Description
Product Overview of the HPE P13832-001 Solid State Drive (SSD)
In the ever-evolving landscape of data storage, Hewlett Packard Enterprise (HPE) continues to push the boundaries with cutting-edge technologies. The HPE P13832-001 Solid State Drive (SSD) stands out as a remarkable solution, boasting 1.92 Terabytes (TB) of storage capacity. This comprehensive exploration delves into the intricacies of this SSD, examining its features and specifications, including Peripheral Component Interconnect Express (PCI-E), Non-Volatile Memory Express (NVMe), Triple Level Cell (TLC), and its Small Form Factor (SFF) 2.5-inch design. Moreover, we will discuss its compatibility with G8, G9, and G10 servers.
Understanding of the HPE P13832-001 SSD
The HPE P13832-001 SSD is a cutting-edge storage solution designed for high-performance computing environments. With a capacity of 1.92 Terabytes (TB), it offers ample space to store large amounts of data efficiently. This SSD utilizes the Peripheral Component Interconnect Express (PCI-E) interface, coupled with Non-Volatile Memory Express (NVMe) protocol, to deliver blazing-fast data transfer speeds and low latency.
Non-Volatile Memory Express (NVMe)
NVMe is a protocol designed specifically for SSDs, optimizing their performance by reducing latency and enhancing data transfer speeds. As an NVMe SSD, the HPE P13832-001 ensures seamless communication with the server, unlocking the full potential of its storage capabilities.
Peripheral Component Interconnect Express (PCI-E)
The HPE P13832-001 utilizes PCI-E, a high-speed interface that facilitates faster data transfer between the SSD and the server. PCI-E has become the industry standard for connecting various components, offering increased bandwidth and efficiency.
Technology Behind HPE P13832-001 SSD
At the heart of the HPE P13832-001 SSD lies Triple Level Cell (TLC) NAND flash memory technology. TLC NAND flash memory allows for higher data density, enabling the SSD to pack more storage capacity into a compact form factor. This makes it ideal for applications where space is limited, such as small form factor (SFF) servers and storage appliances.
Small Form Factor (SFF) 2.5-inch Design
The HPE P13832-001 adopts a Small Form Factor (SFF) design, specifically the 2.5-inch form factor. This design choice has implications for server space utilization, thermal considerations, and overall system compatibility. This section explores the reasons behind choosing the 2.5-inch SFF and its impact on the deployment and integration of the SSD in different server environments.
Read Intensive Workloads
One of the key strengths of the HPE P13832-001 SSD is its suitability for read-intensive workloads. Whether it’s data analytics, content delivery, or virtualization, this SSD excels in applications where read performance is critical. With its high throughput and low latency, it can handle demanding workloads with ease, ensuring smooth operation and optimal performance.
Benefits of HPE P13832-001 SSD
- Enhanced Performance: The combination of PCI-E interface and NVMe protocol delivers exceptional performance, reducing data access times and improving overall system responsiveness.
- Reliability: Solid-state technology offers greater reliability compared to traditional mechanical hard drives, with no moving parts to fail or degrade over time.
- Energy Efficiency: SSDs consume less power than HDDs, resulting in lower energy costs and reduced environmental impact.
- Scalability: With its high capacity and compatibility with HPE ProLiant servers, the HPE P13832-001 SSD provides a scalable storage solution that can grow with your business needs.
- Cost-Effectiveness: While SSDs typically have a higher upfront cost than HDDs, the long-term cost savings from improved performance, reliability, and energy efficiency make them a cost-effective investment.
Applications of HPE P13832-001 SSD
- Data Centers: It can be used as primary storage in data centers to accelerate data access and processing tasks.
- Cloud Computing: In cloud environments, the HPE P13832-001 SSD can improve the performance of virtual machines and storage services.
- Big Data Analytics: For big data applications, this SSD can significantly reduce data processing times, enabling faster insights and decision-making.
- Content Delivery Networks (CDNs): In CDN infrastructures, the HPE P13832-001 SSD can improve content delivery speeds and reliability, enhancing the end-user experience.
- Virtualization: In virtualized environments, the HPE P13832-001 SSD can boost VM performance and reduce latency, leading to better resource utilization and higher consolidation ratios.
General Information About this HPE P13832-001 1.92 TB SSD
- Manufacturer: HPE
- Model Number or SKU# P13832-001
- Product Type: 1.92 TB
- Product Name: Solid State Drive
Technical Information
- Capacity: 1.92 Terabytes (Tb)
- Height: 15 Millimeters (Mm)
- Form Factor: Small Form Factor (SFF)
- Plug Type: Hot-plug
- Carrier Type: Small Computer System Interface (SCSI) Connector
- Flash Type: Triple-Level Cell (TLC)
- Port: Single Port
Performance
- Sequential Reads: Up to 3300 Megabits per second (Mbps)
- Sequential Writes: Up to 1250 Mbps
- Random Reads: Up to 147,000 Input/Output Operations per Second (IOPS)
- Random Writes: Up to 30,000 IOPS
Compatibility
- ProLiant BL Series:
- BL460c (G9, G10)
- BL660c (G9)
- ProLiant DL Series:
- DL360 (G9, G10)
- DL380 (G9, G10)
- DL385 (G10)
- DL560 (G9, G10)
- DL580 (G9, G10)
- ProLiant ML Series:
- ML350 (G9, G10)
- Apollo Series:
- 4500 (G10)
- 4510 (G10)
- 4520 (G10)
- 4530 (G10)
- Apollo Series (other models):
- k6000 (G10)
- d6500 (G10)
- r2200 (G10)
- r2600 (G10)
- r2800 (G10)
Finally, the HPE P13832-001 1.92 Terabytes SSD emerges as a powerful storage solution, incorporating advanced technologies such as PCI-E, NVMe, TLC, and SFF. Its compatibility with G8, G9, and G10 servers positions it as a versatile choice for enterprises seeking high-capacity, high-performance storage solutions. As technology continues to evolve, HPE remains at the forefront, providing innovative solutions that meet the ever-growing demands of modern data-centric environments.
