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HYDRA 1.1A PRO - RELEASED! (Patreon)

Published:
2021-12-31 14:55:06
Edited:
2021-12-31 14:58:33
Imported:
2021-12

Downloads

Content

Happy holidays, friends! :)

________________

VirusTotal report >>

https://www.virustotal.com/gui/file/111d65c7d329102897725dc6cab7d6ab0ffb0c81e5bbfde2a0954f221e87c84a?nocache=1

There is no virus, it is a false positive due to serious obfuscation.

________________

New features:

* Overriding best cores - you decide which cores should be used for the boost. Fully compatible with PBO + CO , HYBRID OC still contains bugs. (SETTINGS tab).

* Core C6 state and Package C6 state - you can disable deep sleep for the cores, it improves performance and stability. (SETTINGS tab).

* CUSTOM PROFILE - need a separate profile for some of your applications? Then this feature is for you. Add applications to the list, and HYDRA will automatically enable the CUSTOM profile for them. (SETTINGS tab).

* Adjustable voltage for IDLE state. (SETTINGS tab).

* Improved DIAGNOSTIC.

* 3 CO presets after DIAGNOSTIC.

* New obfuscation - fewer false positives from antivirus programs.

________________

Warning. Since this build contains a lot of new features, bugs are possible.

________________

Special thanks to @Veii, @LEIV,  @profitkaa, @Riwwelorsch, @Ann Martiné, @ACE, @arcanazen, @DayDreamer, @Gadfly, @rizlah , @&&Devin, @Bloax , @RdWing and @wanderinarcheologist  for help with development and testing.

Files

Comments

Anonymous

Thanks Yuri

Anonymous

...what would the minimum idle voltage be for a 5950x?

Alexander Wünsche

Thank you for this amazing year, Yuri! I wish you a very happy new one and the accomplishment of the one and only Ryzen Hydra!

Anonymous

Hail Hydra :) happy new year Yuri, thanks for all the good work!

Anonymous

Core C6 state and Package C6 state do i switch them on to disable them ?

Anonymous

thank you

Anonymous

01:02:23: Step: 2 CCD#1 FREQ 4750MHz CCD#2 FREQ 4775MHz 01:02:23: BACKUP#1: saving intermediate values... 01:02:26: Test#1 CORE#1 CO: -106 CORE#7 CO: -5 CORE#2 CO: -54 CORE#8 CO: -16 CORE#3 CO: 26 CORE#9 CO: -35 CORE#4 CO: -122 CORE#10 CO: -13 CORE#5 CO: -76 CORE#11 CO: 4 CORE#6 CO: -112 CORE#12 CO: -30 SVI2: 1294mV 01:03:28: BACKUP#2: saving intermediate values... 01:03:31: Test#2 01:04:34: BACKUP#1: saving intermediate values... 01:04:34: BACKUP#2: saving intermediate values...

Anonymous

Just one successful run but with problems (no C6 state test). It keeps crashing in CO testing until recovery starts and then hydra most of the time does not start automatically again. Last time it restarted as if it was first start but should do core 4. I did diagnostic with all enabled (C6 state, all cores CO testing, profile creation and so on). What I recognised was if the last successful frequency is unstable at the confirmation run, then it did not recognise it most of the time and try same settings over and over again.

Anonymous

An other interesting observation was after the on successful run. When doing CB23 it only used 2 cores and at boost test this two cores were the only ones with real boost frequency's (other ranged from 0 to 200, if I recall correctly). I used 1.0E Pro before with less to no issues (had to decrease unstable frequency - but diagnosis went fine).

