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1. #5900x cinebench r23 score how to
2. #5900x cinebench r23 score install
3. #5900x cinebench r23 score update
4. #5900x cinebench r23 score Pc

I had read that AMD cards don't perform as well with VR and just thought that was the whole problem.

#5900x cinebench r23 score Pc

More likely my CPU was bottlenecking my graphics card (AMD 6600XT) when I was doing PC VR with a Quest 2. I had notice performance issue earlier but had miss diagnosed the issue as a poor graphics card that needed to be upgraded.

#5900x cinebench r23 score update

I think the problem started when I did a BIOS update and I never caught the issue till I bench tested my rig after I got a new graphics card. Bench scores are exactly in the range they should be and are consistently hitting that score.

#5900x cinebench r23 score install

People said its clearly a software issue and basically ruled it down to a fresh install of Windows will likely fix everything and it did. Hopefully this will help some of you get to your optimal performance! Happy tuning.So over the weekend I was trouble shooting the problem when for about 30 mins it was performing correctly and then the bench scores tanked again. However going much lower may require another run of stability testing your curve settings. You can of course push you temps even lower at the cost of performance, and target whatever thresholds you deem acceptable. This resulted in a 6-7c drop in temps, while only losing ~1% of my scores in r23 (at the motherboard limits, my MC score was 23,222). For my 5900x these values turned out to be PPT 190, EDC 175, TDC 125 In my case, TDC and EDC trade off between 99.8% and 100% while PPT sits at 100% all the time. You probably wont be able to get this perfectly on 100% for all three, one may be slightly lower, but try to get it as close as possible. Once the PPT is set, your next goal is to reduce the EDC and TDC until all three limit percentages shown in HWinfo64 reach 100% more or less simultaneously. You'll then lower the PPT value by 5w and retest, repeating until you reach your desired temp. Start by setting the PPT, EDC, and TDC to the values you recorded previously at baseline, then run a Cinebench multicore test and check the temp. For me, I wanted to go no higher than an average of 75c between both ccx. So for core 0, this is CPU 0/1, for core 1 this is CPU 2/3, for core 2 this is CPU 4/5, and so on.įor this step, you're going to need to decide on a peak temperature target you're comfortable with (keeping in mind this will also influence the noise of your fans etc). You then move on to the next core - just be sure that you set OCCT affinity to the appropriate CPUs (threads). If you want to be even more precise, you can then step UP the curve setting by 1 point at a time until errors begin to emerge again, and revert to the last passing value. You will repeat this loop until OCCT no longer finds any errors. If it finds errors, go back into BIOS and lower the curve setting by 5 points. open task manager > details, right click OCCT > set affinity, and select ONLY CPU 0 & CPU 1 reboot, launch OCCT, set it to small data set, SSE, 2 threads Starting with core 0, the process is as follows: Once you find the stability-point for a core, you can leave it set and move onto the next one. You'll repeat the process as described below for each core individually. This will be the most strenuous and time consuming part, but it's well worth the effort. Test for stability and lower by one step if necessary. For my 5800x this was +50, but for the 5900x things began to level off at +100. To figure out which level to use, I start at +0 and work my way up one step at a time towards 200, looking for the point at which per-core boost clocks begin to stagnate or drop. You can do this in a single run or over multiple, I use a custom 3 minute standard. Close out of all other apps and run both Cinebench multi and single core tests again to record the scores. For my chip and board, these were PPT 210, EDC 190, TDC 135 (you'll need these values later). You'll then want to record the PPT, EDC, and TDC wattages/amperages listed above while the test is still running (not the percentages). While running Cinebench multicore, one of these limits will reach 100%. After rebooting, launch HWinfo64 and scroll down to the section indicating the PPT, EDC, and TDC limit percentages. To determine the base performance from which to make your adjustments, simply enable PBO2 then set power limits to 'motherboard' and scalar to '1x'. CPU is cooled by a EKWB 240 AIO, case is the NCASE m1.

#5900x cinebench r23 score how to

I've finally settled in on the optimal tuning for my 5900x, and wanted to share the results as well as a short guide on how to get the best out of your zen 3 as well!įirst and foremost - the scores (cinebench r23, average of ~5 runs):Ĥ of 12 cores will hit 5 Ghz, with the golden core hitting 5.1.Ī quick rundown of my hardware - 5900x on a b550-i strix with 32gb trident z neo 3600 cl 14 (2x16 gb, samsung b-die) and an rtx 3080 FE.