Description
Product overview for the HPE P10467-001 3.84TB SSD
In the realm of data storage technology, solid-state drives (SSDs) have revolutionized the way data is stored, accessed, and managed. Among the leading players in this domain is Hewlett Packard Enterprise (HPE), renowned for its innovative solutions tailored to meet the demanding requirements of modern data centers. One such offering from HPE is the P10467-001 3.84TB NVMe (Non-Volatile Memory Express) SSD. This article aims to delve into the intricacies of this specific SSD, shedding light on its features, benefits, and applications, all while employing simple English for ease of understanding.
Understanding the Basics: Solid-State Drives (SSDs)
Before delving into the specifics of the HPE P10467-001 Read Intensive MLC SF SSD, it’s essential to grasp the fundamentals of solid-state drives. Unlike traditional hard disk drives (HDDs) that rely on spinning magnetic disks to store data, SSDs utilize flash memory to store data persistently. This flash memory consists of integrated circuits that retain data even when the power is turned off, making SSDs highly reliable and efficient storage solutions.
HPE P10467-001 3.84TB NVMe SSD
The HPE P10467-001 3.84TB NVMe SSD represents a cutting-edge storage solution engineered for server environments. Let’s break down its name to understand its key features:
- 3.84TB Capacity: This denotes the storage capacity of the SSD, which stands at an impressive 3.84 terabytes (TB), making it suitable for storing large volumes of data.
- NVMe Interface: NVMe stands for Non-Volatile Memory Express, which is a communication protocol specifically designed for SSDs. NVMe drives offer significantly faster data transfer speeds compared to traditional interfaces like SATA.
- X4 Lanes: The “X4 Lanes” specification indicates the number of PCIe (Peripheral Component Interconnect Express) lanes utilized by the SSD for data transfer. More lanes generally result in higher bandwidth and faster performance.
- Read Intensive: This refers to the intended usage scenario of the SSD. “Read intensive” drives are optimized for applications where the majority of operations involve reading data rather than writing.
- MLC (Multi-Level Cell) Technology: MLC is a type of NAND flash memory technology that stores multiple bits of data per cell. This allows for higher storage density and lower cost per gigabyte compared to Single-Level Cell (SLC) technology.
- SFF 2.5-inch Form Factor: The “SFF” designation stands for Small Form Factor, indicating the physical size of the drive. The 2.5-inch form factor is a standard size for SSDs, making them compatible with a wide range of server and storage systems.
- Digitally Signed Firmware: Firmware refers to the software that controls the operation of the SSD. Digital signing ensures that the firmware has not been tampered with or altered, enhancing security and reliability.
Key Features and Benefits
Now that we have a basic understanding of the HPE P10467-001 SSD, let’s explore its key features and the benefits they offer:
- High Capacity: With a storage capacity of 3.84TB, the HPE P10467-001 SSD can accommodate large datasets, making it ideal for data-intensive applications such as databases, virtualization, and content delivery networks (CDNs).
- NVMe Interface for Exceptional Performance: The NVMe interface utilized by the SSD enables blazing-fast data transfer speeds, significantly reducing latency and improving overall system performance. This makes it well-suited for high-performance computing (HPC) and enterprise workloads where speed is paramount.
- Optimized for Read-Intensive Workloads: The SSD’s read-intensive design makes it particularly well-suited for applications where the majority of operations involve reading data, such as data analytics, data warehousing, and content delivery.
- MLC Technology for Enhanced Reliability: Multi-Level Cell (MLC) technology enhances the reliability and endurance of the SSD, ensuring consistent performance over an extended lifespan. This makes it a reliable choice for mission-critical applications that demand uninterrupted operation.
- Small Form Factor for Space Efficiency: The 2.5-inch small form factor of the SSD allows for efficient utilization of server and storage infrastructure, enabling denser deployments and maximizing rack space utilization.
- Digitally Signed Firmware for Security: The digitally signed firmware of the SSD provides an added layer of security, protecting against unauthorized access and ensuring the integrity of the drive’s operation. This is particularly crucial in environments where data security is a top priority.
Applications and Use Cases
The HPE P10467-001 3.84TB NVMe SSD finds application across a diverse range of use cases and industries, thanks to its versatile features and robust performance. Some common applications include:
- Enterprise Storage: The SSD can be deployed in enterprise storage arrays to accelerate data access and improve overall storage performance. Its high capacity makes it suitable for storing critical business data and applications.
- Virtualization: In virtualized environments, the SSD can significantly reduce latency and improve VM (Virtual Machine) density, leading to better resource utilization and enhanced overall system performance.
- Database Workloads: For database applications that require fast read access and low latency, the SSD’s NVMe interface and read-intensive design make it an ideal choice. It can improve query response times and optimize database performance.
- Content Delivery Networks (CDNs): CDNs rely on fast storage solutions to deliver content quickly and efficiently to end-users. The HPE P10467-001 SSD can accelerate content delivery by minimizing latency and improving throughput.
- Data Analytics: In data analytics environments, where large volumes of data need to be processed quickly, the SSD’s high capacity and performance capabilities can significantly reduce processing times and improve analytical insights.
- Artificial Intelligence (AI) and Machine Learning (ML): AI and ML workloads often involve processing massive datasets in real time. The SSD’s high capacity and fast data access make it well-suited for AI and ML applications, where speed and efficiency are critical.
