mo.java 文件,然后执行 Kafka2Mo.Main()。
步骤四:生成数据
使用 Kafka 提供的命令行生产者工具,您可以向 Kafka 的 “matrixone” 主题中添加数据。在下面的命令中,使用 –topic 参数指定要添加到的主题,而 –bootstrap-server 参数指定了 Kafka 服务的监听地址。
bin/kafka-console-producer.sh --topic matrixone --bootstrap-server 192.168.146.12:9092
执行上述命令后,您将在控制台上等待输入消息内容。只需直接输入消息值 (value),每行表示一条消息(以换行符分隔),如下所示:
{"id": 10, "name": "xiaowang", "age": 22}
{"id": 20, "name": "xiaozhang", "age": 24}
{"id": 30, "name": "xiaogao", "age": 18}
{"id": 40, "name": "xiaowu", "age": 20}
{"id": 50, "name": "xiaoli", "age": 42}
步骤五:查看执行结果
在 MatrixOne 中执行如下 SQL 查询结果:
mysql> select * from test.users; +------+-----------+------+ | id | name | age | +------+-----------+------+ | 10 | xiaowang | 22 | | 20 | xiaozhang | 24 | | 30 | xiaogao | 18 | | 40 | xiaowu | 20 | | 50 | xiaoli | 42 | +------+-----------+------+ 5 rows in set (0.01 sec)
关于MatrixOne
MatrixOne 是一款基于云原生技术,可同时在公有云和私有云部署的多模数据库。该产品使用存算分离、读写分离、冷热分离的原创技术架构,能够在一套存储和计算系统下同时支持事务、分析、流、时序和向量等多种负载,并能够实时、按需的隔离或共享存储和计算资源。 云原生数据库MatrixOne能够帮助用户大幅简化日益复杂的IT架构,提供极简、极灵活、高性价比和高性能的数据服务。
MatrixOne企业版和MatrixOne云服务自发布以来,已经在互联网、金融、能源、制造、教育、医疗等多个行业得到应用。得益于其独特的架构设计,用户可以降低多达70%的硬件和运维成本,增加3-5倍的开发效率,同时更加灵活的响应市场需求变化和更加高效的抓住创新机会。在相同硬件投入时,MatrixOne可获得数倍以上的性能提升。
MatrixOne秉持开源开放、生态共建的理念,核心代码全部开源,全面兼容MySQL协议,并与合作伙伴打造了多个端到端解决方案,大幅降低用户的迁移
关键词:超融合数据库、多模数据库、云原生数据库、国产数据库。
MatrixOrigin 官网:新一代超融合异构开源数据库-矩阵起源(深圳)信息科技有限公司 MatrixOne
Github 仓库:GitHub – matrixorigin/matrixone: Hyperconverged cloud-edge native database
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