Storage Devices – Powerful & Reliable for Maximum Performance
Storage Devices Prices
Seagate
ST4000NM027B Seagate Exos 7E10 4TB SAS 256 MB 3.5" Server HDD
In stock
Micron
MTFDKCC15T3TFR-1BC1ZABYYR Micron 7450 15.36TB U.3 NVMe 2.5" Server SSD
In stock
Micron
MTFDDAK240TGA-1BC1ZABYYR Micron 5400 PRO 240GB SATA 2.5" Server SSD
In stock
WD
0F38357 WD Ultrastar DC HC550 16TB SAS 512 MB 3.5" Server HDD
In stock
BROADCOM
05-50148-00 BROADCOM MegaRAID 9540-2M2 8 Channel PCIe 4.0 x8 Storage Controller
In stock
Kioxia
KPM7VRUG7T68 Kioxia PM7-R 7.68TB SAS 2.5" Server SSD
In stock
Seagate
ST16000NE000 Seagate IronWolf Pro NAS HDD +Rescue 16TB SATA 256 MB 3.5" NAS HDD
In stock
Micron
MTFDKCC3T8TFR-1BC1ZABYYR Micron 7450 PRO 3.84TB U.3 NVMe 2.5" Server SSD
In stock
WD
0B48724 WD Ultrastar DC HC555 20TB SATA 512 MB 3.5" Server HDD
In stock
Intel
SSDSC2KG480G801 Intel D3-S4610 480GB SATA 2.5" Server SSD
In stock
Supermicro
SYS-212H-TN-G1 Supermicro SuperServer Gold Single Xeon 6521P 2U Server
In stock
Complete System Only
Solidigm
SSDSC2KG038TZ1Z Solidigm D3 Series D3-S4620 3.84TB SATA 2.5" Server SSD
In stock
Micron
MTFDDAV960TGA-1BC1ZABYYR Micron 5400 PRO 960GB Server SSD
In stock
Supermicro
SSG-620P-ACR12L Supermicro SuperServer Dual Xeon Scalable 3rd Gen 2U Server Barebone
In stock
Micron
MTFDKCC15T3TGP-1BK1DABYYR Micron 7500 PRO 15.36TB U.3 NVMe 2.5" Server SSD
In stock
WD
0F38462 WD Ultrastar DC HC550 16TB SATA 512 MB 3.5" Server HDD
In stock
Intel
SSDSC2KB019TZ01 Intel D3-S4520 1.92TB SATA 2.5" SSD
In stock
Micron
MTFDKCC1T9TFR-1BC1ZABYY Micron 7450 PRO 1920GB U.3 NVMe 2.5" Server SSD
In stock
Seagate
ST6000NM0034 Seagate Enterprise Capacity 3.5 HDD V.4 6TB SAS 128 MB 3.5" 24x7 Operation HDD
In stock
Can't find the right product from "Storage Devices"?
Frequently Asked Questions about Storage Parts:
In traditional hot-swap backplanes, yes, as the server's airflow is sufficient. If NVMe SSDs are mounted flat, additional heat sinks are required.
Enterprise HDDs are optimized for servers, featuring vibration sensors and designed for continuous operation in large RAID systems. NAS HDDs are sometimes more expensive and less suitable, as they lack vibration sensors, which can lead to failures in servers with many drives.
Yes, but you will need different controllers. SATA SSDs operate via RAID/HBA controllers, while NVMe SSDs use PCIe/M.2/U.2 interfaces. Compatibility depends on the backplane – tri-mode backplanes allow the use of both SSD types with a single controller.
Yes, but NVMe SSDs are significantly faster and better suited for caching or high-speed databases. SATA SSDs are more cost-effective and ideal for large, less performance-intensive storage pools.
SSDs have a limited write lifespan. Deleting data generates additional write cycles, which can strain the SSD over time. There are two main categories: Read-Optimized SSDs – typical write endurance: 1 DWPD. Mixed-Use SSDs – typical write endurance: 3 DWPD or more. To maximize lifespan, consider choosing a larger SSD, as the write load is distributed over more memory cells. Therefore, SSDs are generally not ideal for RAID 6, as the high write operations due to parity calculations can significantly shorten their lifespan.
