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news1latest · 1 year ago

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Silence and Performance: Choosing the Right Cooler for Ryzen 5 5600X

Introduction When it comes to maximizing the operation of your computer, silence and performance are two essential factors, especially when working with powerful processors like the Ryzen 5 5600X. This post will go into the world of coolers and show you how a good cooling solution may improve the overall performance of your Ryzen 5 5600X as well as the peace and quiet of your computer.

Understanding Ryzen 5 5600X Before we jump into the intricacies of coolers, let's take a moment to understand the Ryzen 5 5600X processor. Known for its impressive performance, this CPU requires effective temperature control to operate optimally.

The Impact of Silence on Performance Silence is golden, they say, and when it comes to your computing experience, this saying holds true. Noise can significantly impact your concentration during tasks and, over time, lead to stress that affects productivity. Let's explore how the right cooler can mitigate these issues.

Factors to Consider in Cooler Selection Choosing the right cooler involves considering various factors, such as whether to opt for air or liquid cooling, and ensuring compatibility with Ryzen 5 5600X specifications. Let's break down these crucial aspects.

Importance of Optimal Cooling Maintaining an optimal temperature is not just about immediate performance gains; it also contributes to the longevity of your CPU. We'll discuss the correlation between temperature and CPU lifespan and how a well-cooled system can enhance gaming and multitasking experiences.

Evaluating Noise Levels Decibel ratings play a pivotal role in selecting a suitable cooler. We'll guide you through understanding these ratings and how to choose a cooler that provides efficient cooling without sacrificing a peaceful computing environment.

Air Cooling Solutions Air cooling remains a popular choice for many users. We'll provide an overview of some of the best air coolers in the market, highlighting their pros and cons, and assess their compatibility with Ryzen 5 5600X.

Liquid Cooling Solutions Liquid cooling offers advantages in maintaining lower temperatures, especially under heavy workloads. We'll explore the benefits of liquid cooling and present examples of liquid coolers that complement the Ryzen 5 5600X.

Budget Considerations For many users, the budget is a crucial factor. We'll discuss how to find a balance between cost and performance, presenting affordable cooling solutions that don't compromise on quality.

Installation Guide Ensuring proper installation is key to the effectiveness of any cooling solution. We'll provide step-by-step instructions for installing your chosen cooler, along with common mistakes to avoid during the process.

User Experiences and Reviews Real-world experiences matter. We'll gather feedback from users who have paired the Ryzen 5 5600X with specific coolers, offering insights into the actual performance and noise levels of these setups.

Troubleshooting Common Cooling Issues Even with the best cooling solutions, issues may arise. We'll address common cooling problems, providing tips on how to avoid overheating concerns and maintain optimal cooling performance.

Future-Proofing Your Cooling Solution Technology evolves, and so should your cooling solution. We'll discuss considerations for future upgrades and advancements in cooling technology, ensuring your investment stands the test of time.

Conclusion In conclusion, choosing the right cooler for your Ryzen 5 5600X is not just about reducing noise or keeping temperatures low. It's about creating an environment where silence and performance coexist harmoniously. By considering the factors mentioned in this article, you can elevate your computing experience to new heights.

#best motherboard for ryzen 7 5800x #best gpu for ryzen 5 5600x #best motherboard for ryzen 5 3600 #best gpu for ryzen 5 2600 #best motherboard for 5800x #5800x best motherboard #good motherboards for ryzen 7 5800x #5800x compatible motherboard #best motherboard 5800x #best gpu for ryzen 7 3700x

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fazterusa · 2 months ago

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AMD AM4 CPU List: The Best Processors for Your Build

When it comes to building or upgrading a PC, the choice of CPU plays a pivotal role in achieving optimal performance. The AMD AM4 socket has gained immense popularity among gamers, content creators, and general users alike due to its versatility and power. In this blog post, we will explore the most powerful AM4 CPUs available in the market, comparing their features, specifications, and overall value.

Why Choose an AM4 CPU?

The AMD AM4 platform supports a wide range of processors, making it an ideal choice for anyone looking to build a high-performance machine without breaking the bank. Here are some reasons why AM4 CPUs are a great choice:

Wide Compatibility: AM4 CPUs are compatible with various motherboards, providing flexibility for upgrades.

High Performance: These CPUs offer excellent performance for gaming, video editing, and multitasking, catering to diverse user needs.

Cost-Effective: AMD processors generally offer better performance per dollar compared to their competitors, making them a great investment for budget-conscious users.

Overview of the Most Powerful AM4 CPUs

Below is a table that outlines some of the most powerful AM4 CPUs currently available, focusing on their specifications, performance metrics, and unique features.

CPU Model

Cores

Threads

Base Clock

Boost Clock

Cache (L2+L3)

TDP

Integrated Graphics

Special Features

AMD Ryzen 9 5950X

3.4 GHz

4.9 GHz

64 MB

105W

Exceptional performance for gaming and content creation, supports PCIe 4.0

AMD Ryzen 9 5900X

3.7 GHz

4.8 GHz

70 MB

105W

Excellent multi-threaded performance, ideal for gamers and professionals

AMD Ryzen 7 5800X

3.8 GHz

4.7 GHz

32 MB

105W

Strong gaming performance with good productivity capabilities

AMD Ryzen 5 5600X

3.7 GHz

4.6 GHz

35 MB

65W

Great balance of performance and power efficiency, perfect for mid-range builds

AMD Ryzen 5 3400G

3.7 GHz

4.2 GHz

4 MB + 8 MB

65W

Yes

Integrated Vega graphics, suitable for casual gaming and general use

1. AMD Ryzen 9 5950X

The AMD Ryzen 9 5950X is the crown jewel of the AM4 lineup, boasting a staggering 16 cores and 32 threads. This CPU is designed for those who need extreme performance, whether for gaming, content creation, or heavy multitasking.