Anonymous

After 5 Hours of Testing Just Stops . loads no Profiles. Nothing

Anonymous
>>74834780

***HYDRA 1.1A PRO by 1usmus*** 01/02/2022 17:29:01 Microsoft Windows NT 6.2.9200.0 AMD Ryzen 9 5900X 12-Core Processor ASUS ROG CROSSHAIR VIII FORMULA BIOS ver. 3904 SMU ver. 56.65.00 TABLE ver. 3672069 DRAM speed 3600 MHz Restoring the diagnostic process. Please do not take any actions. Phoenix ready! 17:29:04: CO (CCD) test started! Diagnostic VID: 1175mV Diagnostic FFT: 1344 17:29:09: Step: 8 CCD#1 FREQ 4550MHz CCD#2 FREQ 4450MHz 17:29:10: BACKUP#1: saving intermediate values... 17:29:13: Test#1 CORE#1 CO: -14 CORE#7 CO: 54 CORE#2 CO: 2 CORE#8 CO: 40 CORE#3 CO: -24 CORE#9 CO: 66 CORE#4 CO: 2 CORE#10 CO: 40 CORE#5 CO: 6 CORE#11 CO: 42 CORE#6 CO: -6 CORE#12 CO: 39 SVI2: 1156mV 17:30:19: BACKUP#2: saving intermediate values... 17:30:22: Test#2 17:31:28: BACKUP#1: saving intermediate values... 17:31:28: BACKUP#2: saving intermediate values... CCD quality evaluation has been successfully completed! Results CCD testing CORE#1 CO: -14 CORE#7 CO: 54 CORE#2 CO: 2 CORE#8 CO: 40 CORE#3 CO: -24 CORE#9 CO: 66 CORE#4 CO: 2 CORE#10 CO: 40 CORE#5 CO: 6 CORE#11 CO: 42 CORE#6 CO: -6 CORE#12 CO: 39 Energy Efficiency CCD#1 3.94 | SILVER sample Energy Efficiency CCD#2 3.85 | BRONZE sample Phoenix deactivated! AVX1 and AVX2 optimum voltage search function is running! Be patient, the process is long and depends on your cooling system. 17:31:31: Preheating the cooling system will take 20 minutes. The maximum temperature of the CPU during the preheating: 60.1°C 17:52:04: The search for the ideal voltage for the FMA3 has begun 17:52:32: STEP#1 TEL: 975mV VID: 1000mV TEMPERATURE: 57.9°C POWER: 128.9W CCD1: 3750MHz 3.85 MHz/mV 93 MHz/W CCD2: 3900MHz 4 MHz/mV 93 MHz/W 17:52:59: STEP#2 TEL: 988mV VID: 1012mV TEMPERATURE: 57.4°C POWER: 132.9W CCD1: 3799MHz 3.85 MHz/mV 89 MHz/W CCD2: 3924MHz 3.97 MHz/mV 91 MHz/W 17:53:27: STEP#3 TEL: 1000mV VID: 1025mV TEMPERATURE: 58.4°C POWER: 132.8W CCD1: 3875MHz 3.88 MHz/mV 91 MHz/W CCD2: 3975MHz 3.98 MHz/mV 90 MHz/W 17:53:56: STEP#4 TEL: 1012mV VID: 1037mV TEMPERATURE: 59.7°C POWER: 139.4W CCD1: 3924MHz 3.88 MHz/mV 88 MHz/W CCD2: 4025MHz 3.98 MHz/mV 86 MHz/W 17:54:24: STEP#5 TEL: 1025mV VID: 1050mV TEMPERATURE: 61.9°C POWER: 145.4W CCD1: 3975MHz 3.88 MHz/mV 82 MHz/W CCD2: 4049MHz 3.95 MHz/mV 83 MHz/W 17:54:53: STEP#6 TEL: 1038mV VID: 1062mV TEMPERATURE: 62.1°C POWER: 146W CCD1: 4025MHz 3.88 MHz/mV 83 MHz/W CCD2: 4075MHz 3.93 MHz/mV 83 MHz/W 17:55:22: STEP#7 TEL: 1050mV VID: 1075mV TEMPERATURE: 62.3°C POWER: 149.3W CCD1: 4075MHz 3.88 MHz/mV 84 MHz/W CCD2: 4125MHz 3.93 MHz/mV 80 MHz/W 17:55:46: STEP#8 TEL: 1056mV