Best Cpu for Video Encoding

Best Cpu for Video Encoding – Choosing the best CPU for Video encoding should be based on a few different things. The price is, of course, the main factor, but you should try to get at least a 6-core, 12-thread CPU. Going with anything less powerful than that will make you lose a lot of value when it comes to encoding performance. If you want to stream, it might even be impossible on a 4-core CPU.

You should look up benchmarks for the encoding software that you use to see which CPU performs the best. It seems that AMD CPUs will stay at the top of these benchmarks for another while because Intel uses outdated tech.

ROUND UP

The availability of AMD CPUs has suffered as a result of the high demand, so you may have to wait to be able to buy one.

back to menu ↑

1.AMD Ryzen 5 5600X

Features



OUR TAKE

The Ryzen 5 5600X takes the mid-range by storm with six cores and twelve threads powered by the Zen 3 architecture fabbed on the 7nm process. That potent combination equates to a ~19% improvement in instruction per cycle (IPC) throughput, making the 5600X an easy choice for our list of Best CPUs.

Other fine-grained improvements, like a vastly optimized boosting algorithm, improved memory overclocking, and reworked cache topology erases the last traces of Intel’s performance advantages while delivering a new level of power efficiency. In fact, as we’ll detail below, the Ryzen 5 5600X is the most power-efficient desktop PC chip we’ve ever tested.

back to menu ↑

2.AMD Ryzen 5 3600X

Features



OUR TAKE

Pair that with less-expensive motherboards, bundled coolers, and unrestricted overclocking for all Ryzen 5 models, and AMD offers a compelling alternative with its previous-gen parts.

But what if AMD wasn’t the value alternative, instead being the performance leader? The third-gen Ryzen 5 processors certainly have the right mix of features to accomplish that goal.

These processors come with the same six cores and twelve threads as their predecessors, but AMD boosts performance with a new 7nm process and the Zen 2 microarchitecture that brings big speedups to all types of applications that span from gaming to productivity work. Not to mention the new PCIe 4.0 interface that offers twice the I/O throughput of the PCIe 3.0 standard that Intel uses for its chips.

back to menu ↑

3.Intel Core i9-9900K

Features



OUR TAKE

The company’s ninth-generation Core processors, otherwise known as the Coffee Lake refresh, represent another step forward in a contentious battle for desktop supremacy as the company looks to maintain its top spots on our list of Best CPUs.

Intel’s line-up matches AMD’s Ryzen core-for-core, including a new Core i9 with eight Hyper-Threaded cores (8C/16T) and the highest frequencies we’ve seen in the mainstream space. There’s also a bulked-up Core i7 armed with two extra cores, plus a revamped Core i5. AMD isn’t setting still though:

The company recently released its own new flagship, the 16-core 32-thread Ryzen 9 3950X, to fend off Intel’s new challengers.

back to menu ↑

4.AMD Ryzen 5 3600

Features



OUR TAKE

Those new chips have now taken over the top ranks on our CPU Benchmark Hierarchy.

AMD’s value proposition has always been straightforward — more for less. While we typically think of AMD offering more CPU cores than Intel for less money, the strategy also applies to the company’s unrestrained feature sets for each processor, regardless of price.

That includes in-box coolers, Hyper-Threading (AMD calls it SMT), and unlocked multipliers that enable easy overclocking, all of which are features that Intel either leaves out or disables on some of its chips in the name of segmentation.

back to menu ↑

5.AMD Ryzen Threadripper 2950X

Features



OUR TAKE

AMD’s 32-core, 64-thread Ryzen Threadripper 2990WX gives high-end desktop users access to the most compute horsepower available from a single CPU socket. But while it may be on many enthusiasts’ wish lists, the processor’s unique architecture causes poor performance in many common desktop applications.

Moreover, an  price tag makes the flagship Threadripper a niche product, even among professionals accustomed to paying a premium for workstation hardware.

back to menu ↑

6.AMD YD297XAZAFWOF Ryzen

Features



OUR TAKE

It set new performance records across workloads able to exploit the chip’s copious resources. However, the flagship Threadripper chip’s unique architecture also causes odd results in more common desktop applications. Consequently, we only recommend the 2990WX to professionals running certain workstation-class software.

The Ryzen Threadripper 2970WX includes 24 cores and 48 threads. It bears the same WX suffix meant to signal an affinity for heavy multitasking and professional workloads. Moreover, the 2970WX boasts more on-die resources than Intel’s  Core i9-7980XE, which offers 18 Hyper-Threaded cores.

back to menu ↑

7.AMD Threadripper 2920X

Features



OUR TAKE

The 10-core, 20-thread Intel Core i9-7900X costs much more at low , and that’s after a year of deep discounts that retailers have applied on this chip. Meanwhile, the closest-priced HEDT chip to the AMD Ryzen Threadripper 2920X is its bigger brother: the  AMD Ryzen Threadripper 2950X.