Base Clock: 3.4 GHz

Boost Clock: Up to 4.9 GHz

TDP: 105W

Cache: 64 MB (L2+L3)

This processor supports PCIe 4.0, ensuring rapid data transfer speeds, making it an excellent choice for high-performance SSDs and graphics cards.

2. AMD Ryzen 9 5900X

With 12 cores and 24 threads, the AMD Ryzen 9 5900X is perfect for gamers who also engage in demanding tasks such as video editing. It strikes a perfect balance between price and performance.

Base Clock: 3.7 GHz

Boost Clock: Up to 4.8 GHz

TDP: 105W

Cache: 70 MB (L2+L3)

This CPU excels in both single-threaded and multi-threaded tasks, making it a versatile option for various applications.

3. AMD Ryzen 7 5800X

The AMD Ryzen 7 5800X is a powerful 8-core processor designed for gamers who want high performance at a more affordable price point. Its specifications make it a great option for most gaming setups.

Base Clock: 3.8 GHz

Boost Clock: Up to 4.7 GHz

TDP: 105W

Cache: 32 MB (L2+L3)

With its solid performance, this CPU is a great fit for gaming, streaming, and general productivity.

4. AMD Ryzen 5 5600X

The AMD Ryzen 5 5600X is the go-to choice for budget-conscious gamers. It offers a perfect combination of performance and affordability, making it ideal for mid-range gaming systems.

Base Clock: 3.7 GHz

Boost Clock: Up to 4.6 GHz

TDP: 65W

Cache: 35 MB (L2+L3)

This CPU delivers excellent performance for its price, making it a great investment for gamers and everyday users.

5. AMD Ryzen 5 3400G

For users looking for an affordable option with integrated graphics, the AMD Ryzen 5 3400G is an excellent choice. While it has fewer cores, it still performs well for casual gaming and basic tasks.

Base Clock: 3.7 GHz

Boost Clock: Up to 4.2 GHz

TDP: 65W

Cache: 4 MB (L2) + 8 MB (L3)

The integrated Vega graphics make this CPU suitable for users who don’t want to invest in a separate GPU.

Conclusion

Choosing the most powerful AM4 CPU depends on your specific needs and budget. The AMD Ryzen 9 5950X is the top choice for those seeking the highest performance, while the Ryzen 5 5600X is perfect for gamers looking for an affordable yet powerful option. Each CPU in the AM4 lineup has its strengths, making it easy to find the right fit for your requirements.

For more detailed insights on CPUs and other tech topics, visit Fazter. Additionally, if you encounter a CPU over temperature error, don’t hesitate to check our guide on effective methods to fix CPU over temperature errors.

Frequently Asked Questions (FAQs)

Which is the best AM4 CPU for gaming?

The AMD Ryzen 9 5900X and Ryzen 7 5800X are excellent choices for gaming due to their high core counts and boost clocks.

What does TDP mean?

TDP stands for Thermal Design Power, which indicates the maximum heat generated by the CPU under typical load. It’s important for selecting compatible cooling solutions.

Are AM4 CPUs compatible with all motherboards?

Not all motherboards support every AM4 CPU. Always check for motherboard compatibility and required BIOS updates before purchasing.

Is integrated graphics necessary for a CPU?

Integrated graphics are useful for users who don’t plan to use a dedicated GPU, as they provide basic graphics capabilities for everyday tasks.

Can I overclock AM4 CPUs?

Yes, many AM4 CPUs can be overclocked to enhance performance, provided you have a compatible motherboard and cooling solution.

By considering your specific needs and the specifications of these powerful processors, you can make an informed decision that best suits your usage. The AM4 platform continues to provide outstanding performance and value, making it a preferred choice for PC builders and enthusiasts.

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robotsprinkles · 1 year ago

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(sorry in advance if this is poor etiquette or annoying or dumb or anything)

(also disclaimer that I'm not an expert by any means. I've built my own pc and watch a decent amount of component reviews, but I don't like. do benchmarks or a lot of builds or know the best all the best combinations for every component and all that. also my memory is kind of scuffed)

I'm not going to touch on laptops because I don't really care about and haven't done much research on them (I'm using some old as crap hp laptop my mum used to use for work for uni. pretty much just running firefox and notepad to take notes and browse the web. everything else I do on my desktop) so this is just for desktops/towers

Since none of the recommended prebuilt towers have gpus and are all running apus, I'm assuming that this post is more for workstations and the like, and not for gaming-capable pcs and 3d modelling and animation, which is what I'm going to be focusing on

(so if you're looking for a workstation/office pc and don't care about gaming, just read the op and ignore this. this is only really relevant if you care about gaming or want to do 3d work in blender or maya or whatever and want to upgrade without needing to buy an entirely new system)

(also I used pcpp to spec some builds that're mostly identical to the three towers listed at the end of the op, but with an additional gpu. they're at the bottom of the post)

quick notes:

if you buy a prebuilt that has ddr4 ram with advertised speeds of 3000 or greater make sure they actually enabled xmp otherwise it's going to be running at a slower speed than what you paid for (a lot of oems and SIs just don't enable it for some reason. even though it takes barely more than a minute)