VID: 1087mV TEMPERATURE: 64.3°C POWER: 157.5W CCD1: 4075MHz 3.86 MHz/mV 78 MHz/W CCD2: 4125MHz 3.91 MHz/mV 76 MHz/W 17:56:15: STEP#9 TEL: 1069mV VID: 1100mV TEMPERATURE: 65.7°C POWER: 158.9W CCD1: 4125MHz 3.86 MHz/mV 79 MHz/W CCD2: 4150MHz 3.88 MHz/mV 75 MHz/W 17:56:45: STEP#10 TEL: 1081mV VID: 1112mV TEMPERATURE: 66.6°C POWER: 163.7W CCD1: 4150MHz 3.84 MHz/mV 74 MHz/W CCD2: 4200MHz 3.89 MHz/mV 75 MHz/W 17:57:15: STEP#11 TEL: 1094mV VID: 1125mV TEMPERATURE: 68.1°C POWER: 171.1W CCD1: 4200MHz 3.84 MHz/mV 72 MHz/W CCD2: 4225MHz 3.86 MHz/mV 70 MHz/W 17:57:45: STEP#12 TEL: 1106mV VID: 1137mV TEMPERATURE: 69.4°C POWER: 176.7W CCD1: 4250MHz 3.84 MHz/mV 70 MHz/W CCD2: 4250MHz 3.84 MHz/mV 67 MHz/W 17:58:15: STEP#13 TEL: 1119mV VID: 1150mV TEMPERATURE: 71.6°C POWER: 180.8W CCD1: 4275MHz 3.82 MHz/mV 67 MHz/W CCD2: 4275MHz 3.82 MHz/mV 66 MHz/W 17:58:46: STEP#14 TEL: 1126mV VID: 1162mV TEMPERATURE: 72.5°C POWER: 185.6W CCD1: 4299MHz 3.82 MHz/mV 66 MHz/W CCD2: 4299MHz 3.82 MHz/mV 66 MHz/W 17:59:16: STEP#15 TEL: 1137mV VID: 1175mV TEMPERATURE: 73.5°C POWER: 192.1W CCD1: 4325MHz 3.8 MHz/mV 64 MHz/W CCD2: 4325MHz 3.8 MHz/mV 63 MHz/W 17:59:48: STEP#16 TEL: 1150mV VID: 1187mV TEMPERATURE: 75.9°C POWER: 197W CCD1: 4375MHz 3.8 MHz/mV 62 MHz/W CCD2: 4350MHz 3.78 MHz/mV 62 MHz/W 18:00:19: STEP#17 TEL: 1163mV VID: 1200mV TEMPERATURE: 74.6°C POWER: 201.9W CCD1: 4400MHz 3.78 MHz/mV 61 MHz/W CCD2: 4375MHz 3.76 MHz/mV 60 MHz/W 18:00:50: STEP#18 TEL: 1175mV VID: 1212mV TEMPERATURE: 77.5°C POWER: 206.8W CCD1: 4424MHz 3.77 MHz/mV 57 MHz/W CCD2: 4375MHz 3.72 MHz/mV 60 MHz/W The power limit has been reached: 206.8W Voltage you are looking for: 1212mV Best voltage: 1037mV Optimal voltage: 1075mV 18:00:53: The search for the ideal voltage for the AVX2 has begun 18:01:20: STEP#1 TEL: 1082mV VID: 1100mV TEMPERATURE: 52.2°C POWER: 116.5W CCD1: 4200MHz 3.88 MHz/mV 137 MHz/W CCD2: 4250MHz 3.93 MHz/mV 136 MHz/W 18:01:48: STEP#2 TEL: 1094mV VID: 1112mV TEMPERATURE: 52.4°C POWER: 118.2W CCD1: 4250MHz 3.88 MHz/mV 133 MHz/W CCD2: 4275MHz 3.91 MHz/mV 134 MHz/W 18:02:16: STEP#3 TEL: 1106mV VID: 1125mV TEMPERATURE: 52.8°C POWER: 120.8W CCD1: 4299MHz 3.89 MHz/mV 130 MHz/W CCD2: 4325MHz 3.91 MHz/mV 129 MHz/W 18:02:44: STEP#4 TEL: 1119mV VID: 1137mV TEMPERATURE: 53.2°C POWER: 123.8W CCD1: 4350MHz 3.89 MHz/mV 130 MHz/W CCD2: 4350MHz 3.89 MHz/mV 128 MHz/W 18:03:12: STEP#5 TEL: 1131mV VID: 1150mV TEMPERATURE: 53.8°C POWER: 126W CCD1: 4375MHz 3.87 MHz/mV 125 MHz/W CCD2: 4375MHz 3.87 MHz/mV 124 MHz/W 18:03:40: STEP#6 TEL: 1144mV VID: 1162mV TEMPERATURE: 54.1°C POWER: 129W CCD1: 4424MHz 3.87 MHz/mV 123 MHz/W CCD2: 4400MHz 3.85 MHz/mV 121 MHz/W 18:04:09: STEP#7 TEL: 