E7W24B HPE 3PAR M6710 920GB SAS 6GBPS SFF 2.5in MLC SSD

HPE E7W24B 3PAR 920GB SAS 6GBPS SFF MLC SSD Overview

The HPE E7W24B 3PAR StoreServ M6710 920GB SAS 6Gbps SFF 2.5-inch MLC SSD represents a premium enterprise-grade solid-state storage solution designed to meet the performance and reliability demands of modern data centers. This SSD integrates seamlessly into HPE 3PAR StoreServ systems, providing high-speed data access, exceptional endurance, and scalable capacity options. Built on Multi-Level Cell (MLC) NAND flash technology, it offers an optimized balance between performance, capacity, and cost-effectiveness for enterprise storage arrays managing diverse workloads such as virtualization, database management, and transactional applications.

Enterprise-Class Performance and Efficiency

Designed specifically for the HPE 3PAR StoreServ M6710 storage enclosure, the E7W24B drive delivers low latency and high throughput essential for mission-critical operations. Its SAS 6Gbps interface ensures rapid data transfer between the drive and storage controller, enabling consistent read and write speeds across intensive workloads. The 920GB capacity is ideal for environments requiring both high input/output operations per second (IOPS) and moderate data retention, striking a perfect balance between capacity and speed. This SSD significantly reduces response times for databases, ERP systems, and virtualized infrastructure, ensuring faster application performance and smoother data processing.

Advanced SAS Interface Technology

The 6Gbps SAS (Serial Attached SCSI) interface is one of the key components contributing to the drive’s superior efficiency. It provides enhanced data integrity, dual-port connectivity, and superior error correction compared to SATA-based storage solutions. This technology supports full-duplex communication, meaning data can be transmitted and received simultaneously, leading to increased bandwidth utilization and improved data transfer efficiency within the storage network. The dual-port feature further ensures continuous data availability by providing path redundancy, minimizing the risk of downtime in mission-critical systems.

Optimized Data Reliability and Error Management

The HPE E7W24B employs multiple layers of data protection mechanisms to maintain data accuracy and reliability. Features like end-to-end data protection, ECC (Error Correction Code), and wear-leveling algorithms ensure consistent performance throughout the SSD’s lifespan. The integration of HPE’s 3PAR data management suite enhances the drive’s endurance by evenly distributing data writes across the flash cells, preventing hotspots and minimizing premature wear. This results in predictable performance over time, making it suitable for high-demand enterprise environments that cannot afford data corruption or unexpected failures.

Designed for Seamless Integration with HPE 3PAR StoreServ Systems

The E7W24B SSD is fully compatible with HPE 3PAR StoreServ M6710 storage arrays, providing easy deployment and plug-and-play functionality within existing architectures. HPE’s advanced firmware optimization ensures that the drive operates harmoniously with the 3PAR storage controller, leveraging built-in capabilities such as thin provisioning, deduplication, and adaptive optimization. These features collectively contribute to maximizing performance, optimizing capacity usage, and lowering overall storage costs. Administrators benefit from centralized management through HPE’s StoreServ Management Console, simplifying drive monitoring and health diagnostics.

Adaptive Optimization for Tiered Storage Environments

One of the defining features of the HPE 3PAR StoreServ architecture is adaptive optimization, which automatically moves data between storage tiers based on usage patterns. The E7W24B SSD serves as the top performance tier, accommodating frequently accessed or latency-sensitive data. Less critical data can then be migrated to slower, more cost-effective storage tiers. This tiered structure enhances efficiency by aligning performance levels with data priorities, resulting in a well-balanced system that meets business demands while reducing power consumption and storage overhead.

Intelligent Caching and Data Placement

The E7W24B solid-state drive works in conjunction with HPE’s advanced caching algorithms to improve input/output operations. Frequently accessed data blocks are automatically stored in faster SSD tiers, allowing applications to retrieve information almost instantaneously. This dynamic data placement enhances overall system responsiveness and accelerates virtual machine boot times, database queries, and transactional operations. The drive’s intelligent integration with 3PAR’s caching engine ensures sustained throughput even under heavy workloads.