16GB of ram is I think more or less the standard minimum requirement for games these days (for an actually decent experience)

a lot of SIs and oems will just. skimp out on ram and give you a single stick of ram instead of two running in dual channel

also they'll often have a stupid parts selection that wastes money on overkill coolers and/or psus, rgb and so on (or cpu/gpu combinations that will cause one to bottleneck the other).

a lot of them pick stupid cases that have terrible airflow so make sure you find one that doesn't do that

apparently some of them somehow manage to put the cpu cooler fans on backwards?

if you're going to be playing a lot of modern "triple aaa" games and the like most of them are 50-120GB these days (some of them going upwards of 170GB) so if you don't want to keep uninstalling and reinstalling them, it's probably a good idea to get either a 1tb ssd or a secondary 2tb hdd for storing games you're not currently playing but don't want to sit through downloading from steam or whatever next time you want to play them

never get a pc that has a 120mm aio (liquid cooler). 120mm aios are almost always worse than a similarly priced air cooler and are basically a scam

for cpus (this is kinda barebones because I just got a 5700x and didn't bother to research too much into the higher end and low end options)

the r5 5600x is still a solid choice (for games, I'm not sure about productivity. I think it's one of the better/best 6-cores for productivity?), but according to pcpp you can get an r7 5800x for only about an extra $20 so. yeah.

if I remember correctly, the 5800x is far more power efficient than an i7 11700k for equal if not better performance (excepting multithreaded performance)

gpus

from my experience, the gtx 1070 still runs most games pretty well (depending on settings), and I think the same goes for the 1660 super.

from what I can tell I think the rx 580 and 6600 are good too

personally, I wouldn't buy a dell prebuilt (that includes alienware because alienware is just ancient dell cases with decorative plastic crap slapped on and a different logo. and also bad performance).

I'd say the same for hp and probably lenovo

most dell (and alienware) towers I've seen use a proprietary motherboard and case, which makes them pretty much unupgradeable; you can't use those motherboards in non-dell/alienware cases, and vice versa. (they do have prebuilts that don't do this but I wouldn't take the risk)

to memory, their power supplies are usually either repurposed server psus or also proprietary or weird enough that it causes issues with trying to fit standard atx psus into their cases

this also tends to be true (at least regarding motherboards and cases, not sure about psus) for hp and lenovo, though I'm aware that at least some of the lenovo legion systems use standard motherboards

(for those wondering, the proprietary garbage dell and hp tend to do is have the front io be part of the motherboard, unlike the standard which is to have the front io be in the case. also some of their pcs have the cpu cooler be load-bearing/screwed into the case and not the motherboard for some reason?)

(also when I say alienware has bad performance I mean it tends to force the components to throttle for no good reason, such that you end up with components behaving like a lower grade part.)

if you buy from an SI (skytech, xidax, cyberpower, etc) you'll get standard, non-proprietary parts and be able to upgrade without issue, but they do still tend to be variable in build quality and a decent amount of them will — like the oems — pack in bloatware you don't need that tank performance.

also SIs and oems will sometimes glue cables/plugs into the headers which. eh.

for those willing to put in some extra work you can theoretically build a pc that's only a little more expensive ($3) than the dell tower that has basically all the same specs, plus a proper discrete gpu (so you get some kind of decent gaming performance if you want). and if you don't want the gpu you save around $100 so

of course, you do have to build it yourself (there are places you can pay to assemble it for you but a. that's more cost and b. they often neglect to enable xmp and properly set fan curves. you can easily rectify those issues by hopping into bios though. if you're fine with the additional cost of going to a pc builder then go ahead)

for those worried about it: pc building isn't actually as difficult as you probably think (I built my own pc for the first time a couple months ago; the hardest part was cable management. by which I mean making the cables look nice and neat. if you want to make things easier on yourself get a magnetic screwdriver)

(you can get windows for free by creating install media and activate/license it with massgrave. I'm pretty sure you can get office for free with it as well)

I tried to spec match (+gpu) the lenovo and the hp below (though with these two I couldn't get it to be as close with the additional gpu. they're still cheaper than the oem equivalents if you cut the gpu though)

no gpu

with gpu

So You Need To Buy A Computer But You Don't Know What Specs Are Good These Days

Hi.

This is literally my job.

Lots of people are buying computers for school right now or are replacing computers as their five-year-old college laptop craps out so here's the standard specs you should be looking for in a (windows) computer purchase in August 2023.

PROCESSOR

Intel i5 (no older than 10th Gen)

Ryzen 7

You can get away with a Ryzen 5 but an intel i3 should be an absolute last resort. You want at least an intel i5 or a Ryzen 7 processor. The current generation of intel processors is 13, but anything 10 or newer is perfectly fine. DO NOT get a higher performance line with an older generation; a 13th gen i5 is better than an 8th gen i7. (Unfortunately I don't know enough about ryzens to tell you which generation is the earliest you should get, but staying within 3 generations is a good rule of thumb)

RAM

8GB absolute minimum

If you don't have at least 8GB RAM on a modern computer it's going to be very, very slow. Ideally you want a computer with at least 16GB, and it's a good idea to get a computer that will let you add or swap RAM down the line (nearly all desktops will let you do this, for laptops you need to check the specs for Memory and see how many slots there are and how many slots are available; laptops with soldered RAM cannot have the memory upgraded - this is common in very slim laptops)

STORAGE

256GB SSD

Computers mostly come with SSDs these days; SSDs are faster than HDDs but typically have lower storage for the same price. That being said: SSDs are coming down in price and if you're installing your own drive you can easily upgrade the size for a low cost. Unfortunately that doesn't do anything for you for the initial purchase.

