---
url: "https://xcademia.com/news/google-cloud-launches-c4n-network-optimized-compute-engine-delivers-up-to-400-gbps-networking-and-1m-iops"
title: "Google Cloud Launches C4N: Network-Optimized Compute Engine Delivers Up to 400 Gbps Networking and 1M IOPS"
description: "Google Cloud launches C4N, its network-optimized Compute Engine VM delivering up to 400 Gbps networking, 1 million IOPS, Hyperdisk performance, and lower TCO for enterprise workloads."
publishedAt: "2026-07-09T09:07:51.741+00:00"
updatedAt: "2026-07-09T09:53:36.667421+00:00"
type: news
category: devops
source_name: Google Cloud Blog
source_url: "https://cloud.google.com/blog/products/compute/c4n-network-and-storage-optimized-vms"
tags:
  - "#GoogleCloud"
  - "#ComputeEngine"
  - "#C4N"
  - "#CloudInfrastructure"
  - "#Hyperdisk"
  - "#EnterpriseNetworking"
  - "#AIInfrastructure"
  - "#IntelXeon"
---

# Google Cloud Launches C4N: Network-Optimized Compute Engine Delivers Up to 400 Gbps Networking and 1M IOPS

> Google Cloud has announced the general availability of C4N, its first network- and storage-optimized Compute Engine VM. Built on Titanium architecture, C4N delivers up to 400 Gbps networking, 1M IOPS, and industry-leading price-performance for enterprise workloads.

Source: **Google Cloud Blog** · 9 July 2026

# 

## Google Cloud Introduces C4N General Availability with Industry-Leading Network and Storage Performance

As enterprise applications become increasingly data intensive, compute power alone is no longer enough. Modern databases, AI inference, cybersecurity appliances, analytics platforms, and telecommunications workloads demand exceptionally high networking throughput and storage performance. Traditional virtual machines often struggle to keep pace, forcing organizations to overprovision compute resources simply to meet I/O requirements.

To address this challenge, Google Cloud has officially announced the **general availability (GA) of C4N**, its first **network- and block-storage-optimized Compute Engine machine family**. Initially unveiled during Google Cloud Next '26, C4N is purpose-built for workloads where networking and storage performance are critical.

Powered by Google's **Titanium offload architecture** and **5th Generation Intel Xeon Scalable (Emerald Rapids) processors**, C4N delivers up to **400 Gbps of networking bandwidth**, **95 million packets per second (MPPS)**, and **1 million Hyperdisk Extreme IOPS**, making it Google's highest-performing x86 virtual machine for network-intensive applications.

## Why Google Built C4N

Enterprise infrastructure has evolved dramatically over the past decade.

Organizations now operate:

- Large-scale distributed databases
- AI and machine learning inference platforms
- High-performance analytics engines
- Software-defined networking
- 5G core infrastructure
- Security appliances
- Real-time streaming applications

These workloads continuously move enormous amounts of data between servers, storage systems, and users.

In many cases, networking performance, not CPU utilisation, becomes the primary bottleneck.

C4N addresses this problem by separating networking and storage processing from application compute through Google's custom **Titanium offload architecture**, allowing CPUs to focus on application execution. At the same time, dedicated hardware manages network and storage operations.

The result is dramatically higher throughput, lower latency, and improved compute efficiency.

![info-1](https://0a515t3ure77wbvx.public.blob.vercel-storage.com/articles/1783586315134-info-1--36-.webp)

## Performance That Redefines Cloud Networking

Google positions C4N as its highest-performing x86 Compute Engine instance for networking workloads.

Key capabilities include:

- Up to **400 Gbps** VM-to-VM network bandwidth
- Up to **200 Gbps** internet egress bandwidth
- Up to **95 million packets per second**
- Up to **50 Gbps** single-flow bandwidth
- Nearly **33% more network bandwidth per vCPU** compared to similar Intel-based hyperscaler offerings
- Up to **224% faster packet processing performance**

Unlike many competing cloud offerings that require premium networking add-ons, C4N delivers these capabilities as standard.

This makes the platform particularly attractive for organizations running bandwidth-intensive applications without additional licensing complexity.

## Built for Modern Enterprise Workloads

C4N is optimized for applications that require predictable high-throughput networking and storage performance.

Ideal workloads include:

**Network and Security Appliances**

- Next-generation firewalls
- Virtual routers
- Load balancers
- DDoS mitigation platforms
- VPN gateways

**Data Platforms**

- Distributed databases
- High-performance file systems
- Data lakes
- Real-time analytics
- Big data processing

**Telecommunications**

Cloud-native 5G Core functions, including User Plane Function (UPF), benefit from C4N's high packet processing capabilities and deterministic networking.

**Artificial Intelligence**

CPU-based AI inference, machine learning pipelines, and distributed AI infrastructure can leverage higher network throughput while efficiently accessing massive datasets.

## Hyperdisk Unlocks Exceptional Storage Performance

Networking alone is only part of the equation.

Storage-intensive applications often require millions of I/O operations per second while maintaining low latency.

When paired with **Hyperdisk Extreme**, C4N delivers Compute Engine's highest block storage performance.

Highlights include:

- Up to **25 GiB/s** storage throughput
- Up to **1 million IOPS**
- Nearly **33% higher storage bandwidth per vCPU**
- Approximately **39% more IOPS** compared with similar Intel-based cloud offerings

Organizations can independently scale storage performance without resizing compute resources, significantly improving infrastructure efficiency.

Google also supports the full Hyperdisk portfolio on C4N:

- Hyperdisk Balanced
- Hyperdisk Balanced High Availability
- Hyperdisk Extreme
- Hyperdisk Throughput
- Hyperdisk ML

This flexibility enables organizations to optimize performance for different workload requirements.

