The History of Intel in the Cloud
When the cloud first came to popularity in the early 90s, Intel was the leading manufacturer of silicon that was completely dedicated towards cloud implementations. Their first entry into the cloud processor space, the Drake, marked the beginning for their Xeon line of servers, replacing the Pentium pro as the go-to building block.
Intel continues to innovate their cloud offerings by packing more and more compute power into smaller, more scalable containers. Their cloud services continue to grow as they support more and more users.
Intel has been expanding its cloud computing capabilities. In addition to being able to run more applications at once, Intel cloud computing has also been adding AI capabilities to its cloud services.
The Cloud is Powered by Intel and Here’s Why That Matters
Intel has been driving cloud innovations for decades. At an exclusive tech field day event, Intel detailed how integral a part they’ve played in the growth, advancements, and now dominance of cloud computing in today’s enterprise IT spaces.
Intel’s Cloud Product Line
Ice Lake is an exciting new processor architecture that features up to 16 cores, 64 PCIe lanes, and 128GB of DDR4 RAM. It also includes Intel Optane memory technology and Intel ARRiA FPGAs. This combination allows you to scale your workloads without compromising performance or security.
Intel SGX protects data in use by hiding it inside enclaves. Intel DL Boost helps run deep learning at hyperscale.
Intel has been around since 1968. Their products were used in the early days of the internet. Nowadays, they make servers, chipsets, and other hardware. They also sell software and services.
Intel’s Cloud Presence Today
AWS, Azure, and Google use Intel CPUs in all of their data centers.
Cloud computing is an important part of the future of technology. There are many different types of clouds. This input shows how much cloud computing there is.
Intel is the world’s biggest chip maker. It makes processors for computers. It also sells chips to other companies who make things like phones, tablets, and laptops. These devices use the chips to run programs. Intel’s chips are used in many different kinds of devices.
Using Intelcom Search
Intel’s new processor code name is Kaby Lake. This means that Intel’s new processors will be called Kaby Lake.
Cloud Processors Storage Integrated Technology Solutions
Select optimized cloud products and data centers solutions for a powerful hybrid-cloud.
Key Technologies for an Optimized Cloud
Intel® Xeon® Scalable processor delivers consistent, workload-optimised performance and advanced reliability, availabilty and serviceability features (RAAS). Intel® FPGA offers custom acceleration. Intel® optane memory and storage removes bottlenecks, consolidates data tiers and delivers new insights into your enterprise datacenter. Intel® select solutions are designed for optimized performance in the data centre, helping limit guess work for your IT team.
An Overview of Cloud Technology Components
Intel® Cloud Platform delivers consistent, reliable performance you need to accelerate your digital transformation. Intel® Cloud Platform helps you reduce complexity, accelerate development cycles, and avoid lock-ins with SDI. Intel® Cloud Platform enables seamless application portability, provides data mobility, and reduces costs across a wide range of workloads and service offerings.
A checklist for building a best-of-class cloud platform includes the following components: Cloud Servers powered by Intel® Xeon Scalable Processors provide the foundation for your Hybrid Cloud, both as part of on-premises infrastructure as well as at the heart of many popular Public Cloud platforms. Intel® Optane™ Persistent Memory provides a new class of non-volatile memory, while Solid State Drives (SSDs) including Intel® Optane SSDs and 3D Xpoint™ SSDs keep your data moving quickly and efficiently.
Cloud computing and orchestration platforms help you manage hybrid and multi-cloud environments, deploy cloud containers and support microservices architecture, while blockchain cloud solutions based on Intel® Xeon Scalable processors can help secure transactions across the cloud.
Cloud-based systems start with optimized processors capable of handling complex applications. These systems help minimize complexity by using compatible virtualization infrastructure. New applications can be deployed quickly and get quick response times. Second generation Intel Xeon Scalable processors offer enhanced AI performance with Intel® Deep Learning Boost.
Intel® FPGAs are used by many companies to accelerate data centers. They are flexible, multipurpose, and customizable.
Intel® Xeon® Scalable processor delivers high reliability and uptime. SDI provides performance, agility, and cost-efficiency. Legacy storage is a big bottleneck in cloud service delivery, so Intel® Optane™ technology can help you overcome this problem.
Intel® Optane™ is a new type of nonvolatile memory that combines the speed of DRAM with the endurance of flash. Intel® Optane™ delivers up to 10x faster performance than NAND Flash while consuming less power. Intel® OptaneTM also offers high endurance, enabling customers to run their systems 24/7 without worrying about data loss or degradation.
Intel® Optane™ drives provide better performance than traditional hard disk drives (HDDs). They also reduce the need for expensive RAM and increase the speed of data access.
Cloud Virtualization Solutions
Cloud computing is an emerging technology that allows users to access applications over the Internet without having to install them locally. This type of service is provided by third-party companies who rent out space on servers. These services allow users to store data online and access it using any web browser or mobile device.
The most common form of cloud computing is Infrastructure as a Service (IaaS), which gives users access to physical resources such as servers, networking equipment, storage devices, and other IT hardware. IaaS providers typically charge per hour, per month, or annually, depending on how much usage they expect from each customer. The term “Infrastructure as a Service” refers to the ability to provision processing, network bandwidth, storage capacity, and other fundamental computing resources where needed on demand.
Another form of cloud computing is Software as a Service (SaaS), which provides software applications via the internet. SaaS vendors host the software applications and make them available through a website. A user installs the software onto his or her computer