A lot of cheaper laptops will have a 128GB SSD and, because a lot of stuff is stored in the cloud these days, that can be functional. I still recommend getting a bit more storage than that because it's nice if you can store your music and documents and photos on your device instead of on the cloud. You want to be able to access your files even if you don't have internet access.

But don't get a computer with a big HDD instead of getting a computer with a small SSD. The difference in speed is noticeable.

SCREEN (laptop specific)

Personally I find that touchscreens have a negative impact on battery life and are easier to fuck up than standard screens. They are also harder to replace if they get broken. I do not recommend getting a touch screen unless you absolutely have to.

A lot of college students especially tend to look for the biggest laptop screen possible; don't do that. It's a pain in the ass to carry a 17" laptop around campus and with the way that everything is so thin these days it's easier to damage a 17" screen than a 14" screen.

On the other end of that: laptops with 13" screens tend to be very slim devices that are glued shut and impossible to work on or upgrade.

Your best bet (for both functionality and price) is either a 14" or a 15.6" screen. If you absolutely positively need to have a 10-key keyboard on your laptop, get the 15.6". If you need something portable more than you need 10-key, get a 14"

FORM FACTOR (desktop specific)

If you purchase an all-in-one desktop computer I will begin manifesting in your house physically. All-in-ones take away every advantage desktops have in terms of upgradeability and maintenance; they are expensive and difficult to repair and usually not worth the cost of disassembling to upgrade.

There are about four standard sizes of desktop PC: All-in-One (the size of a monitor with no other footprint), Tower (Big! probably at least two feet long in two directions), Small Form Factor Tower (Very moderate - about the size of a large shoebox), and Mini/Micro/Tiny (Small! about the size of a small hardcover book).

If you are concerned about space you are much better off getting a MicroPC and a bracket to put it on your monitor than you are getting an all-in-one. This will be about a million percent easier to work on than an all-in-one and this way if your monitor dies your computer is still functional.

Small form factor towers and towers are the easiest to work on and upgrade; if you need a burly graphics card you need to get a full size tower, but for everything else a small form factor tower will be fine. Most of our business sales are SFF towers and MicroPCs, the only time we get something larger is if we have to put a $700 graphics card in it. SFF towers will accept small graphics cards and can handle upgrades to the power supply; MicroPCs can only have the RAM and SSD upgraded and don't have room for any other components or their own internal power supply.

WARRANTY

Most desktops come with either a 1 or 3 year warranty; either of these is fine and if you want to upgrade a 1 year to a 3 year that is also fine. I've generally found that if something is going to do a warranty failure on desktop it's going to do it the first year, so you don't get a hell of a lot of added mileage out of an extended warranty but it doesn't hurt and sometimes pays off to do a 3-year.

Laptops are a different story. Laptops mostly come with a 1-year warranty and what I recommend everyone does for every laptop that will allow it is to upgrade that to the longest warranty you can get with added drop/damage protection. The most common question our customers have about laptops is if we can replace a screen and the answer is usually "yes, but it's going to be expensive." If you're purchasing a low-end laptop, the parts and labor for replacing a screen can easily cost more than half the price of a new laptop. HOWEVER, the way that most screens get broken is by getting dropped. So if you have a warranty with drop protection, you just send that sucker back to the factory and they fix it for you.

So, if it is at all possible, check if the manufacturer of a laptop you're looking at has a warranty option with drop protection. Then, within 30 days (though ideally on the first day you get it) of owning your laptop, go to the manufacturer site, register your serial number, and upgrade the warranty. If you can't afford a 3-year upgrade at once set a reminder for yourself to annually renew. But get that drop protection, especially if you are a college student or if you've got kids.

And never, ever put pens or pencils on your laptop keyboard. I've seen people ruin thousand dollar, brand-new laptops that they can't afford to fix because they closed the screen on a ten cent pencil. Keep liquids away from them too.

LIFESPAN

There's a reasonable chance that any computer you buy today will still be able to turn on and run a program or two in ten years. That does not mean that it is "functional."

At my office we estimate that the functional lifespan of desktops is 5-7 years and the functional lifespan of laptops is 3-5 years. Laptops get more wear and tear than desktops and desktops are easier to upgrade to keep them running. At 5 years for desktops and 3 years for laptops you should look at upgrading the RAM in the device and possibly consider replacing the SSD with a new (possibly larger) model, because SSDs and HDDs don't last forever.

COST

This means that you should think of your computers as an annual investment rather than as a one-time purchase. It is more worthwhile to pay $700 for a laptop that will work well for five years than it is to pay $300 for a laptop that will be outdated and slow in one year (which is what will happen if you get an 8th gen i3 with 8GB RAM). If you are going to get a $300 laptop try to get specs as close as possible to the minimums I've laid out here.

