Description
Product Overview of the HPE 867887-001 SAS-12GBPS SSD
In the realm of data storage, technological advancements have led to the creation of highly efficient and powerful storage solutions to meet the ever-growing demands of modern servers. One such innovation is the HPE 867887-001 480 Gigabytes (GB) Serial-Attached SCSI (SAS) 12 Gigabytes Per Second (GBPS) Intens Small Form Factor (SFF) 2.5 Inch Smart Carrier (SC) Digitally Signed Firmware (DS) Read Intensive Solid State Drive (SSD) for servers. In this comprehensive guide, we will delve into the various aspects of this SSD, exploring its specifications, features, benefits, and how it caters to the specific needs of server environments.
The HPE 867887-001 SSDSerial-Attached SCSI (SAS) Technology
At the core of the HPE 867887-001 SSD lies the Serial-Attached SCSI (SAS) technology, a high-performance storage interface that combines the advantages of SCSI (Small Computer System Interface) with serial point-to-point connections. This technology ensures a robust and reliable connection between the server and the SSD, facilitating fast and efficient data transfer.
Impressive Storage Capacity
With a storage capacity of 480 Gigabytes (GB), the HPE 867887-001 SSD provides ample space for storing large volumes of data. This is particularly crucial in server environments where massive amounts of data are processed and stored on a regular basis. The generous storage capacity of this SSD makes it suitable for various applications, ranging from databases to virtualization.
High
Data Transfer Speeds
The 12 Gigabytes Per Second (GBPS) data transfer rate of the HPE 867887-001 SSD ensures swift and seamless data access. This high-speed performance is vital for reducing latency and enhancing the overall efficiency of server operations. Whether it’s reading or writing data, the SSD’s impressive data transfer speeds contribute to an optimal computing experience.
Security and ReliabilityDigitally Signed Firmware (DS) for Enhanced Security
Security is a paramount concern in server environments and the HPE 867887-001 SSD addresses this by incorporating Digitally Signed Firmware (DS). This security measure ensures that the firmware has been verified and signed by a trusted entity, reducing the risk of unauthorized access or tampering. The inclusion of DS adds an extra layer of protection to the data stored on the SSD, instilling confidence in the integrity of the storage solution.
Read Intensive Design for Enhanced Reliability
Designed for read-intensive workloads, the HPE 867887-001 SSD is optimized for applications where data is predominantly read rather than written. This specialization enhances the reliability and lifespan of the SSD, making it well-suited for scenarios where consistent and rapid access to data is critical. The SSD’s read-intensive design aligns with the specific needs of server workloads, contributing to sustained performance over time.
Benefits and Use CasesOptimal Performance in Server Environments
The HPE 867887-001 SSD is engineered to deliver optimal performance in server environments. Its high data transfer speeds, coupled with the SAS interface, ensure that servers can efficiently handle demanding workloads. Whether it’s database management, virtualization, or other resource-intensive tasks, this SSD is designed to meet the performance requirements of modern servers.
Space-Efficient Storage Solution
The Small Form Factor (SFF) design of the HPE 867887-001 SSD makes it an ideal choice for environments where space is at a premium. Servers often operate in confined spaces, and the compact size of this SSD allows for efficient utilization of available storage real estate. System administrators can deploy multiple SSDs without compromising the overall form factor of the server, leading to a more streamlined and space-efficient infrastructure.
Hot-Plug Capabilities for Seamless Maintenance
The inclusion of the Smart Carrier (SC) in the design of the HPE 867887-001 SSD enhances the maintenance process. With hot-plug capabilities, administrators can replace or upgrade SSDs without shutting down the server. This feature minimizes downtime, ensuring that critical operations continue uninterrupted. The ability to hot-plug SSDs also contributes to the overall agility and flexibility of server management.
