1 x Ampere Altra Q80-30
CPU
80 Cores/80 Threads - 3 GHz
1 x Ampere Altra Q80-30
CPU
80 Cores/80 Threads - 3 GHz
1 x Ampere Altra Q80-30
CPU
80 Cores/80 Threads - 3 GHz
1 x Ampere Altra Max M128-30
CPU
128 Cores/128 Threads - 3 GHz
1 x Ampere Altra Max M128-30
CPU
128 Cores/128 Threads - 3 GHz
Don't see what you're looking for?
ARM processors follow a RISC-based design, reducing power draw and thermal output. This leads to lower energy costs, less heat, and minimized cooling needs—ideal for data centers scaling infrastructure while maintaining operational efficiency and environmental responsibility.
ARM chips integrate more cores per socket without performance loss. This supports parallel processing at scale, making them ideal for container orchestration, microservices, big data pipelines, and cloud-native applications running thousands of simultaneous lightweight threads.
With lower energy requirements, reduced cooling demands, and open-source software compatibility, ARM servers offer excellent price-to-performance ratios. They're suited for cost-conscious businesses running sustained workloads, from SaaS backends to media streaming and development sandboxes.
ARM processors avoid complex boost states and frequency scaling seen in x86 systems. The result is stable, predictable CPU behavior under load, critical for latency-sensitive tasks like transactional APIs, logging systems, and edge analytics.
ARM’s simplified 64-bit instruction set (AArch64) improves execution speed while reducing decode complexity. This ensures faster instruction throughput, better cache efficiency, and easier optimization across compilers and runtime environments for Linux-based workloads.
ARM servers' hardware-isolated environments protect sensitive operations from kernel-level attacks and data leakage, enabling deployment of compliance-driven applications like fintech, healthcare systems, and private cloud platforms.
ARMv8 includes extensions like VHE and EL2 for secure, low-overhead virtualization. Combined with KVM and QEMU, this enables efficient virtual machine hosting and multi-tenant environments with minimized CPU overhead and strong isolation.
Modern ARM server platforms offer large memory footprints and high-bandwidth memory controllers. These are optimized for in-memory databases, real-time analytics engines, and applications requiring large working sets with minimal paging delays.
RedSwitches ARM Dedicated Servers are provisioned within minutes. This enables near-instant infrastructure deployment with custom scripts, OS configurations, and user access—ideal for scaling production workloads on demand.
ARM servers run lightweight containers with high efficiency. They support Docker, Podman, and Kubernetes out of the box. This makes them perfect for DevOps pipelines, CI/CD automation, and distributed microservices with reduced per-container overhead.
ARM servers’ compact design and low power draw suit edge environments. These servers can operate with minimal infrastructure, process data locally, and reduce latency for IoT applications, remote nodes, or branch office compute.
Our ARM-specialized support team is available around the clock. Get real-time help with OS deployment, architecture-specific tuning, package compatibility, or network configuration. We troubleshoot fast, so your ARM servers always stay operational and optimized.
ARM dedicated servers support scalable cloud-native applications with high core efficiency. Ideal for SaaS platforms, containerized services, and microservices needing predictable performance and lower operating overhead at scale.
Our ARM servers handle machine learning inference workloads with efficient vector processing. Perfect for deploying pre-trained models in production environments like vision, NLP, and recommendation systems with excellent performance-per-watt.
ARM based dedicated servers are ideal for CDNs, enabling high concurrency and low-latency caching. Efficient crypto performance supports secure TLS termination for video, file delivery, and global content distribution.
Telecom providers use RedSwitches ARM servers for virtualized network functions. The architecture supports NFV and 5G vRAN environments with reduced cooling, space, and power needs in distributed edge locations.
Our ARM server hosting powers high-traffic websites and APIs. It efficiently handles concurrent HTTP requests, encryption tasks, and static delivery using optimized NGINX and Apache configurations for cost-effective performance.
ARM dedicated servers run scalable NoSQL and time-series databases. With high memory bandwidth and low power draw, they deliver excellent results in analytics, finance, and logging applications needing fast I/O.
Developers leverage ARM servers for continuous integration and deployment. Cost-effective, energy-efficient compute suits them for automated testing, building, and packaging across multiple parallel pipelines in modern dev environments.
ARM based dedicated servers operate efficiently in edge deployments with space and power constraints. Use cases include retail analytics, industrial gateways, and sensor-driven platforms close to the data source.