MLC NAND Technology for Enterprise Durability

The MLC NAND flash technology incorporated into the HPE E7W24B SSD is optimized for enterprise-grade workloads, providing an excellent mix of performance and endurance. MLC flash stores two bits of data per cell, making it more cost-effective than single-level cell (SLC) flash while still maintaining reliable write endurance. This design choice allows the E7W24B to deliver high-density storage with consistent performance for mixed-use environments, handling both read-intensive and write-intensive operations without degradation in speed or reliability.

Wear-Leveling and Endurance Optimization

HPE integrates sophisticated wear-leveling techniques that evenly distribute write and erase cycles across all memory cells. This prolongs the operational lifespan of the SSD by preventing uneven wear patterns that can lead to premature failure. The drive’s firmware constantly monitors cell health and reallocates data dynamically, ensuring sustained performance even as the drive approaches its write endurance limit. The E7W24B’s rated endurance supports long-term operation in enterprise settings where continuous read/write activity is expected.

Thermal Control and Power Efficiency

Thermal management is another critical component of SSD longevity. The E7W24B incorporates temperature sensors and dynamic power management to maintain optimal operating conditions. Power efficiency is achieved through intelligent idle states and reduced power draw during low activity periods, minimizing heat generation and improving overall system stability. The combination of low power consumption and efficient cooling mechanisms results in a drive that not only performs exceptionally well but also contributes to greener data center operations.

Enterprise-Level Data Protection and Security Features

Security and data integrity are paramount in any enterprise storage system, and the HPE E7W24B SSD excels in both areas. It includes comprehensive protection mechanisms that safeguard data from corruption, unauthorized access, and loss. HPE’s drive-level encryption ensures that sensitive data remains protected at rest, adhering to strict security standards required in industries such as finance, healthcare, and government operations. Combined with the 3PAR platform’s secure management capabilities, administrators can confidently store and manage sensitive workloads without compromising compliance.

Hardware Encryption and Secure Erase

The drive supports Advanced Encryption Standard (AES) 256-bit hardware encryption, enabling real-time encryption of data written to the SSD. This feature ensures that information remains unreadable to unauthorized users, even if the physical drive is removed from the system. Additionally, the secure erase functionality allows administrators to permanently and safely wipe all stored data, meeting stringent data sanitization policies. These built-in features are vital for organizations with rigorous data governance requirements.

End-to-End Data Path Protection

The E7W24B’s end-to-end data path protection ensures that data is verified at every transfer point—from the host interface through the controller to the flash memory cells. This mechanism eliminates undetected data corruption caused by electrical noise, firmware errors, or media degradation. The drive’s robust error correction algorithms automatically detect and repair inconsistencies, maintaining the highest levels of data integrity and reliability. For enterprise customers, this translates to consistent system uptime and dependable data accuracy under all conditions.

Scalable Performance for Modern Data Workloads

The HPE 3PAR StoreServ M6710 920GB SSD provides scalable performance designed for evolving IT environments. Whether supporting virtualized workloads, high-performance computing (HPC), or database-intensive operations, this drive offers consistent I/O throughput. Its architecture supports concurrent access to multiple data streams, reducing latency and improving efficiency across multi-user environments. As businesses continue to demand higher performance and faster insights, the E7W24B provides the agility and responsiveness necessary for future-ready data centers.

Compatibility with Virtualization and Cloud Platforms

Enterprises deploying virtual machines, containers, and hybrid cloud infrastructure benefit immensely from the performance characteristics of the E7W24B SSD. Its low latency supports rapid provisioning of VMs, quick migration, and seamless scalability. Applications running in virtual environments, such as VMware, Microsoft Hyper-V, or Red Hat Virtualization, experience accelerated response times and improved reliability. By leveraging the HPE 3PAR platform’s integration with major virtualization technologies, IT teams can ensure smooth, uninterrupted service delivery across distributed architectures.

Support for Mixed and Consolidated Workloads

Modern data centers often run a combination of transactional, analytical, and archival workloads on a single storage array. The E7W24B SSD accommodates these diverse performance demands by offering high random IOPS for transactional systems while maintaining consistent sequential throughput for large data transfers. The ability to handle mixed workloads efficiently reduces the need for separate storage solutions, simplifying infrastructure management and optimizing resource utilization. This consolidation capability lowers operational costs while ensuring superior application responsiveness.

