Description
Product Details of the HPE P09769-001 1.92TB SSD
In the fast-paced world of server technology, storage solutions are continually evolving to meet the demands of modern applications. The HPE P09769-001 1.92TB NVMe SSD stands out as a high-performance storage option designed for server applications. This article provides a detailed exploration of its key features, specifications, and the benefits it brings to server environments, focusing on its Non-Volatile Memory Express (NVMe) technology, Read-Intensive design, Multi-Level Cell (MLC) architecture, and Small Form Factor (SFF) 2.5-inch configuration.
Understanding HPE P09769-001HPE P09769-001 Overview
The HPE P09769-001 is a Solid State Drive specifically crafted for servers, offering a substantial storage capacity of 1.92 Terabytes. What sets it apart is its utilization of Non-Volatile Memory Express (NVMe) technology, making it a high-performing solution for data-intensive server workloads. The drive adopts a Small Form Factor (SFF) of 2.5 inches, catering to environments where space efficiency is crucial.
Non-Volatile Memory Express (NVMe)
NVMe is a storage protocol designed to optimize the performance of Solid State Drives by reducing latency and increasing the efficiency of data transfer. The integration of NVMe in the HPE P09769-001 enhances its speed and responsiveness, making it an ideal choice for applications that require rapid data access.
Read-Intensive Design
The Read-Intensive nature of the HPE P09769-001 indicates its suitability for workloads characterized by a high volume of read operations. This design is particularly beneficial for applications where data retrieval is a primary function, such as content delivery servers or read-heavy databases.
Multi-Level Cell (MLC) Architecture
MLC architecture refers to the type of NAND flash memory used in the SSD. MLC stores multiple bits of data in each memory cell, providing a balance between cost, performance, and endurance. The HPE P09769-001’s MLC architecture contributes to its overall reliability and efficiency, essential for sustained performance in server environments.
Small Form Factor (SFF) 2.5 Inch
The Small Form Factor (SFF) designation, coupled with the 2.5-inch size, makes the HPE P09769-001 suitable for installations where space is at a premium. This form factor is common in modern server configurations, enabling the drive to seamlessly integrate into various server environments without compromising on performance.
Key FeaturesHigh Storage Capacity
The HPE P09769-001 boasts a capacious 1.92 Terabytes of storage space. This is particularly valuable for server applications dealing with large datasets, virtual machines, or other storage-intensive workloads. The ample storage capacity ensures that servers can accommodate growing data requirements without compromising performance.
NVMe Technology for Enhanced Performance
The integration of NVMe technology significantly elevates the performance of the HPE P09769-001. The protocol’s ability to harness the full potential of flash-based storage translates to lower latency, increased input/output operations per second (IOPS), and overall improved responsiveness. This is particularly advantageous in scenarios where quick data access is critical.
Read-Intensive Design for Specific Workloads
The Read-Intensive design of the HPE P09769-001 caters to applications with a predominant focus on read operations. This includes scenarios where data retrieval speed is paramount, such as in content delivery networks (CDNs), read-heavy databases, or streaming services. The drive’s architecture is optimized to deliver consistent and reliable performance for such workloads.
MLC Architecture for Reliability
The Multi-Level Cell (MLC) architecture employed by the HPE P09769-001 strikes a balance between performance and endurance. MLC stores multiple bits per cell, allowing for efficient data storage and retrieval. This architecture contributes to the drive’s overall reliability, essential for sustained performance in server environments with continuous read-intensive operations.
Space-Efficient 2.5 Inch Form Factor
The 2.5-inch Small Form Factor (SFF) of the HPE P09769-001 aligns with modern server configurations that prioritize space efficiency. This compact form factor makes the drive versatile and suitable for a wide range of server installations, including those with limited physical space.
Reliability and DurabilityMLC Endurance
The MLC architecture of the HPE P09769-001 contributes to its endurance, indicating its ability to withstand frequent read operations over an extended lifespan. Endurance ratings provide insights into the drive’s durability in read-intensive scenarios.
Error Correction Mechanisms
Enterprise-grade SSDs often incorporate advanced error correction mechanisms to ensure data integrity. The HPE P09769-001’s reliability is further enhanced by such features, minimizing the risk of data corruption or loss during read operations.
