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deepstream.io vs NSQ

This deepstream.io vs NSQ comparison was created based on reviews from developers and our best attempts to perform analysis by looking at documentation and other publicly available resources.

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deepstream.io

NSQ

Getting started and developer experience

Time to "hello world"

Reviewed by 3+ independent developers

Ratings were given based on the average amount of time it takes to sign up to a new account and publish the first message.

4 / 5

5 = <30 min
4 = 30 min - 1 h
3 = 1-2 h
2 = 2-4 h
1 = 4+ h

View code example
4 / 5

5 = <30 min
4 = 30 min - 1 h
3 = 1-2 h
2 = 2-4 h
1 = 4+ h

View code example

Demos / Tutorials

A selection of online demos and tutorials so you can test and see the code in action.

Explore Ably's tutorials for our pub/sub messaging platform

Documentation

Reviewed by 3+ independent developers

Explore Ably's documentation for our pub/sub messaging platform
4 / 5

Getting started guides4 / 5

Information architecture and developer journey3 / 5

API reference documentation4 / 5

Readability, design and navigation4 / 5

Quality of code5 / 5

Breadth and quality of tutorials4 / 5

The deepstream.io documentation is nicely written and features several components: GitHub, guides, tutorials, docs, blog, and miscellaneous info, such as FAQs. There’s a Getting Started guide using HTTP API, JavaScript Client API, and Java Client API, with code snippets throughout. The API reference is detailed for each SDK and information architecture is pretty nice. Most sections of the documentation are well cross-linked; however, the navigation experience could be improved, especially around the API reference – some links return 404. Also, some documentation pages need to be revamped. The documentation provides tutorials for most deepstream.io features but unfortunately, there’s no demos. The documentation for the core features (data-sync, records, auth, permissions, events, rpc, etc.) is well written, but could be more detailed.

3.67 / 5

Getting started guides4 / 5

Information architecture and developer journey3 / 5

API reference documentation4 / 5

Readability, design and navigation4 / 5

Quality of code4 / 5

Breadth and quality of tutorials3 / 5

O: “Documentation is detailed and clear, the start up guide is simple to follow. There could be more examples of usages added.”.

W: “There is a lot of information available and the  documentation is easy to navigate. However i think there could be some more detailed tutorials and a more informative introduction.”.

P: “The quick start is easy to follow and understand. The architecture documentation is thorough. There could be more tutorials.”

Dashboard or dev console

Reviewed by 3+ independent developers

Sign up for free and explore Ably's pub/sub messaging platform
4 / 5

Ease of use3 / 5

Stats and reports4 / 5

Functionality5 / 5

The deepstream.io dashboard might be a bit overwhelming to use or understand without documentation. The dashboard allows you to explore realtime data, configure permission, as well as view important metrics over time such as total messages used, active connections, cluster size, and CPU usage.

The UI design is a bit outdated and could perhaps benefit from a revamp.

3.67 / 5

Ease of use5 / 5

Stats and reports3 / 5

Functionality3 / 5

O: “The admin dashboard allows you to manage and configure your topics. It has a clear interface and offers the ability to list information about each topic as well as perform a list of actions on them.”.

W: “The admin dashboard is intuitive and it gives you the ability to manage your channels and queues and also see statistics for them. The dashboard looks a little basic but it’s easy to use and covers what you need.”

P: “The dashboard gives you an overview over your topics, streams, nodes and metrics. It lets you manage your queues and topics.  Gives you metrics on the number of messages a node has handled.”

SDKs

Note: Only official SDKs were taken into account.

Explore Ably's 25+ SDKs for our pub/sub messaging platform

3 SDKs

Including:

  • JavaScript 

  • Java

  • Android

40 SDKs

Including:

  • Go

  • Python

  • Javascript

API structure

Reviewed by 3+ independent developers

3 / 5

API consistency across SDKs3 / 5

Well structured4 / 5

Intuitive2 / 5

Simple3 / 5

deepstream.io tries to keep its APIs as consistent as possible across SDKs on the client side. However, the APIs are quite complex and counter-intuitive – too many methods make it not straightforward to perform operations in the same order. There’s a separate reference page for each API, which is not great. Developers need to take their time to go through the API reference to be able to use them properly. Documentation and tutorials are helpful in this regard.