Our ARM servers process real-time data from distributed IoT devices. They filter and forward sensor data from manufacturing, smart cities, or logistics operations with minimal power use and high reliability.
Video transcoding and content management tasks run smoothly on ARM servers. Optimized for parallel workloads, they support thumbnail generation, format conversion, and streaming infrastructure at a reduced cost.
Backends hosted on ARM dedicated servers align architecturally with mobile ARM clients. This reduces testing gaps and improves runtime performance in gaming, productivity, and real-time communication apps.
ARM servers efficiently power blockchain validation nodes, smart contract execution, and decentralized Web3 services. Their low-power design and stable throughput make them ideal for running DeFi protocols, distributed ledgers, and dApps at lower operational cost.
4.7
4.9
4.9
ARM Dedicated Servers run on processors using the ARM architecture, a Reduced Instruction Set Computing (RISC) design. Unlike traditional x86 servers, they offer lower power consumption and high core efficiency. These servers are ideal for parallel processing, container-based workloads, and edge deployments. RedSwitches provides customizable ARM server hosting with full root access and global deployment options.
ARM servers deliver greater power efficiency, generating less heat while handling large-scale, multi-threaded workloads effectively. They offer better performance-per-watt, which leads to reduced energy and cooling costs. ARM’s clean instruction set improves compute predictability, especially under consistent load. RedSwitches helps you cut operating costs while achieving reliable performance with ARM Based Dedicated Servers.
ARM Dedicated Servers are ideal for cloud-native applications, AI inference, content delivery, CI/CD pipelines, edge processing, and API hosting. Their architecture supports scalable, containerized workloads with high concurrency and low overhead. RedSwitches ARM servers are built to power modern workloads that demand efficiency, flexibility, and consistent performance at scale.
Whether you’re hosting a production-grade website, configuring a mail server, or running development environments, you get consistent performance, root-level access, and unmetered bandwidth, backed by 24/7 expert support.
RedSwitches ARM servers support a wide range of Linux distributions including Ubuntu, Debian, CentOS, AlmaLinux, and Rocky Linux. You can also deploy custom ARM-compatible OS images for specialized environments. We provide quick provisioning and OS reloads to match your infrastructure needs.
We host your server in Tier III+ data centers equipped with redundant power, cooling, and network infrastructure. This minimizes downtime risks, even during hardware failures or maintenance.
With built-in DDoS protection and 24/7 real-time monitoring, your Linux server remains secure and responsive—even during peak traffic or unexpected events.
Yes, you can run both Docker and Kubernetes on ARM servers without issues. Most modern container platforms now offer full ARM64 support, allowing you to deploy microservices, build CI/CD pipelines, and manage workloads efficiently. Whether you’re running stateless apps, backend APIs, or full-scale orchestration, ARM servers handle it reliably. RedSwitches ARM server hosting is container-ready and ideal for DevOps teams looking for scalable, cost-effective infrastructure.
RedSwitches ARM dedicated servers are deployed across 20+ global data centers, including regions in North America, Europe, and Asia. This geographic diversity helps you minimize latency, ensure data compliance, and serve your users closer to their location. Our wide network allows you to position workloads for better performance and resilience strategically.
ARM dedicated servers use ARM processors based on RISC architecture, while traditional servers run on x86 CPUs. ARM servers deliver better energy efficiency, higher core-per-watt ratios, and more consistent performance for multi-threaded tasks. They’re ideal for containerized applications, edge computing, and APIs. RedSwitches provides both types, but ARM is better suited for modern, cloud-native environments focused on cost and performance balance.
Yes, all ARM dedicated servers from RedSwitches come with full root access. You can install, configure, and manage the operating system and software without restrictions. This level of control is essential for custom deployments, secure environments, and advanced development workflows.
We will consult, architect, migrate, manage and do whatever it takes to help your business grow and succeed.
We noticed you haven’t picked a plan yet.
Tell us what held you back
Instant Servers (1hr Delivery) 
GPU Dedicated Servers 
Storage Dedicated Server 
10Gbps Servers 
25Gbps Servers 
Unmetered Dedicated Server 
Latest Intel Server 
Latest AMD Server 
AI Servers 
Solana RPC Nodes 
Web3 Infrastructure 
Gaming Servers 
iGaming Servers 
Trading Servers 
Streaming Servers 
AdTech-MarTech 
Cloud Repatriation 
High Availability Clusters 
4.8