Comparisons
Qdrant vs OpenSearch

Qdrant vs. OpenSearch

Compare Qdrant vs. OpenSearch by the following set of capabilities. We want you to choose the best database for you, even if it’s not us.

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Qdrant vs. OpenSearch on Scalability

QdrantOpenSearch

Separation of storage and compute

❌

Separation of query and insertions

No. Only scale at the server level.

Yes.

Multi-replication

✔️

❌

Dynamic segment placement vs. static data sharding

Static sharding

Both

Cloud-native

✔️

❌

Billion-scale vector support

✔️

❌

Qdrant scalability

With static sharding, if your data grows beyond the capacity of your server, you will need to add more machines to the cluster and re-shard all of your data. This can be a time-consuming and complex process. Additionally, imbalanced shards can introduce bottlenecks and reduce the efficiency of your system.

OpenSearch

OpenSearch supports horizontal scaling, cluster management optimizations, and efficient shard allocation, making it suitable for handling large datasets and high query loads effectively.

Qdrant vs. OpenSearch on Functionality

Performance is the biggest challenge with vector databases as the number of unstructured data elements stored in a vector database grows into hundreds of millions or billions, and horizontal scaling across multiple nodes becomes paramount.

Furthermore, differences in insert rate, query rate, and underlying hardware may result in different application needs, making overall system tunability a mandatory feature for vector databases.

QdrantOpenSearch

Role-based Access Control (RBAC)

No. Authentication only

❌

Disk Index support

✔️

❌

Hybrid Search (ie Scalar filtering)

Yes. Sparse & Dense Vectors and Scalar filtering.

yes, vector search & keyword search & scalar filtered search

Partitions/namespaces/logical groups

❌

Index type supported

1 (HNSW)

ANN

Multiple in-memory indexes support

❌

Qdrant functionality

Qdrant uses three types of indexes to power the database. The three indexes are a Payload index, similar to an index in a conventional document-oriented database, a Full-text index for string payload, and a vector index. Their hybrid search approach is a combination of vector search with attribute filtering.

OpenSearch

OpenSearch supports:

Vectors with up to 16,000 dimensions.
Vector generation through external libraries or directly within OpenSearch.
Both binary and dense vectors.
Cosine Similarity, Inner Product, and L2 Distance (Euclidean).
Integration with multiple engines, including NMSLIB, Faiss, and Lucene, to facilitate vector indexing and searching.

Qdrant vs. OpenSearch on Purpose-built

What’s your vector database for?

A vector database is a fully managed solution for storing, indexing, and searching across a massive dataset of unstructured data that leverages the power of embeddings from machine learning models. A vector database should have the following features:

Scalability and tunability
Multi-tenancy and data isolation
A complete suite of APIs
An intuitive user interface/administrative console

QdrantOpenSearch

Purpose-built for Vectors

✔️

No. Vector search is an add-on to OpenSearch.

Tunable consistency

❌

Support for both stream and batch of vector data

❌

Binary Vector support

❌

Multi-language SDK

Python, Go, Rust

Java, Python, JavaScript, Go, and .Net

Database rollback

❌

Qdrant vs. OpenSearch: what’s right for me?

Qdrant

Open source Qdrant is maintained by the commercial company offering a cloud version of Qdrant.

License: Apache-2.0 license

OpenSearch

OpenSearch is an open-source software suite for search, analytics, security monitoring, and observability applications. It is not purpose-built for vector storage and search workloads but introduces a vector search plugin to provide this capability. Amazon OpenSearch Service is an AWS-managed service for OpenSearch.

Apache 2.0