4.50 / 5

API consistency across SDKs4 / 5

Well structured5 / 5

Intuitive5 / 5

Simple4 / 5

O: The API is straightforward. It is consistent for the official SDKs. However, some of the unofficial SDKs are missing support for pub/sub”.

W: “The API is fairly consistent between the SDKs and it is structured in an intuitive way. The API endpoints are mostly self-explanatory and it is easy to understand what they will accomplish.”.

P: “There exists a vast amount of SDKs.  The official client libraries are consistent, but in the unofficial libraries, there are inconsistencies between features. The naming conventions in the SDKs are intuitive and easy to follow.”

deepstream.io

NSQ

"Hello world" code example
// Client A
function eventCallback (data) {
    //callback for incoming events 
}

//Subscribing to an event 
client.event.subscribe ('news/sports' , eventCallback)

//Removing specific callback to the event
client.event.unsubscribe ('news/sports' , eventCallback)

//Removing all subscriptions to the event
client.event.unsubscribe ('news/sports')

// Client B
client.event.emit ('news/sports' , 'football is happening' )

// Client B
client.event.listen ('^news /.*' , (match, response) => {
    console.log(match) // 'news/sports'
    if (/* if you want to provide */) { 
        // start publishing data via ` client.event.emit(eventName, /* data */)`
        response.accept()

        response.onStop(() => {
            // stop publishing data
        }) 
    } else {
        response.reject() // let deepstream ask another provider
    }
})
// Create reader
const nsq = require('nsqjs')

const reader = new nsq.Reader('sample_topic', 'test_channel', {
  lookupdHTTPAddresses: '127.0.0.1:4161'
})

reader.connect()

reader.on('message', msg => {
  console.log('Received message [%s]: %s', msg.id, msg.body.toString())
  msg.finish()
})

// Create writer
const nsq = require('nsqjs')
const w = new nsq.Writer('127.0.0.1', 55004)

w.connect()

w.on('ready', () => {
  w.publish('sample_topic', 'Test message')
})

w.on('closed', () => {
  console.log('Writer closed')
})

deepstream.io

NSQ

Realtime features

Pub/Sub messaging

Pub/Sub is a design pattern that lets any number of publishers (producers) push messages to channels (also known as topics). Multiple subscribers (consumers) can subscribe to a channel to consume published messages.

Explore Ably's pub/sub messaging implementation

Message queues

A message queue is a form of asynchronous service-to-service communication. Messages are stored on a queue until they are processed. Note that each message is only consumed by one subscriber (consumer).

Explore Ably's message queues implementation

Presence

Presence enables you to track the online and offline status of devices and end-users in real time and to store their state. Essential for chat apps and multiplayer games.

Explore Ably's presence implementation

Message history

Message history provides a means to retrieve previously published messages. For this to be possible, message data must be stored (persisted) somewhere.

Explore Ably's message history implementation

Limited

The --mem-queue-size can be increased and messages can be written to disk; however, this is mainly an in-memory messaging platform.

Connection state recovery (stream resume)

In the case of unreliable network conditions, clients may suddenly disconnect.Connection state recovery ensures that when they reconnect, the data stream resumes exactly where it left off.

Explore Ably' s connection state recovery implementation

Guaranteed message ordering

Ordering ensures that messages are delivered to consumers in the same order that producers publish them.

Explore Ably' s guaranteed message ordering implementation

Exactly-once semantics

Exactly-once is a system-wide data integrity guarantee that ensures each message is delivered to consumers exactly-once.

Explore Ably' s idempotent publishing implementation

Limited 

The only guarantee is that messages will be delivered at least once. However, it is possible to obtain idempotency with some client configuration.

Message delta compression

Message delta compression enables you to only send the changes from the previous message to subscribers each time there’s an update, instead of the entire message. Useful for use cases where there is a significant degree of similarity between successive messages.

Explore Ably' s message delta compression implementation

Native push notifications

Native push notifications can be used to deliver messages even when clients are offline. Useful for geolocation updates or news alerts.

Explore Ably's push notifications implementation

Webhooks

Webhooks provide a mechanism to get messages and other types of events (such as clients entering or leaving channels) pushed to your servers over HTTP.

Explore Ably's webhooks implementation

Limited

deepstream.io only uses webhooks for user authentication.

Serverless functions

A serverless function is essentially an isolated, single-purpose piece of code that is only executed when it’ triggered by an event. For example, you can use serverless functions to send a welcome message to clients when they become present on chat channels.

