Types of Server Computers and Their Pricing
A server computer is a powerful, specialized system designed to manage network resources, host applications, store data, and deliver consistent performance and security for critical business operations. Unlike standard desktop PCs, servers are built for continuous, around-the-clock operation with enhanced reliability, redundancy, and scalability.
Server computer prices vary widely based on form factor, processing power, storage capacity, redundancy features, and deployment model (on-premises vs. cloud). While high-end servers require significant upfront investment, they often reduce long-term costs through improved efficiency, uptime, and centralized management.
Entry-Level Servers
Ideal for small businesses or offices needing basic network services and file sharing.
Advantages
- Low initial cost ($500–$2,000)
- Easy to set up and maintain
- Compact tower design fits office environments
- Suitable for file, print, and light application hosting
Limitations
- Limited scalability
- Fewer redundancy options
- Not ideal for heavy workloads or virtualization
Best for: Startups, small offices, basic IT infrastructure
Mid-Range Servers
Balanced systems for growing businesses with moderate to high computing demands.
Advantages
- Supports virtualization and multiple applications
- Expandable RAM and storage (up to 1TB+ RAM)
- Advanced processors (Intel Xeon, AMD EPYC, or legacy SPARC/PowerPC)
- Improved reliability with RAID and redundant PSUs
Limitations
- Higher cost ($3,000–$10,000)
- Requires dedicated IT support
- Needs proper cooling and power infrastructure
Best for: Medium businesses, virtualized environments, database hosting
Enterprise Servers
High-end, scalable systems built for mission-critical applications and large-scale operations.
Advantages
- Exceptional performance and uptime (99.999%)
- Supports hundreds of users and thousands of transactions
- Advanced fault tolerance (hot-swappable parts, ECC memory)
- Highly scalable with clustering and load balancing
Limitations
- Very high cost ($10,000–$100,000+)
- Complex setup and management
- Requires dedicated data center space and cooling
Best for: Large corporations, financial institutions, data centers
Blade Servers
Space-efficient, high-density servers ideal for data centers with limited physical space.
Advantages
- High server density (multiple blades in one chassis)
- Shared power, cooling, and networking reduce overhead
- Energy-efficient and easier to manage at scale
- Quick deployment and modular expansion
Limitations
- High initial chassis investment
- Less flexibility per node
- Vendor-specific components limit compatibility
Best for: Cloud providers, large enterprises, high-performance computing
Cloud Servers
Virtual servers hosted on remote data centers, accessible via the internet on a subscription basis.
Advantages
- No upfront hardware costs
- Pay-as-you-go pricing model
- Instant scalability and global accessibility
- Managed services reduce IT burden
Limitations
- Ongoing operational costs can add up
- Dependent on internet connectivity
- Potential data security and compliance concerns
Best for: Remote teams, scalable web apps, startups avoiding capital expenses
Storage Servers
Dedicated systems optimized for secure, high-capacity data storage and management.
Advantages
- Massive storage capacity (petabyte-scale options)
- Advanced data protection (RAID, snapshots, replication)
- Centralized file sharing and backup solutions
- Integration with NAS/SAN and cloud backup
Limitations
- Specialized use case (not for general computing)
- Can become a bottleneck if network is slow
- Requires regular maintenance and monitoring
Best for: Media companies, research institutions, backup and archive systems
| Server Type | Avg. Price Range | Scalability | Use Case | Deployment Model |
|---|---|---|---|---|
| Entry-Level | $500 – $2,000 | Low | Small office networks, basic hosting | On-premises |
| Mid-Range | $3,000 – $10,000 | Medium | Virtualization, business applications | On-premises / Hybrid |
| Enterprise | $10,000 – $100,000+ | Very High | Mission-critical systems, large databases | On-premises / Colocation |
| Blade | $5,000 – $50,000+ | High | Data centers, high-density computing | Data Center |
| Cloud | $10 – $10,000+/mo | Extremely High | Web apps, remote access, scalable services | Cloud (IaaS/PaaS) |
| Storage | $2,000 – $50,000+ | High | Data backup, file sharing, archives | On-premises / Hybrid |
Expert Tip: For businesses unsure about on-premises vs. cloud, consider a hybrid approach—use cloud servers for scalability and entry-level systems for local control, balancing cost, performance, and security.
