Kafka Architecture
The Kafka architecture is a distributed, scalable, and fault-tolerant system for handling large volumes of real-time data. The architecture consists of four key components: producers, consumers, brokers, and ZooKeeper.
Producers are responsible for publishing messages to Kafka topics, while consumers read messages from the topics. Messages are stored in partitions, which can be replicated across multiple brokers for fault tolerance. Brokers are responsible for managing partitions and storing messages. ZooKeeper is used for coordination between brokers and producers/consumers, managing the leader election process and tracking the status of the Kafka cluster.
Kafka uses a publish-subscribe messaging model, in which producers publish messages to topics, and consumers subscribe to those topics to receive the messages. Topics are divided into partitions, allowing for parallel processing of messages by multiple consumers.
Each partition has a leader and one or more replicas. The leader is responsible for handling all read and write requests for that partition, while the replicas are kept in sync with the leader to provide fault tolerance.
Kafka also provides support for consumer groups, allowing multiple consumers to work together to consume messages from a topic. Consumers in the same group share the work of consuming messages from different partitions, providing horizontal scalability and fault tolerance.
Overall, the Kafka architecture is designed to provide a scalable, fault-tolerant, and high-performance messaging system that can handle large volumes of data in real-time. Its distributed design, parallel processing capabilities, and support for consumer groups make it a powerful tool for building data-intensive applications.
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