Note that serverless functions are usually fully managed by cloud vendors.

Explore Ably's serverless functions implementation

Built-in integrations

Which popular services & systems are deepstream.io and NSQ integrated with?

Explore Ably's library of integrations

Webhooks

  • Custom
  • IFTTT
  • Zapier

Serverless functions

  • AWS Lambda
  • Cloudflare Workers
  • Google Cloud Functions
  • Microsoft Azure Functions

Streaming

  • Apache Kafka
  • Apache Pulsar
  • Amazon Kinesis
  • Amazon SQS
  • RabbitMQ
  • AMQP

Webhooks

  • Custom
  • IFTTT
  • Zapier

Serverless functions

  • AWS Lambda
  • Cloudflare Workers
  • Google Cloud Functions
  • Microsoft Azure Functions

Streaming

  • Apache Kafka
  • Apache Pulsar
  • Amazon Kinesis
  • Amazon SQS
  • RabbitMQ
  • AMQP

Known limits and constraints

Find out practical limits, such as the maximum message size, or the maximum number of concurrent connections.

Explore the practical limits of the Ably pub/sub messaging platform

Publisher throughput 

160.000-200.000 updates per second for Single Node

4,000,000,000 messages per hour for Cluster

Maximum message size

1MB 

Maximum number of topics

Unknown

Maximum number of connections

250 for Single Node

750 for Cluster

Publisher throughput 

Unknown

Maximum message size

Unknown

Maximum number of topics

Unknown

Maximum number of connections

Unknown

Supported development platforms, languages, open protocols and cloud models

Development platforms & operating systems

Which popular development platforms and operating systems do deepstream.io and NSQ support via official SDKs?

Explore the development platforms supported by Ably
  • Android
  • Java / JVM
  • iOS
  • macOS
  • iPadOS
  • tvOS
  • watchOS
  • Mono
  • .NET
  • Android
  • Java / JVM
  • iOS
  • macOS
  • iPadOS
  • tvOS
  • watchOS
  • Mono
  • .NET

Languages

Which popular programming languages do deepstream.io and NSQ support via offical SDKs?

Explore the programming languages supported by Ably
  • JavaScript
  • Node.js
  • TypeScript
  • Java
  • Objective-C
  • Swift
  • Go
  • PHP
  • Python
  • Ruby
  • Flutter
  • Clojure
  • Scala
  • JavaScript
  • Node.js
  • TypeScript
  • Java
  • Objective-C
  • Swift
  • Go
  • PHP
  • Python
  • Ruby
  • Flutter
  • Clojure
  • Scala

Open protocols

Which popular open protocols do deepstream.io and NSQ support?

Explore the open protocols supported by Ably
  • WebSocket
  • HTTP / REST
  • AMQP
  • MQTT
  • STOMP
  • SSE
  • Webhooks
  • WebSocket
  • HTTP / REST
  • AMQP
  • MQTT
  • STOMP
  • SSE
  • Webhooks

Cloud models

Which popular cloud models do deepstream.io and NSQ support?

  • Self-hosted
  • Cloud-managed
  • Serverless
  • Globally-distributed
  • Self-hosted
  • Cloud-managed
  • Serverless
  • Globally-distributed
Global and reliable edge service

Edge messaging network with latency-based routing

Latency-based routing ensures that clients are always routed to the nearest datacenter and point of presence.

Explore Ably's routing mechanism that mitigates network and DNS issues

Multi-region data replication (message durability)

Multi-region data replication (storage) protects against single points of failure and ensures message data durability.

Learn how Ably ensures message durability

Limited

deepstream.io stores data in a combination of storage and cache layers for distribution across multiple nodes. However this platform also relies on shared devices such as a Redis for a message bus which itself (Redis layer) might become a point of failure and congestion.

Limited

It is possible to set up redundant nsqd pairs that will receive the same portion of messages.

Uptime SLAs

Here’s what the most common SLAs amount to in terms of downtime over a calendar year:

99.999% SLA = 5m 15s downtime per year

99.99% SLA = 52m 35s downtime per year

99.95% SLA = 4h 22m 58s downtime per year

99.9% SLA = 8h 45m 56s downtime per year

99% SLA = 3d 15h 39m 29s downtime per year

Source: https://uptime.is/

No specific uptime SLA

N/A

Quality of Service

What QoS guarantees do deepstream.io and NSQ provide natively?

