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These are the user uploaded subtitles that are being translated: 00:00:00,240 --> 00:00:02,669 so last week we installed an aiio into 00:00:02,669 --> 00:00:02,679 so last week we installed an aiio into 00:00:02,679 --> 00:00:05,430 so last week we installed an aiio into our $800 gaming system we found that we 00:00:05,430 --> 00:00:05,440 our $800 gaming system we found that we 00:00:05,440 --> 00:00:07,630 our $800 gaming system we found that we solved our temperature issue only to run 00:00:07,630 --> 00:00:07,640 solved our temperature issue only to run 00:00:07,640 --> 00:00:09,870 solved our temperature issue only to run into a power issue so today we're going 00:00:09,870 --> 00:00:09,880 into a power issue so today we're going 00:00:09,880 --> 00:00:12,270 into a power issue so today we're going to fix it by increasing the power limit 00:00:12,270 --> 00:00:12,280 to fix it by increasing the power limit 00:00:12,280 --> 00:00:13,870 to fix it by increasing the power limit and we're going to try to cool it down a 00:00:13,870 --> 00:00:13,880 and we're going to try to cool it down a 00:00:13,880 --> 00:00:16,470 and we're going to try to cool it down a little bit more by undervolting it so 00:00:16,470 --> 00:00:16,480 little bit more by undervolting it so 00:00:16,480 --> 00:00:18,510 little bit more by undervolting it so hopefully we should get the best of both 00:00:18,510 --> 00:00:18,520 hopefully we should get the best of both 00:00:18,520 --> 00:00:22,589 hopefully we should get the best of both worlds stay 00:00:22,589 --> 00:00:22,599 00:00:22,599 --> 00:00:25,950 tuned when we built our $800 gaming PC 00:00:25,950 --> 00:00:25,960 tuned when we built our $800 gaming PC 00:00:25,960 --> 00:00:28,550 tuned when we built our $800 gaming PC it performed impeccably however I was a 00:00:28,550 --> 00:00:28,560 it performed impeccably however I was a 00:00:28,560 --> 00:00:30,710 it performed impeccably however I was a little concerned about the temp future 00:00:30,710 --> 00:00:30,720 little concerned about the temp future 00:00:30,720 --> 00:00:32,709 little concerned about the temp future and that kind of led us down this rabbit 00:00:32,709 --> 00:00:32,719 and that kind of led us down this rabbit 00:00:32,719 --> 00:00:34,270 and that kind of led us down this rabbit hole that brought us to where we are 00:00:34,270 --> 00:00:34,280 hole that brought us to where we are 00:00:34,280 --> 00:00:37,229 hole that brought us to where we are today unfortunately because of that it's 00:00:37,229 --> 00:00:37,239 today unfortunately because of that it's 00:00:37,239 --> 00:00:39,910 today unfortunately because of that it's no longer an $800 gaming PC with the 00:00:39,910 --> 00:00:39,920 no longer an $800 gaming PC with the 00:00:39,920 --> 00:00:41,910 no longer an $800 gaming PC with the aiio that we installed it's looking more 00:00:41,910 --> 00:00:41,920 aiio that we installed it's looking more 00:00:41,920 --> 00:00:45,709 aiio that we installed it's looking more like a $900 gaming PC now so today 00:00:45,709 --> 00:00:45,719 like a $900 gaming PC now so today 00:00:45,719 --> 00:00:47,630 like a $900 gaming PC now so today instead of throwing more money at it 00:00:47,630 --> 00:00:47,640 instead of throwing more money at it 00:00:47,640 --> 00:00:48,950 instead of throwing more money at it we're going to try to improve its 00:00:48,950 --> 00:00:48,960 we're going to try to improve its 00:00:48,960 --> 00:00:50,869 we're going to try to improve its performance and its temperature by 00:00:50,869 --> 00:00:50,879 performance and its temperature by 00:00:50,879 --> 00:00:53,430 performance and its temperature by undervolting it we're also going to play 00:00:53,430 --> 00:00:53,440 undervolting it we're also going to play 00:00:53,440 --> 00:00:56,229 undervolting it we're also going to play around with an overclock but first I got 00:00:56,229 --> 00:00:56,239 around with an overclock but first I got 00:00:56,239 --> 00:00:58,830 around with an overclock but first I got to pay some bills so check out today's 00:00:58,830 --> 00:00:58,840 to pay some bills so check out today's 00:00:58,840 --> 00:01:01,270 to pay some bills so check out today's sponsor is your copy of windowss 10 00:01:01,270 --> 00:01:01,280 sponsor is your copy of windowss 10 00:01:01,280 --> 00:01:04,070 sponsor is your copy of windowss 10 unactivated well it doesn't have to be 00:01:04,070 --> 00:01:04,080 unactivated well it doesn't have to be 00:01:04,080 --> 00:01:07,270 unactivated well it doesn't have to be because with today's sponsor VIP SCD key 00:01:07,270 --> 00:01:07,280 because with today's sponsor VIP SCD key 00:01:07,280 --> 00:01:09,230 because with today's sponsor VIP SCD key you can get a valid Windows 10 license 00:01:09,230 --> 00:01:09,240 you can get a valid Windows 10 license 00:01:09,240 --> 00:01:11,910 you can get a valid Windows 10 license for under $20 stop dealing with that 00:01:11,910 --> 00:01:11,920 for under $20 stop dealing with that 00:01:11,920 --> 00:01:13,990 for under $20 stop dealing with that stupid watermark on the desktop the 00:01:13,990 --> 00:01:14,000 stupid watermark on the desktop the 00:01:14,000 --> 00:01:16,310 stupid watermark on the desktop the valid license for Windows 10 also with 00:01:16,310 --> 00:01:16,320 valid license for Windows 10 also with 00:01:16,320 --> 00:01:18,510 valid license for Windows 10 also with an activated copy of Windows 10 you can 00:01:18,510 --> 00:01:18,520 an activated copy of Windows 10 you can 00:01:18,520 --> 00:01:20,830 an activated copy of Windows 10 you can upgrade to Windows 11 for free just go 00:01:20,830 --> 00:01:20,840 upgrade to Windows 11 for free just go 00:01:20,840 --> 00:01:22,510 upgrade to Windows 11 for free just go to the link in the description below and 00:01:22,510 --> 00:01:22,520 to the link in the description below and 00:01:22,520 --> 00:01:24,870 to the link in the description below and pick up a valid Windows 10 license key 00:01:24,870 --> 00:01:24,880 pick up a valid Windows 10 license key 00:01:24,880 --> 00:01:27,149 pick up a valid Windows 10 license key during checkout use the code cyber CPU 00:01:27,149 --> 00:01:27,159 during checkout use the code cyber CPU 00:01:27,159 --> 00:01:29,590 during checkout use the code cyber CPU for a 25% discount once you have your 00:01:29,590 --> 00:01:29,600 for a 25% discount once you have your 00:01:29,600 --> 00:01:31,710 for a 25% discount once you have your key go to your activation settings in 00:01:31,710 --> 00:01:31,720 key go to your activation settings in 00:01:31,720 --> 00:01:33,389 key go to your activation settings in Windows 10 and click on the link that 00:01:33,389 --> 00:01:33,399 Windows 10 and click on the link that 00:01:33,399 --> 00:01:35,510 Windows 10 and click on the link that says change product key enter the 00:01:35,510 --> 00:01:35,520 says change product key enter the 00:01:35,520 --> 00:01:37,389 says change product key enter the product key you just purchased and hit 00:01:37,389 --> 00:01:37,399 product key you just purchased and hit 00:01:37,399 --> 00:01:39,389 product key you just purchased and hit activate now you don't have to deal with 00:01:39,389 --> 00:01:39,399 activate now you don't have to deal with 00:01:39,399 --> 00:01:41,069 activate now you don't have to deal with that stupid Watermark that come with 00:01:41,069 --> 00:01:41,079 that stupid Watermark that come with 00:01:41,079 --> 00:01:43,069 that stupid Watermark that come with running an unactivated copy of Windows 00:01:43,069 --> 00:01:43,079 running an unactivated copy of Windows 00:01:43,079 --> 00:01:46,350 running an unactivated copy of Windows 10 now on with the video so there are 00:01:46,350 --> 00:01:46,360 10 now on with the video so there are 00:01:46,360 --> 00:01:48,190 10 now on with the video so there are people that will tell you that nothing 00:01:48,190 --> 00:01:48,200 people that will tell you that nothing 00:01:48,200 --> 00:01:50,749 people that will tell you that nothing in life is free for the most part that's 00:01:50,749 --> 00:01:50,759 in life is free for the most part that's 00:01:50,759 --> 00:01:53,590 in life is free for the most part that's a true statement however today I'm going 00:01:53,590 --> 00:01:53,600 a true statement however today I'm going 00:01:53,600 --> 00:01:56,190 a true statement however today I'm going to show you that some things actually 00:01:56,190 --> 00:01:56,200 to show you that some things actually 00:01:56,200 --> 00:01:58,590 to show you that some things actually can be free of course that's as long as 00:01:58,590 --> 00:01:58,600 can be free of course that's as long as 00:01:58,600 --> 00:02:00,510 can be free of course that's as long as you don't count your own labor so I 00:02:00,510 --> 00:02:00,520 you don't count your own labor so I 00:02:00,520 --> 00:02:02,350 you don't count your own labor so I guess in that case it wouldn't be free 00:02:02,350 --> 00:02:02,360 guess in that case it wouldn't be free 00:02:02,360 --> 00:02:05,029 guess in that case it wouldn't be free so let's jump on the computer and see 00:02:05,029 --> 00:02:05,039 so let's jump on the computer and see 00:02:05,039 --> 00:02:07,550 so let's jump on the computer and see what we can do so here we are on our 00:02:07,550 --> 00:02:07,560 what we can do so here we are on our 00:02:07,560 --> 00:02:08,790 what we can do so here we are on our system and the first thing I'm going to 00:02:08,790 --> 00:02:08,800 system and the first thing I'm going to 00:02:08,800 --> 00:02:09,869 system and the first thing I'm going to do is we're going to go ahead and fire 00:02:09,869 --> 00:02:09,879 do is we're going to go ahead and fire 00:02:09,879 --> 00:02:12,350 do is we're going to go ahead and fire up ryzen master real quick and while 00:02:12,350 --> 00:02:12,360 up ryzen master real quick and while 00:02:12,360 --> 00:02:13,990 up ryzen master real quick and while ryzen master is open I think we're going 00:02:13,990 --> 00:02:14,000 ryzen master is open I think we're going 00:02:14,000 --> 00:02:15,630 ryzen master is open I think we're going to run a cinebench run real quick so I 00:02:15,630 --> 00:02:15,640 to run a cinebench run real quick so I 00:02:15,640 --> 00:02:17,150 to run a cinebench run real quick so I can show you kind of the problem that 00:02:17,150 --> 00:02:17,160 can show you kind of the problem that 00:02:17,160 --> 00:02:19,110 can show you kind of the problem that we're trying to solve here so it'll just 00:02:19,110 --> 00:02:19,120 we're trying to solve here so it'll just 00:02:19,120 --> 00:02:21,390 we're trying to solve here so it'll just take a second here to fire up cin bench 00:02:21,390 --> 00:02:21,400 take a second here to fire up cin bench 00:02:21,400 --> 00:02:22,949 take a second here to fire up cin bench a very short second though cuz this 00:02:22,949 --> 00:02:22,959 a very short second though cuz this 00:02:22,959 --> 00:02:25,470 a very short second though cuz this system is really quick so the first 00:02:25,470 --> 00:02:25,480 system is really quick so the first 00:02:25,480 --> 00:02:26,830 system is really quick so the first thing I want to do here is just run a 00:02:26,830 --> 00:02:26,840 thing I want to do here is just run a 00:02:26,840 --> 00:02:29,910 thing I want to do here is just run a multicore test real quick and then we'll 00:02:29,910 --> 00:02:29,920 multicore test real quick and then we'll 00:02:29,920 --> 00:02:31,710 multicore test real quick and then we'll open up ryzen master and you'll see 00:02:31,710 --> 00:02:31,720 open up ryzen master and you'll see 00:02:31,720 --> 00:02:35,390 open up ryzen master and you'll see right here that our total socket power 00:02:35,390 --> 00:02:35,400 right here that our total socket power 00:02:35,400 --> 00:02:38,190 right here that our total socket power is 100% And as of right here you can see 00:02:38,190 --> 00:02:38,200 is 100% And as of right here you can see 00:02:38,200 --> 00:02:39,990 is 100% And as of right here you can see that our temperature is solved we are 00:02:39,990 --> 00:02:40,000 that our temperature is solved we are 00:02:40,000 --> 00:02:41,990 that our temperature is solved we are under the limit we're under the 85c 00:02:41,990 --> 00:02:42,000 under the limit we're under the 85c 00:02:42,000 --> 00:02:44,149 under the limit we're under the 85c limit we're sitting at around 70c right 00:02:44,149 --> 00:02:44,159 limit we're sitting at around 70c right 00:02:44,159 --> 00:02:47,949 limit we're sitting at around 70c right now but we're limited to 4.9 GHz because 00:02:47,949 --> 00:02:47,959 now but we're limited to 4.9 GHz because 00:02:47,959 --> 00:02:50,110 now but we're limited to 4.9 GHz because well because we're out of power right 00:02:50,110 --> 00:02:50,120 well because we're out of power right 00:02:50,120 --> 00:02:52,309 well because we're out of power right now so if we were to run a single core 00:02:52,309 --> 00:02:52,319 now so if we were to run a single core 00:02:52,319 --> 00:02:54,509 now so if we were to run a single core test then I'm sure we were would be able 00:02:54,509 --> 00:02:54,519 test then I'm sure we were would be able 00:02:54,519 --> 00:02:58,750 test then I'm sure we were would be able to get the max speed of 5.1 GHz however 00:02:58,750 --> 00:02:58,760 to get the max speed of 5.1 GHz however 00:02:58,760 --> 00:03:02,070 to get the max speed of 5.1 GHz however at this point we're stuck at 4.9 so 00:03:02,070 --> 00:03:02,080 at this point we're stuck at 4.9 so 00:03:02,080 --> 00:03:04,030 at this point we're stuck at 4.9 so let's go ahead and stop this run real 00:03:04,030 --> 00:03:04,040 let's go ahead and stop this run real 00:03:04,040 --> 00:03:06,470 let's go ahead and stop this run real quick here and let's get into see if we 00:03:06,470 --> 00:03:06,480 quick here and let's get into see if we 00:03:06,480 --> 00:03:08,430 quick here and let's get into see if we can fix this right here so the first 00:03:08,430 --> 00:03:08,440 can fix this right here so the first 00:03:08,440 --> 00:03:09,670 can fix this right here so the first thing we want to do is I'm going to go 00:03:09,670 --> 00:03:09,680 thing we want to do is I'm going to go 00:03:09,680 --> 00:03:11,869 thing we want to do is I'm going to go ahead and jump down into curve Optimizer 00:03:11,869 --> 00:03:11,879 ahead and jump down into curve Optimizer 00:03:11,879 --> 00:03:13,270 ahead and jump down into curve Optimizer right here and then we're going to turn 00:03:13,270 --> 00:03:13,280 right here and then we're going to turn 00:03:13,280 --> 00:03:16,509 right here and then we're going to turn on Precision boost overdrive so what is 00:03:16,509 --> 00:03:16,519 on Precision boost overdrive so what is 00:03:16,519 --> 00:03:19,070 on Precision boost overdrive so what is precision boost overdrive in short it's 00:03:19,070 --> 00:03:19,080 precision boost overdrive in short it's 00:03:19,080 --> 00:03:21,470 precision boost overdrive in short it's just a fancy term for the process that 00:03:21,470 --> 00:03:21,480 just a fancy term for the process that 00:03:21,480 --> 00:03:23,309 just a fancy term for the process that allows you to increase the power limits 00:03:23,309 --> 00:03:23,319 allows you to increase the power limits 00:03:23,319 --> 00:03:26,270 allows you to increase the power limits for your CPU you see by default your CPU 00:03:26,270 --> 00:03:26,280 for your CPU you see by default your CPU 00:03:26,280 --> 00:03:28,070 for your CPU you see by default your CPU has certain limits to make it operate 00:03:28,070 --> 00:03:28,080 has certain limits to make it operate 00:03:28,080 --> 00:03:30,949 has certain limits to make it operate within its specific power draw range by 00:03:30,949 --> 00:03:30,959 within its specific power draw range by 00:03:30,959 --> 00:03:32,229 within its specific power draw range by increasing these limits you're 00:03:32,229 --> 00:03:32,239 increasing these limits you're 00:03:32,239 --> 00:03:34,390 increasing these limits you're essentially giving the processor more 00:03:34,390 --> 00:03:34,400 essentially giving the processor more 00:03:34,400 --> 00:03:36,750 essentially giving the processor more power as long as you stay within your 00:03:36,750 --> 00:03:36,760 power as long as you stay within your 00:03:36,760 --> 00:03:39,229 power as long as you stay within your thermal limit the CPU will boost to its 00:03:39,229 --> 00:03:39,239 thermal limit the CPU will boost to its 00:03:39,239 --> 00:03:41,429 thermal limit the CPU will boost to its maximum boost clock now the three 00:03:41,429 --> 00:03:41,439 maximum boost clock now the three 00:03:41,439 --> 00:03:43,670 maximum boost clock now the three specific limits that Precision boost 00:03:43,670 --> 00:03:43,680 specific limits that Precision boost 00:03:43,680 --> 00:03:46,949 specific limits that Precision boost overdrive allows you to increase are PPT 00:03:46,949 --> 00:03:46,959 overdrive allows you to increase are PPT 00:03:46,959 --> 00:03:50,789 overdrive allows you to increase are PPT TDC and EDC PPT stands for the package 00:03:50,789 --> 00:03:50,799 TDC and EDC PPT stands for the package 00:03:50,799 --> 00:03:53,110 TDC and EDC PPT stands for the package power tracking this is the total amount 00:03:53,110 --> 00:03:53,120 power tracking this is the total amount 00:03:53,120 --> 00:03:55,030 power tracking this is the total amount of Watts your processor is allowed to 00:03:55,030 --> 00:03:55,040 of Watts your processor is allowed to 00:03:55,040 --> 00:03:57,710 of Watts your processor is allowed to consume TDC stands for the thermal 00:03:57,710 --> 00:03:57,720 consume TDC stands for the thermal 00:03:57,720 --> 00:03:59,990 consume TDC stands for the thermal design current this is the amount of 00:03:59,990 --> 00:04:00,000 design current this is the amount of 00:04:00,000 --> 00:04:02,990 design current this is the amount of sustained current draw in amps that your 00:04:02,990 --> 00:04:03,000 sustained current draw in amps that your 00:04:03,000 --> 00:04:04,910 sustained current draw in amps that your processor is allowed to consume now 00:04:04,910 --> 00:04:04,920 processor is allowed to consume now 00:04:04,920 --> 00:04:07,149 processor is allowed to consume now anyone who has studied Electronics knows 00:04:07,149 --> 00:04:07,159 anyone who has studied Electronics knows 00:04:07,159 --> 00:04:09,309 anyone who has studied Electronics knows that watts equals volts multiplied by 00:04:09,309 --> 00:04:09,319 that watts equals volts multiplied by 00:04:09,319 --> 00:04:11,429 that watts equals volts multiplied by amps so the amount of Watts that the 00:04:11,429 --> 00:04:11,439 amps so the amount of Watts that the 00:04:11,439 --> 00:04:13,830 amps so the amount of Watts that the processor consumes is determined by the 00:04:13,830 --> 00:04:13,840 processor consumes is determined by the 00:04:13,840 --> 00:04:16,270 processor consumes is determined by the voltage of the processor multiplied by 00:04:16,270 --> 00:04:16,280 voltage of the processor multiplied by 00:04:16,280 --> 00:04:19,590 voltage of the processor multiplied by the TDC as long as the resulting wattage 00:04:19,590 --> 00:04:19,600 the TDC as long as the resulting wattage 00:04:19,600 --> 00:04:23,310 the TDC as long as the resulting wattage is equal or lower than the PPT then 00:04:23,310 --> 00:04:23,320 is equal or lower than the PPT then 00:04:23,320 --> 00:04:25,430 is equal or lower than the PPT then everything is cool and your CPU should 00:04:25,430 --> 00:04:25,440 everything is cool and your CPU should 00:04:25,440 --> 00:04:27,350 everything is cool and your CPU should continue to boost until it hits its 00:04:27,350 --> 00:04:27,360 continue to boost until it hits its 00:04:27,360 --> 00:04:30,950 continue to boost until it hits its thermal limit now the last one is EDC 00:04:30,950 --> 00:04:30,960 thermal limit now the last one is EDC 00:04:30,960 --> 00:04:33,029 thermal limit now the last one is EDC this one stands for electrical design 00:04:33,029 --> 00:04:33,039 this one stands for electrical design 00:04:33,039 --> 00:04:34,790 this one stands for electrical design current this is the limit that 00:04:34,790 --> 00:04:34,800 current this is the limit that 00:04:34,800 --> 00:04:36,390 current this is the limit that determines the amount of current that 00:04:36,390 --> 00:04:36,400 determines the amount of current that 00:04:36,400 --> 00:04:39,749 determines the amount of current that can Spike for short periods of time this 00:04:39,749 --> 00:04:39,759 can Spike for short periods of time this 00:04:39,759 --> 00:04:41,870 can Spike for short periods of time this is not the sustained current like the 00:04:41,870 --> 00:04:41,880 is not the sustained current like the 00:04:41,880 --> 00:04:45,749 is not the sustained current like the TDC however even with the EDC the limit 00:04:45,749 --> 00:04:45,759 TDC however even with the EDC the limit 00:04:45,759 --> 00:04:48,510 TDC however even with the EDC the limit maxed out your Watts still can't exceed 00:04:48,510 --> 00:04:48,520 maxed out your Watts still can't exceed 00:04:48,520 --> 00:04:51,350 maxed out your Watts still can't