Intel® Xeon® CPU Max Series

Maximize bandwidth with the Intel® Xeon® CPU Max Series, the only x86-based processor with high-bandwidth memory (HBM). Architected to supercharge the Intel® Xeon® platform with HBM, Intel® Max Series CPUs deliver up to 4.8x better performance compared to competition on real-world workloads, such as modeling, artificial intelligence, deep learning, high performance computing (HPC) and data analytics.

INTEL® XEON® PROCESSORS

Processors
Intel designs advanced, high-performance processors for every usage, including enterprise-scale servers, IoT devices, laptops, desktops, workstations, and mobile devices. To find information, specifications, downloads and support for each processor, start by selecting a Processor family.

Intel® Xeon® Gold Processors

The Solidigm™ D5-P5336 is part of Solidigm's third-generation QLC SSDs for the data center, delivering an industry-leading blend of capacity, read-optimized performance, and value to read- and data-intensive workloads.

Combining read performance exceeding that of some cost-optimized TLC SSDs and capacities up to 61.44TB built on industry-leading NAND density, the D5-P5336 has been architected to efficiently accelerate and scale the increasingly massive datasets found in widely deployed, modern read-intensive workloads while increasing storage density, reducing total cost of ownership (TCO), and enabling a more sustainable storage infrastructure.

Storage Density Matters

Widely adopted modern workloads are becoming even more data hungry. Many AI models are growing as much as 10x in size every two years. Many streaming services are shifting from limited, paid-for capacity to unlimited free capacity. With connected Internet of Things (IoT) devices expected to reach 14.5B by the end of 2023, supported by the tailwind of an accelerating 5G rollout, there is no end in sight to unabated growth in data-rich services and applications.

Accompanying this trend is the decentralization of compute and storage to the edge to improve service levels, reduce cost, and improve agility. As recently as 2018, only 10 percent of enterprise-generated data was created and processed outside of traditional centralized data centers or cloud services. By 2025, Gartner expects 75 percent of that data to be created, processed, and stored at edge locations.6 Storage challenges such as space, power, cooling, and serviceability become even more acute when considering locality constraints at edge deployments.

Optimized Capabilities for Read-Intensive Workloads

In this environment, modern, data-hungry workloads such as data pipelines and data lakes for AI, machine learning (ML), big data analytics, content-delivery network (CDN), scale-out NAS, object storage, and edge usages are increasingly concerned with storing and accessing vast amounts of data efficiently at speed. The D5-P5336 is optimized for both requirements, with read performance equivalent to TLC SSDs and capacities that are 2-3x higher than alternatives.

More from the Manufacturer

The Solidigm™ D5-P5336 is part of Solidigm's third-generation QLC SSDs for the data center, delivering an industry-leading blend of capacity, read-optimized performance, and value to read- and data-intensive workloads.

Combining read performance exceeding that of some cost-optimized TLC SSDs and capacities up to 61.44TB built on industry-leading NAND density, the D5-P5336 has been architected to efficiently accelerate and scale the increasingly massive datasets found in widely deployed, modern read-intensive workloads while increasing storage density, reducing total cost of ownership (TCO), and enabling a more sustainable storage infrastructure.

Storage Density Matters

Widely adopted modern workloads are becoming even more data hungry. Many AI models are growing as much as 10x in size every two years. Many streaming services are shifting from limited, paid-for capacity to unlimited free capacity. With connected Internet of Things (IoT) devices expected to reach 14.5B by the end of 2023, supported by the tailwind of an accelerating 5G rollout, there is no end in sight to unabated growth in data-rich services and applications.

Accompanying this trend is the decentralization of compute and storage to the edge to improve service levels, reduce cost, and improve agility. As recently as 2018, only 10 percent of enterprise-generated data was created and processed outside of traditional centralized data centers or cloud services. By 2025, Gartner expects 75 percent of that data to be created, processed, and stored at edge locations.6 Storage challenges such as space, power, cooling, and serviceability become even more acute when considering locality constraints at edge deployments.

Optimized Capabilities for Read-Intensive Workloads

In this environment, modern, data-hungry workloads such as data pipelines and data lakes for AI, machine learning (ML), big data analytics, content-delivery network (CDN), scale-out NAS, object storage, and edge usages are increasingly concerned with storing and accessing vast amounts of data efficiently at speed. The D5-P5336 is optimized for both requirements, with read performance equivalent to TLC SSDs and capacities that are 2-3x higher than alternatives.

More from the Manufacturer

The Solidigm™ D5-P5336 is part of Solidigm's third-generation QLC SSDs for the data center, delivering an industry-leading blend of capacity, read-optimized performance, and value to read- and data-intensive workloads.

Combining read performance exceeding that of some cost-optimized TLC SSDs and capacities up to 61.44TB built on industry-leading NAND density, the D5-P5336 has been architected to efficiently accelerate and scale the increasingly massive datasets found in widely deployed, modern read-intensive workloads while increasing storage density, reducing total cost of ownership (TCO), and enabling a more sustainable storage infrastructure.

Storage Density Matters

Widely adopted modern workloads are becoming even more data hungry. Many AI models are growing as much as 10x in size every two years. Many streaming services are shifting from limited, paid-for capacity to unlimited free capacity. With connected Internet of Things (IoT) devices expected to reach 14.5B by the end of 2023, supported by the tailwind of an accelerating 5G rollout, there is no end in sight to unabated growth in data-rich services and applications.

Accompanying this trend is the decentralization of compute and storage to the edge to improve service levels, reduce cost, and improve agility. As recently as 2018, only 10 percent of enterprise-generated data was created and processed outside of traditional centralized data centers or cloud services. By 2025, Gartner expects 75 percent of that data to be created, processed, and stored at edge locations.6 Storage challenges such as space, power, cooling, and serviceability become even more acute when considering locality constraints at edge deployments.

