Description
Data Backup and Recovery Options
The HPE 3.2TB PCI-Express NVMe Mixed Use SSD (P22270-H21) provides several options for data backup and recovery, including:
- Snapshots: Snapshots are a point-in-time copy of your data that can be used to recover your data in the event of a failure or accidental deletion. Snapshots can be taken at the file system level or at the storage system level, depending on the storage system you are using.
- Backup and Restore: This is a traditional method of backing up and restoring data, where you make a copy of your data and store it on a separate storage device or in the cloud. You can then use this backup to restore your data in the event of a failure or accidental deletion.
- Remote Replication: This is a method of replicating your data to a remote location, typically in the cloud, for disaster recovery purposes. In the event of a failure or disaster, you can use the replicated data to restore your data.
- Redundant Array of Independent Disks (RAID): RAID is a method of using multiple disks to provide redundancy and data protection. In the event of a disk failure, data can be recovered from the remaining disks.
Deployment and Upgrade Process
The deployment and upgrade process of the HPE P22270-H21 3.2TB PCI-Express NVMe Mixed Use SSD will depend on the specific environment in which it is being used, but here are some general steps that are typically involved:
- Preparation: Before installing the new SSD, ensure that the necessary hardware and software requirements are met, including a compatible server or storage system, a supported operating system, and the necessary drivers and firmware updates.
- Installation: Physically install the SSD in the appropriate slot, following the manufacturer’s instructions. Connect the necessary power and data cables, and then power on the system.
- Initialization: Initialize the new SSD in the appropriate manner, depending on the operating system and storage configuration. This may involve creating a partition, formatting the drive, and assigning a drive letter or mount point.
- Data migration: If the new SSD is being used to replace an existing drive, it may be necessary to transfer the data from the old drive to the new one. This can be done using various methods, including cloning, backup and restore, or data transfer software.
- Configuration: Depending on the specific environment, additional configuration steps may be necessary, such as adjusting the storage controller settings, configuring RAID, or setting up a storage pool.
- Verification: Once the installation and configuration steps are complete, verify that the new SSD is functioning as expected, and that all data has been transferred correctly.
- Maintenance: Regularly monitor the performance and health of the new SSD, and perform routine maintenance as recommended by the manufacturer, including firmware updates, checking for bad blocks, and running diagnostic tools.
Embedded and Edge Computing
The HPE 3.2TB PCI-Express NVMe Mixed Use SSD (P22270-H21) is well-suited for embedded and edge computing applications.
Embedded computing refers to the use of computer technology that is integrated into a product or system, typically to provide specific functionality. In embedded computing, the storage system is often a critical component, as it needs to provide fast, reliable, and secure storage for the system.
Edge computing refers to the processing and storage of data at the edge of a network, close to the source of the data, rather than in a central location. Edge computing is used to reduce latency and improve the performance of data-intensive applications, such as industrial automation, Internet of Things (IoT), and video surveillance.
The HPE 3.2TB PCI-Express NVMe Mixed Use SSD (P22270-H21) provides several features that make it well-suited for embedded and edge computing applications, including:
- High Performance: The NVMe interface and high-speed flash memory provide fast data transfer rates, making the SSD well-suited for data-intensive applications that require fast storage performance.
- Low Power Consumption: The SSD is designed to consume low power, making it ideal for embedded and edge computing applications where power consumption is a concern.
- Reliability: The SSD is designed to be reliable and durable, with features such as built-in error correction codes (ECC) and power-loss protection to ensure the integrity and availability of your data.
- Security: The SSD supports encryption and secure erase features to help protect your data against unauthorized access and theft.