If you have to compromise on these specs, the one that is least fixable is the processor. If you get a laptop with an i3 processor you aren't going to be able to upgrade it even if you can add more RAM or a bigger SSD. If you have to get lower specs in order to afford the device put your money into the processor and make sure that the computer has available slots for upgrade and that neither the RAM nor the SSD is soldered to the motherboard. (one easy way to check this is to search "[computer model] RAM upgrade" on youtube and see if anyone has made a video showing what the inside of the laptop looks like and how much effort it takes to replace parts)

Computers are expensive right now. This is frustrating, because historically consumer computer prices have been on a downward trend but since 2020 that trend has been all over the place. Desktop computers are quite expensive at the moment (August 2023) and decent laptops are extremely variably priced.

If you are looking for a decent, upgradeable laptop that will last you a few years, here are a couple of options that you can purchase in August 2023 that have good prices for their specs:

14" Lenovo - $670 - 11th-gen i5, 16GB RAM, and 512GB SSD

15.6" HP - $540 - 11th-gen i5, 16GB RAM, and 256GB SSD

14" Dell - $710 - 12th-gen i5, 16GB RAM, and 256GB SSD

If you are looking for a decent, affordable desktop that will last you a few years, here are a couple of options that you can purchase in August 2023 that have good prices for their specs:

SFF HP - $620 - 10th-gen i5, 16GB RAM, 1TB SSD

SFF Lenovo - $560 - Ryzen 7 5000 series, 16GB RAM, 512GB SSD

Dell Tower - $800 - 10th-gen i7, 16GB RAM, 512GB SSD

If I were going to buy any of these I'd probably get the HP laptop or the Dell Tower. The HP Laptop is actually a really good price for what it is.

Anyway happy computering.

#I didn't go for a sff case for the hp and lenovo because I'm lazy sorry #oh huh I just realised I gave the dell equivalent a 1tb ssd instead of a 512gb one #so a true same-spec equivalent with the same additional gpu would actually be around 10-15 dollars cheaper #sorry again if this is stupid or annoying

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neochannel · 1 year ago

Video

youtube

Ryzen 7 5800x vs Ryzen 7 7800x3D in 12 Games | R7 5800x vs R7 7800x3D

CPU Benchmark AMD Ryzen 7 5800x vs Ryzen 7 7800x3D in 12 Games or R7 5800 vs R7 7800x3D. AMD Ryzen 7 5800x (8 Cores 16 Threads) 2020 vs AMD Ryzen 7 7800x3D (8 Cores 16 Threads) 2023. Comparison of AMD CPUs from 2020 and 2023. How much is the 8 core R7 5800x behind or ahead of the 8 core Ryzen 7 7800x3D. p.s. Detailed graphs with CPU benchmark results. One of the best on youtube.

👍 Subscribe to the channel of the author of the AMD Ryzen 7 5800x Benchmark 👍 👉 https://www.youtube.com/channel/UCC7TpPNAoeBqDxygjiD3qMg 👍 Subscribe to the channel of the author of the AMD Ryzen 7 7800x3D Benchmark 👍 👉 https://www.youtube.com/channel/UCsS9VQD9WNSIF2x8f-7h8kg

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Timecode: 00:00 system configuration 00:30 Metro Exodus (2019) 02:50 Assassins Creed Origins (2017) 05:30 Cyberpunk 2077 (2020) 08:35 Far Cry 5 (2018) 10:02 Total war Three Kingdoms (2019) 12:00 Watch Dogs Legion (2020) 14:05 Shadow of the Tomb Raider (2018) 17:30 Assassin's Creed Odyssey (2018) 19:10 Battlefield 5 (2019) 22:15 Red Dead Redemption 2 (2019) 25:05 Gears 5 (2019) 26:35 Borderlands 3 (2019) 28:50 All Benchmark Results

System configuration 1: CPU: AMD Ryzen 7 5800x (4.55 GHz) MOTHERBOARD: ROG Crosshair VIII Hero X570 (WI-FI) RAM: DDR4 G Skill TridentZ 4x16 Gb 3200 MHz GPU: GeForce RTX 3090 24 GB (GDDR6X) GigaByte GAMING OC SSD: SATA samsung 850 evo 500 Gb (Operation system) HDD: SATA WD Gold WD4003FRYZ 4 TB (game files) Cooler: Noctua NH-D15 chromax.black Power: Corsair HX1200 Platinum 1200W Case: Corsair 780T

System configuration 2: CPU: AMD Ryzen 7 7800x3D (4.8 GHz) MOTHERBOARD: АSRосk А620М-НDV/M.2+ RAM: DDR5 ТеаmGrоuр Т-Fоrсе Vulkаn 2х16GВ 6000 MHz GPU: GeForce RTX 4090 24 GB (GDDR6X) GigaByte GAMING SSD: NVМе Nеtас NV7000 2ТВ (Operation system and Games) Cooler: АLSЕYЕ S120-Н4 Power: Gigabyte GP-XP1200M - 1200 W Case: Gаmеmах Sраrk Вlасk

I apologize in advance for the quality, youtube reduces the quality in some places.

____ #ryzen77800x3d #ryzen75800x #r77800x3d #r75800 #ryzen75700 #ryzen75800x #ryzen75700x #ryzen77700x #stock #benchmark #GigaByte #gtx1080 #X570 #amd #farcry #assassinscreed #metroexodus #assassinscreedorigins #cyberpunk2077 #farcry5 #totalwarthreekingdoms #watchdogslegion #shadowofthetombraider #thewitcher3wildhunt #assassinscreedodyssey #battlefield5 #reddedredemption2 #gears5 #borderlands3

#youtube

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techinsidernow · 1 year ago

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Decoding the Differences Between a General Motherboard and a Ryzen-Ready Motherboard for Ryzen 7 5800X

With the Ryzen 7 5800X, AMD has once again raised the bar for high-performance CPUs, enticing PC enthusiasts and gamers alike. However, to fully harness the potential of this formidable processor, it is crucial to pair it with a compatible motherboard. In the market, you'll find both general motherboards and Ryzen-ready motherboards that claim to support the Ryzen 7 5800X. In this article, we will explore the main differences between these two types of motherboards, deciphering their unique features and advantages.

