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Intel Core i7-10700K CPU
We’re exploring the differences in specification between the 13900K and the 5800X3D and outlining which CPU would be better.
Intel core I9-13900KS vs Ryzen 7 5800X3D: Intel released its 13th-generation CPUs to the world on October 20th, 2022. The 13900K is a beast of a CPU, since its release, we’ve gathered all the info we need about Intel’s 13th gen flagship CPU, the i9-13900K. So we’re going to pit it against the CPU taking the world by storm, the Ryzen 7 5800X3D.
**UPDATE** 20/10/22 – The 13th generation CPUs are now available to purchase, please check out our links below if you’re looking to pick up a 13th generation CPU.
Intel Core i7-10700K CPU
Intel Core i5-11600KF CPU
Intel Core i7-12700KF CPU
Intel Core i9-12900KF CPU
Intel Core i9-12900K
Now read: Best LGA 1700 CPU cooler.
The upgrade to the 13th gen is something that can be done fairly easily compared to the upgrade on AMD’s platform from AM4 to AM5. All that’s required is the new CPU, as the 13th generation Intel CPUs are designed with the same socket, LGA 1700, as the 12th generation Alder lake CPUs.
Intel recently held its annual Innovention event, where er got a snippet of information regarding the new Raptor Lake flagship. Intel CEO, Pat Gelsinger, stated that the Raptor Lake family will have a flagship CPU containing up to 24 Performance and Efficiency cores, up to a 15% better single-core performance gain, and up to 41% better multi-thread performance gain.
Intel’s 13th-generation CPUs use a core-splitting technology known as LITTLE.big. This technology incorporates the use of faster performance cores and smaller, more efficient efficiency cores.
How the split P-cores (performance) and E-cores (efficiency) work exactly is the performance cores are both hyperthreaded and clocked insanely fast. These are the cores that do all the heavy lifting hence the name ‘performance cores’.
Then there are the E-cores, which are not hyperthreaded and are clocked at lower speeds to be both power-efficient and performance efficient. This is achieved because E-cores aren’t forced to share resources as they aren’t hyper threaded.
However, in the case of the 13900K, half of the E-cores are hyperthreaded too.
The operating system then delegates tasks to either E-cores or P-cores based on a pre-scan by a task scheduler. It saves power by not running P-cores on tasks that aren’t that heavy and don’t require a lot of power.
When comparing any two PC components or peripherals, it’s important to analyze their specifications and look at them both comparatively. This will give us a good insight into how the two CPUs will perform in relation to one another.
The 13900K is designed to be the best of the best. It is Intel’s new flagship CPU for the Raptor Lake generation. Intel’s 13900K spares no expense when it comes to performance. Meaning you can expect to pay a pretty penny for it.
The specifications for the i9-13900K are as follows:
The AMD Ryzen 7 5800X3D is an adaptation of the base Ryzen 7 5800X, with 3D stacked V-cache. This has drastically improved the performance of the 5800X3D in games, but it suffers greatly due to the cache architecture as we’ll see soon.
Here are the specifications for the Ryzen 7 5800X3D:
Here we will compare the on-paper specification of each CPU and look at them comparatively. This should help us gain a better understanding of how each CPU will perform against the other.
The 13900K has a much higher core count than the 5800X3D, it also has many more threads.
Having a higher core count implies that your CPU will be better at multitasking natively. A higher number of cores means a CPU will also be better at workstation tasks that require many cores to complete in a timely manner.
The same can be said for threads, although threads are slightly different from cores. Threads are the name given to secondary instructions that a CPU completes simultaneously to its primary instruction.
In essence, a multithreaded CPU is a CPU with the ability to process two instructions simultaneously per core as opposed to just one. Almost doubling the CPUs base output, but not quite.
The 13900K has a much higher cores boost speed than the 5800X3D
Core speed is pretty straightforward. The faster the cores boost speed, the faster that CPU core completes a cycle.
CPU cycles are composed of three main actions, these are fetch, decode, and execute. The faster this cycle is completed the more instructions get processed over X amount of time. This measurement also lends its hand to IPC and that’s instructions per clock, we’ll talk more on that later.
