AMD Accelerating Innovation

In today’s competitive marketplace, a business needs to make strategic technology investments to ensure efficiency, security, and long-term competitiveness.

AMD Accelerating Innovation

Many organizations do not invest in new hardware, such as servers, for fear of the initial cost. But not upgrading and maintaining servers can often result in higher capital and operating costs. This means that the day-to-day expenses associated with aging hardware can quickly outweigh short-term downtime or the initial investment required for a new system.

This is not the only potential consequence of not updating hardware. Companies that upgrade their systems are more likely to access technologies like artificial intelligence (AI) and big data analytics (BDA), enabling them to make faster decisions, gain new insights, and increase productivity like never before. This means that organizations that continue to use outdated systems risk falling behind their competitors in terms of innovation. As well as alienating customers who demand modern and personalized experiences.

This is a more important topic than ever for businesses of all shapes and sizes. Before AMD introduced its EPYC line of server processors in 2017, there was a lack of competition in the x86 server space. This translated into a slow pace of innovation and modest performance gains from one generation to the next. In recent years, however, new hardware has emerged that allows companies to innovate, drive shorter time-to-results, and even potentially reduce the installed server base. Thus, initial capital investments and ongoing operating expenses are minimized.


Naturally, one of the biggest factors for companies delaying hardware upgrades is cost. But organizations must also consider the cost of doing nothing.

It may seem expensive to undergo a major digital transformation project. In particular, one that involves a major device upgrade, such as moving to new on-premises hardware, moving from legacy infrastructure, or to service consumption models such as SaaS. However, once the organization has undergone this task, operating costs are likely to decrease. For example, upgrading to systems with high core count AMD EPYC™ CPUs can not only reduce the need for IT management and regular maintenance. It means organizations can accommodate more users and workloads per server and decrease the total number of servers they need, reducing the amount of electricity needed to power and cool new systems.

AMD Innovation
AMD Innovation

In addition, upgrading to AMD EPYC™ – which is widely used across AWS, Microsoft Azure, and Google Cloud platforms – also enables the company to take advantage of service models such as SaaS, IaaS, and hybrid cloud, while lowering IT costs. capital. In this way, companies can reduce annual costs by up to 52%, use 63% fewer VMware® vSphere licenses and get 10% more performance/core cooling with 81% fewer servers.


Businesses that continue to rely on outdated server hardware can see effectiveness decline over time. Not only can this lead to slower performance, higher crash rates, and potential security breaches. It can also mean higher maintenance costs. After all, if companies don’t continue to invest in these outdated systems, they risk making server downtime even more costly.

With an updated system, organizations could be sure that poor server performance – and the consequences that follow – would be a thing of the past.

For example, the AMD EPYC™ 7003 Series – which has been named the world’s fastest x86 server processor – delivers industry-leading performance across a broad spectrum of workload types with more than 250 world records.

Here’s a possible upgrade scenario. Based on industry-standard SPECrate®2017_int_base benchmark tests, twenty ~4-year-old Intel® Xeon® E5-2699A v4 CPU-based servers can be replaced with seven Intel Xeon Platinum 8380 CPU-based servers 2P or only five 2P AMD EPYC™ 7763 CPU-based servers for comparable integer performance.

AMD Innovation has advantage
AMD Innovation has the advantage

With the EPYC x86 server processor solution, which fits seamlessly into existing x86 infrastructures, an organization can speed up time to results and deliver better business results. Newer hardware can also support faster and more agile ways for businesses to market themselves and find customers online. This allows you to offer personalized services and products and stay on top of inventory and shipments, making use of innovative new features such as virtual prototyping and AI-based recommendations.

Lower power consumption

More and more companies are interested in making sustainable decisions, from reducing waste and using sustainable materials to switching to renewable energy sources. However, those that continue to use outdated hardware may be undoing much of the hard work they’ve put into other areas of the organization.

Replacing outdated or inefficient technology can not only reduce carbon emissions, the amount of heat generated, or the required system cooling that data centers produce, but it can also reduce the cost of running them.

AMD EPYC™ processors power the most energy-efficient x86 servers, helping businesses minimize the environmental impact of data center operations while advancing sustainability goals. For example, delivering 10,000 integer performance units using 2P AMD EPYC™ 7763 servers compared to 2P Intel Xeon Platinum 8380 servers can result in 33% fewer servers using 50% less space and 42% fewer of energy. While offering up to 36% lower three-year total cost of ownership (TCO).


Reliance on outdated hardware can not only lead to increased power consumption, but it can also increase the likelihood of a business being compromised. The hardware of five years ago was never designed to handle the high-risk workloads and security challenges of today. This means that organizations using outdated servers are at risk of being hacked and breaching data privacy regulations.

However, modern server hardware has been built to deal with the rising tide of cybersecurity threats. AMD EPYC™ processors, for example, have a fully integrated on-chip security processor. It helps provide the level of protection business users expect, along with several additional features to help ensure sensitive data stays secure. The security processor helps promote secure booting of the system and houses the encryption keys.


Thanks to the latest technology, organizations can make split-second decisions based on massive amounts of data. To gain that competitive advantage, you have to make sure you work efficiently. One of the key components to working smarter is using the modern infrastructure. By continuing to rely on outdated systems, a company could fall behind the competition when it comes to innovation.

With the high core count and scalability of 3rd Gen AMD EPYC™ processor-based servers, businesses can easily host applications such as machine learning (ML) and scientific simulations and take full advantage of new AI capabilities. (AI), high-performance computing (HPC), and data analytics.

In an age where data is more vital than ever, where security and performance are paramount, 3rd Generation AMD EPYC™ processors are the smart choice for organizations looking to upgrade their aging hardware. It can not only help the company to reduce the total cost of ownership (TCO). Rather, it can boost productivity and agility in an ever-changing marketplace. AMD’s online tools can help you competitively compare various CPU performances, costs, project power savings, CO2 emissions, and more.

Read more about AMD Radeon RX 7000 Series Release Date, Pricing, and Spec Rumors

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Abram left his e-business studies to devote himself to his entrepreneurial projects. In 2017, he created the company Inbound Media and wrote articles about high-tech products for his Chromebookeur site. In 2019, Chromebookeur was renamed Macbound and became a general purchasing advice site. Today, Abram manages the development and growth of Macbound, surrounded by a young and talented team.

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