Revolutionizing Data Processing: SAP, Google, and Intel Partner to Unleash the Power of Intel Optane DC Persistent Memory

Table of Contents

1. Introduction
2. History of Intel Optane DC Persistent Memory
3. Partnership between SAP, Google, and Intel
4. Overview of Intel Optane DC Persistent Memory
5. Benefits of Intel Optane DC Persistent Memory
   • Increased data processing capacity
   • Improved cost-effectiveness
   • Enhanced business continuity
6. Operating Modes of Intel Optane DC Persistent Memory
   • App Direct Mode
   • Memory Mode
7. Usage Scenarios and Use Cases
   • Data tiering and storage optimization
   • Improved database startup and reload times
   • Simplified database landscape
8. Google Cloud Platform (GCP) Integration
   • GCP as the first public cloud provider to offer GCP instances with persistent memory
   • Increase in virtual machine sizes for HANA systems on GCP
   • Roadmap for future system sizes on GCP
9. Conclusion and Further Resources

Introduction

In this article, we will explore the partnership between SAP, Google, and Intel, specifically focusing on a groundbreaking technology called Intel Optane DC Persistent Memory. This technology has the potential to revolutionize computer architecture as we know it and address the increasing demands and challenges of data processing in the digital age. We will delve into the history of Intel Optane DC Persistent Memory, its benefits, and its impact on SAP HANA, as well as its integration with Google Cloud Platform (GCP). So let's dive in and uncover the exciting possibilities that Intel Optane DC Persistent Memory brings to the table.

History of Intel Optane DC Persistent Memory

The development of Intel Optane DC Persistent Memory has been a culmination of years of collaboration between Intel and SAP. Over the past decade, Intel has been working tirelessly to advance this technology, with the last six years dedicated to deep engineering collaboration with SAP, specifically optimizing SAP HANA to harness the potential of this new type of memory. Two years ago, SAP became the first company to demonstrate the live usage of persistent memory at SAP Sapphire, and just recently, Intel launched the general availability of Intel Optane DC Persistent Memory along with the Second generation of Intel Xeon Scalable Processor. These milestones underscore the commitment and excitement of the partners involved in pushing the boundaries of data processing technology.

Partnership between SAP, Google, and Intel

The partnership between SAP, Google, and Intel revolves around the shared goal of harnessing the power of Intel Optane DC Persistent Memory to address the ever-increasing data challenges faced by industries, customers, and partners. With an expected surge in data generation, which is projected to reach 175 zetabytes in 2025 compared to 33 zetabytes last year, current technologies are struggling to keep pace in making this data useful and accessible. This is where Intel Optane DC Persistent Memory comes into play. By bridging the gap between memory and storage, this technology offers a massive leap in data processing capabilities, affordability, and persistence, making it an ideal solution for industries across the board.

Overview of Intel Optane DC Persistent Memory

Intel Optane DC Persistent Memory introduces a new layer to the traditional memory and storage pyramid that has long been a foundation of computer architecture. At the top of the pyramid, we have DRAM memory, which offers high speed but limited capacity. In the storage realm, we have flash NAND SSDs and spinning magnetic disks, which provide higher capacities but at the cost of performance. Intel Optane DC Persistent Memory fills the gap between these two layers, offering a unique Blend of large capacity, affordability, and persistence. It comes in various capacities, such as 128GB, 256GB, and 512GB, and can be combined with DRAM to create a powerful memory solution. Moreover, it also offers standard hardware encryption, ensuring data security even when at rest.

Benefits of Intel Optane DC Persistent Memory

The adoption and support of Intel Optane DC Persistent Memory by SAP, Google, and Intel are driven by the tremendous benefits it brings to the table. Let's take a closer look at each of these benefits:

1. Increased data processing capacity: With the ability to process more data in real time, Intel Optane DC Persistent Memory empowers industries to keep pace with the exponential growth in data generation. This means faster insights, improved decision-making, and enhanced operational efficiency.

2. Improved cost-effectiveness: Intel Optane DC Persistent Memory offers a cost-effective solution compared to traditional DRAM memory, enabling companies to Scale their memory capacity without breaking the bank. The affordability of this technology opens up new opportunities for businesses to leverage high-performance memory solutions within their budgetary constraints.

3. Enhanced business continuity: One of the standout features of Intel Optane DC Persistent Memory is its persistence. Even in the event of a server reboot, power loss, or maintenance downtime, the data stored in persistent memory remains intact. This ensures faster database startup and reload times, reducing downtime and improving overall business continuity.

Operating Modes of Intel Optane DC Persistent Memory

Intel Optane DC Persistent Memory supports two operating modes: App Direct Mode and Memory Mode. In App Direct Mode, the technology is transparent to the operating system, users, and applications. This allows companies to optimize their data structures by placing them in the most suitable medium, whether it's DRAM for high-bandwidth needs or persistent memory for larger capacity and persistence. App Direct Mode also supports standard storage APIs, making it versatile in its usage. On the other HAND, Memory Mode allows the platform to utilize DRAM as a fast write-back cache, taking advantage of the large memory footprint offered by Intel Optane DC Persistent Memory. This mode is particularly useful when companies need a significant amount of volatile memory for their applications.