1156mV VID: 1175mV TEMPERATURE: 54.6°C POWER: 131.7W CCD1: 4475MHz 3.87 MHz/mV 119 MHz/W CCD2: 4424MHz 3.83 MHz/mV 119 MHz/W 18:04:38: STEP#8 TEL: 1169mV VID: 1187mV TEMPERATURE: 55.1°C POWER: 134.1W CCD1: 4525MHz 3.87 MHz/mV 118 MHz/W CCD2: 4424MHz 3.78 MHz/mV 115 MHz/W 18:05:07: STEP#9 TEL: 1181mV VID: 1200mV TEMPERATURE: 55.7°C POWER: 136.4W CCD1: 4549MHz 3.85 MHz/mV 114 MHz/W CCD2: 4450MHz 3.77 MHz/mV 114 MHz/W 18:05:36: STEP#10 TEL: 1194mV VID: 1212mV TEMPERATURE: 57.7°C POWER: 140W CCD1: 4575MHz 3.83 MHz/mV 110 MHz/W CCD2: 4475MHz 3.75 MHz/mV 107 MHz/W 18:06:07: STEP#11 TEL: 1206mV VID: 1225mV TEMPERATURE: 57.5°C POWER: 141.7W CCD1: 4600MHz 3.81 MHz/mV 110 MHz/W CCD2: 4475MHz 3.71 MHz/mV 107 MHz/W 18:06:37: STEP#12 TEL: 1219mV VID: 1237mV TEMPERATURE: 58.5°C POWER: 145.6W CCD1: 4625MHz 3.79 MHz/mV 107 MHz/W CCD2: 4500MHz 3.69 MHz/mV 105 MHz/W 18:07:02: STEP#13 TEL: 1231mV VID: 1250mV TEMPERATURE: 59.1°C POWER: 150.2W CCD1: 4625MHz 3.76 MHz/mV 104 MHz/W CCD2: 4500MHz 3.66 MHz/mV 102 MHz/W 18:07:32: STEP#14 TEL: 1240mV VID: 1262mV TEMPERATURE: 59.9°C POWER: 152.5W CCD1: 4650MHz 3.75 MHz/mV 102 MHz/W CCD2: 4500MHz 3.63 MHz/mV 99 MHz/W 18:08:02: STEP#15 TEL: 1251mV VID: 1275mV TEMPERATURE: 60.1°C POWER: 155.8W CCD1: 4650MHz 3.72 MHz/mV 100 MHz/W CCD2: 4525MHz 3.62 MHz/mV 98 MHz/W 18:08:33: STEP#16 TEL: 1262mV VID: 1287mV TEMPERATURE: 61.7°C POWER: 159.4W CCD1: 4674MHz 3.7 MHz/mV 99 MHz/W CCD2: 4525MHz 3.59 MHz/mV 92 MHz/W 18:09:03: STEP#17 TEL: 1275mV VID: 1300mV TEMPERATURE: 62°C POWER: 161.8W CCD1: 4674MHz 3.67 MHz/mV 94 MHz/W CCD2: 4549MHz 3.57 MHz/mV 91 MHz/W 18:09:33: STEP#18 TEL: 1288mV VID: 1312mV TEMPERATURE: 62.9°C POWER: 166.7W CCD1: 4700MHz 3.65 MHz/mV 92 MHz/W CCD2: 4549MHz 3.53 MHz/mV 90 MHz/W 18:10:04: STEP#19 TEL: 1300mV VID: 1325mV TEMPERATURE: 63.6°C POWER: 170.3W CCD1: 4700MHz 3.62 MHz/mV 90 MHz/W CCD2: 4549MHz 3.5 MHz/mV 86 MHz/W 18:10:34: STEP#20 TEL: 1312mV VID: 1337mV TEMPERATURE: 64.8°C POWER: 173W CCD1: 4725MHz 3.6 MHz/mV 88 MHz/W CCD2: 4575MHz 3.49 MHz/mV 86 MHz/W 18:10:58: STEP#21 TEL: 1325mV VID: 1350mV TEMPERATURE: 65.6°C POWER: 176.7W CCD1: 4725MHz 3.57 MHz/mV 85 MHz/W CCD2: 4575MHz 3.45 MHz/mV 83 MHz/W 18:11:30: STEP#22 TEL: 1337mV VID: 1362mV TEMPERATURE: 66.4°C POWER: 180.6W CCD1: 4750MHz 3.55 MHz/mV 84 MHz/W CCD2: 4600MHz 3.44 MHz/mV 82 MHz/W 18:11:54: STEP#23 TEL: 1350mV VID: 1375mV TEMPERATURE: 67.1°C POWER: 185.9W CCD1: 4750MHz 3.52 MHz/mV 82 MHz/W CCD2: 4600MHz 3.41 MHz/mV 80 MHz/W 18:11:56: Stress test stopped. PPT limit reached! 218.8W 18:11:58: STEP#24 TEL: 0mV VID: 1387mV TEMPERATURE: 0°C POWER: 0W CCD1: 4750MHz Infinity MHz/mV 82 MHz/W CCD2: 4599MHz Infinity MHz/mV 80 MHz/W

