Do you need to accelerate the performance of your mixed use applications?
HPE NVMe High Performance Mixed Use (MU) SSDs are best suited for high I/O applications that require a balanced performance between reads and writes to deliver high performance and endurance for data intensive applications. NVMe High Performance MU SSDs communicate directly to applications via the PCIe bus to boost I/O bandwidth and reduce latency.
HPE NVMe High Performance MU SSDs deliver high performance, lower latency data transfers from storage significantly faster than SAS or SATA SSDs. Utilizes the high bandwidth of PCIe Gen3 and PCIe Gen4 in select servers for mixed use workloads such as Big Data analytics, HPC and virtualization.
HPE SSDs are backed by up to 3.35 million hours of testing and qualification1 ensuring reliable, high performing drives. HPE Digitally Signed Firmware prevents unauthorized access to data by providing the assurance that drive firmware comes from a trusted source.
Do you need to accelerate the performance of your read intensive applications?
HPE NVMe High Performance Read Intensive (RI) Solid State Drives (SSDs) are best suited for applications requiring a strong blend of high read IOPS, low latency and high endurance at a strong price point. NVMe SSDs communicate directly to applications via the PCIe bus to boost I/O bandwidth and reduce latency.
HPE NVMe High Performance RI SSDs provide high-performance data transfers from storage, at rates faster than SAS or SATA SSDs. Designed to utilize the high bandwidth of PCIe Gen3 and PCIe Gen4 in select servers for workloads high in reads such as read caching, web servers and boot/swap.
HPE SSDs are backed by up to 3.35 million hours of testing and qualification [1} ensuring reliable, high performing drives. HPE Digitally Signed Firmware prevents unauthorized access to data by providing the assurance that drive firmware comes from a trusted source.
HPE SATA Mixed Use (MU) Solid State Drives (SSD) deliver enterprise features at an affordable price. HPE SATA MU SSDs are engineered for greater performance and endurance for applications requiring a more balanced mix of high random read and write IOPS performance such as database, virtualization, cloud computing and transactional applications.
HPE Value SAS 12G SSDs offer higher performance than 6G SATA SSDs at a lower cost than traditional 12G SAS SSDs, enabling you to improve total cost of ownership (TCO) with affordable HPE Value SAS SSDs.
HPE SSDs are backed by over 3.35 million hours of testing and qualification1 ensuring reliable, high performing drives. HPE Digitally Signed Firmware prevents unauthorized access to your data by providing the assurance that drive firmware comes from a trusted source. You can also monitor the lifespan of your SSD with HPE SmartSSD Wear Gauge to determine if any drives are at risk of failure.
HPE Universal half-height half-length enablement kit
Do you need to increase performance at 10K HDD price points for performance-sensitive and very read optimized workloads?
HPE SATA Very Read Optimized Solid State Drives deliver up to 175x faster performance, 4x lower latencies, and 3x better energy efficiency than 10K HDDs at a comparable price1. Designed for very read optimized workloads – vSAN capacity tiers, NoSQL databases, business intelligence, Hadoop, analytics, object stores, content delivery, and AI and machine learning data lakes.
Hewlett Packard Enterprise SSDs are backed by over 3.35 million hours of testing and qualification2, certifying reliability and high performance. HPE Digitally Signed Firmware prevents unauthorized access to your data by providing the verification that drive firmware comes from a trusted source. You can also monitor the lifespan of your SSD with HPE Smart WearGauge compatibility in management tools.
Do you need to accelerate the performance of your mixed use applications?
HPE NVMe Mainstream Performance Mixed Use (MU) Solid State Drives are best suited for high I/O applications that require a balanced performance between reads and writes to deliver high performance and endurance for data intensive applications. NVMe MU SSDs communicate directly to applications via the PCIe bus to boost I/O bandwidth and reduce latency.
HPE NVMe Mainstream Performance MU SSDs are advanced data center drives optimized for greater performance and endurance in a cost-effective design. Designed to utilize the high bandwidth of PCIe Gen3 and PCIe Gen4 in select servers for mixed use workloads requiring outstanding IOPS per watt and cost per IOPS as an upgrade from SATA SSDs.
HPE SSDs are backed by up to 3.35 million hours of testing and qualification1 ensuring reliable, high performing drives.
Do you need to accelerate the performance of your read intensive applications?
HPE NVMe Mainstream Performance Read Intensive (RI) Solid State Drives are best suited for applications requiring a strong blend of high read IOPS, low latency and high endurance at a strong price point. NVMe SSDs communicate directly to applications via the PCIe bus to boost I/O bandwidth and reduce latency.
HPE NVMe Mainstream Performance RI SSDs are advanced data center drives optimized for greater performance and endurance in a cost-effective design. Designed to utilize the high bandwidth of PCIe Gen3 and PCIe Gen4 in select servers for workloads such as read caching, social media and bulk storage that require outstanding IOPS per watt and cost per IOPS as an upgrade path from SATA SSDs.
HPE SSDs are backed by up to 3.35 million hours of testing and qualification1 ensuring reliable, high performing drives.
Do you need to accelerate the performance of your write intensive application workloads?
HPE 12Gb SAS Write Intensive (WI) Solid State drives (SSDs) deliver high performance and high endurance for customers with applications requiring high random read and write IOPS performance. SAS WI SSDs offer the highest endurance for write intensive applications and have an endurance of >=10 drive writes per day (DWPD). HPE 12Gb SAS WI SSDs are enterprise-class SSDs and best suited for use as caching tier drives within a tiered storage solution or mission-critical enterprise applications that require a higher percentage of writes versus reads.