Socket Compatibility:

The first and most apparent difference between a general motherboard and a Ryzen-ready motherboard lies in their socket compatibility. The Ryzen 7 5800X is built on the AM4 socket platform. Ryzen-ready motherboards are explicitly designed to support AMD Ryzen processors and, in this case, are guaranteed to have the AM4 socket, ensuring a perfect fit for the Ryzen 7 5800X. On the other hand, general motherboards may come with various socket options to accommodate different CPU brands, making them less optimized for Ryzen CPUs.

BIOS Version and Out-of-the-Box Support:

Ryzen-ready motherboards, as the name suggests, are primed and ready to work seamlessly with Ryzen processors, including the Ryzen 7 5800X, straight out of the box. These motherboards come with the necessary BIOS updates and configurations to ensure full compatibility with the latest Ryzen CPUs. On the contrary, general motherboards might require a BIOS update before they can properly recognize and support newer Ryzen processors. This process can be cumbersome and might need an older CPU for the update, making it less convenient for users.

Power Delivery and VRM Quality:

Optimizing the power delivery system is vital for extracting the best performance from the Ryzen 7 5800X, especially during heavy workloads and overclocking. Ryzen-ready motherboards are typically designed with this in mind, featuring high-quality VRMs (Voltage Regulator Modules) that ensure stable and clean power delivery to the CPU. This results in improved performance, enhanced overclocking capabilities, and prolonged system durability. While some general motherboards may also have decent VRMs, Ryzen-ready motherboards are more likely to excel in this aspect.

Memory Support and Overclocking:

Ryzen processors, including the Ryzen 7 5800X, thrive on fast and efficient memory. Ryzen-ready motherboards often offer better memory support for high-frequency RAM modules, providing a broader range of memory overclocking options. These motherboards come equipped with optimized memory traces and BIOS settings, allowing users to achieve higher memory clock speeds with improved stability. General motherboards may not offer the same level of memory support and overclocking potential, limiting the system's overall performance.

Firmware and Software Features:

Ryzen-ready motherboards usually come with specific firmware and software features tailored to Ryzen CPUs. This includes BIOS profiles optimized for Ryzen performance, enhanced power management settings, and specific utilities designed to maximize the benefits of AMD's latest processors. While general motherboards might have similar features, Ryzen-ready boards tend to offer more specialized tools and configurations geared towards Ryzen processors, making them the better choice for Ryzen 7 5800X users.

#motherboard guides #amd ryzen #motherboard #CPU guides

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pccase · 2 years ago

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Are you trying to find the most efficient motherboard for ryzen 7 5800x that you can find? Are you overwhelmed by the number of options? You've come to the right place. Here's the full information on buying the motherboard for ryzen 7 5800x . If you're unsure of what direction to go Don't fret we're here to help.

#motherboard #ryzen 7 5800

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thertech · 2 years ago

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best motherboard to pair with ryzen 7 5800x

best motherboard to pair with Ryzen 7 5800x A few motherboards qualify to be called best motherboard to pair with Ryzen 7 5800x. They feature Wi-Fi, Bluetooth, several PCIe slots, USB-C. However, you must be prepared to with relatively substantial amount of money. 11 Best motherboards to pair with Ryzen 7 5800x Here are the best motherboards to pair with the Ryzen 7 5800X you can get from…

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games-sport · 2 years ago

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How to Overclocking Your GPU and CPU in 2022-GAMES sport

Also read :What if you could upgrade your old motherboard with a new GPU?-GAMES sport

How to Overclock Your GPU and CPU in 2022

Step 1 – Preparation

Before you start, take a look at your computer. If you have it plugged into a surge protector or power strip, unplug it. You want only one thing powering your PC while overclocking: that’s right, good old reliable electricity. Now, make sure all other peripherals are turned off as well. And if you haven’t already done so recently, now is a great time to do some routine maintenance on your machine (clean out your fan filters and make sure everything is running smoothly). All set? Good! Let’s get started.

Also read : AMD's Ryzen 7 5800X and Ryzen 7 5800X 3D-GAMES sport

Step 2 –Downloading software:

You’ll need two pieces of software for overclocking. The first is called MSI Afterburner, which can be found here . This program will allow you to overclock your graphics card. The second piece of software you need is called CPU-Z, which can be found here . This program will let you overclock your processor. Download both programs and install them onto your computer.

Note*: Make sure your motherboard and CPU support overclocking.

Also read : The Ultimate Battle: Gaming Console vs Gaming PC-GAMES sport

Step 3 –Overclocking your GPU:

Open up MSI Afterburner. There are three tabs across the top: Core, Memory, and Voltage Control. Click on Core to get started with overclocking your graphics card. First, set Power Limit to 100%. Then click on Core Clock and move it up by 0.5 increments until you start getting artifacts or errors (like crashing games). Don’t go too high! Try to find a sweet spot that gives you an increase of about 10% without causing issues. Once you’ve found a stable overclock, make sure to save your settings before moving on.