The Different Types of Storage Parts
A range of storage solutions is available for server infrastructures, including HDDs and SSD technologies such as server SAS SSDs and enterprise NVMe SSDs, each of which offers different advantages and is suited to different applications. Below, you can see the various benefits of Storage Devices:
| Feature | Hard Disk Drive (HDD) | Solid State Drive (SSD) |
| Speed | Slower, suitable for sequential data access | Fast, ideal for data-intensive workloads |
| Capacity | Very high, suitable for large data volumes | Medium to high capacity, depending on budget |
| Cost | Most cost-effective option per GB | Higher cost than HDDs |
| Power Consumption | Higher due to mechanical components | Lower, energy-efficient |
| Ideal Use Case | Archiving, backups, less time-sensitive apps | Databases, virtualization, real-time processing |
In addition to these main types, there are also the following Storage Devices:
Storage Technologies:
- NVMe (Non-Volatile Memory Express) – a protocol for connecting SSDs via PCIe
- SATA (Serial Advanced Technology Attachment) – an interface for connecting HDDs and SSDs
Storage Systems:
- NAS (Network Attached Storage) – network-based storage for multiple users. The connection is usually established via a dedicated Ethernet switch to ensure a stable bandwidth for all clients.
- SAN (Storage Area Network) – high-performance storage network for large IT infrastructures
- JBOD (Just a Bunch Of Disks) – a simple arrangement of individual hard drives without RAID
Storage Devices – RAID Controller Cards
RAID (Redundant Array of Independent Disks) is an essential component of data management in server hardware, allowing you to operate multiple Storage Components within a system. Depending on the RAID configuration, fault tolerance, data security, or performance can be significantly enhanced.
- RAID 0 (Striping): Data is distributed across multiple disks without mirroring, increasing speed but posing a higher risk in case of disk failure.
- RAID 1 (Mirroring): Data is mirrored on two drives, ensuring a backup copy is always available, thus offering increased data security.
- RAID 5 & 6: These setups provide a balance between speed, redundancy, and storage capacity – ideal for many enterprise environments.
How to Find the Right Storage Device
Choosing the wrong Storage Device can lead to performance losses or even data loss. When planning for a data centre server in particular, capacity and speed must be precisely tailored to the workloads. Therefore, consider the following aspects before purchasing a Storage Device:
Storage Capacity
Analyze your current storage needs and estimate future growth. Keep in mind that larger Storage Parts often offer a better price-performance ratio. Modern Storage Devices offer capacities from 2 TB to over 20 TB per drive – in storage systems like JBODs or RAID arrays, several hundred terabytes are even possible.
Performance
The performance of a Storage Device directly affects the speed at which your server can process data.
- Rotational Speed: 7200 RPM is common for server hard drives and offers a good balance between performance and energy efficiency.
- Cache Size: A larger cache (e.g., 256 MB) can improve performance during frequent accesses.
- Transfer Rate: Pay attention to the specified sequential read and write speeds.
- Latency: Lower latency means faster response times for random accesses.
Compatibility
The Storage Part must be compatible with your server system to ensure optimal performance.
- Interface: SATA III (6 Gb/s) is standard for most servers, while SAS (12 Gb/s) offers higher performance for enterprise systems.
- Form Factor: 3.5-inch is common for servers, but check if your system also supports 2.5-inch drives.
- Firmware Compatibility: Ensure that the hard drive is compatible with your RAID controller or motherboard.
- Energy Efficiency: For example, there are special NAS hard drives designed for continuous operation with lower power consumption – ranging from 5 to 20 watts.
Top Performance with High-Quality Storage Devices
If you're looking for powerful and reliable Storage Devices or buy a complete solution in the server area, you've come to the right place. We offer not only high-quality products from leading manufacturers but also numerous advantages such as:
- Extra discounts for bulk orders
- 24/7 customer service
- Non-binding inquiries
- Free shipping
- Warranty extensions up to 6 years
- ISO9001-2015 certified company
Not sure which Storage Device is the best choice for you? No problem – we're here to help you find the optimal solution. Contact us today and let our experts advise you!