Compatibility and IntegrationUniversal 2.5-Inch Form Factor
The 2.5-inch form factor of the HPE 867887-001 SSD adheres to industry standards, ensuring compatibility with a wide range of servers and storage systems. This universality simplifies the integration process, allowing organizations to seamlessly incorporate the SSD into their existing infrastructure without the need for extensive modifications.
Integration with HPE Server Ecosystem
As part of Hewlett Packard Enterprise’s (HPE) product lineup, the HPE 867887-001 SSD is designed to seamlessly integrate with HPE servers. This integration is not merely limited to physical compatibility; it extends to optimized performance and compatibility with HPE server management tools. This ensures that users can leverage the full capabilities of the SSD within an HPE server ecosystem.
Fast Data Transfer
- Fast Data Transfer (FDT) 867887-001 HPE is a high-speed data transfer technology developed by Hewlett Packard Enterprise (HPE). It is designed to transfer large amounts of data quickly and efficiently over long distances between data centers, data storage systems, and high-performance computing (HPC) clusters. The technology uses a combination of hardware and software solutions to achieve data transfer speeds of up to 100 Gbps and more.
- The FDT 867887-001 HPE solution includes a hardware appliance that serves as a data transfer node and software that manages the transfer process. The hardware appliance connects to the source and destination storage systems and uses high-speed data transfer protocols, such as Infiniband or 10/40/100 GbE, to transfer the data. The software provides a graphical user interface (GUI) for managing and monitoring the transfer process, as well as advanced features such as data compression, encryption, and data integrity checking.
- FDT 867887-001 HPE is used in a variety of data-intensive applications, including scientific research, financial services, and digital media. The technology can transfer large datasets quickly and reliably, reducing the time required for data transfers and increasing the overall efficiency of data-intensive workflows.
SFF Design for High-Performance Storage
- SFF (Small Form Factor) Design for High-Performance Storage 867887-001 HPE is a hardware solution developed by Hewlett Packard Enterprise (HPE) for storage systems. It is designed to provide high-performance storage in a compact form factor, making it suitable for use in data centers and other high-density computing environments.
- The 867887-001 HPE SFF design is based on the Small Form Factor (SFF) industry standard, which defines the physical dimensions and interface specifications of small-form-factor storage devices. This standard enables HPE to provide high-performance storage solutions that are smaller in size, consume less power, and are more cost-effective than larger form-factor storage solutions.
- The SFF design for High-Performance Storage 867887-001 HPE uses the latest technologies, such as NVMe (Non-Volatile Memory Express) and SAS (Serial Attached SCSI) interfaces, to provide high-speed data transfer rates and low latency. It supports a wide range of storage capacities and is compatible with a variety of operating systems and storage software.
- The 867887-001 HPE SFF design for high-performance storage is ideal for organizations that require large amounts of storage in a compact form factor and need to transfer large amounts of data quickly and efficiently. It is widely used in applications such as high-performance computing (HPC), data analytics, and digital media, where data storage and data transfer performance are critical factors.
SC Connector for Reliable Connectivity
- SC Connector for Reliable Connectivity 867887-001 HPE is a hardware solution developed by Hewlett Packard Enterprise (HPE) that provides a reliable and secure connection between devices in a data center or other high-performance computing environment.
- The 867887-001 HPE SC Connector is a type of fiber-optic connector that uses a push-pull mechanism to ensure a secure and stable connection. It uses an SC (Subscriber Connector) interface, which is a popular interface standard for fiber-optic connections in data centers and other high-performance computing environments. The SC Connector provides high-speed data transfer rates, low latency, and reliable connectivity for mission-critical applications.
- The 867887-001 HPE SC Connector is designed to meet the demanding requirements of data centers and other high-performance computing environments, where high-speed and reliable data transfer is critical. It provides a secure and stable connection for a variety of applications, including storage area networks (SANs), high-performance computing (HPC) clusters, and data transfer nodes.