Also read :Windows 10 or Windows 11: Which is the Best OS for Gamers?-GAMES sport

Step 4 –Overclocking your CPU:

Open up CPU-Z. You’ll notice that your clock speed is locked at a certain number, depending on what your manufacturer has set it at. For example, my i7 4770k is locked at 4.2GHz, so I have to apply an offset of +100MHz (100 x 4.2 = 422) to unlock it completely. This can be done by moving your mouse over to CPU Core, then right clicking and selecting Add Offset. Next, you need to type in 100MHz under Value and click OK. If you have a different processor or motherboard than me, these settings may be different for you; refer back to your manual if you aren't sure how to do it properly. Once you've added your offset, go ahead and save changes before restarting your computer.

How overclocking can improve gaming performance

Also read : The Top 5 Gaming Software's You Need to Install Right Now-GAMES sport

Overclocking is a process of increasing a computer’s processor, GPUs, RAM, etc.. performance, usually by increasing its clock speed. This makes it possible for gamers to increase frame rates, resolution, visual effects—basically anything that affects how a game looks or performs. The process is one of trial and error; it takes some tinkering around with settings before you get your desired result. However, there are many benefits to overclocking: faster load times, more frames per second (FPS), higher resolutions—and all without spending money on a new graphics card or high-end CPU.

Understanding the risks

Before you start overclocking your CPU or GPU, it’s important to understand what overvolting (overclocking) entails. Overvolting is all about increasing voltage supplied by your PC’s power supply unit (PSU). Increasing voltage increases power consumption of your components, which may cause failure. For example, if you increase voltage too much on a chip with a certain TDP (thermal design point), that chip will simply shut down due to overheating. So be careful—and don’t blame us if something goes wrong! We take no responsibility for any problems you might encounter while trying to modify settings yourself. You have been warned!

#gaming #gamers #overclocking

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bitcoinminershasrate · 3 years ago

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Intel Core i7-11700K Processor: Review (Special)| Overclocking| Benchmark | Specs

