Deployment Planning for Cloudera Search
- Review the CDH 5 and Cloudera Manager 5 Requirements and Supported Versions.
- Decide whether to install Cloudera Search by using Cloudera Manager or by using package management tools.
- Select the machines on which you want to install Cloudera Search, as well as any other services you are collocating with Search.
- Identify the tasks and workloads you need to manage and the types of data you need to search. This information can help guide the deployment process.
Choosing Where to Deploy the Cloudera Search Processes
You can collocate Solr Server roles with YARN NodeManager and HDFS DataNode roles. When collocating with NodeManager roles, make sure that machine resources are not oversubscribed.
Guidelines for Deploying Cloudera Search
Memory Considerations
CDH initially deploys Solr with a Java virtual machine (JVM) size of 1 GB, but this is insufficient for most use cases. Consider the following when determining an optimal JVM size for production usage:
- The more searchable data you have, the more memory you need. In general, 10 TB of searchable data requires more memory than 1 TB of searchable data.
- Indexing more fields requires more memory. For example, indexing all fields in a collection of logs, email messages, or Wikipedia entries requires more memory than indexing only the Date Created field.
- If the system must be stable and respond quickly, more memory might help. If slow responses are acceptable, you might be able to use less memory.
To ensure an appropriate amount of memory, consider your requirements and experiment in your environment. In general:
- Machines with 16 GB RAM are sufficient for some smaller loads or for evaluation.
- Machines with 32 GB RAM are sufficient for some production environments.
- Machines with 96 GB RAM are sufficient for most situations.
Deployment Guidelines
Consider the information in this topic as guidance instead of absolute requirements. You can use a sample application to benchmark different use cases and data types and sizes to help you identify the most important performance factors.
To determine how best to deploy Search in your environment, define use cases. The same Solr index can have different hardware requirements, depending on the types of queries performed. The most common variation in hardware requirements is memory. For example, the memory requirements for faceting vary depending on the number of unique terms in the faceted field. Suppose you want to use faceting on a field that has 10 unique values. In this case, only 10 logical containers are required for counting. No matter how many documents are in the index, memory overhead is almost nonexistent.
Conversely, the same index could have unique timestamps for every entry, and you want to facet on that field with a : -type query. In this case, each index requires its own logical container. With this organization, if you had a large number of documents—500 million, for example—then faceting across 10 fields would increase the RAM requirements significantly.
For this reason, you must consider use cases and data characteristics before you can estimate hardware requirements. Important parameters to consider are:
- Number of documents. For Cloudera Search, sharding is almost always required.
- Approximate word count for each potential field.
- What information is stored in the Solr index and what information is only for searching? Information stored in the index is returned with the search results.
- Foreign language support:
- How many different languages appear in your data?
- What percentage of documents are in each language?
- Is language-specific search supported? This determines whether accent folding and storing the text in a single field is sufficient.
- What language families will be searched? For example, you could combine all Western European languages into a single field, but combining English and Chinese into a single field is not practical. Even with similar languages, using a single field for different languages can be problematic. For example, sometimes accents alter the meaning of a word, and in such cases, accent folding loses important distinctions.
- Faceting requirements:
- Be wary of faceting on fields that have many unique terms. For example, faceting on timestamps or free-text fields typically has a high cost. Faceting on a field with more than 10,000 unique values is typically not useful. Ensure that any such faceting requirement is necessary.
- What types of facets are needed? You can facet on queries as well as field values. Faceting on queries is often useful for dates. For example, “in the last day” or “in the last week” can be valuable. Using Solr Date Math to facet on a bare “NOW” is almost always inefficient. Facet-by-query is not memory-intensive because the number of logical containers is limited by the number of queries specified, no matter how many unique values are in the underlying field. This can enable faceting on fields that contain information such as dates or times, while avoiding the problem described for faceting on fields with unique terms.
- Sorting requirements:
- Sorting requires one integer for each document (maxDoc), which can take up significant memory. Additionally, sorting on strings requires storing each unique string value.
- Paging requirements. End users rarely look beyond the first few pages of search results. For use cases requiring deep paging (paging through a large number of results), using cursors can improve performance and resource utilization. For more information, see Pagination of Results on the Apache Solr wiki. Cursors are supported in CDH 5.2 and higher.
- Is advanced search capability planned? If so, how will it be implemented? Significant design decisions depend on user requirements:
- Can users be expected to learn about the system? Advanced screens can intimidate e-commerce users, but these screens can be more effective if users can be expected to learn them.
- How long will users wait for results? Data mining or other design requirements can affect response times.
- How many simultaneous users must your system accommodate?
- Update requirements. An update in Solr refers both to adding new documents and changing existing documents:
- Loading new documents:
- Bulk. Will the index be rebuilt from scratch periodically, or will there only be an initial load?
- Incremental. At what rate will new documents enter the system?
- Updating documents:
- Can you characterize the expected number of modifications to existing documents?
- How much latency is acceptable between when a document is added to Solr and when it is available in Search results?
- Loading new documents:
- Security requirements. Solr has no built-in security options, although Cloudera Search supports authentication using Kerberos and authorization using
Sentry. In Solr, document-level security is usually best accomplished by indexing authorization tokens with the document. The number of authorization tokens applied to a document is largely
irrelevant; for example, thousands are reasonable but can be difficult to administer. The number of authorization tokens associated with a particular user should be no more than 100 in most cases.
Security at this level is often enforced by appending an fq clause to the query, and adding thousands of tokens in an fq clause is
expensive.
- A post filter, also known as a no-cache filter, can help with access schemes that cannot use an fq clause. These are not cached and are applied only after all less-expensive filters are applied.
- If grouping, faceting is not required to accurately reflect true document counts, so you can use some shortcuts. For example, ACL filtering is expensive in some systems, sometimes requiring database access. If completely accurate faceting is required, you must completely process the list to reflect accurate facets.
- Required query rate, usually measured in queries-per-second (QPS):
- At a minimum, deploy machines with sufficient hardware resources to provide an acceptable response rate for a single user. Some types of queries can utilize the system so much that performance for even a small number of users is unacceptable. In this case, resharding can help.
- If QPS is only somewhat lower than required and you do not want to reshard, you can often improve performance by adding replicas to each shard.
- As the number of shards in your deployment increases, the general QPS rate starts to slowly decrease. This typically occurs when there are hundreds of shards.