Modern enterprises depend on dual-node servers to ensure uninterrupted performance...
Dual Node Server - High-Performance Storage Solution
OCDS5000B-W Dual-Controller 24-Bay Storage System
The OCDS5000B-W Dual Node Server is a high-performance, dual-controller storage solution built on Intel’s advanced platform. Ideal for cloud computing, big data, and enterprise applications, it offers scalability, reliability, and cutting-edge efficiency.
Key Features of the OCDS5000B-W Dual Node Server
- High Performance
Engineered for demanding workloads, this dual-node server handles applications like OLTP/OLAP databases with superior efficiency. - Dual-Controller for High Availability
Includes a large-capacity write cache with cache protection to ensure zero data loss during unexpected power failures. - Reliable File System
Enhanced file system ensures outstanding data integrity, reinforcing protection even in critical operations. - Unmatched Scalability
Easily expand storage capacity to meet growing demands, making it a future-proof solution. - Ease of Management
Features an intuitive WEB GUI for simplified system administration and comprehensive storage management.
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Why Choose the OCDS5000B-W Over Other Servers?
When it comes to dual-node server systems, the OCDS5000B-W stands out as a leader in performance, scalability, and reliability. Here’s how it compares to other servers available on the market and why it’s the right choice for your enterprise needs:
Dual-Controller Architecture for Maximum Availability
Unlike traditional single-controller servers, the OCDS5000B-W features a robust dual-controller design. This ensures that even in the event of a hardware failure, your system continues to operate smoothly without interruptions. Competing server systems often rely on a single point of failure, which can lead to costly downtime during unexpected events.
Unmatched Scalability to Grow With Your Business
Many server solutions require a complete overhaul to accommodate growing data demands. The OCDS5000B-W, however, is engineered for seamless scalability. With 24 hot-swappable bays and support for future expansion, this system can easily adapt as your storage and processing needs increase. Other servers typically demand higher investments for upgrades and often lack the flexibility for long-term growth.
Enterprise-Grade Reliability
Data integrity is critical, especially for industries like healthcare, finance, and cloud computing. The OCDS5000B-W incorporates advanced file systems and cache protection to safeguard your data, even during power losses. Where other servers might falter and risk data corruption, this enterprise-grade solution ensures zero data loss with its robust backup and disaster recovery capabilities.
Optimized for High-Performance Applications
While many dual-node servers may underperform with resource-intensive tasks, the OCDS5000B-W excels in processing-heavy applications like online transaction processing (OLTP), big data analytics, and virtualization. Leveraging Intel's cutting-edge platform, this server delivers enhanced speed and efficiency, streamlining the most demanding workloads.
Easy Management with Intuitive Tools
Managing complex server systems can be daunting, but not with the OCDS5000B-W. Its intuitive web-based management interface simplifies administration and monitoring, giving it an edge over other systems with limited or overly complex management options.
Experience the OCDS5000B-W Advantage
With its dual-controller architecture, effortless scalability, and rock-solid reliability, the OCDS5000B-W is built to meet the demands of modern enterprises. Whether you're managing big data, deploying cloud-based solutions, or ensuring critical transaction flows, this dual-node server offers a future-proof investment that keeps your operations ahead of the curve.
With its dual-controller architecture, effortless scalability, and rock-solid reliability, the OCDS5000B-W is built to meet the demands of modern enterprises. Whether managing big data, deploying cloud-based solutions, or ensuring critical transaction flows, this dual-node server offers a future-proof investment that keeps your operations ahead of the curve.
Specifications At a Glance
| Feature | OCDS5000B-W |
|---|---|
| SCU Form factor | 4U,24 Bays |
| Maximum HDD | 480 |
| Maximum original capacity | 2400TB |
| Number of controllers | 2 |
| Controller mode | Active-Active |
| Memory | 16GB-512GB |
| Write cache | Support write cache mirroring, power failure zero data loss |
| EXP Form factor | 4U,24 Bays |
| Supported storage protocols | FC、 iSCSI、 NFS、CIFS |
| Network Interface | 1/10Gbps Ethernet、8/16Gbps FC |
| Back-end Interface | Four x4 12Gb,SAS3.0 |
| Maximum number of front-end host ports | 8*GE+16*GE/8*10GE/8*FC |
| Ports | 2*VGA/4*USB/2*RS232/2*FE |
| HDD | 1-16TB 3.5inch SATA / SAS HDD/ 1-16TB 2.5inch SAS HDD/ SAS SSD |
| RAID Level | RAID 0、1、5、6、10 |
| RAID features | Supports RAID striping, reconstruction, Delta reconstruction, and automatic delta synchronization. Supports multiple disk media errors, write recovery under read error, and permanent metadata protection for RAID groups |
| Other features | Self-start when power on, power on hard disk one by one, hard disk locate and alarm, every hard disk slot power control, SFF8644 signal enhancement, fan regulation by temperature |
| Snapshots (LUN) | 1024 |
| LUN | 1024 Logical volume |
| A file system | 128TB |
| Data protection | Snapshots ï¼ LUN copyï¼Remote replication |
| Storage management | Multipath management, centralized device management |
| Hypervisor features | KVM,VMwareï¼XenServerï¼Hyper-V |
| BBU | Super capacitor or power lithium battery module |
| Fans | 1+1 High power turbofan |
| Power Input | AC 100V~127V/200V~240V; 60Hz/50Hz |
| Power module | 1+1 550W,optional 800W / 1200W |
| Ambient Temperature | 10–35°C (50–95°F) while operating; |
| -40 – 55°C(-40 – 135°F) while in storage, according to the surroundings. | |
| Relative humidity | 10%RH~90%RH |
| Size(W×H×D) | 440mm x 175mm x 680mm |
| Weight (No hard disk) | Gross weight: 31.00kg |
| Net weight: 30.00kg |
| Feature | Two-Node Server | Single-Node Server |
|---|---|---|
