Description
Product Overview for the HPE MO001920JWFWU 1.92TB Solid State Drive
The HPE MO001920JWFWU is a high-performance Solid State Drive (SSD) designed for use in HPE Proliant Gen9 and Gen10 servers. It offers a large storage capacity of 1.92 Terabytes (TB) and utilizes Serial-Attached SCSI (SAS) technology, providing a reliable and fast storage solution for data-intensive applications.
Interface and Speed
The HPE MO001920JWFWU SSD supports a 12 Gigabytes Per Second (GBPS) data transfer rate, enabling fast data access and transfer speeds. This high-speed interface ensures that data-intensive applications can run smoothly and efficiently.
Capacity and Form Factor
With a storage capacity of 1.92 Terabytes (TB), the HPE MO001920JWFWU SSD offers ample space for storing a large amount of data. It features a 2.5-inch Small Form Factor (SFF), making it compact and suitable for use in servers where space is limited.
Read Intensive and Multi-Level Cell (MLC) Technology
The HPE MO001920JWFWU SSD is designed for read-intensive workloads, making it ideal for applications that require frequent data access and retrieval. It utilizes Multi-Level Cell (MLC) technology, which offers a balance between performance, cost, and endurance.
Proliant Gen9 and Gen10 Servers
The HPE MO001920JWFWU SSD is specifically designed for use with HPE Proliant Gen9 and Gen10 servers. It is engineered to seamlessly integrate with these servers, ensuring compatibility and optimal performance.
Performance Metrics
The HPE MO001920JWFWU SSD offers impressive performance metrics, including high data transfer speeds and low latency. These performance metrics make it suitable for a wide range of applications, from database management to virtualization.
Updates and Data Migration
To ensure optimal performance and compatibility, HPE provides firmware updates for the MO001920JWFWU SSD. These updates help enhance the SSD’s performance and address any potential compatibility issues. Additionally, the SSD supports data migration, allowing users to easily transfer data from existing storage devices to the MO001920JWFWU SSD.
Performance Optimization for Proliant Servers
The HPE MO001920JWFWU SSD is optimized for use with HPE Proliant servers, offering enhanced performance and reliability. It is designed to leverage the servers’ capabilities, ensuring that applications run smoothly and efficiently.
Reliability and Endurance
Despite being optimized for read-intensive workloads, the HPE MO001920JWFWU SSD offers robust reliability and endurance, thanks to advanced NAND flash management algorithms and error correction mechanisms. With built-in features such as wear leveling, bad block management, and power-loss protection, this SSD ensures data integrity and longevity, even under heavy usage scenarios. Additionally, HPE’s rigorous quality assurance processes and extensive testing further enhance the reliability of this storage device, providing peace of mind to users and administrators.
Compatibility and Integration
The HPE MO001920JWFWU SSD is fully compatible with HPE Proliant Gen9 and Gen10 servers, ensuring seamless integration and hassle-free deployment in existing infrastructure. It is also backward compatible with previous generations of HPE servers, enabling organizations to leverage their existing hardware investments while upgrading their storage capabilities. Furthermore, HPE provides comprehensive documentation, drivers, and firmware updates to facilitate easy installation and maintenance of the SSD across different server platforms and operating environments.
Database AccelerationFast Read Performance
SSDs can accelerate database transactions and query processing by providing fast read performance. Unlike traditional hard disk drives (HDDs), which have moving parts and slower access times, SSDs use flash memory to store data, allowing for much quicker read operations. This improved read performance can lead to faster database responsiveness and scalability, as queries and transactions can be processed more quickly.
Improved Overall Database Performance
By accelerating database transactions and query processing, SSDs can improve the overall performance of a database. This means that applications relying on the database can run more smoothly and efficiently, leading to a better user experience.
Scalability
SSDs can also improve the scalability of a database. As the volume of data in a database grows, the performance of HDDs can degrade due to their slower access times. SSDs, on the other hand, can maintain high-performance levels even as the database grows, allowing for better scalability and performance.
VirtualizationEnhanced VM Performance
In virtualized environments, SSDs can enhance the performance of virtual machines (VMs) by reducing latency and improving I/O performance. This can lead to faster boot and application launch times, maximizing server consolidation and resource utilization.
Faster Boot and Application Launch Times
SSDs can significantly reduce the time it takes to boot up a VM or launch an application running on a VM. This is because SSDs have faster-read speeds compared to HDDs, allowing the operating system and applications to load more quickly. Faster boot and application launch times can improve the overall efficiency of virtualized environments.
Improved Server Consolidation and Resource Utilization
By enhancing VM performance and reducing boot and application launch times, SSDs can maximize server consolidation and resource utilization in virtualized environments. This means that organizations can run more VMs on a single physical server, leading to better resource utilization and cost savings.
Content Delivery Networks (CDNs)Faster Content Delivery Speeds
SSDs can improve content delivery speeds in content delivery networks (CDNs) by reducing latency. When a user requests web or media content, CDNs can deliver that content more quickly if it is stored on SSDs, as opposed to HDDs. This can enhance the user experience for online audiences, leading to higher satisfaction and engagement.
