Power Management and Energy Efficiency
The HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD can be an energy-efficient component of a server system, but it's important to manage its power consumption effectively to maximize energy efficiency. Here are some tips for managing power consumption and improving energy efficiency:
Power Management:
- Enable power management features in the server system, such as power capping and power limiting, to control the amount of power consumed by the HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD.
- Utilize power-saving modes, such as idle or sleep modes, when the HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD is not in use.
- Ensure that the server system is properly configured to support energy-efficient storage, including the HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD.
Energy Efficiency:
- Consider using an SSD with a low power consumption profile, such as the HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD, which is designed to be energy-efficient.
- Implement energy-efficient storage management practices, such as using tiering and data reduction technologies, to optimize storage utilization and reduce power consumption.
- Ensure that the server system and HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD are properly cooled to prevent overheating and excessive power consumption.
By following these tips, you can help reduce the power consumption and improve the energy efficiency of the HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD, which can result in cost savings and a more sustainable IT environment.
Management and Monitoring Tools
HPE provides several management and monitoring tools to help administrators manage and monitor the HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD.
One such tool is the HPE Smart Storage Administrator (HPE SSA), which is a web-based tool that provides a centralized management interface for HPE storage arrays. HPE SSA allows administrators to perform tasks such as configuring storage arrays, managing storage volumes, and monitoring the health of the storage system.
Another tool is the HPE Systems Management Homepage (HPE SMH), which provides an integrated web-based interface for managing HPE server systems. HPE SMH allows administrators to view information about the system's hardware and software components, monitor system health, and manage firmware and driver updates.
In addition to these tools, HPE provides a variety of other management and monitoring tools, including the HPE InfoSight predictive analytics platform and the HPE Integrated Lights-Out (iLO) management controller. These tools provide advanced monitoring and management capabilities, allowing administrators to proactively monitor and manage their storage systems.
Embedded and Edge Computing
The HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD can be used in embedded and edge computing applications to provide high-performance, reliable, and low-latency data storage. Here are some key considerations for using the HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD in embedded and edge computing environments:
Embedded Computing:
- Consider the form factor of the HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD when selecting an embedded computing platform. Ensure that the M.2 form factor is compatible with the embedded system's storage interface.
- Evaluate the power consumption of the HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD and ensure that it meets the power requirements of the embedded computing platform.
- Consider the operating temperature range of the HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD and ensure that it can operate within the temperature constraints of the embedded computing environment.
Edge Computing:
- Consider the performance requirements of the edge computing application and ensure that the HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD is capable of delivering the necessary I/O performance.
- Evaluate the reliability and durability of the HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD to ensure that it can withstand the operating conditions of the edge computing environment, which may include exposure to vibration, shock, and temperature fluctuations.
- Consider the data protection and security requirements of the edge computing application and ensure that the HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD supports relevant security features, such as encryption and secure erase.
By selecting the appropriate HPE P40471-X21 SAS 24GBPS 1.92TB Read Intensive SFF Basic Carrier M.2 SSD for embedded and edge computing applications, you can help ensure high performance, reliability, and security in these environments.
