Redefining Memory and Storage for Exponential Advances
Completing the hierarchy with data-centric improvements and innovations.
The memory storage subsystem is the supply chain for all data. Completing the hierarchy improves systems performance and efficiency.
Intel 3D NAND is the industry-leading technology in areal density due to its unique floating gate architecture, combined with its CMOS under the array (CUA) design.
Intel Optane technology is the first new memory technology introduced since the 1980s—and it promises to revolutionize computing architectures.
Memory and storage are like real estate in a thriving urban core. The closer memory is to the CPU, the more expensive and limited in capacity it is. This memory—often DRAM—also lacks permanence. Should a CPU lose power, the memory within will “forget” the data it holds.
With Intel® Optane™ DC persistent memory, we’ve invented an entirely new class of nonvolatile memory. It delivers a unique combination of affordable large capacity and support for data persistence, ideal for the in-memory databases associated with AI workloads and high performance computing (HPC). In the realm of storage, we’re driving affordable, high-performing solutions that help overcome bottlenecks with Intel® Optane™ Solid State Drives (SSDs) and Intel® QLC 3D NAND SSDs.
Memory and storage play a critical role in the supply of data to the CPU. The better this supply chain works, the more smoothly the system runs.
As we develop new memory and storage technologies, we integrate them tightly into our other platform components. For example, Intel Optane DC persistent memory was codesigned to work optimally with our CPUs. From creating new protocols on the memory bus to making changes inside the core and BIOS, our high level of platform integration helps ensure reliability, performance, and security.
Hardware innovations become revolutionary only when developers and architects can understand how to get the most value from them. Realizing that our new approach to memory would fundamentally change infrastructure and software design, we worked with the ecosystem for roughly five years before launching Intel® Optane™ DC persistent memory.
Intel worked with major software, hypervisor, and middleware providers like VMware to recode platforms to take advantage of persistent memory. We also launched an open, industry-wide persistent memory programming model, as well as the Intel® Optane™ Persistent Memory Development Kit and other tools, to further enable developers.
At the Intel® Developer Zone (Intel® DZ), you can explore persistent memory use cases and find resources for developing solutions with Intel® Optane™ DC persistent memory.
Learn how Intel has worked with the open source community to optimize and secure storage infrastructure and how you can use the Intel® Intelligent Storage Acceleration Library and the Storage Performance Development Kit (SPDK) to deliver a fast, space-efficient, and secure storage solution.
Intel® technologies' features and benefits depend on system configuration and may require enabled hardware, software, or service activation. Performance varies depending on system configuration. No product or component can be absolutely secure. Check with your system manufacturer or retailer or learn more at intel.com.
All information provided here is subject to change without notice.