Optimized Capabilities for Read-Intensive Workloads

In this environment, modern, data-hungry workloads such as data pipelines and data lakes for AI, machine learning (ML), big data analytics, content-delivery network (CDN), scale-out NAS, object storage, and edge usages are increasingly concerned with storing and accessing vast amounts of data efficiently at speed. The D5-P5336 is optimized for both requirements, with read performance equivalent to TLC SSDs and capacities that are 2-3x higher than alternatives.

More from the Manufacturer

The Solidigm™ D5-P5336 is part of Solidigm's third-generation QLC SSDs for the data center, delivering an industry-leading blend of capacity, read-optimized performance, and value to read- and data-intensive workloads.

Combining read performance exceeding that of some cost-optimized TLC SSDs and capacities up to 61.44TB built on industry-leading NAND density, the D5-P5336 has been architected to efficiently accelerate and scale the increasingly massive datasets found in widely deployed, modern read-intensive workloads while increasing storage density, reducing total cost of ownership (TCO), and enabling a more sustainable storage infrastructure.

Storage Density Matters

Widely adopted modern workloads are becoming even more data hungry. Many AI models are growing as much as 10x in size every two years. Many streaming services are shifting from limited, paid-for capacity to unlimited free capacity. With connected Internet of Things (IoT) devices expected to reach 14.5B by the end of 2023, supported by the tailwind of an accelerating 5G rollout, there is no end in sight to unabated growth in data-rich services and applications.

Accompanying this trend is the decentralization of compute and storage to the edge to improve service levels, reduce cost, and improve agility. As recently as 2018, only 10 percent of enterprise-generated data was created and processed outside of traditional centralized data centers or cloud services. By 2025, Gartner expects 75 percent of that data to be created, processed, and stored at edge locations.6 Storage challenges such as space, power, cooling, and serviceability become even more acute when considering locality constraints at edge deployments.

Optimized Capabilities for Read-Intensive Workloads

In this environment, modern, data-hungry workloads such as data pipelines and data lakes for AI, machine learning (ML), big data analytics, content-delivery network (CDN), scale-out NAS, object storage, and edge usages are increasingly concerned with storing and accessing vast amounts of data efficiently at speed. The D5-P5336 is optimized for both requirements, with read performance equivalent to TLC SSDs and capacities that are 2-3x higher than alternatives.

More from the Manufacturer

Processors
Intel designs advanced, high-performance processors for every usage, including enterprise-scale servers, IoT devices, laptops, desktops, workstations, and mobile devices. To find information, specifications, downloads and support for each processor, start by selecting a Processor family.

INTEL® XEON® PROCESSORS

Do more with your cloud computing, real-time analytics, processing for your mission-critical business, and big data insights. Improve data center efficiency and reliability to handle any workload.

Intel® Xeon® Processors ?

Optimized performance, scale and efficiency across a broad range of data center, edge and workstation workloads. Elevate business productivity with the consistent open Intel® architecture you know and trust.

Processors
Intel designs advanced, high-performance processors for every usage, including enterprise-scale servers, IoT devices, laptops, desktops, workstations, and mobile devices. To find information, specifications, downloads and support for each processor, start by selecting a Processor family.

Processors
Intel designs advanced, high-performance processors for every usage, including enterprise-scale servers, IoT devices, laptops, desktops, workstations, and mobile devices. To find information, specifications, downloads and support for each processor, start by selecting a Processor family.

Intel® Core™ Ultra Processors Family

The latest Intel® Core™ Ultra processors (Series 2) enable you to use the most AI experiences across desktop and mobile-making everything you do easier, faster, and better.

Intel®RealSense™ Developer Kit featuring SR300

The Intel® RealSense™ Camera SR300 continues in the path started with the Intel RealSense™ F200 which was the world's first and smallest integrated 3D depth and 2D camera module: combining depth sensing with a 1080p RGB camera. Intel® has made improvements in the 3D and 2D image quality and well as the usable range of the camera. Improvements have also been made in our SDK to take advantage of the new camera. Specific improvements include Background Segmentation, Facial Tracking and the addition of "3D Cursor Mode".

Product Restrictions:

The Camera is intended solely for use by developers with the Intel® RealSense SDK for Windows solely for the purposes of developing applications using Intel RealSense technology. The Camera may not be used for any other purpose, and may not be dismantled or in any way reverse engineered.

The Camera is sold as-is, without any warranty of any kind, including without limitation, any implied warranties of fitness of purpose, merchantability and non-infringement. The Camera may have known defects and errata.

The Camera may not be used in any "mission critical application" in which the failure of the Camera could result, directly or indirectly, in personal injury or death.

Click Support will replace your defective camera(s) and or provide a refund within 90 days from date of purchase.

Intel® Xeon® Scalable Processors

Intel® Xeon® Scalable processors feature built-in accelerators for more performance-per-core and unmatched AI performance, with advanced security technologies for the most in-demand workload requirements-all while offering the greatest cloud choice and application portability.

Intel® Xeon® Gold Processors

With support for the higher memory speeds, enhanced memory capacity, and four-socket scalability, Intel® Xeon® Gold processors deliver significant improvement in performance, advanced reliability, and hardware-enhanced security. It is optimized for demanding mainstream data center, multi-cloud compute, and network and storage workloads. With up-to four-socket scalability, it is suitable for an expanded range of workloads.

Intel® Xeon® Silver Processors

Intel® Xeon® Silver processors deliver essential performance, improved memory speed, and power efficiency. Hardware-enhanced performance required for entry data center computes, network, and storage.