General Information about the HPE P10467-001 3.84TB SSD
- Manufacturer: HPE
- Model Number or SKU# P10467-001
- Type: Solid State Drive (SSD)
- Product Type: Nvme
Technical Information for the 3.84TB Nvme Solid State Drive
- Capacity: 3.84TB
- Form Factor: 2.5-inch SFF
- Interface: PCI Express x4 (NVMe)
- Plug Type: Hot Pluggable
- Carrier Type: Smart Carrier NVMe (SCN)
- Workload Type: Read Intensive
- Bundled with: HPE Smart Carrier NVMe (SCN)
- Features: Digitally Signed Firmware (DS)
- Platform Supported: HPE ProLiant Rack/Tower/BladeSystem Servers/Synergy
Performance
- 30 Days Write: 7000
- Endurance DWPD (Drive Writes Per Day): 1
- Random Read IOPS (4KiB, Q=16): 165,000
- Random Write IOPS (4KiB, Q=16): 74,000
- MAX Random Read IOPS (4KiB): 780,000 @ Q256
- MAX Random Write IOPS (4KiB): 75,000 @ Q16
Expansion & Connectivity
- Interfaces: 1 x PCIe x4 NVMe
- Compatible Bay: 2.5″ SFF
Power
- Power Consumption: 7.20 Watts
Compatibility
HPE ProLiant DL Series
- DL325 Gen10 (2.5inch)
- DL325 Gen10 Base (2.5inch)
- DL325 Gen10 Entry (2.5inch)
- DL325 Gen10 Performance (2.5inch)
- DL325 Gen10 SMB Solution (2.5inch)
- DL325 Gen10 Solution (2.5inch)
- DL360 Gen10 All Flash Server for Datera (2.5inch)
- DL360 Gen10 Entry (2.5inch)
- DL360 Gen10 Low (2.5inch)
- DL360 Gen10 Network Choice (2.5inch)
- DL360 Gen10 Remote Office Branch Office Server for Cohesity DataPlatform (2.5inch)
- DL360 Gen10 SMB (2.5inch)
- DL360 Gen10 SMB Network Choice (2.5inch)
- DL360 Gen10 Solution (2.5inch)
- DL380 Gen10 All Flash Server for Datera (2.5inch)
- DL380 Gen10 Entry SMB (2.5inch)
- DL380 Gen10 for Cohesity DataPlatform (2.5inch)
- DL380 Gen10 High Performance (2.5inch)
- DL380 Gen10 Hybrid Server for Datera (2.5inch)
- DL380 Gen10 Network Choice (2.5inch)
- DL380 Gen10 Network Choice for CTERA (2.5inch)
- DL380 Gen10 Network Choice for SAP HANA Compute Block (2.5inch)
- DL380 Gen10 NVMe All Flash Server for Datera (2.5inch)
- DL380 Gen10 Performance (2.5inch)
- DL380 Gen10 Server for CTERA (2.5inch)
- DL380 Gen10 SMB (2.5inch)
- DL380 Gen10 SMB Networking Choice (2.5inch)
- DL380 Gen10 Solution (2.5inch)
- DL385 Gen10 (2.5inch)
- DL385 Gen10 Base (2.5inch)
- DL385 Gen10 Entry (2.5inch)
- DL385 Gen10 High-Performance (2.5inch)
- DL385 Gen10 Performance (2.5inch)
- DL385 Gen10 SMB (2.5inch)
- DL385 Gen10 Solution (2.5inch)
- DL388 Gen10 (2.5inch)
- DL560 Gen10 Base (2.5inch)
- DL580 Gen10 (2.5inch)
- DL580 Gen10 Base (2.5inch)
- DL580 Gen10 Entry (2.5inch)
- DL580 Gen10 Performance (2.5inch)
HPE Synergy Series
- 480 Gen10 Base Compute Module (2.5inch)
- 480 Gen10 Compute Module (2.5inch)
- 480 Gen10 Entry Compute Module (2.5inch)
- 480 Gen10 Performance Compute Module (2.5inch)
- 480 Gen10 Premium Backplane Compute Module (2.5inch)
- 480 Gen10 Standard BackPlane Compute Module (2.5inch)
- 480 Gen10 w/o Drives Compute Module (2.5inch)
- 660 Gen10 Base Compute Module (2.5inch)
- 660 Gen10 Compute Module (2.5inch)
- 660 Gen10 Entry Compute Module (2.5inch)
- 660 Gen10 Performance Compute Module (2.5inch)
- 660 Gen10 Premium Compute Module (2.5inch)
- 680 Gen9 4S-EX Compute Module (2.5inch)
In summary, the HPE P10467-001 3.84TB NVMe SSD is a high-performance storage solution designed to meet the demanding requirements of modern data centers. With its impressive capacity, NVMe interface, read-intensive design, MLC technology, small form factor, and digitally signed firmware, it offers a compelling combination of features and benefits. Whether deployed in enterprise storage arrays, virtualized environments, database workloads, content delivery networks, data analytics, or AI/ML applications, this SSD delivers exceptional performance, reliability, and security. As organizations continue to strive for greater efficiency and agility in managing their data, the HPE P10467-001 SSD stands out as a reliable and versatile storage solution that empowers businesses to unlock new possibilities and drive innovation in the digital age.