Now that you know your requirements, you can choose your server, understanding that the Xeon processors and servers are more expensive than Core, for the most part. The lower-speed Intel Xeon E3 , for example, is a lower-speed, web server with high energy efficiency. It's as affordable as some of the Core i5 processors, which are regular desktop-grade CPUs, and comes standard with a quad-core and advanced features.
This makes it a good choice for some less resource-intensive tasks, such as media servers or e-commerce hosting, and great value for your money. Though, many Xeon systems support more than 1TB of memory. ECC memory protects against single-bit memory errors. Basically, it identifies and corrects the errors. This is key for those systems in which reliability and uptime are imperative. They have the correct chipset and motherboard.
To be sure you have ECC memory support, you need the Xeon brand. Watch our video on what is ECC memory? Cache is a tiny amount of memory on the processor itself. CPU cores have an 8MB cache or less. Some models have up to 25MB. How fast any given processor works depends on the clock speed.
Clock speed is the speed in hertz GHz at which the processor generates and deploys instructions. The faster the clock, the more instructions the CPU can execute per second. Speed is not a surefire feature to use when deciding on a processor. The reason for this is because the advent of Turbo Boost enables the clock speed to change depending on the workload, providing better performance.
Clock speed and Turbo boost are usually connected with power dissipation. A Xeon server that has multiple cores will have a lower clock speed. Generally speaking, power dissipation in a Xeon is higher than a Core. The Core can overclock more easily. Are you running applications that need many processor cores, extra memory, or a high memory bandwidth?
Perhaps you even require all three of these. The 'core' is the CPU's processor and each core can work on a different task. A multi-core processor is a processor on a single integrated circuit that carries more than one single processor. Back around the turn of the century was when the processor market really started to mature, with Intel developing their first dual-core processor which was the Pentium iii Xeon in an effort to fend off AMD's advancement in the space.
Currently, many of the Xeon processors currently come with up to eight cores. They do so by using added on-chip technology to allow the CPUs to communicate. This way, the CPUs can share memory access and coordinate tasks.
By having more cores, you will gain improved performance in your computations. With this configuration, each CPU has its own set of memory modules and a controller. Note the trade-offs between each of the processors.
Compare this table with Table 2 below, which outlines the Xeon SP Gold processors that Trenton Systems uses in many of its rugged servers. These can support as many as 22 cores, 44 threads, Table 2: A comparison of some of the Xeon processor options available for Trenton Systems' SSP motherboard , used in the company's rugged servers. Note the differences in cores, threads, CPU clock speed, cache memory and PCIe lane support between each of the processors, and when compared to the lower-end Xeon and Core processors in Table 1.
So, why are Xeon processors generally better for servers and workstations? ECC RAM helps ensure data protection by stopping corruption at the source; support for larger amounts of RAM equates to smoother application performance; more cache memory means that more data can be stored near the CPU, which keeps the CPU from having to access RAM as often; higher core and thread counts means more processing units to divvy up computational workload and faster computation in general; having dual CPUs ensures that systems have the power of two Xeon CPUs sporting each of the previously listed benefits; and support for more PCIe lanes means support for more high-speed expansion components, such as dedicated GPUs.
Most customers in the market for a server with a Xeon motherboard value the above advantages because they provide data protection, high-speed expansion capabilities, faster computation, and speedy, consistent performance, all of which are especially desirable features for systems supporting mission-critical applications, whereby a loss of data, decline in system performance or inability to expand could result in disastrous consequences.
But Core CPUs also have their advantages, too - in particular, overclocking capabilities and integrated graphics. Why are these advantages important? Faster clock speeds mean quicker CPU calculations, which, in turn, equates to smoother application performance, and the inclusion of on-board graphics means you may not need to purchase a dedicated graphics card.
This is entirely dependent on the needs of your program or application, of course, as some high-end applications benefit significantly from the performance associated with a dedicated graphics card. High-end military, industrial and business-related programs and applications need the speed, data protection, longevity and reliability that a Xeon server can offer. Trenton Systems specializes in designing rugged servers and workstations equipped with single and dual Xeon CPU motherboards.
Made in the USA and certified to military and industrial standards, our high-quality systems perform with speed, efficiency and true grit, no matter how tough the going gets. Our talented engineering team is more than willing to work with you on choosing the right processor board for your needs. The computational needs of your program or application will dictate whether a Xeon processor, dual Xeon processors or an Intel Core processor is the right choice for your server or workstation motherboard.
Given that Xeon processors are designed to support high-end servers and workstations, they're going to pack a bit more processing power than the Core family, but as we've already stated, a Core processor may suit your system just as well, depending on your needs.
At Trenton Systems, we equip our high-performance servers and workstations with the latest and greatest Xeon processors. Just like that, Intel also develops Processors for different kinds of users. But what are these Xeon Processors used for? I did extensive research and found the answer for you. The Xeon Processors from Intel are designed specifically for big companies with huge servers that handle a gigantic amount of data every single day.
The Error Correcting Code ECC Memory is a form of computer memory or storage that is used to detect and correct any form of internal data corruption. That is why they are ideal for big companies who cannot afford to have a server crash or suffer from frequent Server Downtimes.
The Xeon Processors contain a large number of Cores but these Cores generally have slower clock speeds than what you find in gaming Laptops. Gaming Computers use fewer cores with faster clock speeds. The number of Cores in these processors can go up to a whopping The clock speeds range from 2. Intel Xeon Processors also have a larger Cache Memory which results in faster data transfer to and from the Servers.
Not only that, but the Xeon Processors are also designed to handle a large amount of RAM and large bandwidths.
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