exceed your PPT now hopefully that was a good 00:04:51,350 --> 00:04:51,360 your PPT now hopefully that was a good 00:04:51,360 --> 00:04:54,189 your PPT now hopefully that was a good explanation so let's complete this by 00:04:54,189 --> 00:04:54,199 explanation so let's complete this by 00:04:54,199 --> 00:04:56,110 explanation so let's complete this by throwing everything I just said out the 00:04:56,110 --> 00:04:56,120 throwing everything I just said out the 00:04:56,120 --> 00:04:59,070 throwing everything I just said out the window and maxing them all out and see 00:04:59,070 --> 00:04:59,080 window and maxing them all out and see 00:04:59,080 --> 00:05:01,550 window and maxing them all out and see what happens 00:05:01,550 --> 00:05:01,560 what happens 00:05:01,560 --> 00:05:02,950 what happens okay yeah just like I said we're just 00:05:02,950 --> 00:05:02,960 okay yeah just like I said we're just 00:05:02,960 --> 00:05:04,670 okay yeah just like I said we're just going to leave all these things at Max 00:05:04,670 --> 00:05:04,680 going to leave all these things at Max 00:05:04,680 --> 00:05:06,830 going to leave all these things at Max so right now by default they're already 00:05:06,830 --> 00:05:06,840 so right now by default they're already 00:05:06,840 --> 00:05:09,629 so right now by default they're already set to Max so essentially by maxing 00:05:09,629 --> 00:05:09,639 set to Max so essentially by maxing 00:05:09,639 --> 00:05:11,590 set to Max so essentially by maxing these things out you're giving the CPU 00:05:11,590 --> 00:05:11,600 these things out you're giving the CPU 00:05:11,600 --> 00:05:13,909 these things out you're giving the CPU all the power they could possibly take 00:05:13,909 --> 00:05:13,919 all the power they could possibly take 00:05:13,919 --> 00:05:15,350 all the power they could possibly take now you don't have to worry about this 00:05:15,350 --> 00:05:15,360 now you don't have to worry about this 00:05:15,360 --> 00:05:17,430 now you don't have to worry about this damaging the processor because there's 00:05:17,430 --> 00:05:17,440 damaging the processor because there's 00:05:17,440 --> 00:05:19,510 damaging the processor because there's still limits in place like your thermal 00:05:19,510 --> 00:05:19,520 still limits in place like your thermal 00:05:19,520 --> 00:05:21,230 still limits in place like your thermal limit that won't allow the processor 00:05:21,230 --> 00:05:21,240 limit that won't allow the processor 00:05:21,240 --> 00:05:23,430 limit that won't allow the processor just to go out of control and you know 00:05:23,430 --> 00:05:23,440 just to go out of control and you know 00:05:23,440 --> 00:05:25,469 just to go out of control and you know this isn't an Intel processor so it's 00:05:25,469 --> 00:05:25,479 this isn't an Intel processor so it's 00:05:25,479 --> 00:05:26,909 this isn't an Intel processor so it's still going to keep your voltage under 00:05:26,909 --> 00:05:26,919 still going to keep your voltage under 00:05:26,919 --> 00:05:29,230 still going to keep your voltage under control but before we actually apply 00:05:29,230 --> 00:05:29,240 control but before we actually apply 00:05:29,240 --> 00:05:30,909 control but before we actually apply this I want want to go ahead and enable 00:05:30,909 --> 00:05:30,919 this I want want to go ahead and enable 00:05:30,919 --> 00:05:33,029 this I want want to go ahead and enable the curve Optimizer and that's going to 00:05:33,029 --> 00:05:33,039 the curve Optimizer and that's going to 00:05:33,039 --> 00:05:34,270 the curve Optimizer and that's going to be the next thing that we're going to do 00:05:34,270 --> 00:05:34,280 be the next thing that we're going to do 00:05:34,280 --> 00:05:35,830 be the next thing that we're going to do right here so the curve Optimizer by 00:05:35,830 --> 00:05:35,840 right here so the curve Optimizer by 00:05:35,840 --> 00:05:38,350 right here so the curve Optimizer by default is turned off when you turn on 00:05:38,350 --> 00:05:38,360 default is turned off when you turn on 00:05:38,360 --> 00:05:40,469 default is turned off when you turn on Precision boost overdrive so the way I'm 00:05:40,469 --> 00:05:40,479 Precision boost overdrive so the way I'm 00:05:40,479 --> 00:05:42,670 Precision boost overdrive so the way I'm going to able this is through all cores 00:05:42,670 --> 00:05:42,680 going to able this is through all cores 00:05:42,680 --> 00:05:45,350 going to able this is through all cores however you can do a per core and you 00:05:45,350 --> 00:05:45,360 however you can do a per core and you 00:05:45,360 --> 00:05:47,270 however you can do a per core and you can will be able to adjust the values 00:05:47,270 --> 00:05:47,280 can will be able to adjust the values 00:05:47,280 --> 00:05:49,390 can will be able to adjust the values for every single core but for us we're 00:05:49,390 --> 00:05:49,400 for every single core but for us we're 00:05:49,400 --> 00:05:51,749 for every single core but for us we're going to do all cores right now and I'm 00:05:51,749 --> 00:05:51,759 going to do all cores right now and I'm 00:05:51,759 --> 00:05:54,110 going to do all cores right now and I'm also going to change the auto offset to 00:05:54,110 --> 00:05:54,120 also going to change the auto offset to 00:05:54,120 --> 00:05:56,070 also going to change the auto offset to a manual offset and this will allow me 00:05:56,070 --> 00:05:56,080 a manual offset and this will allow me 00:05:56,080 --> 00:05:58,830 a manual offset and this will allow me to change the curve Optimizer offset for 00:05:58,830 --> 00:05:58,840 to change the curve Optimizer offset for 00:05:58,840 --> 00:06:00,110 to change the curve Optimizer offset for all the cores this is is essentially 00:06:00,110 --> 00:06:00,120 all the cores this is is essentially 00:06:00,120 --> 00:06:02,350 all the cores this is is essentially going to be our undervolt now we can do 00:06:02,350 --> 00:06:02,360 going to be our undervolt now we can do 00:06:02,360 --> 00:06:04,830 going to be our undervolt now we can do this per core and we can set a value for 00:06:04,830 --> 00:06:04,840 this per core and we can set a value for 00:06:04,840 --> 00:06:07,110 this per core and we can set a value for every single core individually but that 00:06:07,110 --> 00:06:07,120 every single core individually but that 00:06:07,120 --> 00:06:08,830 every single core individually but that takes a really long time and I'm just 00:06:08,830 --> 00:06:08,840 takes a really long time and I'm just 00:06:08,840 --> 00:06:10,830 takes a really long time and I'm just going to go to all cores now what you 00:06:10,830 --> 00:06:10,840 going to go to all cores now what you 00:06:10,840 --> 00:06:13,469 going to go to all cores now what you could do is if you set this to Auto you 00:06:13,469 --> 00:06:13,479 could do is if you set this to Auto you 00:06:13,479 --> 00:06:15,390 could do is if you set this to Auto you can hit start optimizing and it'll go 00:06:15,390 --> 00:06:15,400 can hit start optimizing and it'll go 00:06:15,400 --> 00:06:18,189 can hit start optimizing and it'll go through the process of optimizing all of 00:06:18,189 --> 00:06:18,199 through the process of optimizing all of 00:06:18,199 --> 00:06:20,309 through the process of optimizing all of the different cores to find out what 00:06:20,309 --> 00:06:20,319 the different cores to find out what 00:06:20,319 --> 00:06:22,589 the different cores to find out what offset they can actually take however I 00:06:22,589 --> 00:06:22,599 offset they can actually take however I 00:06:22,599 --> 00:06:24,270 offset they can actually take however I have found that not only is this 00:06:24,270 --> 00:06:24,280 have found that not only is this 00:06:24,280 --> 00:06:27,070 have found that not only is this relatively inaccurate but it also takes 00:06:27,070 --> 00:06:27,080 relatively inaccurate but it also takes 00:06:27,080 --> 00:06:28,909 relatively inaccurate but it also takes an incredible amount of time so I like 00:06:28,909 --> 00:06:28,919 an incredible amount of time so I like 00:06:28,919 --> 00:06:31,150 an incredible amount of time so I like to go to manual and just set an offset 00:06:31,150 --> 00:06:31,160 to go to manual and just set an offset 00:06:31,160 --> 00:06:33,390 to go to manual and just set an offset and see how the system runs now as you 00:06:33,390 --> 00:06:33,400 and see how the system runs now as you 00:06:33,400 --> 00:06:35,230 and see how the system runs now as you probably know I've already tested mine 00:06:35,230 --> 00:06:35,240 probably know I've already tested mine 00:06:35,240 --> 00:06:38,589 probably know I've already tested mine out and I can take the minimum of A50 00:06:38,589 --> 00:06:38,599 out and I can take the minimum of A50 00:06:38,599 --> 00:06:40,749 out and I can take the minimum of A50 offset on this processor which I was 00:06:40,749 --> 00:06:40,759 offset on this processor which I was 00:06:40,759 --> 00:06:42,390 offset on this processor which I was actually kind of surprised by but we're 00:06:42,390 --> 00:06:42,400 actually kind of surprised by but we're 00:06:42,400 --> 00:06:44,189 actually kind of surprised by but we're going to go ahead and leave it at that 00:06:44,189 --> 00:06:44,199 going to go ahead and leave it at that 00:06:44,199 --> 00:06:45,870 going to go ahead and leave it at that and we're going to go ahead and apply 00:06:45,870 --> 00:06:45,880 and we're going to go ahead and apply 00:06:45,880 --> 00:06:47,909 and we're going to go ahead and apply this right now so to do that all we have 00:06:47,909 --> 00:06:47,919 this right now so to do that all we have 00:06:47,919 --> 00:06:50,189 this right now so to do that all we have to do is just save the profile and then 00:06:50,189 --> 00:06:50,199 to do is just save the profile and then 00:06:50,199 --> 00:06:52,550 to do is just save the profile and then hit apply now when we hit apply it's 00:06:52,550 --> 00:06:52,560 hit apply now when we hit apply it's 00:06:52,560 --> 00:06:54,070 hit apply now when we hit apply it's going to want to restart the systems 00:06:54,070 --> 00:06:54,080 going to want to restart the systems 00:06:54,080 --> 00:06:55,710 going to want to restart the systems just in case you have anything open in 00:06:55,710 --> 00:06:55,720 just in case you have anything open in 00:06:55,720 --> 00:06:57,469 just in case you have anything open in the background so once we're done we're 00:06:57,469 --> 00:06:57,479 the background so once we're done we're 00:06:57,479 --> 00:06:59,230 the background so once we're done we're going to go ahead and hit restart now 00:06:59,230 --> 00:06:59,240 going to go ahead and hit restart now 00:06:59,240 --> 00:07:02,510 going to go ahead and hit restart now and hit okay now the curve Optimizer is 00:07:02,510 --> 00:07:02,520 and hit okay now the curve Optimizer is 00:07:02,520 --> 00:07:05,110 and hit okay now the curve Optimizer is one that I never had really played with 00:07:05,110 --> 00:07:05,120 one that I never had really played with 00:07:05,120 --> 00:07:07,830 one that I never had really played with before because it always took way too 00:07:07,830 --> 00:07:07,840 before because it always took way too 00:07:07,840 --> 00:07:10,629 before because it always took way too long for the computer to figure it out 00:07:10,629 --> 00:07:10,639 long for the computer to figure it out 00:07:10,639 --> 00:07:13,150 long for the computer to figure it out now if you set the curve Optimizer to 00:07:13,150 --> 00:07:13,160 now if you set the curve Optimizer to 00:07:13,160 --> 00:07:16,110 now if you set the curve Optimizer to automatic offset then it will test every 00:07:16,110 --> 00:07:16,120 automatic offset then it will test every 00:07:16,120 --> 00:07:18,670 automatic offset then it will test every single core to see what offset it's 00:07:18,670 --> 00:07:18,680 single core to see what offset it's 00:07:18,680 --> 00:07:20,909 single core to see what offset it's capable of running at if you do this on 00:07:20,909 --> 00:07:20,919 capable of running at if you do this on 00:07:20,919 --> 00:07:24,629 capable of running at if you do this on a per core basis it can take hours 00:07:24,629 --> 00:07:24,639 a per core basis it can take hours 00:07:24,639 --> 00:07:27,029 a per core basis it can take hours however you don't have to do that in 00:07:27,029 --> 00:07:27,039 however you don't have to do that in 00:07:27,039 --> 00:07:29,510 however you don't have to do that in fact I found it to be a lot easier just 00:07:29,510 --> 00:07:29,520 fact I found it to be a lot easier just 00:07:29,520 --> 00:07:31,869 fact I found it to be a lot easier just just to set it up with a manual offset 00:07:31,869 --> 00:07:31,879 just to set it up with a manual offset 00:07:31,879 --> 00:07:35,029 just to set it up with a manual offset not only does this take a lot less time 00:07:35,029 --> 00:07:35,039 not only does this take a lot less time 00:07:35,039 --> 00:07:36,909 not only does this take a lot less time but typically the automatic offset will 00:07:36,909 --> 00:07:36,919 but typically the automatic offset will 00:07:36,919 --> 00:07:39,029 but typically the automatic offset will give you an invalid offset that will end 00:07:39,029 --> 00:07:39,039 give you an invalid offset that will end 00:07:39,039 --> 00:07:41,110 give you an invalid offset that will end up having to be troubleshooted manually 00:07:41,110 --> 00:07:41,120 up having to be troubleshooted manually 00:07:41,120 --> 00:07:44,070 up having to be troubleshooted manually anyway now the way curve Optimizer works 00:07:44,070 --> 00:07:44,080 anyway now the way curve Optimizer works 00:07:44,080 --> 00:07:46,029 anyway now the way curve Optimizer works is kind of like an undervolt let me 00:07:46,029 --> 00:07:46,039 is kind of like an undervolt let me 00:07:46,039 --> 00:07:49,869 is kind of like an undervolt let me explain so as your processor boosts it 00:07:49,869 --> 00:07:49,879 explain so as your processor boosts it 00:07:49,879 --> 00:07:52,670 explain so as your processor boosts it increases its vcore voltage based on 00:07:52,670 --> 00:07:52,680 increases its vcore voltage based on 00:07:52,680 --> 00:07:54,749 increases its vcore voltage based on what frequency the processor happens to 00:07:54,749 --> 00:07:54,759 what frequency the processor happens to 00:07:54,759 --> 00:07:57,950 what frequency the processor happens to be running at so at this absolute Peak 00:07:57,950 --> 00:07:57,960 be running at so at this absolute Peak 00:07:57,960 --> 00:08:00,469 be running at so at this absolute Peak boost it might be running running at 00:08:00,469 --> 00:08:00,479 boost it might be running running at 00:08:00,479 --> 00:08:04,510 boost it might be running running at 1.27 molts but when your processor is 00:08:04,510 --> 00:08:04,520 1.27 molts but when your processor is 00:08:04,520 --> 00:08:07,390 1.27 molts but when your processor is running at 2 GHz it could be running at 00:08:07,390 --> 00:08:07,400 running at 2 GHz it could be running at 00:08:07,400 --> 00:08:09,950 running at 2 GHz it could be running at point8 molts now the way the curve 00:08:09,950 --> 00:08:09,960 point8 molts now the way the curve 00:08:09,960 --> 00:08:12,550 point8 molts now the way the curve Optimizer works is it uses an offset 00:08:12,550 --> 00:08:12,560 Optimizer works is it uses an offset 00:08:12,560 --> 00:08:14,990 Optimizer works is it uses an offset value that can be either positive or 00:08:14,990 --> 00:08:15,000 value that can be either positive or 00:08:15,000 --> 00:08:17,510 value that can be either positive or negative to move the entire voltage 00:08:17,510 --> 00:08:17,520 negative to move the entire voltage 00:08:17,520 --> 00:08:20,589 negative to move the entire voltage curve now these offset values aren't 00:08:20,589 --> 00:08:20,599 curve now these offset values aren't 00:08:20,599 --> 00:08:23,149 curve now these offset values aren't directly related to molts you know like 00:08:23,149 --> 00:08:23,159 directly related to molts you know like 00:08:23,159 --> 00:08:26,350 directly related to molts you know like undervolting is rather a negative - one 00:08:26,350 --> 00:08:26,360 undervolting is rather a negative - one 00:08:26,360 --> 00:08:30,350 undervolting is rather a negative - one offset will move the voltage curve by 00:08:30,350 --> 00:08:30,360 offset will move the voltage curve by 00:08:30,360 --> 00:08:33,589 offset will move the voltage curve by 0.006 molts this means that when you hit 00:08:33,589 --> 00:08:33,599 0.006 molts this means that when you hit 00:08:33,599 --> 00:08:36,509 0.006 molts this means that when you hit your maximum boost clock your vcor 00:08:36,509 --> 00:08:36,519 your maximum boost clock your vcor 00:08:36,519 --> 00:08:40,670 your maximum boost clock your vcor voltage will actually be 0.6 molts lower 00:08:40,670 --> 00:08:40,680 voltage will actually be 0.6 molts lower 00:08:40,680 --> 00:08:42,589 voltage will actually be 0.6 molts lower than it would have been without the 00:08:42,589 --> 00:08:42,599 than it would have been without the 00:08:42,599 --> 00:08:44,990 than it would have been without the offset now if you change the offset 00:08:44,990 --> 00:08:45,000 offset now if you change the offset 00:08:45,000 --> 00:08:47,990 offset now if you change the offset value to a positive one then what you 00:08:47,990 --> 00:08:48,000 value to a positive one then what you 00:08:48,000 --> 00:08:50,750 value to a positive one then what you hit your maximum boost clock your VC cor 00:08:50,750 --> 00:08:50,760 hit your maximum boost clock your VC cor 00:08:50,760 --> 00:08:54,310 hit your maximum boost clock your VC cor voltage will be 0.6 Mill volts higher 00:08:54,310 --> 00:08:54,320 voltage will be 0.6 Mill volts higher 00:08:54,320 --> 00:08:56,310 voltage will be 0.6 Mill volts higher than it would have been and the entire 00:08:56,310 --> 00:08:56,320 than it would have been and the entire 00:08:56,320 --> 00:08:58,350 than it would have been and the entire voltage curve is moved in the same 00:08:58,350 --> 00:08:58,360 voltage curve is moved in the same 00:08:58,360 --> 00:09:00,670 voltage curve is moved in the same amount now with all that said there's 00:09:00,670 --> 00:09:00,680 amount now with all that said there's 00:09:00,680 --> 00:09:02,630 amount now with all that said there's really no practical reason why you would 00:09:02,630 --> 00:09:02,640 really no practical reason why you would 00:09:02,640 --> 00:09:05,829 really no practical reason why you would want to use a positive offset value 00:09:05,829 --> 00:09:05,839 want to use a positive offset value 00:09:05,839 --> 00:09:07,110 want to use a positive offset value that's just going to increase your 00:09:07,110 --> 00:09:07,120 that's just going to increase your 00:09:07,120 --> 00:09:09,269 that's just going to increase your temperature and not allow your processor 00:09:09,269 --> 00:09:09,279 temperature and not allow your processor 00:09:09,279 --> 00:09:12,150 temperature and not allow your processor to boost as high as it would have so if 00:09:12,150 --> 00:09:12,160 to boost as high as it would have so if 00:09:12,160 --> 00:09:14,190 to boost as high as it would have so if you're finding that you're having to go 00:09:14,190 --> 00:09:14,200 you're finding that you're having to go 00:09:14,200 --> 00:09:16,870 you're finding that you're having to go to posit positive offsets then there's 00:09:16,870 --> 00:09:16,880 to posit positive offsets then there's 00:09:16,880 --> 00:09:18,150 to posit positive offsets then there's probably something wrong with your 00:09:18,150 --> 00:09:18,160 probably something wrong with your 00:09:18,160 --> 00:09:21,030 probably something wrong with your processor now unlike undervolting the 00:09:21,030 --> 00:09:21,040 processor now unlike undervolting the 00:09:21,040 --> 00:09:22,829 processor now unlike undervolting the way that the curve Optimizer works is it 00:09:22,829 --> 00:09:22,839 way that the curve Optimizer works is it 00:09:22,839 --> 00:09:24,829 way that the curve Optimizer works is it allows you to adjust the voltage curve 00:09:24,829 --> 00:09:24,839 allows you to adjust the voltage curve 00:09:24,839 --> 00:09:28,030 allows you to adjust the voltage curve for each specific core individually so 00:09:28,030 --> 00:09:28,040 for each specific core individually so 00:09:28,040 --> 00:09:30,350 for each specific core individually so let's say out of a six core processor 00:09:30,350 --> 00:09:30,360 let's say out of a six core processor 00:09:30,360 --> 00:09:33,550 let's say out of a six core processor you have two really strong cores and 00:09:33,550 --> 00:09:33,560 you have two really strong cores and 00:09:33,560 --> 00:09:36,430 you have two really strong cores and four that are not so strong you could 00:09:36,430 --> 00:09:36,440 four that are not so strong you could 00:09:36,440 --> 00:09:39,190 four that are not so strong you could set a lower curve on the two strong 00:09:39,190 --> 00:09:39,200 set a lower curve on the two strong 00:09:39,200 --> 00:09:41,750 set a lower curve on the two strong cores and a higher curve on the four 00:09:41,750 --> 00:09:41,760 cores and a higher curve on the four 00:09:41,760 --> 00:09:44,590 cores and a higher curve on the four weak ones also curve Optimizer allows 00:09:44,590 --> 00:09:44,600 weak ones also curve Optimizer allows 00:09:44,600 --> 00:09:47,990 weak ones also curve Optimizer allows you to change the curve per CCX as well 00:09:47,990 --> 00:09:48,000 you to change the curve per CCX as well 00:09:48,000 --> 00:09:50,030 you to change the curve per CCX as well now we're dealing with a ryzen 00:09:50,030 --> 00:09:50,040 now we're dealing with a ryzen 00:09:50,040 --> 00:09:53,910 now we're dealing with a ryzen 57600 so we only have the single CCX but 00:09:53,910 --> 00:09:53,920 57600 so we only have the single CCX but 00:09:53,920 --> 00:09:55,829 57600 so we only have the single CCX but if you have a ryzen that came with two 00:09:55,829 --> 00:09:55,839 if you have a ryzen that came with two 00:09:55,839 --> 00:09:58,310 if you have a ryzen that came with two CCX then you would be able to adjust the 00:09:58,310 --> 00:09:58,320 CCX then you would be able to adjust the 00:09:58,320 --> 00:10:01,230 CCX then you would be able to adjust the voltage curve for each CCX individually 00:10:01,230 --> 00:10:01,240 voltage curve for each CCX individually 00:10:01,240 --> 00:10:02,910 voltage curve for each CCX individually so if you had one that would handle a 00:10:02,910 --> 00:10:02,920 so if you had one that would handle a 00:10:02,920 --> 00:10:04,949 so if you had one that would handle a lower voltage then you could benefit 00:10:04,949 --> 00:10:04,959 lower voltage then you could benefit 00:10:04,959 --> 00:10:07,269 lower voltage then you could benefit from it now let's jump back on the 00:10:07,269 --> 00:10:07,279 from it now let's jump back on the 00:10:07,279 --> 00:10:10,069 from it now let's jump back on the computer and test our new curve 00:10:10,069 --> 00:10:10,079 computer and test our new curve 00:10:10,079 --> 00:10:11,509 computer and test our new curve Optimizer 00:10:11,509 --> 00:10:11,519 Optimizer 00:10:11,519 --> 00:10:14,350 Optimizer offset okay so every time you run ryzen 00:10:14,350 --> 00:10:14,360 offset okay so every time you run ryzen 00:10:14,360 --> 00:10:15,870 offset okay so every time you run ryzen master or you change the settings in 00:10:15,870 --> 00:10:15,880 master or you change the settings in 00:10:15,880 --> 00:10:18,110 master or you change the settings in ryzen master when you restart it's 00:10:18,110 --> 00:10:18,120 ryzen master when you restart it's 00:10:18,120 --> 00:10:19,790 ryzen master when you restart it's automatically going to open up ryzen 00:10:19,790 --> 00:10:19,800 automatically going to open up ryzen 00:10:19,800 --> 00:10:22,269 automatically going to open up ryzen Master again now the reason why it does 00:10:22,269 --> 00:10:22,279 Master again now the reason why it does 00:10:22,279 --> 00:10:24,550 Master again now the reason why it does this is because it wants to know if the 00:10:24,550 --> 00:10:24,560 this is because it wants to know if the 00:10:24,560 --> 00:10:27,190 this is because it wants to know if the settings you changed were reliable if 00:10:27,190 --> 00:10:27,200 settings you changed were reliable if 00:10:27,200 --> 00:10:29,389 settings you changed were reliable if they weren't then it obviously wouldn't 00:10:29,389 --> 00:10:29,399 they weren't then it obviously wouldn't 00:10:29,399 --> 00:10:31,030 they weren't then it obviously wouldn't open the program up again and then if 00:10:31,030 --> 00:10:31,040 open the program up again and then if 00:10:31,040 --> 00:10:33,430 open the program up again and then if you did end up rebooting it wouldn't 00:10:33,430 --> 00:10:33,440 you did end up rebooting it wouldn't 00:10:33,440 --> 00:10:34,829 you did end up rebooting it wouldn't save those settings it would go back to 00:10:34,829 --> 00:10:34,839 save those settings it would go back to 00:10:34,839 --> 00:10:37,430 save those settings it would go back to its default settings so now that we got 00:10:37,430 --> 00:10:37,440 its default settings so now that we got 00:10:37,440 --> 00:10:38,750 its default settings so now that we got this fired up I want to go ahead and run 00:10:38,750 --> 00:10:38,760 this fired up I want to go ahead and run 00:10:38,760 --> 00:10:40,590 this fired up I want to go ahead and run cin bench again real quick just to kind 00:10:40,590 --> 00:10:40,600 cin bench again real quick just to kind 00:10:40,600 --> 00:10:43,550 cin bench again real quick just to kind of compare it to what we did originally 00:10:43,550 --> 00:10:43,560 of compare it to what we did originally 00:10:43,560 --> 00:10:45,269 of compare it to what we did originally when we first started this is remember 00:10:45,269 --> 00:10:45,279 when we first started this is remember 00:10:45,279 --> 00:10:47,389 when we first started this is remember before our power limit was spiked the 00:10:47,389 --> 00:10:47,399 before our power limit was spiked the 00:10:47,399 --> 00:10:49,389 before our power limit was spiked the whole time and we weren't able to hit 00:10:49,389 --> 00:10:49,399 whole time and we weren't able to hit 00:10:49,399 --> 00:10:51,269 whole time and we weren't able to hit our maximum boost speed so we're going 00:10:51,269 --> 00:10:51,279 our maximum boost speed so we're going 00:10:51,279 --> 00:10:53,269 our maximum boost speed so we're going to see if we can now so to do that all 00:10:53,269 --> 00:10:53,279 to see if we can now so to do that all 00:10:53,279 --> 00:10:54,990 to see if we can now so to do that all we're going to do is start a multicore 00:10:54,990 --> 00:10:55,000 we're going to do is start a multicore 00:10:55,000 --> 00:10:56,870 we're going to do is start a multicore test and we're going to jump back into 00:10:56,870 --> 00:10:56,880 test and we're going to jump back into 00:10:56,880 --> 00:10:58,910 test and we're going to jump back into ryzen Master here and we're going to let 00:10:58,910 --> 00:10:58,920 ryzen Master here and we're going to let 00:10:58,920 --> 00:11:00,829 ryzen Master here and we're going to let it go and as you can see we are 00:11:00,829 --> 00:11:00,839 it go and as you can see we are 00:11:00,839 --> 00:11:02,790 it go and as you can see we are definitely not within our power limit 00:11:02,790 --> 00:11:02,800 definitely not within our power limit 00:11:02,800 --> 00:11:04,629 definitely not within our power limit and we're over our boost speed we're 00:11:04,629 --> 00:11:04,639 and we're over our boost speed we're 00:11:04,639 --> 00:11:08,030 and we're over our boost speed we're sitting at 5130 and it's sitting it's 00:11:08,030 --> 00:11:08,040 sitting at 5130 and it's sitting it's 00:11:08,040 --> 00:11:09,470 sitting at 5130 and it's sitting it's essentially not moving at all it's 00:11:09,470 --> 00:11:09,480 essentially not moving at all it's 00:11:09,480 --> 00:11:11,389 essentially not moving at all it's staying there and the reason why is 00:11:11,389 --> 00:11:11,399 staying there and the reason why is 00:11:11,399 --> 00:11:13,509 staying there and the reason why is because we're well within all of our 00:11:13,509 --> 00:11:13,519 because we're well within all of our 00:11:13,519 --> 00:11:15,910 because we're well within all of our other specs our temperature limit is way 00:11:15,910 --> 00:11:15,920 other specs our temperature limit is way 00:11:15,920 --> 00:11:17,629 other specs our temperature limit is way lower than it needs to be in fact if you 00:11:17,629 --> 00:11:17,639 lower than it needs to be in fact if you 00:11:17,639 --> 00:11:21,110 lower than it needs to be in fact if you notice we were sitting in the low 70s 00:11:21,110 --> 00:11:21,120 notice we were sitting in the low 70s 00:11:21,120 --> 00:11:22,790 notice we were sitting in the low 70s when before we touched anything and now 00:11:22,790 --> 00:11:22,800 when before we touched anything and now 00:11:22,800 --> 00:11:25,590 when before we touched anything and now we're sitting in the low 60s so that's a 00:11:25,590 --> 00:11:25,600 we're sitting in the low 60s so that's a 00:11:25,600 --> 00:11:27,509 we're sitting in the low 60s so that's a pretty good benefit right there so we 00:11:27,509 --> 00:11:27,519 pretty good benefit right there so we 00:11:27,519 --> 00:11:30,470 pretty good benefit right there so we essentially lost like 10° C on our 00:11:30,470 --> 00:11:30,480 essentially lost like 10° C on our 00:11:30,480 --> 00:11:32,990 essentially lost like 10° C on our temperature but we're also not power 00:11:32,990 --> 00:11:33,000 temperature but we're also not power 00:11:33,000 --> 00:11:35,509 temperature but we're also not power limited it at all we're sitting at 7% of 00:11:35,509 --> 00:11:35,519 limited it at all we're sitting at 7% of 00:11:35,519 --> 00:11:37,949 limited it at all we're sitting at 7% of our power limit so the next thing that I 00:11:37,949 --> 00:11:37,959 our power limit so the next thing that I 00:11:37,959 --> 00:11:39,350 our power limit so the next thing that I want to do is set up an automatic 00:11:39,350 --> 00:11:39,360 want to do is set up an automatic 00:11:39,360 --> 00:11:41,389 want to do is set up an automatic overclock essentially all this is going 00:11:41,389 --> 00:11:41,399 overclock essentially all this is going 00:11:41,399 --> 00:11:44,430 overclock essentially all this is going to do is change the maximum boost clock 00:11:44,430 --> 00:11:44,440 to do is change the maximum boost clock 00:11:44,440 --> 00:11:46,990 to do is change the maximum boost clock ryzen Master lets you set this to 200 00:11:46,990 --> 00:11:47,000 ryzen Master lets you set this to 200 00:11:47,000 --> 00:11:49,990 ryzen Master lets you set this to 200 mahz over your cpu's factory maximum 00:11:49,990 --> 00:11:50,000 mahz over your cpu's factory maximum 00:11:50,000 --> 00:11:51,829 mahz over your cpu's factory maximum boost clock so let's jump back on the 00:11:51,829 --> 00:11:51,839 boost clock so let's jump back on the 00:11:51,839 --> 00:11:54,829 boost clock so let's jump back on the system and let's get it set up okay so 00:11:54,829 --> 00:11:54,839 system and let's get it set up okay so 00:11:54,839 --> 00:11:56,430 system and let's get it set up okay so we're going to go ahead and close C 00:11:56,430 --> 00:11:56,440 we're going to go ahead and close C 00:11:56,440 --> 00:11:57,710 we're going to go ahead and close C bench here CU we're not going to need it 00:11:57,710 --> 00:11:57,720 bench here CU we're not going to need it 00:11:57,720 --> 00:11:59,470 bench here CU we're not going to need it anymore and we're going to go ahead and 00:11:59,470 --> 00:11:59,480 anymore and we're going to go ahead and 