Integration with HPE’s 3PAR Data Management Ecosystem

The E7W24B SSD becomes even more powerful when integrated with HPE’s robust 3PAR management suite. Features like thin provisioning, deduplication, and replication enable enterprises to optimize capacity utilization and protect critical workloads. Thin provisioning automatically allocates storage on demand, preventing over-provisioning and conserving valuable storage space. Deduplication eliminates redundant data blocks, freeing up additional capacity without affecting performance. The built-in replication features further ensure data availability across multiple sites, enhancing business continuity and disaster recovery capabilities.

Thin Provisioning and Space Optimization

Thin provisioning dynamically allocates storage only when data is written, rather than pre-allocating space upfront. This mechanism ensures efficient use of physical storage capacity and reduces waste. The E7W24B SSD, when used in conjunction with HPE’s thin provisioning engine, delivers maximum storage efficiency, particularly in virtualized or cloud environments where storage demands fluctuate frequently. Administrators gain the ability to provision large logical volumes without physically consuming the entire capacity immediately, resulting in significant cost and space savings.

Data Deduplication and Compression Capabilities

The combination of SSD speed and 3PAR’s advanced data deduplication and compression technologies offers exceptional capacity efficiency. Deduplication removes duplicate data patterns, while compression reduces the size of stored data blocks. Together, they enable organizations to store more information within the same physical footprint, maximizing the value of their investment. The E7W24B’s superior processing speed ensures that these data reduction operations occur seamlessly, without introducing latency or performance degradation.

Exceptional Reliability and Serviceability

The HPE E7W24B 920GB SSD is engineered to deliver consistent performance and reliability across its entire lifecycle. It undergoes rigorous testing and validation to meet HPE’s stringent enterprise standards, ensuring that every drive performs under extreme workloads. The inclusion of predictive failure analysis and SMART monitoring allows proactive maintenance, reducing unplanned downtime. In the event of hardware replacement, the hot-swappable design of the M6710 enclosure allows for quick and safe drive changes without interrupting system operations.

SMART Monitoring and Predictive Analytics

The drive integrates with HPE’s SMART (Self-Monitoring, Analysis, and Reporting Technology) system, which continuously tracks parameters such as temperature, read/write cycles, and error rates. Using predictive analytics, administrators can anticipate potential failures before they impact operations. This proactive approach to maintenance ensures maximum uptime, improved reliability, and reduced operational costs. Combined with HPE InfoSight analytics, organizations gain end-to-end visibility into their storage health, enabling data-driven decision-making for optimal performance tuning.

Hot-Swap Support for Continuous Availability

Hot-swap functionality allows IT administrators to replace or upgrade drives in the M6710 enclosure without powering down the system. This feature is critical in enterprise environments where downtime translates directly to financial loss. The HPE E7W24B’s design supports non-disruptive serviceability, enabling smooth operations during maintenance cycles. Whether scaling up capacity or replacing a failing drive, administrators can perform these actions seamlessly, maintaining uninterrupted service delivery to applications and end-users.

Energy Efficiency and Reduced Total Cost of Ownership

Energy efficiency plays a vital role in data center economics, and the E7W24B excels in reducing power consumption without compromising performance. By leveraging flash-based storage instead of traditional spinning disks, this SSD reduces heat output, cooling requirements, and overall energy use. Its low-power operation helps organizations achieve sustainability targets and minimize operational expenses. When deployed across multiple enclosures, the cumulative energy savings become substantial, significantly lowering total cost of ownership (TCO).

Optimized Power Management

HPE incorporates intelligent power management features within the E7W24B that dynamically adjust energy usage based on workload intensity. During low-activity periods, the drive automatically enters energy-saving modes to conserve power. Conversely, during high-demand scenarios, it instantly scales up performance without latency penalties. This balance between efficiency and responsiveness contributes to lower utility costs and environmentally responsible data center operations.

Lower Cooling Requirements and Rack Density Benefits

The reduced heat generation of SSDs compared to mechanical drives allows for denser rack configurations and less dependency on extensive cooling infrastructure. The compact 2.5-inch SFF (Small Form Factor) design of the E7W24B enables more drives per enclosure, maximizing space utilization. Enterprises can achieve higher storage capacity within the same physical footprint, improving data center efficiency and optimizing available resources. These attributes make the drive an excellent choice for organizations scaling their infrastructure while maintaining energy efficiency.