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Kuldeep Singh
Kuldeep Singh

Posted on • Originally published at programmingeeksclub.com

Why Go is the Future of Backend Development

In recent years, popularity of the Go programming language has increased rapidly. Originally developed by Google, Go has quickly become one of the most popular languages for backend development, particularly in the development of distributed systems and microservices. In this article, We will discuss the reasons why Go is the future of backend development.

Introduction of Go

Go, also known as Golang, is an open source programming language developed by Google in 2007. It has been gaining popularity in recent years as a powerful and efficient language for backend development. One of the main reasons for its popularity is its performance and speed.

1. Speed and Efficiency Of Go

One of the primary reasons why Go has emerged as a popular programming language for backend development is, It’s speed and efficiency.

Go was designed from the ground up to be a fast and efficient programming language, Making it ideal for building backend systems that can handle a high volume of requests.

Go achieves its speed and efficiency through several features, including its built-in Garbage Collector, low-level memory management, and compiler optimizations. These features allow Go to achieve excellent performance without sacrificing safety or productivity.

The Garbage Collector in Go is highly optimized and runs concurrently with the program, which means that it does not cause pauses in the application. This is critical for backend systems that need to handle a high volume of requests and must remain responsive at all the times.

Go’s low-level memory management is another factor that contributes to its speed and efficiency. Unlike many other high-level programming languages, Go allow developers to control memory allocation and deallocation directly. This level of control enables developers to optimize the use of memory in their applications and avoid the overhead associated with garbage collection in other languages.

The Go compiler is also highly optimized and includes features like escape analysis and inlining, which can significantly improve the performance of the resulting code. These optimizations enable Go to achieve faster startup times and overall performance compared to other high-level programming languages like Python or Ruby.

In addition to these features, Go also has a lightweight syntax that makes it easy to write clean and concise code. This simplicity enables developers to write code faster and reduces the likelihood of errors, resulting in more efficient and reliable backend systems.

Overall, Go’s speed and efficiency make it an excellent choice for building high-performance backend systems that can handle a high volume of requests. Its optimized garbage collector, low-level memory management, and compiler optimizations, along with its lightweight syntax, provide developers with the tools they need to build fast and reliable systems.

2. Concurrency and Scalability

Concurrency and scalability are two of the most critical features of any modern backend system. A scalable backend should be able to handle increasing number of requests without impacting performance, while a concurrent backend can execute multiple tasks simultaneously, Improving overall efficiency.

We will explore how Go’s unique approach to concurrency and scalability makes it an excellent choice for building modern backend systems.

First let’s understand the concurrency first:

Concurrency in Go

Go was designed from the ground up to support concurrency, Making it one of the most popular programming languages for building concurrent applications and servers. Go’s approach to concurrency is based on the concept of goroutines, which are lightweight threads that allow multiple tasks to be executed simultaneously.

Here is an example of how goroutines work in Go:

package main

import "fmt"

func main() {
   go func() {
      fmt.Println("Goroutine 1")
   }()

   go func() {
      fmt.Println("Goroutine 2")
   }()

   time.Sleep(time.Second)
}
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In this example, we defined two goroutines that prints a message to the console(terminal). The time.Sleep(time.Second) statement is added to keep the main thread alive until both goroutines have finished executing. When we run this program, we will see both messages printed to the console.

Goroutine 2
Goroutine 1
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Output of the code is not fixed because of it’s concurrent behaviour.

This is just a simple example, but it demonstrates the power of goroutines. Goroutines are lightweight, so we can create thousands of them without significantly impacting performance. This makes Go an excellent choice for building concurrent applications.

Scalability in Go

Go’s approach to concurrency makes it an excellent choice for building scalable backend systems. In Go, we can use the same approach we used for goroutines to build scalable backend systems. We can create multiple goroutines to handle requests, ensuring that the backend can handle a large number of requests without impacting performance.

Here is an example of how we can build a scalable backend in Go:

package main

import "net/http"

func main() {
   http.HandleFunc("/", func(w http.ResponseWriter, r *http.Request) {
      go func() {
         // Handle request
      }()
   })

   http.ListenAndServe(":8080", nil)
}
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In this example, we created a simple HTTP server that can handle requests. When a request is received, We create a new goroutine to handle it. This ensures that we can handle multiple requests simultaneously, making our backend system highly scalable.

Go’s unique approach to concurrency and scalability makes it an excellent choice for building modern backend systems. Its support for goroutines and lightweight threads makes it easy to build highly concurrent applications, while its scalability makes it an ideal choice for building large-scale backend systems.

Go’s simplicity and ease of use make it an excellent choice for both experienced and inexperienced developers. Its in-built garbage collection, support for concurrency and networking, and simple deployment options make it an ideal choice for building high-performance web applications and services.

Overall, Go is an excellent language for building modern backend systems, and its growing popularity is a testament to its unique approach to solving common problems in backend development. If you are looking to build a highly concurrent and scalable backend, Go is definitely worth considering.

3. Microservices and Deployment

Microservices are a popular architectural pattern for building modern backend systems. The idea behind the microservices is to break down large monolithic applications into smaller, independently deployable services that can communicate with each other through APIs. This approach provides several benefits, including improved scalability, agility, and resilience.

Go is an excellent language for building microservices due to its simplicity, performance, and support for concurrency. In this section, we will explore how Go’s unique approach to microservices and deployment makes it, an excellent choice for building modern backend systems.

Creating Microservices in Go

Creating microservices in Go is relatively straightforward. We can create individual services as separate packages or executables, and each service can communicate with other services through APIs. This approach makes it easy to test and deploy individual services independently, allowing for rapid development and deployment of new features.

Here is an example of a simple microservice in Go:

package main

import (
    "encoding/json"
    "fmt"
    "net/http"
)

func main() {
    http.HandleFunc("/ping", func(w http.ResponseWriter, r *http.Request) {
        response := map[string]string{"message": "Hello, World!"}
        json.NewEncoder(w).Encode(response)
    })

    http.ListenAndServe(":8080", nil)
}
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In this example, we created a simple microservice that returns a JSON response containing a “message” field with the value “Hello, World!”. We then used the http package to listen for incoming requests on port 8080. This microservice can be deployed and scaled independently, allowing for rapid development and deployment of new features as per requirement.

Deployment of Microservices in Go

Deployment of microservices in Go is relatively easy due to the language’s support for cross-compilation and static linking, This means that we can compile our microservices for a particular platform and distribute them as self-contained executables, making it easy to deploy them to a variety of environments.

Here is an example of how we can compile and deploy a microservice for a Linux environment:

$ GOOS=linux GOARCH=amd64 go build -o hello-world-linux-amd64
$ scp hello-world-linux-amd64 user@server:/path/to/deployment/folder
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In this example, we used the GOOS and GOARCH environment variables to specify that we want to compile our microservice for a Linux environment running on an AMD64 architecture. We then used the go build command to compile our microservice and save it as an executable. Finally, we use the scp command to copy the executable to our deployment folder on the server.

This article is originally published on programmingeeksclub.com, you can also read full article there as well.

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