Main Information of HPE P40471-X21 1.92TB
- Brand Name: HPE
- Model Number or SKU# P40471-X21
- Device Type: Solid State Drive - Hot-Swap
- Capacity: 1.92 TB
- Form Factor: 2.5 inch SFF
- Interface: SAS 24Gbps
- NAND Flash Memory Type: Triple-level cell (TLC)
- Plug Type: Hot Pluggable
- Connectivity Type: Dual
- Carrier Type: Basic Carrier (BC)
- Workload Type: Read Intensive
- Bundled with: HPE Basic Carrier (BC)
- Features: Digitally Signed Firmware (DS)
- Platform Supported: HPE ProLiant Rack
- Height: 15.00 mm
Performance about P40471-X21 HPE 1.92TB SAS-24GBPS
- Lifetime Writes (TB): 3424
- Endurance DWPD (Drive Writes Per Day): 1
- Drive Transfer Rate: 24 Gbps (external)
- MAX Seq. Reads Throughput (MiB/s): 1080
- MAX Seq. Writes Throughput (MiB/s): 1035
- Random Read Average Latency uSec (4KiB,Q1): 100
- Random Write Average Latency uSec (4KiB,Q1): 32
- Random Read IOPS (4KiB, Q=16): 145000
- Random Write IOPS (4KiB, Q=16): 79000
- MAX Random Read IOPS (4KiB): 173000@Q64
- MAX Random Write IOPS (4KiB): 80000@Q4
Power Consumption of HPE P40471-X21
- Idle Time: 3.02 Watt
- Random Read: 7.46 Watt
- Random Write: 7.46 Watt
- Sequential Read: 8.64 Watt
- Sequential Write: 12.23 Watt
- Random Read/Write: 7.46 Watt
- MAX: 12.23 Watt
Compatibility about SAS-24GBPS SSD
- HPE ProLiant DL Series: DL20 Gen10 Plus , DL20 Gen10 Plus Base , DL20 Gen10 Plus Entry , DL20 Gen10 Plus High Performance , DL20 Gen10 Plus Performance , DL325 Gen10 Plus V2 , DL325 Gen10 Plus V2 Base , DL325 Gen10 Plus V2 for Weka Base Tracking , DL325 Gen10 Plus V2 Performance , DL345 Gen10 Plus , DL345 Gen10 Plus Base , DL345 Gen10 Plus Entry , DL360 Gen10 Plus , DL360 Gen10 Plus All-NVMe Server for Software Defined Storage , DL360 Gen10 Plus for Weka Base Tracking , DL360 Gen10 Plus Network Choice , DL365 Gen10 Plus , DL380 Gen10 Plus , DL380 Gen10 Plus Network Choice
- HPE ProLiant ML Series: ML30 Gen10 Plus , ML30 Gen10 Plus Entry , ML30 Gen10 Plus Performance
- HPE SimpliVity 325 Gen10 Plus V2 Node
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.
When it comes to computing, priorities are placed on storage and performance. The hard drive is often viewed as a major storage device. However, there is alternative hardware that can do a perfect job. People now use Solid State Drives as the main storage device for a wide range of technological needs.
An SSD is a nonvolatile storage media that stores data on solid-state flash memory. It emulates the hard disk drive by enhancing servers' capabilities and performance, desktop computers, and other devices. Users view them as the best option for responsiveness, increased disk space, and better performance.
SSD VS HDD
Solid State Drives and hard disk drives are somewhat similar in their physical specification. However, they store data in different ways. HDD stores data magnetically via spinning disk platters. It has an actuator arm with transducers that read and write data on the platter.
On the other hand, an SSD stores data in integrated circuits. It has no moving parts and does not require users to wait for platter movement. They are much smaller and more flexible than hard disk drives - HDDs. Having no physical moving parts and using electrical circuits makes solid-state drives faster than their hard drive counterparts.
Their faster speed makes them more useful when carrying out storage-intensive tasks. Many SSDs also come with PCIe interfaces, which makes them faster than HDDs with SATA interfaces. Also, SSDs are generally more reliable than HDDs. This is because they have no moving parts, and vibration or friction does not affect them.
Data access with SSDs is faster, so they require less power. This results in longer battery life for servers and computers. HDDs, on the other hand, require more power because of their moving disk platters.
How to Do Solid State Drives Work?
Solid State Drives read and write data on interconnected flash memory chips. They come with floating gate transistors (FGRs) that help them hold electrical charges. With the FGRs, SSDs retain information even when power is turned off.
The NAND flash memory stores the data of the SSD. They make use of four NAND cell technologies – single, multi, triple, and Quad-level cells. Single-level cells (SLC) hold one bit of data at a time.
Multi-level cells (MLC) can hold two bits of data per cell. They have more storage space than SLC. Triple-level cells (TLC) hold three bits of data per cell, offering more capacity than the SLC and MLC. The Quad-level cells (QLC) store four bits of data, giving migrating electrons the most significant effect.
Types of SSDs
The types of solid-state drives depend on the way they are used. Some of these devices are installed within the system hardware, while others are connected externally through ports. The common interfaces for SSD connection are:
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PCIe and NVMe
Users make use of PCI Express (PCIe) to connect graphics cards and related high-performance peripherals. It is an interface with low latency and high bandwidth. Therefore, it is ideal for very fast communication between the SSD and the server.
Nonvolatile Memory Express standard (NVMe) offers higher input-output per second. SSDs that use this connection type run at up to 4,000 MB/s.
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SATA III and mSATA III
Serial Advanced Technology Attachment (SATA) is an older interface than the PCIe. Their signaling technology allows them to transfer data faster than traditional hard disk drives - HDDs. They have speeds of up to 600MB per second. SATA SSDs also offer the best compatibility and value than the HDD variants.