Features and Functions of Server Computers
Before evaluating server computer pricing, it's essential to understand the fundamental features that distinguish servers from standard personal desktops. Server computers are engineered for continuous, high-demand operations, supporting business-critical applications, data storage, and network services. Unlike consumer-grade PCs, servers are built for reliability, scalability, and performance under heavy workloads. Below is a comprehensive overview of the key features that define modern server systems.
Core Features of Server Computers
High-Performance Processors
While personal computers typically use consumer-grade CPUs such as Intel Core or AMD Ryzen for everyday tasks, servers rely on enterprise-level processors like the Intel Xeon and AMD EPYC series. These CPUs are designed for multi-threaded processing, supporting dozens of cores and threads to handle concurrent requests from multiple users or applications.
Features such as Error-Correcting Code (ECC) memory support, advanced virtualization capabilities, and sustained workload optimization make server processors ideal for environments like data centers, cloud computing, and database management.
Expanded Memory (RAM) Capacity
Standard desktops usually come with 8 to 16 GB of RAM—sufficient for web browsing, office applications, and media consumption. In contrast, servers can support hundreds of gigabytes to multiple terabytes of RAM, enabling them to run memory-intensive applications such as virtual machines, real-time analytics, large-scale databases, and in-memory computing platforms.
This massive memory capacity allows servers to cache large datasets, drastically reducing latency and improving response times for critical services.
Large-Scale Storage Solutions
Servers are equipped with expansive storage systems to meet the growing data demands of businesses. They utilize high-capacity HDDs (Hard Disk Drives) and faster SSDs (Solid State Drives), often ranging from several terabytes to petabytes when configured in arrays.
Storage is typically organized using RAID (Redundant Array of Independent Disks) configurations to enhance performance, fault tolerance, and data redundancy. Modern servers may also integrate NVMe drives for ultra-fast data access, crucial for applications requiring low-latency storage.
Redundant and Hot-Swappable Components
One of the defining characteristics of server architecture is redundancy. Servers include backup components such as redundant power supplies, cooling fans, and network interfaces to ensure uninterrupted operation even during hardware failures.
Many components are hot-swappable, meaning they can be replaced without shutting down the system. This capability is vital for maintaining uptime in mission-critical environments and minimizing service disruption.
Dedicated Server Chassis and Form Factors
Servers use specialized chassis designed for durability, scalability, and efficient space utilization. The two most common form factors are:
- Rack-Mounted Servers: Designed to fit into standardized server racks (measured in "U" units), these slim, flat servers can be stacked vertically, maximizing space efficiency in data centers.
- Tower Servers: Resemble large desktop towers and are ideal for small businesses or environments where rack space isn’t available.
Servers are typically housed in climate-controlled server rooms with dedicated power, cooling, and networking infrastructure to maintain optimal operating conditions.
Server-Grade Operating Systems
The operating system plays a crucial role in determining a server’s functionality, security, and compatibility. Common server OS options include:
- Windows Server: Offers seamless integration with Microsoft ecosystems, user-friendly management tools, and strong support for enterprise applications.
- Linux Distributions (e.g., Ubuntu Server, CentOS, Red Hat): Provide open-source flexibility, robust security, and excellent performance for web hosting, cloud services, and development platforms.
- Unix-based Systems: Known for stability and security, often used in large-scale enterprise and academic environments.
Server operating systems are optimized for multi-user access, multi-processor support, advanced networking, and enhanced security protocols.
| Feature | Server Advantage | Typical Use Case |
|---|---|---|
| Processor (CPU) | Multi-core, ECC support, high TDP tolerance | Virtualization, database servers, cloud computing |
| Memory (RAM) | Supports up to several TBs with ECC | In-memory databases, large-scale analytics |
| Storage | RAID arrays, NVMe/SSD/HDD options | Data centers, file servers, backup systems |
| Redundancy | Dual PSUs, hot-swap drives, redundant fans | High-availability applications, enterprise networks |
| Form Factor | Rack-mounted, tower, blade servers | Data centers, office server rooms |
Why These Features Matter
The advanced features of server computers are not merely for performance—they are essential for ensuring reliability, security, and scalability. Whether hosting websites, managing enterprise databases, or supporting remote workforces, servers must operate 24/7 with minimal downtime. Their robust design allows businesses to scale operations, protect critical data, and maintain service continuity even under stress.
