Have played a bit with the latest CTR 2.04 hotfix that got released earlier tonight. (hybrid oc bugfix)
The next version of CTR, which will be launched in mid-April, will have automatic up and down clocking depending on the workload, so I'm pretty sure that CTR 2.5 will outperform PBO CO in most, if not everything, so i have started to do a few testruns
Following data based on Cinebench r20 with thread/score as the metric
PBO CO benchmode: (ambient ~ 20 degrees)
- 1 thread = 662 points
- 2 threads = 1303 points
- 4 threads = 2444 points
- 6 threads = 3706 points
- 8 threads = 4887 points
- 10 threads = 5974 points
- 12 threads = 7022 points
- 14 threads = 7906 points
- 16 threads = 8645 points
- 20 threads = 9583 points
- ...seems like i didn't save 24 thread screenshot, but 105xx score
- 32 threads = 12238 points
CTR 2.04 benchmode (ambient ~ 20 degrees)
- 1 thread = 656 points
- 2 threads = 1301 points
- 4 threads = 2557 points
- 6 threads = 3789 points
- 8 threads = 5023 points
- 10 threads = 6042 points
- 12 threads = 7184 points
- 14 threads = 8316 points
- 16 threads = 8894 points
- 20 threads = 9637 points
- 24 threads = 10474 points
- 28 threads = 11176 points
- 32 threads = 12111 points
CTR 2.04 hotfix: (ambient ~ 24 degrees)
Did run all the threadcounts back to back without closing background apps etc. (can gain a few points on each score)
These CTR numbers are daily 24/7 settings intended for summer with high temperatures 😎
- 1 thread = 652 points
- 2 threads = 1295 points
- 4 threads = 2525 points
- 6 threads = 3752 points
- 8 threads = 4979 points
- 10 threads = 6016 points
- 12 threads = 7171 points
- 14 threads = 8287 points
- 16 threads = 8831 points
- 20 threads = 9539 points
- 24 threads = 10217 points
- 28 threads = 11117 points
- 32 threads = 12032 points
LLC4 = upto 2% vdroop
PX high = from 1 to 2 threads @ 5050mhz
PX mid = from 3 to 4 threads @ 4950mhz
PX low = from 5 to 9 threads @ 4900mhz
P2 = from 10 to 20 threads @ 4800/4675mhz
P1 = from 21 to 32 threads @ 4700/4600mhz
1 thread @ 5050mhz -> 1475mv set = 1475mv get -> ~58 Tctl/Tdie temp
2 thread @ 5050mhz -> 1475mv set = 1475mv get -> ~63 Tctl/Tdie temp
4 thread @ 4950mhz -> 1450mv set = 1444mv get -> ~74 Tctl/Tdie temp
6 thread @ 4900mhz-> 1435mv set = 1431mv get -> ~72 Tctl/Tdie temp
8 thread @ 4900mhz -> 1435mv set = 1425mv get -> ~74 Tctl/Tdie temp
10 threads @ 4800/4675mhz -> 1350mv set = 1337mv get -> ~65 Tctl/Tdie temp
12 threads @ 4800/4675mhz -> 1350mv set = 1331mv get -> ~67 Tctl/Tdie temp
14 threads @ 4800/4675mhz -> 1350mv set = 1331mv get -> ~68 Tctl/Tdie temp
16 threads @ 4800/4675mhz -> 1350mv set = 1331mv get -> ~71 Tctl/Tdie temp
20 threads @ 4800/4675mhz -> 1350mv set = 1325mv get -> ~76 Tctl/Tdie temp
24 threads @ 4700/4600mhz -> 1275mv set = 1256mv get -> ~70 Tctl/Tdie temp
28 threads @ 4700/4600mhz -> 1275mv set = 1250mv get -> ~71 Tctl/Tdie temp
32 threads @ 4700/4600mhz -> 1275mv set = 1250mv get -> ~72 Tctl/Tdie temp
Settings:
View attachment 42461