00:11:59,480 --> 00:12:01,710 anymore and we're going to go ahead and jump over to the curve Optimizer again 00:12:01,710 --> 00:12:01,720 jump over to the curve Optimizer again 00:12:01,720 --> 00:12:03,590 jump over to the curve Optimizer again now from curve Optimizer the way that we 00:12:03,590 --> 00:12:03,600 now from curve Optimizer the way that we 00:12:03,600 --> 00:12:05,230 now from curve Optimizer the way that we set up our Auto overclocking is 00:12:05,230 --> 00:12:05,240 set up our Auto overclocking is 00:12:05,240 --> 00:12:07,750 set up our Auto overclocking is essentially just by clicking on the tab 00:12:07,750 --> 00:12:07,760 essentially just by clicking on the tab 00:12:07,760 --> 00:12:10,230 essentially just by clicking on the tab Auto overclocking now all of our other 00:12:10,230 --> 00:12:10,240 Auto overclocking now all of our other 00:12:10,240 --> 00:12:12,550 Auto overclocking now all of our other settings for our curve Optimizer and our 00:12:12,550 --> 00:12:12,560 settings for our curve Optimizer and our 00:12:12,560 --> 00:12:14,590 settings for our curve Optimizer and our Precision boost overdrive should remain 00:12:14,590 --> 00:12:14,600 Precision boost overdrive should remain 00:12:14,600 --> 00:12:16,389 Precision boost overdrive should remain the same however it's going to give us 00:12:16,389 --> 00:12:16,399 the same however it's going to give us 00:12:16,399 --> 00:12:18,750 the same however it's going to give us this one new box right here that allows 00:12:18,750 --> 00:12:18,760 this one new box right here that allows 00:12:18,760 --> 00:12:20,990 this one new box right here that allows us to change what our boost override Is 00:12:20,990 --> 00:12:21,000 us to change what our boost override Is 00:12:21,000 --> 00:12:23,670 us to change what our boost override Is Now by default it's going to be 100 MHz 00:12:23,670 --> 00:12:23,680 Now by default it's going to be 100 MHz 00:12:23,680 --> 00:12:25,430 Now by default it's going to be 100 MHz however we want more we're going to go 00:12:25,430 --> 00:12:25,440 however we want more we're going to go 00:12:25,440 --> 00:12:27,750 however we want more we're going to go all the way to 200 and then once you set 00:12:27,750 --> 00:12:27,760 all the way to 200 and then once you set 00:12:27,760 --> 00:12:29,590 all the way to 200 and then once you set that you essentially just apply it and 00:12:29,590 --> 00:12:29,600 that you essentially just apply it and 00:12:29,600 --> 00:12:31,870 that you essentially just apply it and it restarts the system and it should be 00:12:31,870 --> 00:12:31,880 it restarts the system and it should be 00:12:31,880 --> 00:12:33,710 it restarts the system and it should be similar like it did before as soon as 00:12:33,710 --> 00:12:33,720 similar like it did before as soon as 00:12:33,720 --> 00:12:35,389 similar like it did before as soon as you hit okay it'll go ahead and reboot 00:12:35,389 --> 00:12:35,399 you hit okay it'll go ahead and reboot 00:12:35,399 --> 00:12:37,790 you hit okay it'll go ahead and reboot the computer so now that we have 00:12:37,790 --> 00:12:37,800 the computer so now that we have 00:12:37,800 --> 00:12:40,150 the computer so now that we have Precision boost overdrive configured we 00:12:40,150 --> 00:12:40,160 Precision boost overdrive configured we 00:12:40,160 --> 00:12:42,150 Precision boost overdrive configured we need to see just how well this thing 00:12:42,150 --> 00:12:42,160 need to see just how well this thing 00:12:42,160 --> 00:12:44,470 need to see just how well this thing performs just like last week I'm doing 00:12:44,470 --> 00:12:44,480 performs just like last week I'm doing 00:12:44,480 --> 00:12:48,110 performs just like last week I'm doing all this testing in cinebench R23 now as 00:12:48,110 --> 00:12:48,120 all this testing in cinebench R23 now as 00:12:48,120 --> 00:12:49,870 all this testing in cinebench R23 now as you can see from this graph enabling 00:12:49,870 --> 00:12:49,880 you can see from this graph enabling 00:12:49,880 --> 00:12:52,350 you can see from this graph enabling Precision boost overdrive alone 00:12:52,350 --> 00:12:52,360 Precision boost overdrive alone 00:12:52,360 --> 00:12:54,829 Precision boost overdrive alone increased our temperature now that makes 00:12:54,829 --> 00:12:54,839 increased our temperature now that makes 00:12:54,839 --> 00:12:57,269 increased our temperature now that makes sense because we're essentially took 00:12:57,269 --> 00:12:57,279 sense because we're essentially took 00:12:57,279 --> 00:12:59,670 sense because we're essentially took away all of its power limits 00:12:59,670 --> 00:12:59,680 away all of its power limits 00:12:59,680 --> 00:13:02,470 away all of its power limits so with the water cooling by itself we 00:13:02,470 --> 00:13:02,480 so with the water cooling by itself we 00:13:02,480 --> 00:13:05,829 so with the water cooling by itself we averaged around 77 C but by enabling 00:13:05,829 --> 00:13:05,839 averaged around 77 C but by enabling 00:13:05,839 --> 00:13:08,189 averaged around 77 C but by enabling Precision boost overdrive we averaged 00:13:08,189 --> 00:13:08,199 Precision boost overdrive we averaged 00:13:08,199 --> 00:13:11,230 Precision boost overdrive we averaged around 83c now if we switch over and 00:13:11,230 --> 00:13:11,240 around 83c now if we switch over and 00:13:11,240 --> 00:13:12,590 around 83c now if we switch over and look at the frequencies that we were 00:13:12,590 --> 00:13:12,600 look at the frequencies that we were 00:13:12,600 --> 00:13:14,910 look at the frequencies that we were able to hit we didn't get much for 00:13:14,910 --> 00:13:14,920 able to hit we didn't get much for 00:13:14,920 --> 00:13:17,110 able to hit we didn't get much for eliminating our power limits I mean we 00:13:17,110 --> 00:13:17,120 eliminating our power limits I mean we 00:13:17,120 --> 00:13:19,910 eliminating our power limits I mean we got a little bit more but not enough to 00:13:19,910 --> 00:13:19,920 got a little bit more but not enough to 00:13:19,920 --> 00:13:21,670 got a little bit more but not enough to justify the increase in temperature at 00:13:21,670 --> 00:13:21,680 justify the increase in temperature at 00:13:21,680 --> 00:13:23,670 justify the increase in temperature at all with the factory settings we 00:13:23,670 --> 00:13:23,680 all with the factory settings we 00:13:23,680 --> 00:13:25,189 all with the factory settings we averaged 00:13:25,189 --> 00:13:25,199 averaged 00:13:25,199 --> 00:13:28,150 averaged 4,971 MHz and with Precision boost 00:13:28,150 --> 00:13:28,160 4,971 MHz and with Precision boost 00:13:28,160 --> 00:13:30,389 4,971 MHz and with Precision boost overdrive we Aver averaged 00:13:30,389 --> 00:13:30,399 overdrive we Aver averaged 00:13:30,399 --> 00:13:34,470 overdrive we Aver averaged 4,986 mahz that gave us a whopping 15 00:13:34,470 --> 00:13:34,480 4,986 mahz that gave us a whopping 15 00:13:34,480 --> 00:13:38,389 4,986 mahz that gave us a whopping 15 MHz that cost us a whopping 6° increase 00:13:38,389 --> 00:13:38,399 MHz that cost us a whopping 6° increase 00:13:38,399 --> 00:13:40,710 MHz that cost us a whopping 6° increase in our average temperature now the 00:13:40,710 --> 00:13:40,720 in our average temperature now the 00:13:40,720 --> 00:13:42,710 in our average temperature now the reason why this happened is because 00:13:42,710 --> 00:13:42,720 reason why this happened is because 00:13:42,720 --> 00:13:45,949 reason why this happened is because while we did get rid of the power limit 00:13:45,949 --> 00:13:45,959 while we did get rid of the power limit 00:13:45,959 --> 00:13:48,629 while we did get rid of the power limit that was holding us back we ran right 00:13:48,629 --> 00:13:48,639 that was holding us back we ran right 00:13:48,639 --> 00:13:51,350 that was holding us back we ran right into the thermal limit again so in this 00:13:51,350 --> 00:13:51,360 into the thermal limit again so in this 00:13:51,360 --> 00:13:53,870 into the thermal limit again so in this case enabling Precision boost overdrive 00:13:53,870 --> 00:13:53,880 case enabling Precision boost overdrive 00:13:53,880 --> 00:13:56,670 case enabling Precision boost overdrive just wasn't worth it however all that 00:13:56,670 --> 00:13:56,680 just wasn't worth it however all that 00:13:56,680 --> 00:13:58,590 just wasn't worth it however all that changes once we enabled the curve 00:13:58,590 --> 00:13:58,600 changes once we enabled the curve 00:13:58,600 --> 00:13:59,710 changes once we enabled the curve optimize 00:13:59,710 --> 00:13:59,720 optimize 00:13:59,720 --> 00:14:01,949 optimize because as you can see here our 00:14:01,949 --> 00:14:01,959 because as you can see here our 00:14:01,959 --> 00:14:04,590 because as you can see here our temperature got a huge improvement from 00:14:04,590 --> 00:14:04,600 temperature got a huge improvement from 00:14:04,600 --> 00:14:07,389 temperature got a huge improvement from the curve Optimizer now granted I'm 00:14:07,389 --> 00:14:07,399 the curve Optimizer now granted I'm 00:14:07,399 --> 00:14:11,110 the curve Optimizer now granted I'm running a -50 offset so if you can't get 00:14:11,110 --> 00:14:11,120 running a -50 offset so if you can't get 00:14:11,120 --> 00:14:13,550 running a -50 offset so if you can't get that high of a negative offset then your 00:14:13,550 --> 00:14:13,560 that high of a negative offset then your 00:14:13,560 --> 00:14:15,990 that high of a negative offset then your results are going to vary of course 00:14:15,990 --> 00:14:16,000 results are going to vary of course 00:14:16,000 --> 00:14:18,629 results are going to vary of course however with the Curve Optimizer enabled 00:14:18,629 --> 00:14:18,639 however with the Curve Optimizer enabled 00:14:18,639 --> 00:14:21,829 however with the Curve Optimizer enabled we got an average temperature of 64 C 00:14:21,829 --> 00:14:21,839 we got an average temperature of 64 C 00:14:21,839 --> 00:14:24,509 we got an average temperature of 64 C that's a 13° drop in our average 00:14:24,509 --> 00:14:24,519 that's a 13° drop in our average 00:14:24,519 --> 00:14:27,030 that's a 13° drop in our average temperature from the factory settings 00:14:27,030 --> 00:14:27,040 temperature from the factory settings 00:14:27,040 --> 00:14:30,150 temperature from the factory settings and a 19° drop from just having 00:14:30,150 --> 00:14:30,160 and a 19° drop from just having 00:14:30,160 --> 00:14:32,829 and a 19° drop from just having Precision boost overdrive enabled alone 00:14:32,829 --> 00:14:32,839 Precision boost overdrive enabled alone 00:14:32,839 --> 00:14:36,230 