Important: When selecting a server, consider not only the initial cost but also long-term factors such as power efficiency, maintenance requirements, upgradeability, and vendor support. Investing in proper server infrastructure today can prevent costly outages and performance bottlenecks tomorrow.
Applications of Server Computers
Selecting the right server computer for your business begins with understanding its intended applications. Servers are powerful computing systems designed to manage, store, and distribute data and services across networks. Knowing how your organization plans to use a server helps ensure optimal performance, scalability, and return on investment. Below is a comprehensive overview of the most common and impactful applications of server computers in modern business environments.
Company Intranets
A company intranet is a private internal network that enables secure communication, collaboration, and information sharing among employees. A dedicated server acts as the backbone of this system, hosting internal websites, document repositories, employee directories, and policy manuals.
- Centralizes access to HR documents, training materials, and operational procedures
- Supports role-based access control (RBAC) to protect sensitive data
- Enables seamless integration with collaboration tools like SharePoint or Microsoft Teams
- Improves productivity by reducing reliance on email for internal communications
Key benefit: Enhances internal transparency while maintaining data security and compliance.
Web Hosting
Servers are essential for hosting websites and web applications. Whether it's a corporate website, e-commerce platform, or customer portal, a reliable server ensures high availability, fast load times, and robust security.
- Stores website files, databases, and multimedia content
- Handles HTTP/HTTPS requests from global users 24/7
- Requires sufficient CPU power, RAM, and SSD storage to manage traffic spikes
- Can be optimized with caching, CDNs, and SSL/TLS encryption
Pro tip: Consider scalable cloud or hybrid hosting solutions for growing online presence.
Email Hosting
Businesses rely on dedicated email servers to manage internal and external communications securely. Unlike consumer email services, on-premise or private cloud email servers give organizations full control over their messaging infrastructure.
- Hosts employee email accounts with custom domains (e.g., name@yourcompany.com)
- Manages incoming and outgoing mail routing, spam filtering, and virus scanning
- Integrates with calendar, contacts, and task management systems
- Supports protocols like SMTP, IMAP, and POP3 for compatibility with Outlook, Thunderbird, and mobile apps
Security note: On-premise email servers allow stricter data governance and compliance with regulations like GDPR or HIPAA.
Database Management
Servers provide a stable and secure environment for hosting critical business databases. These databases store structured information such as customer records, inventory levels, financial transactions, and sales history.
- Supports relational databases like MySQL, PostgreSQL, Microsoft SQL Server, and Oracle
- Ensures data integrity, backup, and recovery through automated processes
- Allows concurrent access by multiple users with transaction control and locking mechanisms
- Enables real-time reporting and business intelligence through integration with analytics tools
Performance tip: Use RAID configurations and SSDs to improve database read/write speeds.
Virtualization
Virtualization allows a single physical server to run multiple virtual machines (VMs), each functioning as an independent server. This technology maximizes hardware utilization and reduces infrastructure costs.
- Enables consolidation of multiple workloads onto fewer physical machines
- Supports rapid deployment of test, development, and production environments
- Facilitates easy migration, backup, and disaster recovery of VMs
- Popular platforms include VMware vSphere, Microsoft Hyper-V, and Proxmox
Cost advantage: Reduces energy consumption, cooling needs, and physical space requirements in data centers.
File Storage & Sharing
Servers act as centralized file repositories where teams can securely store, organize, and share documents, media, and project files.
- Replaces unreliable local storage with a unified, backed-up system
- Supports version control, access logs, and permission settings
- Integrates with network-attached storage (NAS) or storage area networks (SAN)
- Enables remote access via secure protocols like SFTP or WebDAV
Best practice: Implement automated backups and offsite replication to prevent data loss.
Expert Insight: When purchasing a server, align the hardware specifications—such as processor speed, memory capacity, storage type (HDD vs. SSD), and network interface—with your primary application needs. For example, database servers benefit from high RAM and fast storage, while web servers require strong multi-core CPUs and bandwidth capacity.