| Architecture | Comprises two independent server nodes within a single chassis, often with shared resources. | Features a single server node with dedicated resources. |
| Performance | Offers higher performance by distributing workloads across two nodes, ideal for resource-intensive tasks. | Limited to the capability of a single server node, which can be a bottleneck for heavy workloads. |
| Scalability | Highly scalable with the ability to add more nodes, making it suitable for growing enterprises. | Limited scalability, requiring replacement or separate servers for expansion. |
| Reliability | Features redundancy, such as dual-controller systems, to ensure continuous operation during failures. | Lacks redundancy, and any hardware failure can lead to downtime. |
| Cost | Higher upfront cost due to dual-node architecture and advanced features but offers long-term value. | Lower initial cost but may incur additional expenses for upgrades or replacements. |
| Power Efficiency | Shares power supplies and cooling systems between nodes, often resulting in better energy efficiency. | Consumes more power as separate resources arenât shared. |
| Management | Typically comes with advanced management tools to monitor and control both nodes seamlessly. | Management is simpler but lacks tools for multi-node monitoring. |
| Use Cases | Best suited for high-availability applications like big data, cloud computing, and virtualization. | Suitable for smaller tasks, such as file storage or running applications with lower demands. |
| Fault Tolerance | Built with features like failover systems to minimize downtime and prevent data loss. | Minimal or no fault tolerance, leading to possible data or operational loss in case of failure. |
| Deployment | More complex to configure but highly customizable for enterprise needs. | Easier and faster to deploy with minimal configuration required. |
Applications of Dual Node Servers in Enterprise and Cloud Computing
This system is ideal for enterprises, healthcare, education, finance, telecom, energy, and other sectors dealing with data-intensive operations. The OCDS5000B-W excels in applications like file sharing, cloud computing, online transaction processing (OLTP), and online analytical processing (OLAP) databases.
Frequently Asked Questions
This FAQ section answers common questions about Twin Dual Node Multi-Node Server Systems, covering their features, benefits, and applications to help you better understand these high-performance solutions.
Expert guide (read the blog):
Q: What are Twin Dual Node Multi-Node Server Systems?
A: Twin Dual Node Multi-Node Server Systems are high-performance server solutions designed to maximize computational power and efficiency. They feature dual nodes within a single chassis, allowing for increased performance and scalability in applications such as cloud computing and high-performance computing (HPC).
Q: How does the dual node configuration benefit the server system?
A: The dual node configuration allows for two independent servers to operate within one rackmount unit, optimizing space and resources. Each node can support separate CPUs, memory, and storage, which increases overall processing power and flexibility for resource-intensive applications.
Q: What are the storage capabilities of multi-node server systems?
A: Multi-node server systems are designed to support large data storage requirements. They can accommodate multiple NVMe drives per node, which enhances data access speeds and supports vast storage needs, particularly for big data applications and cloud infrastructures.
Q: What is the significance of using 3rd Gen Intel® Xeon® Scalable processors in these systems?
A: The 3rd Gen Intel® Xeon® Scalable processors provide advanced performance and efficiency for multi-node server systems. They support higher core counts and enhanced memory bandwidth, which is essential for handling demanding applications and workloads such as AI and HPC.
Q: Can the multi-node server systems be scaled easily?
A: Yes, multi-node server systems are highly scalable. Users can add additional nodes or upgrade components such as CPUs and memory, allowing the system to grow alongside increasing computational demands. This scalability makes them an ideal solution for evolving data center needs.
Q: What is the advantage of a 1U versus a 2U rackmount server?
A: A 1U rackmount server offers a compact design that saves space in the data center, making it suitable for environments where space is limited. In contrast, a 2U rackmount server typically provides more room for additional components, such as more storage drives and cooling solutions, which can enhance performance but occupies more space.
Q: How do Twin servers differ from traditional multi-node configurations?
A: Twin servers allow for two server nodes to share certain resources like power supplies and cooling within a single chassis, which can lead to improved energy efficiency and reduced costs. Traditional multi-node configurations may have separate enclosures for each node, potentially increasing the data center’s physical footprint.
Q: What kind of applications benefit most from using high-density multi-node systems?
A: High-density multi-node systems are particularly beneficial for applications that require significant computational power and storage capabilities, such as AI, big data analytics, media rendering, and virtualization. Their ability to efficiently manage resources makes them ideal for modern data centers.
Q: What role does liquid cooling play in these server systems?
A: Liquid cooling is utilized in high-density multi-node server systems to effectively manage heat generated by powerful CPUs and components. This technology allows for better thermal efficiency compared to traditional air cooling, enabling the servers to maintain optimal performance even under heavy workloads.
Q: Are Supermicro servers commonly used for twin dual node multi-node solutions?
A: Yes, Supermicro servers are well-regarded for their innovative designs and high-performance capabilities, making them a popular choice for twin dual node multi-node solutions. They offer a range of configurations that can be tailored to meet specific computing needs in various environments.
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