Anonymous

How do I enable the Overriding best cores? No matter what numbers I put in with it turned on, it still uses the CPPC cores same as before (which is bad as first preferred core is about the 4th best)

Anonymous

After 4 hours of testing I got: Unfortunately, the test data has been lost! Performs a retest of the CO.. System.Exception: Exception of type 'System.Exception' was thrown. at A.?.?.MoveNext() Any fixes for this, or just start fresh and hope?

Anonymous

After 10 hours of testing ,Going back to HYDRA 1.0E PRO .Too many bugs for my liking .

Anonymous

Overriding best cores seems to be bugged. The number specified in Hydra always corresponds to the core number - 1. So if I say want C01 to be best core #1 I have to type a 0 into the field. After a restarting hydra, it also shifts the numbers around for some reason. So my best core #1, #2, #3, #4, which should be 0, 2, 4, 3, are suddenly 0, 2, 2, 2, which doesnt make any sense and causes hydra to hang as soon as a profile switch is triggered by a load.

Anonymous

Override Cores seems buggy. Does not work at all and when active slows down the default prefered cores by around 200-300 Mhz

Anonymous

List of bugs I encountered (5900X): * Shutdown after Diagnostic still doesn't work if the diagnostic crashes or the system restarts in the meantime * 1 of 2 runs stopped before profile creation for some reason * override cores will do a switch-a-roo and change cores like it wants (4-2-2-2) - maybe I need to make the config write protected * Using override best cores will make me lose 200 - 250 MHz Other things: * MT CO of some cores extremely differs from 1.0E diagnostics, especially the worse CCD has much lower values now, though the higher CO made no problems in 1.0E - LT CO stayed mostly the same I don't know but 1.0E seems to be more stable.