| Application | Recommended Server Specs | Key Features Needed | Scalability Consideration |
|---|---|---|---|
| Company Intranet | Mid-range CPU, 16–32GB RAM, 1TB+ SSD | Web server software, user authentication, SSL support | Support for growing user base and content volume |
| Web Hosting | Multi-core CPU, 32GB+ RAM, NVMe SSD, high-bandwidth NIC | Load balancing, DDoS protection, CDN integration | Cloud burst capability for traffic surges |
| Email Hosting | Dual-core CPU, 16GB+ RAM, redundant storage | Spam filtering, encryption, calendar sync | Support for additional mailboxes and archiving |
| Database Management | High-core CPU, 64GB+ RAM, RAID 10 SSD array | ACID compliance, backup automation, monitoring tools | Horizontal/vertical scaling for large datasets |
| Virtualization | High-core CPU, 128GB+ RAM, fast local storage | Hypervisor support, live migration, resource pooling | Ability to add more VMs or cluster servers |
Additional Server Applications
Beyond the core uses, servers support a wide range of specialized business functions:
- E-commerce Platforms: Host online stores with secure payment processing, inventory sync, and customer accounts
- Gaming Servers: Run multiplayer game environments with low latency and high uptime
- Remote Desktop Services: Allow employees to access desktops and applications from anywhere
- Application Hosting: Deploy custom business software, CRMs, ERPs, and SaaS platforms
- Backup & Disaster Recovery: Serve as a central point for automated backups and system restoration
- Monitoring & Logging: Collect and analyze system performance, security events, and user activity
Final Recommendation: Before purchasing a server, conduct a thorough needs assessment. Consider not only current requirements but also future growth. Investing in a scalable, well-configured server today can prevent costly upgrades tomorrow and ensure your IT infrastructure supports long-term business goals.
How to Choose Server Computer Price: A Comprehensive Buyer’s Guide
Selecting the right server involves more than just comparing price tags—it requires a strategic understanding of your business needs, technical requirements, and future growth. Server computers are powerful systems designed to manage network resources, host applications, store data, and serve content to users. Unlike personal computers, servers are built for reliability, performance, and continuous operation. The cost of a server can range from a few hundred dollars for basic models to tens of thousands for enterprise-grade systems. This guide breaks down the key factors influencing server pricing and helps you make an informed decision based on your specific use case.
Important Note: The total cost of ownership (TCO) includes not only the initial purchase price but also ongoing expenses such as power consumption, cooling, maintenance, software licensing, and potential downtime. Always evaluate long-term value over upfront cost.
1. Determine Your Business Needs and Use Case
In computing, a server is a system that provides services to other devices or users over a network. These services can include hosting websites, managing databases, running enterprise applications, storing files, or supporting email systems. The intended purpose of your server directly impacts its required performance and, consequently, its price.
- Small Business Websites: If you're hosting a simple website or blog, a shared hosting plan or low-end VPS (Virtual Private Server) may be sufficient and cost-effective.
- Medium-Scale Applications: For e-commerce platforms, customer relationship management (CRM), or internal business tools, a VPS or dedicated server with moderate specs is recommended.
- Enterprise-Level Demands: Large organizations requiring high availability, real-time data processing, or mission-critical applications should invest in high-performance dedicated servers or clustered systems.
Ask yourself: Will this server support 10 users or 10,000? Is it for static content or dynamic, resource-intensive applications? Answering these questions helps narrow down your options and budget.
2. Understand Different Types of Server Form Factors
Servers come in various physical designs, each suited to different environments and scalability needs. The form factor affects both performance and cost.
- Tower Servers: Resemble desktop PCs and are ideal for small offices or environments without server racks. They are generally less expensive and easier to maintain but take up more floor space.
- Rack-Mounted Servers: Designed to be installed in standardized equipment racks (measured in "U" units). These are common in data centers and offer better space efficiency, airflow, and centralized management. Prices vary based on rack density and specs.
- Blade Servers: Ultra-compact systems that slide into a chassis containing shared power, cooling, and networking. Blade servers maximize computing density and reduce cabling, making them ideal for large-scale deployments—but they come at a higher initial cost.
Your choice should align with your physical infrastructure, IT team capabilities, and expansion plans.
3. Evaluate Key Hardware Specifications
The core components of a server significantly influence its performance and price. Investing in the right hardware ensures reliability, speed, and efficiency.
- CPU (Processor): Servers often feature multiple processors with multiple cores (e.g., dual Intel Xeon or AMD EPYC CPUs). Higher core counts and clock speeds improve multitasking and throughput. Consider workloads like database queries, virtualization, or application processing when selecting CPU power.
- RAM (Memory): More RAM allows the server to handle more concurrent users, applications, and processes. Entry-level servers may have 16–32GB, while enterprise systems can support 1TB or more. ECC (Error-Correcting Code) RAM is recommended for critical systems to prevent data corruption.