Precision boost overdrive enabled alone so let's flip over to this graph and see 00:14:36,230 --> 00:14:36,240 so let's flip over to this graph and see 00:14:36,240 --> 00:14:38,710 so let's flip over to this graph and see what this gives us for our frequencies 00:14:38,710 --> 00:14:38,720 what this gives us for our frequencies 00:14:38,720 --> 00:14:40,629 what this gives us for our frequencies as you can see we finally hit our 00:14:40,629 --> 00:14:40,639 as you can see we finally hit our 00:14:40,639 --> 00:14:43,389 as you can see we finally hit our advertised boost speed on all cores and 00:14:43,389 --> 00:14:43,399 advertised boost speed on all cores and 00:14:43,399 --> 00:14:45,749 advertised boost speed on all cores and it was extremely stable as you saw in 00:14:45,749 --> 00:14:45,759 it was extremely stable as you saw in 00:14:45,759 --> 00:14:48,470 it was extremely stable as you saw in the example in fact the average boost 00:14:48,470 --> 00:14:48,480 the example in fact the average boost 00:14:48,480 --> 00:14:49,990 the example in fact the average boost clock was 00:14:49,990 --> 00:14:50,000 clock was 00:14:50,000 --> 00:14:54,069 clock was 5,140 MHz that's 40 MHz over the 00:14:54,069 --> 00:14:54,079 5,140 MHz that's 40 MHz over the 00:14:54,079 --> 00:14:57,790 5,140 MHz that's 40 MHz over the advertised boost speed of 5.1 GHz and 00:14:57,790 --> 00:14:57,800 advertised boost speed of 5.1 GHz and 00:14:57,800 --> 00:14:59,430 advertised boost speed of 5.1 GHz and it's stuck there through through the 00:14:59,430 --> 00:14:59,440 it's stuck there through through the 00:14:59,440 --> 00:15:02,269 it's stuck there through through the entire run now if we flip over to our 00:15:02,269 --> 00:15:02,279 entire run now if we flip over to our 00:15:02,279 --> 00:15:04,910 entire run now if we flip over to our power usage this is also a pretty 00:15:04,910 --> 00:15:04,920 power usage this is also a pretty 00:15:04,920 --> 00:15:07,829 power usage this is also a pretty telling graph so as you can see right 00:15:07,829 --> 00:15:07,839 telling graph so as you can see right 00:15:07,839 --> 00:15:10,590 telling graph so as you can see right off the bat that our stock configuration 00:15:10,590 --> 00:15:10,600 off the bat that our stock configuration 00:15:10,600 --> 00:15:13,269 off the bat that our stock configuration we were definitely power limited in the 00:15:13,269 --> 00:15:13,279 we were definitely power limited in the 00:15:13,279 --> 00:15:15,670 we were definitely power limited in the CPU stock configuration we averaged 00:15:15,670 --> 00:15:15,680 CPU stock configuration we averaged 00:15:15,680 --> 00:15:18,990 CPU stock configuration we averaged around 90 Watts but we saw that when we 00:15:18,990 --> 00:15:19,000 around 90 Watts but we saw that when we 00:15:19,000 --> 00:15:21,629 around 90 Watts but we saw that when we started in ryzen master then if you look 00:15:21,629 --> 00:15:21,639 started in ryzen master then if you look 00:15:21,639 --> 00:15:24,310 started in ryzen master then if you look at the red line for just Precision boost 00:15:24,310 --> 00:15:24,320 at the red line for just Precision boost 00:15:24,320 --> 00:15:27,069 at the red line for just Precision boost overdrive being enabled it makes sense 00:15:27,069 --> 00:15:27,079 overdrive being enabled it makes sense 00:15:27,079 --> 00:15:29,470 overdrive being enabled it makes sense that our power usage would go up up 00:15:29,470 --> 00:15:29,480 that our power usage would go up up 00:15:29,480 --> 00:15:32,389 that our power usage would go up up because we eliminated all power limits 00:15:32,389 --> 00:15:32,399 because we eliminated all power limits 00:15:32,399 --> 00:15:34,949 because we eliminated all power limits this caused our CPU to average around 96 00:15:34,949 --> 00:15:34,959 this caused our CPU to average around 96 00:15:34,959 --> 00:15:38,309 this caused our CPU to average around 96 Watts but this unfortunately pushed us 00:15:38,309 --> 00:15:38,319 Watts but this unfortunately pushed us 00:15:38,319 --> 00:15:40,470 Watts but this unfortunately pushed us to our thermal limit causing us to not 00:15:40,470 --> 00:15:40,480 to our thermal limit causing us to not 00:15:40,480 --> 00:15:42,949 to our thermal limit causing us to not be able to take advantage of more boost 00:15:42,949 --> 00:15:42,959 be able to take advantage of more boost 00:15:42,959 --> 00:15:45,350 be able to take advantage of more boost clocks however once we turned on the 00:15:45,350 --> 00:15:45,360 clocks however once we turned on the 00:15:45,360 --> 00:15:47,910 clocks however once we turned on the curve Optimizer as you can see from the 00:15:47,910 --> 00:15:47,920 curve Optimizer as you can see from the 00:15:47,920 --> 00:15:50,470 curve Optimizer as you can see from the graph our average power usage for the 00:15:50,470 --> 00:15:50,480 graph our average power usage for the 00:15:50,480 --> 00:15:54,509 graph our average power usage for the total CPU power dropped to 66 Watts this 00:15:54,509 --> 00:15:54,519 total CPU power dropped to 66 Watts this 00:15:54,519 --> 00:15:57,269 total CPU power dropped to 66 Watts this explains why we were able to hit and 00:15:57,269 --> 00:15:57,279 explains why we were able to hit and 00:15:57,279 --> 00:16:00,710 explains why we were able to hit and maintain our maximum boost clock and do 00:16:00,710 --> 00:16:00,720 maintain our maximum boost clock and do 00:16:00,720 --> 00:16:02,990 maintain our maximum boost clock and do all of that at a considerably lower 00:16:02,990 --> 00:16:03,000 all of that at a considerably lower 00:16:03,000 --> 00:16:05,509 all of that at a considerably lower temperature so now that we can see that 00:16:05,509 --> 00:16:05,519 temperature so now that we can see that 00:16:05,519 --> 00:16:08,350 temperature so now that we can see that the curve Optimizer definitely works 00:16:08,350 --> 00:16:08,360 the curve Optimizer definitely works 00:16:08,360 --> 00:16:10,030 the curve Optimizer definitely works what results did we get from our 00:16:10,030 --> 00:16:10,040 what results did we get from our 00:16:10,040 --> 00:16:13,749 what results did we get from our overclock well let's go to the graph as 00:16:13,749 --> 00:16:13,759 overclock well let's go to the graph as 00:16:13,759 --> 00:16:15,590 overclock well let's go to the graph as you can see here the yellow line 00:16:15,590 --> 00:16:15,600 you can see here the yellow line 00:16:15,600 --> 00:16:17,389 you can see here the yellow line indicates our temperature from our 00:16:17,389 --> 00:16:17,399 indicates our temperature from our 00:16:17,399 --> 00:16:20,509 indicates our temperature from our overclock we were pretty much all over 00:16:20,509 --> 00:16:20,519 overclock we were pretty much all over 00:16:20,519 --> 00:16:24,230 overclock we were pretty much all over the scale with it peaking at over 80° 00:16:24,230 --> 00:16:24,240 the scale with it peaking at over 80° 00:16:24,240 --> 00:16:26,150 the scale with it peaking at over 80° and dropping down as low as 00:16:26,150 --> 00:16:26,160 and dropping down as low as 00:16:26,160 --> 00:16:29,069 and dropping down as low as 73° this gave us an average temperature 00:16:29,069 --> 00:16:29,079 73° this gave us an average temperature 00:16:29,079 --> 00:16:32,949 73° this gave us an average temperature about 74° across the entire run now when 00:16:32,949 --> 00:16:32,959 about 74° across the entire run now when 00:16:32,959 --> 00:16:34,990 about 74° across the entire run now when we switch to this graph for our 00:16:34,990 --> 00:16:35,000 we switch to this graph for our 00:16:35,000 --> 00:16:37,470 we switch to this graph for our frequencies you can see that we were 00:16:37,470 --> 00:16:37,480 frequencies you can see that we were 00:16:37,480 --> 00:16:39,990 frequencies you can see that we were able to boost the 200 MHz that we had 00:16:39,990 --> 00:16:40,000 able to boost the 200 MHz that we had 00:16:40,000 --> 00:16:43,030 able to boost the 200 MHz that we had set without any problem in fact we got 00:16:43,030 --> 00:16:43,040 set without any problem in fact we got 00:16:43,040 --> 00:16:45,430 set without any problem in fact we got an average boost clock of across all 00:16:45,430 --> 00:16:45,440 an average boost clock of across all 00:16:45,440 --> 00:16:47,430 an average boost clock of across all cores of 00:16:47,430 --> 00:16:47,440 cores of 00:16:47,440 --> 00:16:52,550 cores of 5,333 MHz those are 7600 X boost speeds 00:16:52,550 --> 00:16:52,560 5,333 MHz those are 7600 X boost speeds 00:16:52,560 --> 00:16:55,910 5,333 MHz those are 7600 X boost speeds and it was stable across the entire run 00:16:55,910 --> 00:16:55,920 and it was stable across the entire run 00:16:55,920 --> 00:16:58,949 and it was stable across the entire run so that 5.3 GHz was a sustained boost 00:16:58,949 --> 00:16:58,959 so that 5.3 GHz was a sustained boost 00:16:58,959 --> 00:17:01,389 so that 5.3 GHz was a sustained boost clock now when we switch over to power 00:17:01,389 --> 00:17:01,399 clock now when we switch over to power 00:17:01,399 --> 00:17:04,029 clock now when we switch over to power usage with our overclock you can see 00:17:04,029 --> 00:17:04,039 usage with our overclock you can see 00:17:04,039 --> 00:17:07,350 usage with our overclock you can see that the purple line our power usage was 00:17:07,350 --> 00:17:07,360 that the purple line our power usage was 00:17:07,360 --> 00:17:09,470 that the purple line our power usage was definitely more than with the Curve 00:17:09,470 --> 00:17:09,480 definitely more than with the Curve 00:17:09,480 --> 00:17:12,309 definitely more than with the Curve Optimizer enabled however it was still 00:17:12,309 --> 00:17:12,319 Optimizer enabled however it was still 00:17:12,319 --> 00:17:15,150 Optimizer enabled however it was still lower than the stock configuration we 00:17:15,150 --> 00:17:15,160 lower than the stock configuration we 00:17:15,160 --> 00:17:17,829 lower than the stock configuration we averaged about 83 watts of total CPU 00:17:17,829 --> 00:17:17,839 averaged about 83 watts of total CPU 00:17:17,839 --> 00:17:20,949 averaged about 83 watts of total CPU power across the entire run while the 00:17:20,949 --> 00:17:20,959 power across the entire run while the 00:17:20,959 --> 00:17:23,870 power across the entire run while the factory configuration averaged about 89 00:17:23,870 --> 00:17:23,880 factory configuration averaged about 89 00:17:23,880 --> 00:17:26,789 factory configuration averaged about 89 Watts so for the most part I'm actually 00:17:26,789 --> 00:17:26,799 Watts so for the