Description
Overview of the HPE P04531-B21 800GB SAS 12GBPS SSD
The HPE P04531-B21 is a type of Solid State Drive (SSD) designed specifically for servers. It is built to enhance storage performance and reliability within server systems. This SSD boasts a capacity of 800 Gigabytes, utilizing Serial-Attached SCSI (SAS) technology with a data transfer rate of 12 Gigabytes Per Second (GBPS). It provides a high-speed connection between the storage device and the server. The HPE P04531-B21 SSD utilizes the SAS interface, which allows for fast data transfer rates and reliable performance in enterprise environments.
Key Features of Hot Swap Mixed-Use Solid State DriveStorage Capacity
The HPE P04531-B21 boasts an impressive storage capacity of 800 Gigabytes (GB). This substantial capacity is essential for handling large datasets, intensive workloads, and applications requiring high-speed data access.
Interface – SAS 12 GBPS
The Serial-Attached SCSI-SAS interface plays a pivotal role in enhancing data transfer speeds. With a speed of 12 Gigabytes Per Second (GBPS), this SSD ensures seamless data flow between the storage device and the server, contributing to improved overall system performance.
Form Factor – 3.5-inch LFF
The Large Form Factor (LFF) of 3.5 inches makes the HPE P04531-B21 suitable for a variety of server configurations. This form factor is commonly utilized in enterprise-level servers, providing compatibility and ease of integration with existing hardware setups.
Digitally Signed Firmware
Security is paramount in modern data storage solutions. The inclusion of Digitally Signed Firmware in the HPE P04531-B21 enhances the integrity and authenticity of the drive’s firmware. This ensures a secure environment for data storage and retrieval.
Multi-Level Cell (MLC)
The use of Multi-Level Cell technology in this SSD signifies its capability to store multiple bits of data in each memory cell. MLC contributes to higher storage density and cost-effectiveness, making the HPE P04531-B21 an efficient choice for mixed-use applications.
Low Profile Converter
The Low Profile Converter design adds flexibility to the SSD’s installation options. This feature enables compatibility with servers and storage enclosures that require low-profile components, ensuring adaptability in diverse server environments.
Mixed Use Application
The HPE P04531-B21 is specifically designed for mixed-use applications, striking a balance between read and write workloads. This makes it suitable for a wide range of server applications, including virtualization, databases, and other demanding workloads.
Performance and Reliability
We delve into the performance and reliability aspects of the HPE P04531-B21, exploring how its design and features contribute to a robust and dependable storage solution.
Speed and Throughput
The SAS 12 GBPS interface, combined with the 3.5-inch LFF form factor, ensures high-speed data transfer and throughput. This is particularly crucial for applications that demand quick access to data, reducing latency and enhancing overall system responsiveness.
Endurance and Longevity
With the MLC technology, the HPE P04531-B21 delivers a balance between performance and endurance. MLC-based SSDs are known for their ability to withstand a higher number of program/erase cycles compared to other types of NAND flash memory, ensuring longevity and reliability in demanding server environments.
Error Correction and Data Integrity
Data integrity is a priority in enterprise storage solutions. The SSD incorporates advanced error correction mechanisms to safeguard against data corruption and ensure the accuracy of stored information. This enhances the overall reliability of the storage system.
Temperature and Power Management
Efficient temperature and power management are critical for the sustained performance of storage devices. The HPE P04531-B21 includes features that contribute to effective heat dissipation and power utilization, ensuring optimal performance while minimizing the risk of overheating.
Digitally Signed Firmware
Digitally Signed Firmware refers to the process of using digital signature technology to ensure the authenticity and integrity of firmware on a solid-state drive (SSD). HPE P04531-B21 800GB SAS 12GBPS SSD is an example of a drive that has digitally signed firmware.
When a firmware update is released for the drive, the manufacturer will use digital signature technology to create a unique signature for that firmware. This signature is then embedded in the firmware, and the firmware can only be installed on the drive if the signature matches the one that is stored on the drive. This ensures that the firmware has not been tampered with or altered in any way before it is installed on the drive.
The use of digitally signed firmware is important because it helps to protect the drive from malicious firmware updates that could potentially harm the drive or compromise the data stored on it. It also ensures that only firmware that has been officially released by the manufacturer can be installed on the drive, which helps to prevent unauthorized firmware updates.
Use Cases and Applications
The diverse range of applications and use cases where the HPE P04531-B21 SSD can excel makes it a versatile choice for various enterprise scenarios.
Virtualization
The high-speed performance and mixed-use application suitability make the HPE P04531-B21 ideal for virtualization environments. Whether running virtual machines or handling virtualized storage, this SSD can enhance the overall efficiency of virtualization solutions.
Database Management
Databases, especially those dealing with intensive read and write operations, benefit from the mixed-use capabilities of this SSD. The robust performance and reliability contribute to improved database responsiveness and reduced query times.