![info-2](https://0a515t3ure77wbvx.public.blob.vercel-storage.com/articles/1783587198565-info-2--15-.webp)

## Faster Networking Across Every Deployment

C4N introduces several networking enhancements beyond raw bandwidth.

**Superior VM-to-VM Performance**

Internal networking scales up to **400 Gbps**, nearly four times the bandwidth per vCPU compared to standard C4 instances.

**Faster Internet Connectivity**

Internet egress bandwidth increases up to **200 Gbps**, while internet packet processing performance improves nearly **32 times**, reaching **48 MPPS**.

**Better Performance for Smaller Instances**

Even compact C4N machine types with only 2 to 16 vCPUs receive dedicated networking performance ranging from **25 Gbps to 50 Gbps**, reducing the need to purchase oversized virtual machines solely for networking capacity.

**Enhanced gVNIC Networking**

Google has also increased the default number of transmit and receive queues available through gVNIC interfaces, improving parallel networking performance without manual tuning.

**Improved Cloud Storage Transfers**

C4N doubles bandwidth when transferring data to and from Google Cloud Storage, benefiting:

- AI training
- Machine learning inference
- Data analytics
- Backup operations
- Large-scale data ingestion

## Real-World Application Performance

Google shared benchmark improvements demonstrating C4N's capabilities across common enterprise workloads.

Examples include:

**Web Serving**

Up to **1.5× more NGINX requests per second** compared with standard C4 virtual machines.

**Database Performance**

Up to **45% higher MySQL queries per second** when datasets primarily reside on disk.

These improvements allow organizations to handle greater workloads while reducing infrastructure costs.

## Customer Success Stories

Several industry leaders are already deploying C4N across demanding enterprise environments.

**Ericsson**

Ericsson uses C4N to power its cloud-native **5G Core-as-a-Service**, achieving **1 Tbps throughput** while maintaining carrier-grade reliability for telecommunications workloads.

**Teradata**

Teradata integrates C4N into its Autonomous Knowledge Platform to improve price-performance for AI, analytics, and mission-critical enterprise databases.

**NetApp**

NetApp is expanding support for C4N to accelerate data-in-place AI and analytics using Google Cloud NetApp Volumes.

**Sycomp**

In internal testing, Sycomp achieved:

- **58.5 GiB/s** read throughput using three storage servers
- **195 GiB/s** read and write throughput using ten storage servers

These results reached approximately **97% of theoretical maximum storage performance**.

**ClipperDB Technologies**

Running industry-standard TPC-DS analytics benchmarks, ClipperDB reported:

- More than **3× lower cost per query**
- Up to **11× faster Spark analytics**

while maintaining full Apache Spark compatibility.

![info-3](https://0a515t3ure77wbvx.public.blob.vercel-storage.com/articles/1783587768137-info-3--13-.webp)

## Flexible Configurations for Every Enterprise

The C4N machine family offers extensive deployment flexibility.

Available configurations include:

- **2 to 192 vCPUs**
- Up to **1.5 TB DDR5 memory**
- High CPU
- Standard
- High Memory
- Local SSD variants

Future enhancements will include:

- Up to **12 TiB Titanium Local SSD**
- Native bare-metal C4N servers
- Expanded service support beyond Compute Engine and Google Kubernetes Engine (GKE)

These options allow organizations to tailor infrastructure for everything from lightweight networking appliances to memory-intensive analytics clusters.

## Lower Total Cost of Ownership

One of C4N's biggest advantages is eliminating unnecessary overprovisioning.

Traditionally, organizations needing higher networking throughput often had to purchase significantly larger virtual machines simply to obtain additional bandwidth.

C4N separates compute performance from networking and storage scaling, enabling organizations to provision resources more precisely.

This results in:

- Better infrastructure utilization
- Lower operational costs
- Reduced cloud spending
- Higher workload density
- Improved performance predictability

For enterprises running large-scale production environments, these efficiencies can substantially reduce the total cost of ownership over time.

## Final Thoughts

The general availability of **Google Cloud C4N** marks an important milestone for infrastructure designed around data movement rather than raw compute alone.

By combining **Titanium offload architecture**, **5th Generation Intel Xeon processors**, **400 Gbps networking**, and **Hyperdisk Extreme**, Google delivers one of the industry's most capable x86 cloud platforms for networking, storage, analytics, AI inference, and telecommunications workloads.

As enterprise applications continue demanding higher throughput with predictable performance, C4N provides organizations with a scalable foundation that improves efficiency, reduces infrastructure bottlenecks, and lowers total cost of ownership across modern cloud deployments.

## Original source

https://cloud.google.com/blog/products/compute/c4n-network-and-storage-optimized-vms

## Tags

`#GoogleCloud` · `#ComputeEngine` · `#C4N` · `#CloudInfrastructure` · `#Hyperdisk` · `#EnterpriseNetworking` · `#AIInfrastructure` · `#IntelXeon`

---

## About this content

This Markdown news article is the citation-grade twin of [Google Cloud Launches C4N: Network-Optimized Compute Engine Delivers Up to 400 Gbps Networking and 1M IOPS](https://xcademia.com/news/google-cloud-launches-c4n-network-optimized-compute-engine-delivers-up-to-400-gbps-networking-and-1m-iops). It is published by **Xcademia** (UK Companies House 12322710) and is available for AI search engines and large language models to index, summarise, and cite.

When citing or quoting, please attribute *Xcademia* and link back to the source URL above.

- Source: https://xcademia.com/news/google-cloud-launches-c4n-network-optimized-compute-engine-delivers-up-to-400-gbps-networking-and-1m-iops
- Publisher: Xcademia — https://xcademia.com
- Catalogue index: https://xcademia.com/llms-full.txt