Usage Scenarios and Use Cases

The versatility of Intel Optane DC Persistent Memory opens the doors to various usage scenarios and use cases that cater to the diverse needs of different industries. Here are some of the key scenarios in which this technology can make a significant impact:

1. Data tiering and storage optimization: Intel Optane DC Persistent Memory enables companies to optimize their data storage and tiering strategies. By utilizing the large capacity of persistent memory, they can keep hot and warm data directly accessible for faster processing, reducing the need for tiering to slower storage mediums. This simplifies the database landscape and improves overall data management efficiency.

2. Improved database startup and reload times: One of the pain points in running memory databases like SAP HANA is the time it takes to reload data into memory after a server reboot or maintenance. Intel Optane DC Persistent Memory drastically reduces the reload time, enabling databases to be up and running within minutes rather than hours. This improves overall system availability, reduces downtime, and enhances operational agility.

3. Simplified database landscape: With the increased capacity and affordability of Intel Optane DC Persistent Memory, companies can consolidate multiple instances and databases onto a single physical server or virtual machine. This simplifies database management, reduces hardware and operational costs, and improves resource utilization.

Google Cloud Platform (GCP) Integration

Google Cloud Platform (GCP) is at the forefront of embracing Intel Optane DC Persistent Memory and leveraging its capabilities for their customers. As the first public cloud provider to offer virtual machines equipped with persistent memory, GCP is spearheading the adoption of this groundbreaking technology. They provide virtual machines with large memory capacities, such as the 7-terabyte VM, which combines DRAM and persistent memory to deliver exceptional performance and cost-effectiveness. GCP is also committed to expanding their virtual machine offerings, with a roadmap that includes the release of 6-terabyte, 12-terabyte, and 18-terabyte VMs in the near future. This partnership between GCP, SAP, Google, and Intel holds significant promise for organizations seeking a scalable, high-performance, and cost-efficient cloud solution for their memory-intensive workloads.

Conclusion and Further Resources

In conclusion, the partnership between SAP, Google, and Intel in harnessing the power of Intel Optane DC Persistent Memory is set to transform the landscape of data processing and memory-intensive applications. This groundbreaking technology offers unprecedented data processing capacity, cost-effectiveness, and persistence, enabling businesses to unlock new possibilities and achieve unprecedented operational efficiency. As the adoption of Intel Optane DC Persistent Memory continues to grow, organizations can look forward to accelerated Data Insights, simplified database management, and enhanced business continuity. To learn more about Intel Optane DC Persistent Memory and its integration with SAP HANA and Google Cloud Platform, we encourage you to explore the following resources:

• Intel Optane DC Persistent Memory official website
• SAP HANA documentation and resources
• Google Cloud Platform's Intel Optane DC Persistent Memory VM offering

With the convergence of cutting-edge technology, industry expertise, and cloud infrastructure, the future of data processing looks brighter than ever before. Embrace the power of Intel Optane DC Persistent Memory and unlock new frontiers in your data-driven journey.

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Highlights:

• The partnership between SAP, Google, and Intel revolves around Intel Optane DC Persistent Memory, a groundbreaking technology that bridges the gap between memory and storage.
• Intel Optane DC Persistent Memory offers increased data processing capacity, improved cost-effectiveness, and enhanced business continuity.
• The two operating modes of Intel Optane DC Persistent Memory, App Direct Mode and Memory Mode, provide flexibility and versatility for different usage scenarios.
• Intel Optane DC Persistent Memory enables data tiering and storage optimization, faster database startup and reload times, and simplified database landscapes.
• Google Cloud Platform (GCP) is the first public cloud provider to offer virtual machines with Intel Optane DC Persistent Memory, providing scalability, performance, and cost-efficiency.
• The roadmap for GCP's virtual machines includes the release of larger system sizes, offering even more possibilities for memory-intensive workloads.
• Embracing Intel Optane DC Persistent Memory unlocks new frontiers in data processing and empowers businesses to thrive in the digital age.

🔗 Resources:

• Intel Optane DC Persistent Memory
• SAP HANA Documentation and Resources
• Google Cloud Platform - Intel Optane DC Persistent Memory VM

FAQs:

Q: What is Intel Optane DC Persistent Memory? A: Intel Optane DC Persistent Memory is a revolutionary technology that bridges the gap between memory and storage, offering increased data processing capacity, efficiency, and persistence.

Q: How does Intel Optane DC Persistent Memory benefit businesses? A: Intel Optane DC Persistent Memory enables businesses to process more data in real time, optimize data storage and tiering strategies, simplify database landscapes, and improve business continuity with faster startup and reload times.

Q: What are the two operating modes of Intel Optane DC Persistent Memory? A: The two operating modes are App Direct Mode and Memory Mode. App Direct Mode allows for transparent usage of the technology, while Memory Mode utilizes DRAM as a fast write-back cache.

Q: How is Google Cloud Platform integrating Intel Optane DC Persistent Memory? A: Google Cloud Platform is the first public cloud provider to offer virtual machines with Intel Optane DC Persistent Memory. They provide scalable, high-performance VMs with varying memory capacities, and have a roadmap for releasing larger system sizes in the future.

Q: Where can I find more information about Intel Optane DC Persistent Memory, SAP HANA, and Google Cloud Platform's offerings? A: You can find more information on the official Intel Optane DC Persistent Memory website, SAP HANA documentation and resources, and Google Cloud Platform's website.