Surprisingly the 5800X3D is the winner here with 96MB of cache.
CPU Cache is a type of volatile memory that’s constructed physically close to CPU cores. This is what’s best in terms of performance as the closer it is to the component accessing its data, the quicker that data can be accessed.
So it’s a good idea to have a larger cache as it makes a huge difference when gaming. As gaming requires a lot out of the cache.
The cache built into the 5800X3D is a little different from the cache in the 13900K, allow us to explain.
The 2D cache is today’s standard CPU cache. The 2D cache is stacked laterally with smaller silicon dies being produced with each generation allowing space for more chiplets. The issue with a laterally stacked CPU cache is the spatial requirement.
Stacking the cache chiplets vertically, like in the 5800X3D drastically increases the number you can fit into one area, without compromising speed or efficiency. This vertical cache stacking has allowed AMD to pack 96MB of total L3 cache with access speeds of up to 2TB/s into the 5800X3D.
It’s for these reasons that the 5800X3D wins here, and it’s also the reason the 5800X3D is a lot better in terms of gaming than you may think.
The default TDP of the 5800X3D is lower, lower is better in terms of TDP.
TDP stands for thermal design power, and it is the maximum amount of thermal energy a component can produce under manufacture-defined operating conditions.
A higher TDP used to be indicative of a less efficient CPU. However, today TDP is usually indicative of a higher performance CPU and with the 12900KS starting at 150W we can see there’s way more thermal energy under this IHS.
It’s important to note the capabilities of your CPU cooler when upgrading your CPU as you may find your CPU overheating as your old cooler struggles to dissipate the heat your CPU is producing.
The 13900K is the only CPU here with an iGPU.
An integrated Graphical processing unit is a nice feature. Although not meant for gaming, they can sometimes pack more of a punch than you might expect.
For example, the Intel UHD 770 graphics inside the 13900K pack a punch in light 720p and even 1080p gaming workloads. However, most iGPUs are there for display purposes only and aren’t meant for gaming workloads.
The 13900K is said to perform around 15% – 20% better than the 12900K. This means that the 13900K will probably perform around 10% better than the 5800X3D in gaming workloads, as the 5800X3D performed a little better than the 12900K in our testing.
That’s all well and good, but the 13900K will also dominate in multithreaded workloads, thanks to the fact it has double the cores and 24 more threads. And it’s clocked insanely high compared to the 5800X3D.
Sold on the latest Intel 13th generation CPUs? here’s where to buy the entire 13th-generation CPU lineup!
That’s not all she wrote, however. As it’s simply amazing that the 5800X3D can even stand up to the 13900K in any capacity. The 5800X3D also costs well under half the price. But you’re getting way more than half the performance.
The platform that the 5800X3D belongs to is also way less expensive, with DDR4 deals rampant and literally thousands of AM4 motherboards out there. Is the 13900K worth the expenses associated with supporting it? We hope you enjoyed this Intel core I9-13900KS vs Ryzen 7 5800X3D article.
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Can Someone tell me actually for what purpose intel releases unnecessary “ks”series for absolute no reason? .They are constantly doning it since 9 th or 10th gen.I will allow it for 9,10,11th Gen. But for 12th and 13th Gen Why do u need “Ks” series? THESE CHIPS WARE ALREADY POWERFUL ENOUGH TO BURN YOUR HOUSE AND CAN CAUSE YOU BANKRUPTCY BY PAYING BILLS.
INTEL PLS JUST INCREASE P-CORE/THREADS AND E-CORE/THREADS PLS NEXT GEN AND LOWER THOSE CLOCK RATES NOBODY IS every going to utilize there pc to 100%max always anyway unless they are dumb like intel. As much as I know u don’t need 13900k you are great with 12900k. Take my advise. If you want to higher productivity works you should go with xeon or threadripper that will work fine. And if you think u are gonna game take this r7 or get a i9 11th gen that will do perfect cause still more games will require 1 or 2 core utilisation still or u can get 12600k thats also fine.