Really they are both very good processors and you can't go wrong with either one. Hey guys, I recently upgraded from my Intel i7 7700k to the new Ryzen 7 3700x and I must say I'm impressed with the performance Ram is Corsair Vengeance 16GB 3200CL16 overclocked to 3466Mhz, Asus Strix X570-E Motherboard & Kraken X62 Push/Pull 4 Nocuta NF-A14. I personally won't push past 1.4V, so have never tried either with more voltage than that.
The 3700X at max overclock 1.4V can usually come close to 4.4Ghz, however the 3800X can come close to 4.5ghz with the same voltage. Most 3800X can do 4.4Ghz at the same voltage due to better binning. Most of the 3700X I have dealt with can't overclock much past 4.3Ghz all core 1.3 - 1.34V (ie reasonable voltage for a 24/7 overclock). However if you are going to manually overclock your processor then there are gains to be made. If your going to just run stock with XFR doing the boosting for you and possibly use the auto overclock and / or PBO then there really isn't going to be much gained by going to the 3800X. I've dealt with several 3700X and 3800X builds, and honestly if your not going to be manually overclocking there really isn't a huge difference between the two. I know some RAM this isn't the case, I had a kit of Hynix A die that higher frequency and looser timings produced better results than lower frequency and tighter timings.
#3700x cinebench Pc#
Hello all, I recently just finished building my first PC and it has been one hell of a ride. Depending on your RAM you may actually get better performance by lowering frequency to 3600Mhz and running with tighter timings / sub-timings. Ryzen 7 3700X Cinebench R23/RTX3060 TI BIOS. I am running 3733Mhz CL14 tight sub-timings. I use a voltage offset so I'm not at a sustained high voltage when not under load.Īnother important thing is RAM. I do almost all my overclocking in bios so I just load profile 1 for my everyday overclock (4.4Ghz 1.3V) profile 2 for SMT enabled 4.475Ghz all core (can push 4 cores and 8 threads to 4.5Ghz with ryzen master) 1.406V and profile 3 SMT disabled 4.525Ghz all core 1.406V. At 4.5Ghz+ in single core execution these processors can rival the 9700K, 9900K and even the 9900KS (of course those processors when overclocked past 5Ghz will still hold the edge). It was my first single core optimizations I was trying and am still tinkering with it to see if I can manage a little better single core as programs like Adobe and most games aren't going to make much use out of more than 8 threads and do better with higher frequency. The biggest difference in scores is I am running 4.475Ghz all core for my multi core score and single thread score I disabled SMT and was running 4.525Ghz all core. Deciding between the 3700X and 3800X I took the risk that the better binning would make a difference, and with this processor it was worth the gamble. I had to make the move as I needed my computer up and running and had already promised my 2700X to someone else who needed it and just couldn't put it off any longer. I had a hard time getting a Ryzen 3000 processor because I really wanted the 3900X, but couldn't connect with one. Imagine an hour-long or more video, that’s a decent amount of time saved with the faster Ryzen 7 5800X.I have been very pleased with my 3800X.
#3700x cinebench full#
Transcoding video is definitely faster on the Ryzen 7 5800X, a full minute is shaved off, or 14% faster transcoding performance for video. Lastly, we used HandBrake to transcode a video on the CPU in H.264. Turning on PBO adds just a little bit more performance. AMD Ryzen 9 3900X Ryzen 7 3700X cinebench r15. The Ryzen 7 5800X is a whopping 30% faster in V-Ray CPU performance producing 11,759 vsamples compared to the Ryzen 7 3700X at 9,021 vsamples. The first benchmarks in games of the AMD Ryzen 7 3700X and Ryzen 9 3900X appear, which is not entirely. V-Ray 5 is another great example of how much faster Zen 3 is at rendering compared to Zen 2. We even see PBO make it just a bit faster in victor. These are all significant performance improvements for rendering. In victor we see the Ryzen 7 5800X render the scene 21% faster than the Ryzen 7 3700X. In the pavillon_barcelona scene, the Ryzen 7 5800X renders it 20% quicker than the Ryzen 7 3700X. In the classroom scene, the Ryzen 7 5800X renders it 21% quicker than the Ryzen 7 3700X. Both CPUs have the same core and thread count, so it is exciting to see that the Ryzen 7 5800X is 22% quicker at rendering the bmw27 scene in Blender. The less time it takes to render, the fastest it is, and the better you’ll be. Remember, here we are looking for the lowest result. Similar to previous single-core testing, turning on PBO actually does make a bigger difference for performance, up 2% here. Single-core Cinebench R23 performance is up 22% with the Ryzen 7 5800X versus the Ryzen 7 3700X. This is impressive considering both have the same core and thread count. In Cinebench R23 multi-core performance the AMD Ryzen 7 5800X is up 25% in performance compared to the Ryzen 7 3700X.
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