- The 867887-001 HPE SC Connector is easy to install and use and is fully compatible with a wide range of devices, including switches, routers, and data transfer nodes. It supports a variety of optical fiber types, including single-mode and multimode fiber, and is designed to meet the latest industry standards for fiber-optic connectivity.
General Information about the HPE 867887-001 480GB SSD
- Manufacturer: HPE
- Part Number or SKU# 867887-001
- Device Type: Solid State Drive (SSD)
- Interface: 480GB
Technical Specifications
- Form Factor: 2.5-inch SFF
- Workload Type: Read Intensive
- Carrier Type: Smart Carrier (SC)
- Features: Digitally Signed Firmware (DS)
- Hot Pluggable: Yes
Drive Performance
- Lifetime Writes: 1752
- Endurance DWPD (Drive Writes Per Day): 1
- Drive Transfer Rate: 12 Gb/sec (external)
- Random Read IOPS (4KiB, Q=16): 110000
- Random Write IOPS (4KiB, Q=16): 32000
- Random Read Average Latency: 115
- Random Write Average Latency: 47
- Max Random Read IOPS (4KiB): 170000@Q128
- Max Random Write IOPS (4KiB): 32000@Q4
Compatibility
HPE ProLiant DL Series
- DL120 Gen9 (2.5 inch)
- DL120 Gen9 Entry (2.5 inch)
- DL160 Gen9 (2.5 inch)
- DL160 Gen9 Base (2.5 inch)
- DL160 Gen9 Entry (2.5 inch)
- DL160 Gen9 Performance (2.5 inch)
- DL160 Gen9 Thoughtspot Server (2.5 inch)
- DL180 Gen9 (2.5 inch)
- DL180 Gen9 Base (2.5 inch)
- DL180 Gen9 Entry (2.5 inch)
- DL180 Gen9 Storage (2.5 inch)
- DL20 Gen9 (2.5 inch)
- DL20 Gen9 Base (2.5 inch)
- DL20 Gen9 Entry (2.5 inch)
- DL20 Gen9 Performance (2.5 inch)
- DL20 Gen9 Solution (2.5 inch)
- DL20 Gen9 Special Server (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 Solution (2.5 inch)
- DL580 Gen9 (2.5 inch)
- DL580 Gen9 Base (2.5 inch)
- DL580 Gen9 Database (2.5 inch)
- DL580 Gen9 High Performance (2.5 inch)
- DL580 Gen9 SAP HANA Scale-out Base Configuration (2.5 inch)
- DL580 Gen9 SAP HANA Scale-up Base Configuration (2.5 inch)
HPE ProLiant ML Series
- ML110 Gen9 (2.5 inch)
- ML110 Gen9 Base (2.5 inch)
- ML110 Gen9 Entry (2.5 inch)
- ML150 Gen9 (2.5 inch)
- ML150 Gen9 Base (2.5 inch)
- ML150 Gen9 Entry (2.5 inch)
- ML150 Gen9 Performance (2.5 inch)
- ML350 Gen9 (2.5 inch)
- ML350 Gen9 Base (2.5 inch)
- ML350 Gen9 Entry (2.5 inch)
- ML350 Gen9 Performance (2.5 inch)
HPE ProLiant XL Series
- XL270d Gen9 (2.5 inch)
- XL450 Gen10 (2.5 inch)
In general, the HPE 867887-001 480 Gigabytes (GB) Serial-Attached SCSI (SAS) 12 Gigabytes Per Second (GBPS) Intens Small Form Factor (SFF) 2.5 Inch Smart Carrier (SC) Digitally Signed Firmware (DS) Read Intensive Solid State Drive for servers stands out as a powerful and versatile storage solution. Its combination of cutting-edge technologies, security features, and space-efficient design makes it a compelling choice for organizations seeking to enhance the performance, reliability, and security of their server environments. Whether used in data centers, cloud infrastructure, or enterprise servers, the HPE 867887-001 SSD is poised to meet the demands of modern computing, contributing to a seamless and efficient data storage experience.