Reduced Latency
Reducing latency is crucial for CDNs, as it can significantly impact the user experience. By using SSDs to store and deliver content, CDNs can reduce latency and improve content delivery speeds, leading to faster load times for websites and media content.
Enhanced User Experience
By improving content delivery speeds and reducing latency, SSDs can enhance the user experience for online audiences. Faster load times for web pages and media content can lead to higher engagement and satisfaction, which can benefit businesses and content providers.
Data AnalyticsAccelerated Data Processing and Analysis
SSDs can accelerate data processing and analysis for big data and analytics workloads by providing high IOPS and low latency. This allows data scientists and analysts to retrieve and analyze data more quickly, enabling faster insights and decision-making.
Faster Insights and Decision-Making
By accelerating data processing and analysis, SSDs can enable faster insights and decision-making for organizations. Data scientists and analysts can spend less time waiting for data to be processed and more time analyzing the results, leading to faster innovation and improved competitiveness.
Improved Efficiency
By enabling faster insights and decision-making, SSDs can improve the overall efficiency of data analytics workloads. Organizations can analyze data more quickly and make decisions faster, leading to better outcomes and a competitive edge.
High-Performance Computing (HPC)Boosted Computational Performance
SSDs can boost computational performance in high-performance computing (HPC) clusters and supercomputing environments by reducing I/O bottlenecks. Traditional HDDs can struggle to keep up with the high I/O demands of HPC workloads, leading to performance bottlenecks. SSDs can help alleviate these bottlenecks, improving overall system throughput and efficiency.
Reduced I/O Bottlenecks
I/O bottlenecks can occur when the storage system is unable to keep up with the demands of the computing system. SSDs can reduce I/O bottlenecks by providing faster access times and higher IOPS, allowing the storage system to keep pace with the computing system’s demands.
Improved Overall System Throughput and Efficiency
By reducing I/O bottlenecks and boosting computational performance, SSDs can improve the overall system throughput and efficiency of HPC clusters and supercomputing environments. This means that these systems can process data more quickly and efficiently, leading to faster results and better performance.
Main Information of the HPE MO001920JWFWU 1.92TB SSD
- Manufacturer: HPE
- Part Number or SKU# MO001920JWFWU
- Product Type: Solid State Drive
Technical Information
- Capacity: 1.92TB (terabytes)
- NAND Flash Memory Type: Multi-level Cell (MLC)
- Form Factor: 2.5-inch SFF (Small Form Factor)
- Interface: SAS 12Gb/s (Serial Attached SCSI with a data transfer rate of 12 gigabits per second)
- Features: 1 Drive Write Per Day (DWPD), Digitally Signed Firmware
- Bundled With: HPE SmartDrive Carrier
Performance
- Drive Transfer Rate: 1200 Mbps (megabits per second) (external)
Expansion & Connectivity
- Interfaces: 1 x SAS 12Gb/s
- Compatible Bay: 2.5-inch SFF
Compatibility
- ProLiant DL160 Gen9 (2.5″)
- ProLiant DL160 Gen9 Base (2.5″)
- ProLiant DL160 Gen9 Entry (2.5″)
- ProLiant DL160 Gen9 Performance (2.5″)
- ProLiant DL360 Gen10 (2.5″)
- ProLiant DL360 Gen10 Base (2.5″)
- ProLiant DL360 Gen10 Entry (2.5″)
- ProLiant DL360 Gen10 High Performance (2.5″)
- ProLiant DL360 Gen10 Performance (2.5″)
- ProLiant DL560 Gen10 (2.5″)
- ProLiant DL560 Gen10 Base (2.5″)
- ProLiant DL560 Gen10 Entry (2.5″)
- ProLiant DL560 Gen10 Performance (2.5″)
- ProLiant DL580 Gen9 (2.5″)
- ProLiant DL580 Gen9 Base (2.5″)
- ProLiant DL580 Gen9 Database (2.5″)
- ProLiant DL580 Gen9 High Performance (2.5″)
- ProLiant ML110 Gen9 (2.5″)
- ProLiant ML110 Gen9 Base (2.5″)
- ProLiant ML110 Gen9 Entry (2.5″)
- ProLiant XL170r Gen9 (2.5″)
In summary, the HPE MO001920JWFWU Solid State Drive (SSD) is a high-performance storage solution tailored for Proliant Gen9 and Gen10 servers. With its spacious 1.92 Terabyte (TB) capacity, fast 12 Gigabytes per Second (GBPS) SAS interface, read-intensive design, compact 2.5-inch form factor, Multi-Level Cell (MLC) NAND flash technology, and robust reliability features, this SSD is well-equipped to handle demanding enterprise workloads with ease. Whether used for database acceleration, virtualization, content delivery, data analytics, or high-performance computing, the HPE MO001920JWFWU SSD delivers exceptional performance, reliability, and value, making it an ideal choice for modern data centers seeking to optimize storage infrastructure and maximize business efficiency.