Key information of HPE P22270-H21
- Brand Name: HPE
- Model Number or SKU# P22270-H21
- Device Type: Solid State Drive – Hot-Swap
- Capacity: 3.2 TB
- Form Factor: 2.5-inch SFF
- Interface: PCI Express x4 (NVMe)
- Plug Type: Hot Pluggable
- Carrier Type: Smart Carrier NVMe (SCN)
- Workload Type: Mixed Use
- NAND Flash Memory Type: Triple-Level Cell (TLC)
- Connectivity: Dual Port
- Bundled with: HPE Smart Carrier NVMe (SCN)
- Features: Digitally Signed Firmware (DS)
- Platform Supported: HPE ProLiant Rack/Tower/BladeSystem Servers/Synergy
- Height: 15.00 mm (0.60 inch)
Performance of HPE 3.2TB NVMe SSD
- Lifetime Writes: 17121
- Endurance DWPD (Drive Writes Per Day): 3
- MAX Seq Reads Throughput (MiB/s): 7000
- Max Seq Writes Throughput (MiB/s): 3900
- Random Read Avg. Latency uSec (4KiB,Q1): 82
- Random Write Avg. Latency uSec (4KiB,Q1): 26
- Random Read IOPS (4KiB, Q=16): 200000
- Random Write IOPS (4KiB, Q=16): 270000
- Max Random Read IOPS (4KiB): 960000@Q256
- Max Random Write IOPS (4KiB): 300000@Q256
- Expansion and Connectivity
- Interfaces: 1 x PCI Express x4 (NVMe)
- Compatible Bay: 2.5″ SFF
Power Consumption
- Idle Time: 5.00 Watt
- Random Read: 15.20 Watt
- Random Write: 15.20 Watt
- Sequential Read: 14.00 Watt
- Sequential Write: 17.50 Watt
- Random Read/Write: 15.20 Watt
- Maximum: 17.50 Watt
Dimensions and Weight
- Height: 11.80 inch
- Width: 7.90 inch
- Depth: 5.90 inch
- Weight: 1.35 lbs
Compatibility of 3.2TB Mixed Use Solid State Drive
- HPE Nimble Storage dHCI Large Solution with HPE ProLiant DL380 Gen10 (2.5inch), Medium Solution with HPE ProLiant DL360 Gen10 (2.5inch), Small Solution with HPE ProLiant DL360 Gen10 (2.5inch)
- HPE ProLiant DL Series: DL360 Gen10 (2.5inch), DL360 Gen10 All Flash Server for Datera (2.5inch), DL360 Gen10 All Flash Server for Weka (2.5inch), DL360 Gen10 Base (2.5inch), DL360 Gen10 Compute Server for Cohesity DataPlatform (2.5inch), DL360 Gen10 Entry (2.5inch), DL360 Gen10 High Performance (2.5inch), DL360 Gen10 Low (2.5inch), DL360 Gen10 Network Choice (2.5inch), DL360 Gen10 Network Choice for SAP HANA Compute Block (2.5inch), DL360 Gen10 Performance (2.5inch), DL360 Gen10 Performance for Cohesity DataPlatform (2.5inch), DL360 Gen10 Premium (2.5inch), DL360 Gen10 Remote Office Branch Office Server for Cohesity DataPlatform (2.5inch), DL360 Gen10 Server for CTERA (2.5inch), DL360 Gen10 SMB (2.5inch), DL360 Gen10 SMB Network Choice (2.5inch), DL360 Gen10 Solution (2.5inch), DL360 Gen10 Special Server (2.5inch), DL380 Gen10 (2.5inch), DL380 Gen10 All Flash Server for Datera (2.5inch), DL380 Gen10 Base (2.5inch), DL380 Gen10 Entry (2.5inch), DL380 Gen10 Entry SMB (2.5inch), DL380 Gen10 for Cohesity DataPlatform (2.5inch), DL380 Gen10 for SAP HANA Compute Block (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), DL560 Gen10 (2.5inch), DL560 Gen10 Base (2.5inch), DL560 Gen10 Entry (2.5inch), DL560 Gen10 for SAP HANA Compute Block (2.5inch), DL560 Gen10 Performance (2.5inch), DL580 Gen10 (2.5inch), DL580 Gen10 Base (2.5inch), DL580 Gen10 Entry (2.5inch), DL580 Gen10 Performance (2.5inch)
Contact us or ask for live chat/help if you have any questions about the compatibility of this item to ensure the model’s matching features with your current system.