Anonymous

caused stuttering in CoD Black Ops

Anonymous

Makes my system super laggy

Anonymous

Override cores makes Valorant unplayable on any profile game/custom/game disabled/static/dynamic, didn't test any other games yet. Issues with sound, freezes, stutters, etc. Game profile can only be completely disabled by setting the triggers to 101% / 101%. Other than that diagnostics went smoothly. Can't comment on CO changes as I went from high LLC 1.4v to auto 1.375v. Ideas/changes: - Specific game profiles -- I think custom profiles are headed in this direction, and I'm sure you're adding options for more profiles soon. But this is more efficient than polling processes since you'd only check them once when the GPU trigger is hit. It allows for profile switching when alt tabbed, removes the possibility of triggering accidentally since some games have low GPU usage. -- For custom profiles there should be an option to only trigger when it's the active window. - Settings per profile -- When gaming, I disable C6 states, increase OC response speed and revert them after. - Run command/file on profile enter/exit -- Would allow people to run a script that changes windows settings, power plans/options, or run any application for their use case. Could potentially use this as a way to change HYDRA settings. - Separate the GUI / core application -- Lighter weight, can close GUI completely, form won't be laggy, some performance improvements. The first three features are easy to implement and would benefit a decent amount of users. The last feature is beneficial overall, makes sense since maximizing performance is the goal and it should be like a "service", but it's definitely a time-consuming rewrite.

Anonymous

I like the feature of Hydra showing which core failed last, and giving suggestions what steps may mitigate. However, in my case it shows Core#7 failed, while WHEA shows APIC 12. Can it be that preferred cores changes Hydra's numbering of Cores? Find this super-confusing.

Anonymous

Question: Hydra proposes CO settings one can try in UEFI instead - but how am I supposed to enter values above +/-30, which seems to be the limit there?

Anonymous
>>75441868

APIC and Core number are not the same thing. Easy bridge for me to remember is APIC/2+1=Core. In your case 12/2+1= Core 7. Why the +1? Because the systems starts counting cores at 0

Anonymous
>>75510286

The Hydra Log gives you UEFI compatible Settings within an range of +30 and -30. Values above or below 30 are not UEFI suitable. In UEFI a -1 is equal to 3mV, in Hydra it is only -1mV, so values are not comparable.

Anonymous
>>75510286

Ok... but then Hydra suggestions aren't really useful for PBO in UEFI, manual tweaking still needed (or use Hydra of course).

Anonymous

Hi, have 5900x, try cpuid and dowload report. There are your apicid. CCX0 for 0 to 11 and CCX1 from 16 to 27

1usmus
>>75112405

Thank you for this review! I will include a number of changes in a future build :) You can disable the game profile simply by unchecking the appropriate box for the ENABLED column. In this case AMD boost will be active. By the way, if HYDRA is minimized, GUI resources are freed up.

Anonymous
>>75510286

How come Hydra suggestions are not useful? Is Hydra giving you values above 30 + or -?

Anonymous
>>75510286

You got it exactly, and also look at cvzone's answer - explains it but doesn't help. Some CO values were up to 80.

Anonymous
>>75510286

You can only use the block "Values for UEFI, if you do not plan to use hydra", which has only values between -30 and +30. The Allcore CCX1/CCX2 CO Block is hydra internal and not for UEFI use.

Anonymous

hello! im running this build and everytime hydra loads it tells me "the smu coudnt run the command" or something similar, and it seems the profiles don't activate when they are supposed to, could this be a conflict with aida 64 that i have it monitoring the hardware? i did not have this problem with older builds of hydra. thanks!!

Anonymous

Hi, I have a 5900x laptop version, with RTX 3070 laptop. My PPT, TDC and EDC values are 88W, 60A, 90A (from RM). When I run diagnostic Hydra (PRO 1.1D) have crash after some test and so black screen. When I restart windows (v11) and restar Hydra, after 2-5 seconds (about) have a new black screen. I'm very inexperienced. Do you have some advice for me? Thanks a lot

Anonymous

Yuri, any info on 5800X3D you can share for hydra 1.1A Pro? I have the debug tool, CO assignment does work, both positive and negative values. Changing max boost multiplier does not work. Asus DOCS does not work. All core max is 44.5, single at 4.55, never touches TDC/EDC/PPT limits, never even reaches 1.3v SVI2, usually in 1.18-1.22 range for 1t boost and mid 1.2x on all core. CPU has a ton of headroom....

Anonymous

I have a ryzen 5800x I would like a guide to use the hydra