Chapter 1. Deployment Scenarios
Possible Deployment Scenarios
Your particular deployment scenario for installing and configuring HDF components depends on your particular use case:
Use Case | Deployment Scenario | Steps |
---|---|---|
This scenario applies to you if you are both an HDP and HDF customer and you want to install a fresh cluster of HDP and add HDF services. The stream processing components include the new Hortonworks Streaming Analytics Manager (SAM) and all of its modules. This includes installing the technical preview version of the SAM Stream Insight module, which is powered by Druid and Apache Superset. This requires that you install both an HDF cluster and an HDP cluster. |
| |
This scenario applies if you want to install the entire HDF platform, consisting of all flow management and stream processing components on a new cluster. The stream processing components include the new Streaming Analytics Manager (SAM) modules that are in GA (General Availability). This includes the the SAM Stream Builder and Stream Operations modules but does not include installing the technical preview version of SAM Stream Insight, which is powered by Druid and Superset. This requires that you install an HDF cluster. |
| |
You have an existing HDP cluster with Apache Storm and or Apache Kafka services and want to install Apache NiFi or SAM modules on that cluster. This requires that you upgrade to the latest version of Apache Ambari and HDP, and then use Ambari to add HDF services to the upgraded HDP cluster. |
| |
Performing any of the previous deployments by using a local repository See Using Local Repositories in the instructions appropriate for your scenario. |
Local repositories are frequently used in enterprise clusters that have limited outbound internet access. In these scenarios, having packages available locally provides more governance and better installation performance. This requires that you perform several steps to create a local repository and prepare the Ambari repository configuration file. |
|
HDF Cluster Types and Recommendations
Cluster Type | Description | Number of VMs or Nodes | Node Specification | Network |
---|---|---|---|---|
Single VM HDF Sandbox | Evaluate HDF on local machine. Not recommended to deploy anything but simple applications. | 1 VM | At least 4 GB RAM | |
Evaluation Cluster |
Evaluate HDF in a clustered environment. Used to evaluate HDF for simple data flows and streaming applications. | 3 VMs or nodes |
| |
Small Development Cluster | Use this cluster in development environments. | 6 VMs/Nodes |
| |
Medium QE Cluster | Use this cluster in QE environments. | 8 VMs/Nodes |
| |
Small Production Cluster | Use this cluster in small production environments. | 15 VMs/Nodes |
| 1 GB Bonded Nic |
Medium Production Cluster | Use this cluster in a medium production environment. | 24 VMs/Nodes |
| 10 GB bonded network interface card (NIC) |
Large Production Cluster | Use this cluster in a large production environment. | 32 VMs/Nodes |
| 10 GB Bonded Nic |
More Information
Production Cluster Guidelines
General guidelines for production guidelines for service distribution:
NiFi, Storm, and Kafka should not be located on the same node or virtual machine.
NiFi, Storm, and Kafka must have a dedicated ZK cluster with at least three nodes.
If the HDF SAM is being used in an HDP cluster, the SAM should not be installed on the same node as the Storm worker node.
The following diagram illustrates how services could be distributed for a small production cluster across 15 nodes:
Hardware Sizing Recommendations
Recommendations for Kafka
Kafka Broker Node: eight cores, 64 GB to128 GB of RAM, two or more 8-TB SAS/SSD disks, and a 10-Gige Nic.
Minimum of three Kafka broker nodes
Hardware Profile: More RAM and faster speed disks are better; 10 Gige Nic is ideal.
75 MB/sec per node is a conservative estimate (can go much higher if more RAM and reduced lag between writing/reading and therefore 10GB Nic is required).
With a minimum of three nodes in your cluster, you can expect 225 MB/sec data transfer.
You can perform additional urther sizing by using the following formula:
num_brokers = desired_throughput (MB/sec) / 75
Recommendations for Storm
Storm Worker Node: 8 core, 64 GB RAM, 1 Gige Nic
Minimum of 3 Storm worker nodes
Nimbus Node: Minimum 2 nimbus nodes, 4 core, 8 GB RAM
Hardware profile: disk I/O is not that important; more cores are better.
50 MB/sec per node with low to moderate complexity topology reading from Kafka and no external lookups. Medium-complexity and high-complexity topologies might have reduced throughput.
With a minimum 2 nimbus, 2 worker cluster, you can expect to run 100 MB/sec of low to medium complexity topology.
Further sizing can be done as follows. Formula: num_worker_nodes = desired_throughput(MB/sec) / 50
Recommendations for NiFi
NiFi is designed to take advantage of:
all the cores on a machine
all the network capacity
all the disk speed
many gigabytes of RAM (although usually not all) on a system
Hence, it is important that NiFi be running on dedicated nodes. Following are the recommended server and sizing specifications for NiFi:
Minimum of 3 nodes
8+ cores per node (more is better)
6+ disks per node (SSD or Spinning)
At least 8 GB
If you want this sustained throughput… | Then provide this minimum hardware ... |
---|---|
50 MB and thousands of events per second |
|
100 MB and tens of thousands of events per second |
|
200 MB and hundreds of thousands of events per second |
|
400 to 500 MB/sec and hundreds of thousands of events per second |
|