Explore Ably's availability and uptime guarantees for our pub/sub messaging platform
  • Multi-region data replication (storage)
  • Exactly-once semantics
  • Guaranteed message ordering
  • Connection state recovery (stream resume)
  • Multi-region data replication (storage)
  • Exactly-once semantics
  • Guaranteed message ordering
  • Connection state recovery (stream resume)
Security

API key authentication

The simplest way to authenticate. Involves using private API keys that you can usually create and edit via a dashboard. Recommended to be used server-side, as private API keys shouldn’t be shared with untrusted parties.

Explore Ably's implementation of API key authentication

N/A

Token-based authentication

Which popular token-based authentication mechanisms do deepstream.io and NSQ support?

Note that token-based authentication is usually the recommended strategy on the client-side as it provides more fine-grained access control and limits the risk of credentials being compromised.

Explore Ably's implementation of token-based authentication
  • Ephemeral tokens
  • JWTs
  • Ephemeral tokens
  • JWTs

Configurable rules and permissions

Which types of configurable rules and permissions do deepstream.io and NSQ support?

Explore Ably's configurable rules and permissions
  • API keys rules and permissions
  • Operation rules and permissions
  • Admin rights
  • API keys rules and permissions
  • Operation rules and permissions
  • Admin rights

Message encryption

Which types of message encryption do deepstream.io and NSQ support?

Explore Ably's message encryption mechanisms
  • Encrypted at rest
  • Encrypted in transit
  • Message payload encryption
  • Encrypted at rest
  • Encrypted in transit
  • Message payload encryption

Formal certifications

Which formal certifications are deepstream.io and NSQ compliant with?

Explore Ably's security and compliance for our pub/sub messaging platform
  • SOC 2 TYPE I
  • SOC 2 Type II
  • HIPAA
  • ISO 27001
  • EU GDPR
  • SOC 2 TYPE I
  • SOC 2 Type II
  • HIPAA
  • ISO 27001
  • EU GDPR
Pricing & Support

Free package

What do the free packages offered by deepstream.io and NSQ consist of?

Explore Ably's free package for our pub/sub messaging platform

N/A

N/A

Pricing model

How are the deepstream.io and NSQ pricing models calculated?

Explore Ably's pricing model for our pub/sub messaging platform

deepstream.io pricing is usage-based and calculated per hour.

$0.052 per hour for a six-instance cluster on AWS EC2  t2.medium

$0.008 per hour for a single node on cache.t2.medium

It’s unclear how pricing is calculated for the Enterprise package.

N/A

Enterprise package

What benefits do the deepstream.io and NSQ enterprise packages offer?

Explore Ably's enterprise package for our pub/sub messaging platform

No Enterprise package is explicitly specified. However, it can be obtained by contacting the vendor directly.

N/A

Community

Reviewed by 3+ independent developers

Explore Ably's community support channel for our pub/sub messaging platform
5 / 5

Presence on multiple channels5 / 5

Size and activity5 / 5

deepstream.io has a strong community presence on various channels, such as Stack Overflow, Slack, GitHub, and Twitter. Their community is active, approachable, and helpful, and generates a lot of content: 110 repositories, 6.8K stars, and 383 forks on GitHub. Similarly, there are over 100 questions on Stack Overflow, 690 users on Slack and more than 1000 followers on Twitter. There are no events, and no community presence on Discourse, and Gitter.

3.50 / 5

Presence on multiple channels3 / 5

Size and activity4 / 5

“Nsqio nsq has 19k stars on GitHub. It's where the community resides. Historically the community has been active, but decreasing lately. There are a lot of unofficial SDKs for different languages and over 200 questions on StackOverflow. The latest version was released in August of 2019, therefore it seems like the project is merely being maintained, with no active feature development."

Support

What types of support options and response times do deepstream.io and NSQ offer?

Explore Ably's support options for our pub/sub messaging platform

General Support Options

Email, technical documentation, community support.

Response time

< 24 hours for non-technical queries

< 1 hour for production system down incident (only applies to Enterprise support package)

N/A

Disclaimer: The information presented for deepstream.io was last updated on 28 February 2021 and on 28 February 2021 for NSQ. It is possible that some details may now be out of date. If you think that’s the case, please let us know so we can update them. In any case, you should not rely solely on the information presented here and must check with each provider before deciding to integrate or buy any of these two solutions.