Description
Space-Constrained Environments
Space-constrained environments refer to situations where the available space for equipment or devices is limited. These environments can include small data centers, server rooms, or even mobile or remote locations where equipment needs to be portable and take up minimal space.
In space-constrained environments, it’s important to use technology that is designed to take up minimal space without compromising performance. For example, using compact servers, storage devices, and networking equipment can help to save space. Similarly, using technologies that can be stacked or mounted in a rack can help to maximize the use of available space.
One example of technology that is well-suited for space-constrained environments is SAS (Serial Attached SCSI) drives. SAS drives are typically smaller in size compared to traditional spinning disk drives, and can be mounted in a rack or stacked to save space. Additionally, they have high data transfer rate and support hot swapping, which is beneficial in space-constrained environments.
Another example of technology that can be used in space-constrained environments is solid-state drives (SSDs). SSDs are smaller and more energy-efficient than traditional hard disk drives, and can be used in a variety of applications where space is limited.
High-Capacity Storage Solution
A high-capacity storage solution refers to a system or device that can store a large amount of data. There are a variety of high-capacity storage solutions available, each with their own advantages and disadvantages. Some of the most common types of high-capacity storage solutions include:
- Hard Disk Drives (HDD): These are traditional spinning disk drives that offer large storage capacities at a relatively low cost per gigabyte. They are widely used in desktops and servers.
- Solid-State Drives (SSD): These are newer types of storage devices that use flash memory to store data. They offer faster data transfer rates and lower power consumption than HDDs, but they are typically more expensive.
- Network-Attached Storage (NAS): A NAS is a specialized, external hard drive that connects to a network and allows multiple users to access the stored data. They can be expandable and offer high-capacity storage.
- Object Storage: Object Storage is an unstructured data storage system that allows you to store, retrieve and manage large amounts of unstructured data. It is typically used for archiving, backup and disaster recovery, and big data analytics.
- Cloud Storage: Cloud storage is a service that allows users to store, access, and share data over the internet. It is typically scalable, and you can store large amounts of data in the cloud.
When choosing a high-capacity storage solution, it’s important to consider factors such as cost, performance, scalability, and data protection. It’s also important to consider the specific requirements of the application or use case for which the storage solution will be used.
Reliable and Durable Design
A reliable and durable design refers to the characteristics of a product or system that ensure it can perform its intended function over a long period of time without breaking down or malfunctioning.
Some key elements of a reliable and durable design include:
- Quality materials: Using high-quality materials that are resistant to wear and tear can help to ensure a long lifespan for the product.
- Robust construction: A robust construction helps the product to withstand stress and pressure, and to resist damage from external factors such as heat, cold, or moisture.
- Redundancy: Incorporating redundant components or systems can help to ensure that the product can continue to function even if one part fails.
- Testing and quality control: Thoroughly testing the product and performing quality control checks can help to identify and correct any potential issues before the product is released.
- Maintenance: Regular maintenance and upkeep of the product can help to ensure that it continues to function well over time.
- Environmental factors: Considering the environmental factors that the product will be exposed to, such as temperature, humidity, dust, vibration and electromagnetic interference and design accordingly.
Products with a reliable and durable design are less likely to break down or malfunction, and can save time, money, and resources in the long run. They are particularly important for critical systems such as data centers, medical equipment, transportation and industrial equipment, where reliability and durability are paramount.
General Specifications
- MPN: 807582-002
- Brand Name: Hewlett Packard Enterprise(HPE)
- Option Part Number: K2Q82A
- Spare Part Number: 801557-001
- Model Number: ST4000NM0034
- Model Number: ST4000NM0125
- SKU : 807582-002
- Type: Hard Drive – Hot-Swap
- Capacity: 4 TB
- Form Factor: 3.5 inch LFF
- Interface: SAS 12Gbps
- Bytes per Sector: 512
- Drive Technology (Fill): Air
- Carrier Type: Standard MSA Carrier
- Workload: Midline
- Bundled with: HPE Standard MSA Carrier
Performance
- Drive Transfer Rate: 12 Gb/sec (external)
- Spindle Speed: 7200 rpm
Expansion & Connectivity
- Interfaces: 1 x SAS 12 Gb/s
- Compatible Bays: 3.5inch LFF
Dimension and Weight
- Width : 4 Inch
- Depth : 5.8 Inch
- Height : 1 Inch
- Weight : 1.52 Lbs
Compatibility Information
- HPE Modular Smart Array 1040 Dual Controller LFF Storage, 2040 LFF Chassis, 2040 LFF DC-power Chassis, 2040 LFF Disk Enclosure, 2040 SAN Dual Controller LFF Storage and 2040 SAS Dual Controller LFF Storage
