Description
Product Overview for the HPE MO000800KWUDR 800GB Solid State Drive
The HPE MO000800KWUDR is an 800 Gigabyte (GB) Solid State Drive (SSD) designed for Gen10 Servers. This SSD utilizes Non-Volatile Memory Express (NVMe) technology, offering high performance and reliability for data storage needs. In this detailed explanation, we will delve into its key features, performance metrics, compatibility, and use cases.
Key Features of the HPE MO000800KWUDR SSD
The HPE MO000800KWUDR SSD is packed with features that enhance its performance and reliability. Some of the key features include:
NVMe Technology
NVMe SSD stands for Non-Volatile Memory Express. It’s a technology that’s used in SSDs (Solid State Drives) to make them faster and more efficient. NVMe is designed specifically for flash storage, which is what SSDs are made of. One of the key benefits of NVMe is its low latency. Latency is the time it takes for data to be accessed from the storage device. NVMe reduces this time, making SSDs with NVMe technology much faster than traditional hard drives. Another benefit of NVMe is its high I/O operations per second (IOPS). IOPS is a measure of how many input/output operations a storage device can handle in a second. NVMe SSDs can handle a much higher number of IOPS compared to traditional hard drives, making them ideal for applications that require a lot of data to be read or written quickly.
Small Form Factor (SFF)
The SSD has a small form factor, meaning it’s physically small in size. It’s designed to fit into tight spaces, making it ideal for use in devices where space is limited, such as laptops and small form factor PCs. The SSD’s small form factor also makes it easier to install in a variety of systems, including servers and storage arrays, where space is often at a premium. This makes it a versatile storage solution for a wide range of applications.
Mixed Use
This SSD is designed for mixed-use workloads. This means it’s capable of handling a variety of different types of workloads, including both read and write operations. Mixed-use SSDs are ideal for applications where the workload varies, such as databases, virtualization, and content delivery networks. They offer a balance of performance and endurance, making them suitable for a wide range of applications.
Digitally Signed
The firmware of the SSD is digitally signed. This means that the firmware has been verified and authenticated by the manufacturer, ensuring its authenticity and integrity. Digitally signed firmware is important for security reasons, as it helps prevent unauthorized firmware modifications that could compromise the integrity of the SSD. It also helps ensure that the firmware is free from defects that could affect the performance or reliability of the SSD.
Performance Metrics
The HPE MO000800KWUDR SSD offers impressive performance metrics, making it ideal for demanding applications. Some of the key performance metrics include:
Sequential Read/Write Speed
Sequential read/write speed refers to how quickly data can be read from or constantly written to the SSD. This speed is crucial for tasks like loading large files or booting up the operating system. A higher sequential read/write speed means faster performance.
Random Read/Write IOPS
Random read/write IOPS (Input/Output Operations Per Second) measures the SSD’s ability to handle random data access. Random reads/writes are common in everyday computing tasks, such as opening applications or accessing files. Higher IOPS indicates better performance, especially in multitasking scenarios.
Endurance
Endurance, also known as program/erase (P/E) cycles, refers to the total amount of data that can be written to the SSD over its lifespan. It is typically measured in terabytes written (TBW). A higher endurance rating means the SSD can withstand more data writes before it reaches the end of its life expectancy.
Database ServersImproved Performance
SSDs can significantly enhance the performance of database servers. Traditional hard disk drives (HDDs) have mechanical components that limit their speed. In contrast, SSDs use flash memory, which allows for much faster data access times. This means that queries and transactions can be processed more quickly, leading to improved overall performance of the database server.
Reduced Latency
One of the key benefits of SSDs in database servers is the reduction in latency. Latency refers to the time it takes for a data request to be processed. SSDs have lower latency compared to HDDs, which means that data can be retrieved and written to the disk more quickly. This can lead to a more responsive database server, especially during peak usage times.
Improved I/O Performance
SSDs also offer improved I/O (input/output) performance compared to HDDs. I/O performance is critical for database servers, as they often need to handle a large number of read and write operations simultaneously. SSDs can handle these operations more efficiently, leading to improved overall performance of the database server.
VirtualizationEnhanced VM Performance
In virtualized environments, SSDs can improve the performance of virtual machines (VMs). VMs often share physical resources, such as CPU and memory, which can lead to resource contention and performance bottlenecks. By using SSDs for storage, VMs can access data more quickly, reducing latency and improving overall performance.
Faster Boot Times
SSDs can also reduce the time it takes to boot up a virtual machine. Because SSDs have faster-read speeds than HDDs, the operating system and applications can load more quickly, leading to faster startup times for VMs.
Improved Snapshot Performance
In virtualized environments, administrators often take snapshots of VMs to capture their current state. SSDs can improve the performance of snapshot operations, allowing administrators to take snapshots more quickly and with less impact on VM performance.
Data AnalyticsFaster Processing Times
For data analytics workloads, SSDs can significantly reduce processing times. Data analytics often involves processing large volumes of data, and the high IOPS (input/output operations per second) and low latency of SSDs can speed up data retrieval and processing. This can lead to faster insights and improved decision-making.
Improved Efficiency
By reducing processing times, SSDs can improve the overall efficiency of data analytics workloads. Data scientists and analysts can spend less time waiting for data to be processed and more time analyzing the results. This can lead to faster innovation and improved competitiveness for businesses.
Main Information of the HPE MO000800KWUDR 800GB SSD
- Manufacturer: HPE
- Part Number or SKU#
MO000800KWUDR - Product Type: Solid State Drive
Technical Information
- Capacity: 800GB (gigabytes)
- Form Factor: 2.5-inch SFF (Small Form Factor)
- Interface: NVMe X4 (Non-Volatile Memory Express with 4 lanes for high-speed data transfer)
- Plug Type: Hot Plug (allows for easy and safe insertion/removal while the system is running)
- Carrier Type: SCN (Solid Carrier with integrated connectors for easy installation)
- Port: Single (supports a single connection)
- Flash Type: TLC (Triple-Level Cell, a type of NAND flash memory known for high capacity and cost-effectiveness)
Performance
- Random Reads: 118,000 IOPS (Input/Output Operations Per Second) – Indicates the speed of reading random data from the drive.
- Random Writes: 110,000 IOPS – Indicates the speed of writing random data to the drive.
- Sequential Reads: 3150 Mbps (megabits per second) – Indicates the maximum sequential data transfer rate for reading.
- Sequential Writes: 1250 Mbps – Indicates the maximum sequential data transfer rate for writing.
Compatibility
HPE ProLiant DL Series
- DL325 G10
- DL360 G10
- DL380 G10
- DL385 G10
- DL560 G10
- DL580 G10
HPE ProLiant ML Series
- ML350 G10
HPE ProLiant BL Series
- BL460c G10
HPE Synergy Compute Modules
- Synergy 480 G10
- Synergy 660 G10
In general, The HPE MO000800KWUDR 800 Gigabyte NVMe SSD is a high-performance storage solution designed for Gen10 Servers. With its impressive capacity, NVMe technology, small form factor design, and digitally signed firmware, it offers a compelling combination of speed, reliability, and security for a wide range of server workloads. Whether you’re running databases, virtualization environments, or content delivery networks, this SSD delivers the performance and efficiency needed to meet the demands of modern data centers.