Intel’s new 9th Generation Core X family of Basin Falls Refresh processors may pose an interesting challenge.

back to menu ↑

8.AMD Ryzen Threadripper 3960X

Features



OUR TAKE

For one, fewer cores and threads. Though the naming scheme might seem a bit confusing, the Threadripper 3960X is, at least in spirit and core count, a successor to last year’s Threadripper 2970WX, also a 24-core CPU. While the Threadripper 3970X sports 32 cores and 64 threads, the 3960X features “only” 24 cores and 48 threads, with a total of 140MB of L2/L3 cache. Both suck up an equal amount of power:

280 watts thermal design power (up from 250 watts in the same-core-count Threadripper 2970WX), and each features support for the same number of usable PCI Express lanes: 72, versus 64 in the previous generation of Threadrippers (already a lusty amount).

back to menu ↑

9.AMD Ryzen 9 5950X

Features



OUR TAKE

Compare it to Intel’s closest options, such as the Core i9-10980XE Extreme Edition and others in the decidedly pricey, definitely HEDT Core X-Series, and the value contest isn’t even close. In the core wars at the close of 2020, AMD simply can’t be beat. If you deal with demanding content-creation applications or need a workhorse CPU to handle the rigors of heavy-load, highly multithreaded productivity tasks day in and day out, look no further.

As AMD’s latest and greatest top-of-the-stack Zen 3 processor, the Ryzen 9 5950X delivers core-crushing power that bests an Intel chip meant to compete with AMD’s own “true HEDT” platform, Ryzen Threadripper. Most folks don’t need all the power the Ryzen 9 5950X packs, but few wouldn’t want it.

back to menu ↑

10.Intel Core i9-10850K

Features



OUR TAKE

When a company like Intel creates a CPU design, the process of manufacturing brings about variation on the quality of the product. Some cores will only reach a certain frequency, while others have surprisingly good voltage characteristics.

Two goals of processor design are minimizing this variance, but also shifting the peak higher, all while controlling how much of the silicon is actually useable. This is part of the magic of ‘binning’, the process of filtering the silicon into different ‘bins’ for applicability to a given product. It is through this process that the Core i9-10850K exists, albeit reluctantly.

back to menu ↑

Best Cpu for Video Encoding – BUYER’S GUIDE

back to menu ↑

Core Count Vs Clock Speed

The truth is that both the core count and their clock speed matter when it comes to video encoding. However, most encoding software can utilize multithreading pretty well, which means that having more cores generally leads to better results than only looking at clock speed. You should check the benchmarks for the encoding software that you use to see whether it prefers more cores or faster cores just to make sure.

There are some other things that matter in addition to the core count and clock speed. The CPU cache size, TDP, transistor size and count, socket, and many other factors can affect your CPU choice. For example, you might want to get an AMD CPU, but you already have an Intel motherboard. It would make more sense to buy the best Intel CPU that fits your motherboard than switch both the CPU and motherboard as an upgrade.

back to menu ↑

AMD Or Intel?

As you have read in the introduction, AMD’s new Zen 3 CPUs are the best that you can get. However, they are more expensive than the previous-gen Zen 2 CPUs and even some equivalent Intel CPUs. Moreover, the availability of new hardware is scarce due to the ongoing pandemic. Bear in mind that Intel is planning to launch Rocket Lake CPUs in the first quarter of 2021, which may be a long wait for you.

If you are building a new rig or already have an AM4 motherboard, then you should probably go with either an AMD 3000-series or 5000-series CPU. A CPU from either lineup is going to be the best CPU for encoding for its price in almost all cases because AMD uses a 7 nm node (compared to Intel’s outdated 14 nm) and they generally have more cores and threads.

However, since AMD CPUs are so hot right now, they are often out of stock. Going with an Intel CPU might be the only choice that you have. Also, some 9th and 10th generation Intel CPUs can often be found for a decent price. Also, if you already have a low-end Intel CPU and a decent motherboard, you might want to upgrade to the best CPU that your motherboard supports to save some money.

back to menu ↑

Frequently Asked Questions

back to menu ↑

WHAT’S THE ROLE OF THE CPU IN VIDEO EDITING?

Before moving on to the main topic, I think it’s crucial to understand the CPU’s role in video editing and the minimum requirements of the CPU to process videos smoothly. The Processor’s speed greatly influences the performance of video editing. You may be using different video editing software like Premiere Pro, Final Cut Pro, Camtasia, Cyberlink, Pinnacle, Filmora, etc.

back to menu ↑

WRAP UP

Best Cpu for Video Encoding –  Video encoding and compression are one of the most CPU-intensive tasks that you can run on your computer. As such, choosing the best CPU for encoding is not as simple as it seems. The simplest solution would be to go for the best that you can afford, but there are some things that you should know before buying a new CPU.

Gabed.net