Intel Core i7-11700K Processor: Review (Special)/ Overclocking/ Benchmark/ Specification (Specs)- November 2021 is on the way. The release of hybrid processors of the Alder Lake family has taken place, they have already appeared on sale and have even been tested by many users. What does the Core i7-11700K have to do with it? The question is reasonable. For some, the Rocket Lake CPU line has become a “passing option” between the past and the future, and some are completely sure that the eleventh generation is a “swan song” for the glorious 14 nm process technology, which it would be time to gradually forget about. But we still want to put an end to the issue, which concerns the practical application of these CPUs (Rocket Lake). Such a need arose in the course of acquaintance with the monitored stone. The Core i7-11700K turned out to be the very CPU that proved that the eleventh generation is not a "passing". The previously tested Core i5-11400F and Core i5-11600K processors left mixed impressions. We've found that Rocket Lake CPUs offer best-in-class single-thread performance and PCIe 4.0 support, but otherwise nothing revolutionary. Intel Core i7-11700K CPU Review & Benchmarks vs. AMD 5800X, 5900X https://www.youtube.com/watch?v=3n0_UcBxnpk Intel Core i7-11700K CPU Review & Benchmarks vs. AMD 5800X, 5900X In something stones the eleventh generation turned out to be even worse than their predecessors. This is both wild heat dissipation, and weak overclocking (the eighth / ninth / tenth generation CPUs show much more impressive results in terms of overclocking), and high cost compared to the Comet Lake / Coffee Lake CPUs (and they, by the way, are not inferior in multi-threaded / gaming performance to representatives of Rocket Lake). Our opinion on this matter was changed by the Core i7-11700K. It not only turned out to be significantly more powerful colleagues with exactly the same number of computational threads, and also older brothers tenth generation with a large number of physical cores, but also proved that Rocket Lake family models can be overclocked well (maybe you got a good copy). Intel Core i7-11700K: Specification (Specs) Core i7-10700KCore i7-11700KCore i9-10900Technical process14 nm14 nm14 nmKernels / threads8/168/1610/20SocketLGA 1200LGA 1200LGA 1200Clock frequency3800/5100 MHz3600/5000 MHz2800/5200 MHzL3 cache16 MB16 MB20 MBTDP125 W125 W65 WMemory supportDDR4-2933, two channelsDDR4-3200 dual channelDDR4-2933, two channelsPCI-E version3.04.03.0Integrated graphicsUHD Graphics 630UHD Graphics 750UHD Graphics 630Unlocked multiplierYesYesNotInstructionsIntel SSE4.1Intel SSE4.2Intel AVX2Intel SSE4.1Intel SSE4.2Intel AVX2Intel AVX-512Intel SSE4.1Intel SSE4.2Intel AVX2Price380$400$440$Intel Core i7-11700K: Specification (Specs) In this article, we want to talk a little more about the heat dissipation of the Core i7-11700K processor, the removal of limits (PL1 and PL2) and CPU overclocking on a motherboard with an Intel Z490 chipset (because of the architectural innovations of the Rocket Lake family, the capabilities of the 500-series platform and integrated graphics performance has already been written in the article about the Core i5-11600K). Disabling limits (PL) and increasing the nominal power of the Intel Core i7-11700K Regular TDP 8-core stone Core i7-11700K, according to the developers, does not exceed 125 watts. This is partly true, because immediately after installing the specified CPU into the motherboard (without entering the BIOS), you will see approximately 126-128 W (1.057 V) under load. But still, the real indicator of the Core i7-11700K is 200 W (1.2 V). How so? The official website indicates 125 watts, the CPU-Z program says 125 watts. Where did 200 watts come from? It's time to remember the so-called Power Limit (more on this in the article about the Core i9-10900). Automatic limiter forms the coveted figure of 125 watts. But at what cost? The price of performance. Until you manually remove the limits (PL1 and PL2) in the BIOS (some motherboards allow you to do this with a single switch), your CPU will not function at its maximum. This applies to virtually all stones eleventh line (both locked and unlocked). Core i7-11700K and DDR4-3600 memory Intel specifically took such a step (restrictive) so that the real TDP, firstly, does not frighten an unprepared user and, secondly, the CPU does not overheat in complex tasks. For shelling out for a cooler that can handle 200 watts stonenot everyone is ready. We remember that the Core i7-11700K is an unlocked processor, which means that you can increase its nominal performance in two ways: by removing the already mentioned limits, or by increasing the clock frequency (multiplier, or BCLK). The second option is much more efficient and simpler than the first, since you don’t have to visit the Power Limit tab at all. You only need to increase the multiplier and voltage (if necessary), and the notorious limits disappear by themselves. Locked CPUs do not have this benefit. Setting PL1, PL2 and Package Power Time Window Supplemental Oxygen (this is how you can call the adjustment of the parameters PL1, PL2 and Turbo Time Parameter towards the maximum increase) gives a noticeable increase in performance to the processors of the tenth and eleventh generations, sometimes even enormous (remember the Core i9-10900 again). If you have a powerful cooling system at your disposal, help your CPU breathe freely (the built-in protection options will still prevent it from overheating). Heat dissipation of the Intel Core i7-11700K processor At "factory rating" (125 W, 1.057 V), the Core i7-11700K heats up to 55 degrees under load (open stand). A powerful Noctua NH-D15S chromax.black cooler (950 rpm, completely silent version) was used to cool the processor. In the "real nominal" (200 W, 1.2 V), that is, after adjusting the values of PL1 and PL2 (and the Package Power Time Window) in the BIOS, the temperature of the Core i7-11700K under load reaches 72 degrees (the same cooler, the same propeller speed). Overclocking the Core i7-11700K is a completely different figure. Each additional 200 MHz adds 40-50 W to the default heat dissipation of the CPU (say, at 4800 MHz it already allocates 260 W, at 5000 MHz - 300 W), but we will talk about this below. Intel Core i7-11700K Processor: Test stand Motherboard - ASUS ROG Maximus XII Hero (Wi-Fi)RAM - XPG Spectrix D50 DDR4-3600 (2x8 GB)Video card - MSI Radeon RX 6800 XT Gaming X TrioPower Supply - Fractal Design Ion+ Platinum 860WCooler - Noctua NH-D15S chromax.black Performance and test results The Core i7-11700K is the best processor we've ever tested in terms of power one thread and gaming. Obviously, there are 12th generation CPUs on the market now that show more impressive numbers in these operations, but today we are not talking about them. The reviewed CPU surprised us in matters of multithreading. It is significantly more powerful than its predecessor (Core i7-10700K) and the 8-core Ryzen 7 3800X, but the most important thing is that the Core i7-11700K is ahead of the Core i9-10900 with disabled limits in almost all benchmarks. Here is the updated Cypress Cove architecture. It turns out that it's better (and cheaper) to get an 8-core Core i7-11700K than a 10-core Core i9-10900, as the more affordable CPU is often more powerful in multimedia/professional tasks. And if you overclock it... Intel Core i7-11700K Processor: Overclocking At one time, the Core i5-11600K refused to function stably at 5000 MHz, but the Core i7-11700K conquered this mark without any problems. No errors or crashes. That's just the temperature under load did not want to fall below 88-89 degrees (300 W). And where the temperature is high, there are the notorious limits (Power Limit), which are triggered in a similar situation. To smart automation did not make adjustments to the results of our testing, it was decided to lower the clock frequency of all cores to 4800 MHz and at this value drive away benchmarks again. At 4.8 GHz monitored stone emits 260 W (1.296 V) and heats up to 80 degrees, and the Noctua NH-D15S chromax.black cooler rotates at maximum speed (1500 rpm). Operating at 4800 MHz, the Intel Core i7-11700K leaves no chance for 8-core competitors and the 10-core Core i9-10900. The gap is impressive. 4800 MHz (all cores) Conclusion Rocket Lake Processor Family at the start many users/journalists scolded (to be honest, we were not imbued with the capabilities of the 6-core Core i5-11600K), but the Core i7-11700K helped to assess the situation from a different angle. Perhaps it took time. Perhaps a successful copy of the CPU fell into our hands. But it was the Core i7-11700K that turned out to be the very CPU that proved that the eleventh generation is not “passing”. The significant benefits of the PCI-E 4.0 interface and support for AVX-512 instructions can be discussed for a long time. However, it makes no sense to doubt that the Rocket Lake lineup has productive solutions (and even with a decent overclocking potential), which are significantly more powerful than their predecessors, it makes no sense. Right now, the Core i7-11700K is one of the best processors in the "under 29,000 rubles" category (of course, we remember the existence of the Ryzen 7 5800X). For gaming, it is perhaps too good, but for overclocking experiments and professional / work needs, it is ideal. Recommended. Read the full article

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