There are SSDs that are designed for business purposes. They can be external or internal, and they are convenient means of boosting PCs, desktop computers, gaming consoles, and servers.
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SAS SSD
The Serial-Attached SCSI (SAS) version SSDs provide faster data transfer rates than the SATA SSDs. In general, a SAS SSD provides a dual-port connection and builds in features to improve reliability, high error correction, low data latency, end-to-end data integrity, high signal quality on the cable or backplane which is a NAND flash-based storage and fits in HDDs slot of enclosures. A SAS solid-state drive bandwidth speeds 3Gbps, 6Gbps, and 12Gbps, there are two form factors 2.5 inches and 3.5 inches.
There are SSDs that are designed for business purposes. They can be external or internal, and they are convenient means of boosting PCs, desktop computers, gaming consoles, and servers.
Here, you can check more available conditions of your desired product P40471-X21 at a competitive price. We are trying our best to meet your needs on the enterprise-level computer, server, data centre, and networking hardware. You are welcome to ask our live chat or get live representative support over the phone.
Other Available Conditions for this Part
Warranty
ALLHDD guarantees that the products will not have defects in material that will affect the product's functionality during the Standard Warranty Period. The warranty period starts when the merchandise/items from our warehouse.
What does ALLHDD.Com warranty cover?
30-days to 3 years warranty:
Replacement or refund. In the case of material defects, we will try to replace the product first. The product will be replaced before the expiration of the original warranty. For any failure of hardware, if we cannot process the replacement of the product(s)/model(s), we will refund the original selling/invoiced price. The shipping costs and sales tax, if any, are non-refundable. ALLHDD retains the right to decide whether the item(s) will process for replacement or refund.
What is not covered by our warranty?
The reason why our warranty does not cover any problem caused by the following conditions:
(a) misuse of hardware; accidental damage; carelessness product(s) damage; shock; temperature beyond the specification of any product; faulty installation; operation; modification of goods;
(b) any misuse outside the instructions in the user manual for any specific product;
(c) damaged caused by other hardware or equipment. The warranty will void if the item is returned with physical damage, damage to the retail box, removed from the box, counterfeit labels/labelled by them, or any modifications of internal and external covers. Data loss or damages to any other equipment we do not cover by our offered warranty.
What is the Manufacturer/Brand Warranty?
In general, a manufacturer's warranty service/support is a written guarantee to the buyer of a product. Its terms assure the replacement or repair of the product, if necessary, within a specified period after the purchase (2-5 years depending on the brand/manufacturer). It is typically included in the price of the product. Products are brand new and sealed and the original manufacturer box is complete with the Manufacturer's genuine warranty. For most of the brand new/retail products that come with the manual and box, exceptions may apply (i.e., Cisco, Juniper Networks).
For the server parts (i.e., Dell, HPE) to get Full coverage of the warranty server must have a full 3- 5 years warranty. However, ALLHDD.COM will cover the warranty duration if any Manufacturer doesn't support the advertised warranty and there is no refund for those.
Final Sale items are non-returnable/refundable in any situation. Any question? please ask our team before the shipment.
Important notes:
We can provide additional warranty service/support for any product you purchase from us if you need additional warranty coverage before finalizing the order from ALLHDD.Com. You need to ask in live chat/help or call us for more information.
Individual product warranty mentioned on each item product description page/detail page.
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Delivery
Shipping Options and Estimated Delivery Time
UPS Shipping Options:
FREE UPS® Ground (Free shipping to all orders for 48 states!)
Estimated delivery time: 4-7 business days
UPS 3 Day Select®
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UPS 2nd Day Air®
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UPS® First Overnight - Saturday
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FedEx Shipping Options:
FedEx Ground®
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*For residential delivery via FedEx Ground use FedEx Home Delivery®
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FedEx Express Saver®
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Available throughout all 50 states (Hawaii is outbound only)
FedEx Priority Overnight®
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Available throughout all 50 states
FedEx First Overnight®
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Available throughout all 50 states
Worldwide Shipping Options:
UPS®/FedEx® International Economy
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UPS®/FedEx® International Priority
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UPS®/FedEx® Ground Shipping Canada
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Important notes:
- The processing of orders with Ground Shipping can take up to 24-48 hours. But we try to process all orders the same day.
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