Data Analytics
In the realm of data analytics, where large datasets are processed and analyzed, the HPE P04531-B21’s high capacity and speed play a crucial role. The SSD’s mixed-use design ensures efficient handling of diverse workloads associated with data analytics applications.
Enterprise-level Applications
The HPE P04531-B21 is well-suited for a wide range of enterprise-level applications, including file servers, mail servers, and other mission-critical functions. Its compatibility with diverse server configurations and reliability make it a reliable choice for enterprises with varying IT requirements.
High-Speed Data Transfer
HPE P04531-B21 800GB SAS 12GBPS SSD is a solid-state drive (SSD) manufactured by Hewlett Packard Enterprise (HPE) that is designed to provide high-speed data transfer for enterprise storage systems.
The SAS (Serial Attached SCSI) interface and 12 Gbps data transfer rate provide fast data transfer speeds, making this drive ideal for applications that require high-speed data transfer such as databases, virtualization, and big data analytics. The SAS interface is a high-speed serial data transfer interface that provides faster data transfer rates than traditional parallel interfaces such as SATA.
The 12 Gbps data transfer rate allows for faster data transfer rates between the drive and the host system, resulting in faster access to stored data and improved overall system performance. The drive also has a large 800GB storage capacity, which allows for more data to be stored and quickly accessed.
General Information for the HPE P04531-B21 800GB SSD
- Manufacturer: HPE
- Model Number or SKU# P04531-B21
- Product Type: Solid State Drive
Technical Information of SAS 12GBPS Solid State Drive
- Capacity: 800 GB
- NAND Flash Memory Type: Multi-Level Cell (MLC)
- Form Factor: 3.5-inch LFF
- Interface: SAS 12GBPS
- Plug Type: Hot Pluggable
- Carrier Type: Low Profile Converter (LPC)
- Workload Type: Mixed Use
- Features: Digitally Signed Firmware
- Bundled with: HPE Low Profile Converter
- Height: 15 mm
Performance
- Lifetime Writes: 4380
- Endurance DWPD (Drive Writes Per Day): 3
- Drive Transfer Rate: 12 Gb/sec (external)
- Random Read IOPS (4KiB, Q=16): 104000
- Max Random Read IOPS (4KiB): 165000@Q32
- Random Write IOPS (4KiB, Q=16): 85000
- Max Random Write IOPS (4KiB): 85000@16
- Internal Data Rate (read): 1075 MBps
- Internal Data Rate (write): 1030 MBps
Power Consumption
- Idle Time Power Consumption: 4.26 Watt
- Random Read Power Consumption: 4.97 Watt
- Random Write Power Consumption: 4.97 Watt
- Sequential Read Power Consumption: 6.71 Watt
- Sequential Write Power Consumption: 6.95 Watt
- Random Read/Write Power Consumption: 4.97 Watt
- Maximum Power Consumption: 6.71 Watt
Compatibility with HPE Servers
HPE Apollo Series
- HPE Apollo 4200 Gen10 (3.5 inches)
- HPE Apollo 4200 Gen9 (3.5 inches)
- HPE Apollo 4510 Gen9 (3.5 inches)
HPE ProLiant DL Series
- DL325 Gen10 (3.5 inch)
- DL325 Gen10 Entry (3.5 inch)
- DL325 Gen10 Performance (3.5 inch)
- DL325 Gen10 SMB Solution (3.5 inch)
HPE ProLiant ML Series
- ML110 Gen10 (3.5 inch)
- ML110 Gen10 Entry (3.5 inch)
- ML110 Gen10 Performance (3.5 inch)
- ML110 Gen10 Solution (3.5 inch)
- ML350 Gen10 (3.5 inch)
- ML350 Gen10 Base (3.5 inch)
- ML350 Gen10 Entry (3.5 inch)
- ML350 Gen10 Performance (3.5 inch)
- ML350 Gen10 Solution (3.5 inch)
- ML350 Gen10 Sub-Entry (3.5 inch)
HPE ProLiant XL Series
- XL170r Gen10 (3.5 inch)
- XL190r Gen10 (3.5 inch)
Finally, the HPE P04531-B21 800GB SAS SSD represents a reliable and high-performance storage solution for modern server environments. With its impressive capacity, fast data transfer rates, and robust features, this SSD is well-suited for a variety of enterprise applications and use cases. Whether deployed in database servers, virtualization platforms, or big data analytics environments, the HPE P04531-B21 SSD excels in enhancing storage performance, reliability, and efficiency.
As organizations continue to prioritize data-driven decision-making and digital transformation initiatives, the demand for high-performance storage solutions like the HPE P04531-B21 SSD is expected to grow. By leveraging the latest advancements in SAS technology and NAND flash memory, HPE remains at the forefront of innovation in the server storage market, empowering businesses to meet the evolving demands of the digital era.