Wear Leveling
Wear leveling is a crucial aspect of SSD durability, ensuring that write and erase cycles are distributed evenly across the storage medium. While the HPE P09769-001 is designed for read-intensive workloads, wear leveling remains relevant to ensure consistent performance and longevity.
Use Cases Content Delivery Servers
The Read-Intensive design of the HPE P09769-001 makes it an ideal choice for content delivery servers. These servers, responsible for distributing content to users globally, often involve frequent read operations. The drive’s NVMe technology enhances data access speed, contributing to efficient content delivery.
Read-Heavy Databases
Databases with a high volume of read operations, such as data warehouses or analytics databases, benefit from the HPE P09769-001’s Read-Intensive design. The drive’s MLC architecture and NVMe protocol ensure quick retrieval of data, optimizing database performance in read-centric scenarios.
Streaming Services
Streaming services, where content is continuously accessed by users, require storage solutions capable of handling constant read requests. The HPE P09769-001’s Read-Intensive design, coupled with NVMe technology, positions it as a suitable choice for streaming servers seeking responsive data access.
Virtualized Environments
In virtualized server environments hosting multiple virtual machines, the HPE P09769-001’s performance benefits extend to diverse workloads. Its Read-Intensive design accommodates the varied storage needs of virtual instances, contributing to the overall efficiency of virtualization platforms.
Compatibility
2.5 Inch SFF Form Factor
The 2.5-inch Small Form Factor (SFF) of the HPE P09769-001 ensures compatibility with modern server configurations. Its space-efficient design allows for easy integration into existing setups without the need for extensive modifications.
NVMe Interface Compatibility
Server administrators should ensure that their server hardware supports the NVMe interface to leverage the full capabilities of the HPE P09769-001. Compatibility with NVMe is crucial for unlocking the drive’s enhanced performance and responsiveness.
Compatibility with Server Models
While the HPE P09769-001 is designed for broad compatibility, it is advisable for users to verify its compatibility with their specific server models. This ensures a seamless integration and optimal performance within the intended server environment.
Performance Benchmarks
NVMe-Optimized Speed
The NVMe protocol’s optimization for flash-based storage translates to impressive speed and responsiveness. Performance benchmarks for the HPE P09769-001 should be assessed in terms of its ability to harness the full potential of NVMe, including lower latency and increased IOPS.
Read Operation Performance
Given its Read-Intensive design, performance benchmarks should focus on the drive’s ability to deliver consistent and high-speed read operations. This is particularly relevant for applications where quick data retrieval is a primary requirement.
Overall IOPS
Input/Output Operations Per Second (IOPS) metrics provide insights into the drive’s ability to handle a high volume of read operations. The HPE P09769-001’s NVMe technology contributes to robust IOPS performance, making it suitable for environments with demanding workloads.
Latency
Low latency is a key indicator of the drive’s responsiveness. Server administrators should consider latency benchmarks to evaluate how well the HPE P09769-001 meets the performance requirements of their specific applications, particularly those with stringent response time criteria.
General Information about the HPE P09769-001 1.92TB SSD
- Manufacturer: HPE
- Part Number or SKU# P08622-001
- Device Type: Solid State Drive (SSD)
- Interface: 1.92TB
Technical Information of the 1.92TB Solid State Drive
- Form Factor: 2.5-inch SFF
- Interface: NVMe U.2 PCIe
- NAND Flash Memory Type: Multi-Level Cell (MLC)