most part I'm actually 00:17:26,799 --> 00:17:29,070 Watts so for the most part I'm actually really pleased with the results here 00:17:29,070 --> 00:17:29,080 really pleased with the results here 00:17:29,080 --> 00:17:31,230 really pleased with the results here however these settings were only tested 00:17:31,230 --> 00:17:31,240 however these settings were only tested 00:17:31,240 --> 00:17:34,310 however these settings were only tested in cinebench I also let Heaven run for a 00:17:34,310 --> 00:17:34,320 in cinebench I also let Heaven run for a 00:17:34,320 --> 00:17:37,669 in cinebench I also let Heaven run for a couple hours just to see how stable the 00:17:37,669 --> 00:17:37,679 couple hours just to see how stable the 00:17:37,679 --> 00:17:40,870 couple hours just to see how stable the 50 offset was in the curve Optimizer and 00:17:40,870 --> 00:17:40,880 50 offset was in the curve Optimizer and 00:17:40,880 --> 00:17:44,230 50 offset was in the curve Optimizer and I didn't have a single crash so as of 00:17:44,230 --> 00:17:44,240 I didn't have a single crash so as of 00:17:44,240 --> 00:17:47,549 I didn't have a single crash so as of right now I assume the system is solid 00:17:47,549 --> 00:17:47,559 right now I assume the system is solid 00:17:47,559 --> 00:17:48,990 right now I assume the system is solid however when it comes to the curve 00:17:48,990 --> 00:17:49,000 however when it comes to the curve 00:17:49,000 --> 00:17:52,029 however when it comes to the curve Optimizer and using a relatively High 00:17:52,029 --> 00:17:52,039 Optimizer and using a relatively High 00:17:52,039 --> 00:17:54,350 Optimizer and using a relatively High offset there's a chance that you could 00:17:54,350 --> 00:17:54,360 offset there's a chance that you could 00:17:54,360 --> 00:17:57,549 offset there's a chance that you could see instability at lower clock speeds 00:17:57,549 --> 00:17:57,559 see instability at lower clock speeds 00:17:57,559 --> 00:18:00,230 see instability at lower clock speeds remember when we talked before about how 00:18:00,230 --> 00:18:00,240 remember when we talked before about how 00:18:00,240 --> 00:18:02,590 remember when we talked before about how the curve Optimizer moves the entire 00:18:02,590 --> 00:18:02,600 the curve Optimizer moves the entire 00:18:02,600 --> 00:18:05,549 the curve Optimizer moves the entire voltage curve well the lower voltage may 00:18:05,549 --> 00:18:05,559 voltage curve well the lower voltage may 00:18:05,559 --> 00:18:08,149 voltage curve well the lower voltage may be adequate to run the processor at its 00:18:08,149 --> 00:18:08,159 be adequate to run the processor at its 00:18:08,159 --> 00:18:11,310 be adequate to run the processor at its top boost speed but when you it may 00:18:11,310 --> 00:18:11,320 top boost speed but when you it may 00:18:11,320 --> 00:18:13,750 top boost speed but when you it may become unstable when it's running at 00:18:13,750 --> 00:18:13,760 become unstable when it's running at 00:18:13,760 --> 00:18:16,990 become unstable when it's running at lower speeds like 1 or two GHz so the 00:18:16,990 --> 00:18:17,000 lower speeds like 1 or two GHz so the 00:18:17,000 --> 00:18:19,029 lower speeds like 1 or two GHz so the only way to really test the curve 00:18:19,029 --> 00:18:19,039 only way to really test the curve 00:18:19,039 --> 00:18:22,029 only way to really test the curve Optimizer is by using the system 00:18:22,029 --> 00:18:22,039 Optimizer is by using the system 00:18:22,039 --> 00:18:23,510 Optimizer is by using the system ultimately you shouldn't have 00:18:23,510 --> 00:18:23,520 ultimately you shouldn't have 00:18:23,520 --> 00:18:25,750 ultimately you shouldn't have instability with Modern Hardware if your 00:18:25,750 --> 00:18:25,760 instability with Modern Hardware if your 00:18:25,760 --> 00:18:27,830 instability with Modern Hardware if your computer is crashing periodically or 00:18:27,830 --> 00:18:27,840 computer is crashing periodically or 00:18:27,840 --> 00:18:29,590 computer is crashing periodically or you're getting random blue screens every 00:18:29,590 --> 00:18:29,600 you're getting random blue screens every 00:18:29,600 --> 00:18:31,470 you're getting random blue screens every once in a while then the problem very 00:18:31,470 --> 00:18:31,480 once in a while then the problem very 00:18:31,480 --> 00:18:33,990 once in a while then the problem very well could be your voltage curve if you 00:18:33,990 --> 00:18:34,000 well could be your voltage curve if you 00:18:34,000 --> 00:18:37,590 well could be your voltage curve if you set it down too far so if that happens 00:18:37,590 --> 00:18:37,600 set it down too far so if that happens 00:18:37,600 --> 00:18:39,149 set it down too far so if that happens you just need to raise the curve 00:18:39,149 --> 00:18:39,159 you just need to raise the curve 00:18:39,159 --> 00:18:41,669 you just need to raise the curve Optimizer offset and your system should 00:18:41,669 --> 00:18:41,679 Optimizer offset and your system should 00:18:41,679 --> 00:18:44,750 Optimizer offset and your system should become stable personally I'm going to 00:18:44,750 --> 00:18:44,760 become stable personally I'm going to 00:18:44,760 --> 00:18:47,230 become stable personally I'm going to leave mine at-50 if I can get away with 00:18:47,230 --> 00:18:47,240 leave mine at-50 if I can get away with 00:18:47,240 --> 00:18:50,270 leave mine at-50 if I can get away with it also if you want you can go to a per 00:18:50,270 --> 00:18:50,280 it also if you want you can go to a per 00:18:50,280 --> 00:18:52,830 it also if you want you can go to a per core offset with the Curve Optimizer and 00:18:52,830 --> 00:18:52,840 core offset with the Curve Optimizer and 00:18:52,840 --> 00:18:54,590 core offset with the Curve Optimizer and try to figure out which core 00:18:54,590 --> 00:18:54,600 try to figure out which core 00:18:54,600 --> 00:18:57,230 try to figure out which core specifically is having instability with 00:18:57,230 --> 00:18:57,240 specifically is having instability with 00:18:57,240 --> 00:18:59,990 specifically is having instability with the higher offsets that going to take a 00:18:59,990 --> 00:19:00,000 the higher offsets that going to take a 00:19:00,000 --> 00:19:02,710 the higher offsets that going to take a lot longer to figure out but it's 00:19:02,710 --> 00:19:02,720 lot longer to figure out but it's 00:19:02,720 --> 00:19:04,710 lot longer to figure out but it's possible that you could have higher 00:19:04,710 --> 00:19:04,720 possible that you could have higher 00:19:04,720 --> 00:19:07,310 possible that you could have higher offsets with some of your better cores 00:19:07,310 --> 00:19:07,320 offsets with some of your better cores 00:19:07,320 --> 00:19:09,310 offsets with some of your better cores and lower offsets with some of your 00:19:09,310 --> 00:19:09,320 and lower offsets with some of your 00:19:09,320 --> 00:19:11,549 and lower offsets with some of your weaker cores so it might be worth the 00:19:11,549 --> 00:19:11,559 weaker cores so it might be worth the 00:19:11,559 --> 00:19:14,470 weaker cores so it might be worth the time to invest to figure it out but if 00:19:14,470 --> 00:19:14,480 time to invest to figure it out but if 00:19:14,480 --> 00:19:17,070 time to invest to figure it out but if you do that write it down just in case 00:19:17,070 --> 00:19:17,080 you do that write it down just in case 00:19:17,080 --> 00:19:18,830 you do that write it down just in case you need to reinstall ryzen Master 00:19:18,830 --> 00:19:18,840 you need to reinstall ryzen Master 00:19:18,840 --> 00:19:21,669 you need to reinstall ryzen Master someday you know however the one setting 00:19:21,669 --> 00:19:21,679 someday you know however the one setting 00:19:21,679 --> 00:19:23,390 someday you know however the one setting that I do think I'm going to turn off is 00:19:23,390 --> 00:19:23,400 that I do think I'm going to turn off is 00:19:23,400 --> 00:19:25,590 that I do think I'm going to turn off is the auto overclock and just let mine 00:19:25,590 --> 00:19:25,600 the auto overclock and just let mine 00:19:25,600 --> 00:19:28,909 the auto overclock and just let mine boost to 5.1 GHz personally I kind of of 00:19:28,909 --> 00:19:28,919 boost to 5.1 GHz personally I kind of of 00:19:28,919 --> 00:19:30,830 boost to 5.1 GHz personally I kind of of like the lower temperatures and the 00:19:30,830 --> 00:19:30,840 like the lower temperatures and the 00:19:30,840 --> 00:19:34,070 like the lower temperatures and the chances of my -50 offset being stable 00:19:34,070 --> 00:19:34,080 chances of my -50 offset being stable 00:19:34,080 --> 00:19:37,510 chances of my -50 offset being stable are more likely at 5.1 than they are at 00:19:37,510 --> 00:19:37,520 are more likely at 5.1 than they are at 00:19:37,520 --> 00:19:39,830 are more likely at 5.1 than they are at 5.3 but with that said if you like 00:19:39,830 --> 00:19:39,840 5.3 but with that said if you like 00:19:39,840 --> 00:19:41,870 5.3 but with that said if you like getting something for nothing then check 00:19:41,870 --> 00:19:41,880 getting something for nothing then check 00:19:41,880 --> 00:19:44,470 getting something for nothing then check out this video where I show you how to 00:19:44,470 --> 00:19:44,480 out this video where I show you how to 00:19:44,480 --> 00:19:47,270 out this video where I show you how to set up Windows 11 as a gaming system 00:19:47,270 --> 00:19:47,280 set up Windows 11 as a gaming system 00:19:47,280 --> 00:19:49,350 set up Windows 11 as a gaming system there's lots of tweaks in that video to 00:19:49,350 --> 00:19:49,360 there's lots of tweaks in that video to 00:19:49,360 --> 00:19:51,789 there's lots of tweaks in that video to help you get even more performance out 00:19:51,789 --> 00:19:51,799 help you get even more performance out 00:19:51,799 --> 00:19:55,470 help you get even more performance out of your hardware for free I also did the 00:19:55,470 --> 00:19:55,480 of your hardware for free I also did the 00:19:55,480 --> 00:19:57,549 of your hardware for free I also did the same video for Windows 10 and I'll leave 00:19:57,549 --> 00:19:57,559 same video for Windows 10 and I'll leave 00:19:57,559 --> 00:19:59,270 same video for Windows 10 and I'll leave a link to that in the Des description 00:19:59,270 --> 00:19:59,280 a link to that in the Des description 00:19:59,280 --> 00:20:02,310 a link to that in the Des description below as always you guys have a great 00:20:02,310 --> 00:20:02,320 below as always you guys have a great 00:20:02,320 --> 00:20:05,320 below as always you guys have a great day 91817