- Storage (HDD vs SSD):
- HDDs (Hard Disk Drives): Offer large storage capacities at lower costs per gigabyte—ideal for backup, archives, or file storage.
- SSDs (Solid-State Drives): Deliver faster read/write speeds, lower latency, and improved reliability. Essential for databases, virtual machines, and high-traffic websites. NVMe SSDs offer even greater performance but at a premium.
- Network Interface Card (NIC): A high-speed NIC (e.g., 1Gbps, 10Gbps, or higher) ensures fast and reliable data transfer. Redundant NICs can provide failover support for mission-critical systems.
Always verify compatibility between components and consider RAID configurations for data redundancy and performance.
4. Plan for Scalability and Future Growth
One of the most important considerations when choosing a server is scalability—the ability to grow alongside your business. A server that meets today’s needs may become obsolete in two years due to increased traffic, new applications, or expanded user bases.
- Choose a server with room for additional RAM, storage drives, or CPU upgrades.
- Opt for modular designs that support hot-swappable components for minimal downtime.
- Consider virtualization-ready systems that allow you to run multiple virtual servers on one physical machine.
- Anticipate future software requirements and ensure the server can handle increased workloads.
Selecting a scalable architecture from the start avoids costly migrations later. For example, starting with a rack server allows you to add more units as needed, whereas tower servers may require a full replacement when capacity is exceeded.
| Server Type | Typical Use Case | Price Range (USD) | Best For |
|---|---|---|---|
| Tower Server | Small business, file sharing, light web hosting | $800 – $3,000 | Offices without server rooms; limited IT staff |
| Rack-Mounted Server (1U–4U) | Data centers, virtualization, enterprise apps | $2,000 – $10,000+ | Scalable environments; high-density computing |
| Blade Server | Cloud infrastructure, large-scale computing | $5,000 – $20,000+ (with chassis) | High-performance needs; space-constrained data centers |
| Virtual Private Server (VPS) | Web hosting, development, testing | $20 – $200/month | Budget-conscious users; variable workloads |
| Dedicated Hosting (Bare Metal) | E-commerce, SaaS, databases | $100 – $500+/month | Full control; high security and performance |
Expert Tip: Before purchasing, benchmark your current workload or simulate expected traffic using cloud-based test environments. This helps avoid over-provisioning (wasting money) or under-provisioning (causing performance issues). Many vendors offer configuration tools to estimate the right specs for your needs.
Additional Considerations
- Operating System and Software Licensing: Costs for Windows Server, Linux support, or virtualization platforms (e.g., VMware) can add significantly to the total price.
- Support and Warranty: Look for servers with 3–5 year warranties and 24/7 technical support, especially for critical operations.
- Energy Efficiency: High-performance servers consume more power. Check energy ratings and consider models with efficient power supplies and thermal management.
- Security Features: Built-in TPM chips, secure boot, and remote management (e.g., IPMI, iDRAC) enhance protection and ease of administration.
Choosing the right server computer price isn't just about finding the cheapest option—it's about investing in a system that delivers performance, reliability, and room to grow. By carefully assessing your needs, understanding hardware specs, and planning for scalability, you can select a server that provides long-term value and supports your business goals effectively.
Server Computer Price: Frequently Asked Questions
While both personal computers (PCs) and servers use similar core components like CPUs, RAM, and storage, they are designed for very different purposes and environments:
- Uptime & Reliability: Servers are engineered to operate 24/7 without failure, featuring redundant power supplies, error-correcting memory (ECC RAM), and robust cooling systems. PCs are typically used intermittently and lack these reliability features.
- Performance: Servers often come with more powerful multi-core processors (such as Intel Xeon or AMD EPYC) and support significantly higher RAM capacity than standard desktops.
- Storage & Expandability: Servers offer greater storage scalability with support for multiple hard drives or SSDs in RAID configurations for data redundancy and performance. They also have more PCIe slots for network cards, GPUs, or storage controllers.
- Connectivity: Servers include multiple high-speed network ports (e.g., 1GbE or 10GbE), numerous USB ports, and support for remote management via IPMI or KVM over IP, enabling administrators to monitor and control the system from anywhere.
- Use Case: PCs are designed for individual productivity, gaming, or general use. Servers host services such as websites, databases, email systems, virtual machines, and file sharing for multiple users simultaneously.