- Connectivity: Single Port
- Plug Type: Hot Pluggable
- Carrier Type: Smart Carrier NVMe (SCN)
- Workload Type: Read Intensive
- Features: Digitally Signed Firmware (DS), x4 Lanes
- Bundled with: HPE Smart Carrier NVMe (SCN)
- Platform Supported: HPE ProLiant Rack/Tower/BladeSystem Servers/Synergy
Performance
- Lifetime Writes: 3500
- Endurance DWPD (Drive Writes Per Day): 1.00
- Drive Transfer Rate: PCIe NVMe (External)
- MAX Seq. Reads Throughput (MiB/S): 3400
- MAX Seq. Writes Throughput (MiB/S): 1900
- Random Read Average Latency uSec (4KiB, Q1): 86
- Random Write Average Latency uSec (4KiB, Q1): 29
- Random Read IOPS (4KiB, Q=16): 160000
- Random Write IOPS (4KiB, Q=16): 52000
- MAX Random Read IOPS (4KiB): 720000@Q256
- MAX Random Write IOPS (4KiB): 52000@Q4
Expansion & Connectivity
- Interfaces: 1 x PCIe NVMe
- Compatible Bay: 2.5-inch SFF
Power Consumption
- Idle Time: 6.20 Watt
- Random Read: 10.00 Watt
- Random Write: 10.00 Watt
- Sequential Read: 13.70 Watt
- Sequential Write: 14.90 Watt
- Random Read/Write: 10.00 Watt
- Maximum: 14.90 Watt
Compatibility Information
- HPE ProLiant DL Series: DL325 Gen10 (2.5 inch), DL325 Gen10 Base (2.5 inch), DL325 Gen10 Entry (2.5 inch), DL325 Gen10 Performance (2.5 inch), DL325 Gen10 SMB Solution (2.5 inch), DL325 Gen10 Solution (2.5 inch), DL360 Gen10 All Flash Server for Datera (2.5 inch), DL360 Gen10 Entry (2.5 inch), DL360 Gen10 Low (2.5 inch), DL360 Gen10 Network Choice (2.5 inch), DL360 Gen10 Remote Office Branch Office Server for Cohesity DataPlatform (2.5 inch), DL360 Gen10 SMB (2.5 inch), DL360 Gen10 SMB Network Choice (2.5 inch), DL360 Gen10 Solution (2.5 inch), DL380 Gen10 All Flash Server for Datera (2.5 inch), DL380 Gen10 Entry SMB (2.5 inch), DL380 Gen10 for Cohesity DataPlatform (2.5 inch), DL380 Gen10 High Performance (2.5 inch), DL380 Gen10 Hybrid Server for Datera (2.5 inch), DL380 Gen10 Network Choice (2.5 inch), DL380 Gen10 Network Choice for CTERA (2.5 inch), DL380 Gen10 Network Choice for SAP HANA Compute Block (2.5 inch), DL380 Gen10 NVMe All Flash Server for Datera (2.5 inch), DL380 Gen10 Performance (2.5 inch), DL380 Gen10 SMB (2.5 inch), DL380 Gen10 SMB Networking Choice (2.5 inch), DL380 Gen10 Solution (2.5 inch), DL385 Gen10 (2.5 inch), DL385 Gen10 Base (2.5 inch), DL385 Gen10 Entry (2.5 inch), DL385 Gen10 High-Performance (2.5 inch), DL385 Gen10 Performance (2.5 inch), DL385 Gen10 SMB (2.5 inch), DL385 Gen10 Solution (2.5 inch), DL388 Gen10 (2.5 inch), DL560 Gen10 Base (2.5 inch), DL560 Gen10 Performance (2.5 inch), DL580 Gen10 (2.5 inch), DL580 Gen10 Base (2.5 inch), DL580 Gen10 Entry (2.5 inch), DL580 Gen10 Performance (2.5 inch)
- HPE Synergy Series: 480 Gen10 Base Compute Module (2.5 inch), 480 Gen10 Compute Module (2.5 inch), 480 Gen10 Entry Compute Module (2.5 inch), 480 Gen10 Performance Compute Module (2.5 inch), 480 Gen10 Premium Backplane Compute Module (2.5 inch), 480 Gen10 Standard BackPlane Compute Module (2.5 inch), 480 Gen10 w/o Drives Compute Module (2.5 inch), 660 Gen10 Base Compute Module (2.5 inch), 660 Gen10 Compute Module (2.5 inch), 660 Gen10 Entry Compute Module (2.5 inch), 660 Gen10 Performance Compute Module (2.5 inch), 660 Gen10 Premium Compute Module (2.5 inch), 680 Gen9 4S-EX Compute Module (2.5 inch)
Finally, The HPE P09769-001 1.92TB NVMe SSD for servers emerges as a powerful storage solution, combining high storage capacity, NVMe technology, Read-Intensive design, MLC architecture, and a space-efficient 2.5-inch form factor. Its suitability for read-heavy workloads positions it as an excellent choice for content delivery servers, read-intensive databases, streaming services, and virtualized environments. Server administrators seeking a storage solution that prioritizes speed, responsiveness, and reliability in read-intensive scenarios should consider the HPE P09769-001. Its NVMe optimization, coupled with the advantages of MLC architecture, contributes to consistent performance and endurance.