HPE Persistent Memory is a new technology that combines the speed of memory with the persistence of storage to provide a high-performance, high-capacity solution for modern computing environments.
HPE Scalable Persistent Memory is a key component of HPE’s Memory-Driven Computing architecture, which is designed to enable the processing of vast amounts of data in real-time. as well HPE Scalable Persistent Memory, when combined with the powerful HPE ProLiant DL380 Gen10 server, delivers an exceptional solution for high-performance computing and data-intensive workloads.
HPE Scalable Persistent Memory with Storage Spaces Direct
Understanding Persistent Memory Architecture and Components
The licensed Scalable HPE Persistent Memory consists of several components, including memory modules, memory controllers, and a persistent memory subsystem.
Memory modules are used to store data in memory. They are similar to traditional memory modules, but they have a larger capacity and are designed to be persistent.
Memory controllers are responsible for managing the flow of data between the memory modules and the rest of the system. They ensure that data is stored and retrieved from memory quickly and efficiently.
The persistent memory subsystem is responsible for ensuring that data stored in memory is persisted even in the event of a power failure or system crash. This enables data to be recovered quickly and easily in the event of a system failure.
Benefits of HPE Scalable Persistent Memory
HPE Scalable Persistent Memory provides several benefits to organizations, including increased speed and capacity.
One of the key benefits of HPE Persistent Memory is that it provides faster access to data than traditional storage solutions. Because data is stored in memory, it can be accessed much more quickly than data stored on disk or in flash memory.
Another benefit is that it provides increased capacity. Memory modules have a larger capacity than traditional memory modules, which enables organizations to store more data in memory.
Below are some of its key features:
- Database Performance
- HPE Scalable Persistent Memory and Virtualization
- Big Data Analytics
- Cloud Computing
- HPE Scalable Persistent Memory and Security
Database Performance
The licensed HPE Scalable Persistent Memory can improve database performance by enabling faster transaction processing. Because data is stored in memory, database transactions can be processed much more quickly than when data is stored on disk or in flash memory.
In addition, HPE Persistent Memory enables larger databases to be loaded into memory, which can improve performance by reducing the need to access data on disk.
HPE Scalable Persistent Memory and Virtualization
It can improve virtualization performance by enabling faster virtual machine (VM) provisioning. With Scalable Persistent Memory, VMs can be provisioned much more quickly than when data is stored on disk or in flash memory.
In addition, HPE Persistent Memory enables VMs to be larger, which can improve performance by reducing the need to access data on disk.
HPE Scalable Persistent Memory and Artificial Intelligence/Machine Learning: Accelerating Data Processing
HPE Persistent Memory can accelerate data processing for artificial intelligence (AI) and machine learning (ML) workloads. Because data is stored in memory, AI and ML algorithms can access data much more quickly than when data is stored on disk or in flash memory.
In addition, HPE Scalable Persistent Memory enables larger datasets to be loaded into memory, which can improve performance by reducing the need to access data on disk.
the key benefits of HPE Persistent Memory
Big Data Analytics
The licensed HPE Persistent Memory can enhance data processing for big data analytics workloads. Because data is stored in memory, big data analytics algorithms can access data much more quickly than when data is stored on disk or in flash memory.
In addition, HPE Scalable Persistent Memory enables larger datasets to be loaded into memory, which can improve performance by reducing the need to access data on disk.
Cloud Computing
The licensed HPE Scalable Persistent Memory can improve cloud performance by enabling faster data access and processing. With Scalable Persistent Memory, cloud applications can access data much more quickly than when data is stored on disk or in flash memory.
In addition, HPE Persistent Memory enables larger datasets to be loaded into memory, which can improve performance by reducing the need to access data on disk.
HPE Scalable Persistent Memory and Security
It can improve data protection by enabling faster and more efficient data backup and recovery. Because data is stored in memory, it can be backed up much more quickly than when data is stored on disk or in flash memory.
In addition, HPE Scalable Persistent Memory enables data to be recovered quickly and easily in the event of a system failure or data corruption.
What are the hardware requirements for using HPE Scalable Persistent Memory?
The hardware requirements for using HPE Persistent Memory depend on the specific system and configuration being used. However, there are some general requirements that apply to most systems.
Firstly, HPE Scalable Persistent Memory requires a compatible server platform that supports memory modules with persistent memory capabilities. It is currently compatible with HP ProLiant Gen10 servers, HPE Synergy Gen10 compute modules, and HPE Apollo systems.
Secondly, the server platform must have a compatible memory controller that supports persistent memory. HPE Scalable Memory is designed to work with HPE Smart Memory DDR4 modules that support persistent memory, which are available for HP ProLiant DL380 Gen10, HPE Synergy Gen10 compute modules, and HPE Apollo systems.
Thirdly, the server platform must have a compatible operating system that supports persistent memory. The licensed HPE Scalable Persistent Memory is supported on several operating systems, including Microsoft Windows Server 2016 and 2019, SUSE Linux Enterprise Server 12 and 15, and Red Hat Enterprise Linux 7 and 8.
In addition to these requirements, there may be additional hardware requirements depending on the specific configuration being used. For example, if HPE Scalable Persistent Memory is being used in a virtualized environment, additional hardware such as a virtualization platform may be required.
It’s important to note that HPE Persistent Memory is a new and evolving technology, and the hardware requirements may change over time as the technology continues to develop and mature. It’s important to consult with HPE documentation and support resources to ensure that the hardware being used is compatible with It and meets all necessary requirements.
HPE Scalable Persistent Memory, in conjunction with the HP ProLiant DL380 Gen10 server
Conclusion: The Benefits of HPE Persistent Memory for Modern Computing
The licensed HPE Scalable Persistent Memory provides several benefits to organizations, including increased speed and capacity, improved database performance, faster VM provisioning, accelerated data processing for AI/ML and big data analytics workloads, improved cloud performance, and enhanced data protection.
By leveraging HPE Persistent Memory, organizations can create a high-performance, high-capacity computing environment that is well-suited for modern workloads. With its unique combination of memory and storage, Scalable Persistent Memory is poised to become an essential component of modern computing infrastructure.