In short, a server is built for continuous, high-demand operations in enterprise environments, whereas a PC is optimized for cost and usability in personal or office settings.
RAM (Random Access Memory) plays a critical role in server performance because it acts as temporary, high-speed storage for active data and applications. Here’s why servers require significantly more RAM than typical PCs:
- Handling Concurrent Users: Servers often serve dozens or even thousands of users at once. Each user session, application process, or database query consumes memory. More RAM allows the server to manage these tasks efficiently without slowdowns.
- Faster Data Access: Retrieving data from RAM is thousands of times faster than reading from disk (HDD or SSD). With sufficient RAM, frequently accessed data (like database records or web content) can be cached, drastically improving response times.
- Virtualization Support: Many modern servers run virtual machines (VMs). Each VM requires its own allocation of RAM. A server hosting five VMs might need 64GB or more just to allocate 8–16GB per VM.
- Reduced Disk I/O: When RAM is limited, the system relies on swap space (disk-based memory), which slows performance. Ample RAM minimizes disk swapping and keeps operations smooth.
- Future-Proofing: As applications grow and data volumes increase, having extra RAM ensures the server remains capable without immediate hardware upgrades.
For example, a small business server might start with 32GB of RAM, while enterprise-level systems can scale to 1TB or more depending on workload demands.
The initial purchase price of a server is only part of the total cost of ownership (TCO). To deploy and maintain a server effectively, organizations must account for several additional expenses:
| Cost Category | Description | Estimated Examples |
|---|---|---|
| Hardware Accessories | Server racks, mounting rails, uninterruptible power supplies (UPS), cooling units, network switches, and cables. | $200–$1,000+ |
| Power & Cooling | Servers consume significant electricity and generate heat. Ongoing power bills and HVAC requirements add to operational costs. | $100–$500/year per server |
| Software Licensing | Operating systems (e.g., Windows Server), database software, virtualization platforms (e.g., VMware), and security tools often require per-core or per-user licenses. | $800–$5,000+ |
| IT Support & Maintenance | Staff salaries or managed service provider fees for monitoring, updates, troubleshooting, and backups. | $50–$150/hour or monthly contracts |
| Data Backup Solutions | External storage devices, cloud backup subscriptions, or tape drives to ensure data protection and disaster recovery. | $100–$1,000+/year |
| Network Infrastructure | Upgrading routers, firewalls, or switches to handle increased traffic and ensure secure connectivity. | $300–$3,000+ |
Ignoring these hidden costs can lead to budget overruns and underperforming systems. A well-planned deployment includes all associated expenses to ensure long-term reliability and scalability.
The required storage capacity for a server depends entirely on its intended function, user base, and data retention policies. There is no one-size-fits-all answer, but here are some guidelines based on common use cases:
- Small Business File Server: For storing documents, spreadsheets, and internal communications, starting with 1TB to 2TB of storage is reasonable. This can be expanded using NAS (Network Attached Storage) or external arrays as needs grow.
- Database Server: Applications like customer relationship management (CRM) or inventory systems generate large datasets. These servers may require 2TB to 10TB or more, especially when indexing and transaction logs are considered.
- Web Hosting Server: Hosting multiple websites with media content may need 500GB to several terabytes, depending on traffic and content type (e.g., video vs. text).
- Virtualization Host: Running multiple virtual machines requires substantial storage for each VM's disk image. A host with 4–8 VMs might need 4TB or more, especially with snapshots and backups.
- Backup & Archival Server: For organizations that retain critical files and historical data, storage needs can range from 10TB to petabytes, often using scalable solutions like SAN (Storage Area Network) or cloud integration.
Additionally, it's essential to plan for redundancy. Using RAID configurations (e.g., RAID 5 or RAID 10) protects against drive failure but reduces usable capacity. Always leave room for growth—expanding storage later is easier if the server supports hot-swappable drives and has available bays.
Note: The original text included Hindi: "महत्वपूर्ण फ़ाइलों और डेटा के लिए बैकअप रखने या उच्च-समुदायीन अनुप्रयोगों के लिए सर्वरों का उपयोग करने के मामले में, अधिक संगणन भंडारण की आवश्यकता हो सकती है।" Translation: "In cases where servers are used for backing up important files and data or for high-community applications, greater computing storage may be required."
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