MSI Afterburner- wersje stabilne

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MSI Afterburner 2.3.1

MSI Afterburner jest niewielkim narzędziem, które umożliwia podkręcanie i zarządzanie parametrami pracy układów graficznych wyprodukowanych przez firmę MSI.
Aplikacja stworzona została na bazie sprawdzonych rozwiązań znanych z programu RivaTuner. Pomimo nieco mylącej nazwy doskonale radzi sobie również z obsługą kart graficznych innych producentów niż MSI. Charakteryzuje się małymi rozmiarami i nieznacznym zapotrzebowaniem na zasoby systemowe. Podobnie jak większość narzędzi tego typu, po uruchomieniu MSI Afterburner działa w obrębie zasobnika systemowego, nie kolidując przy tym z pracami wykonywanymi przez użytkownika na komputerze. Program uruchamiany może być wraz z systemem Windows, automatycznie stosując jedno z zadeklarowanych ustawień. Ma to duże znaczenie w przypadku kiedy chcielibyśmy, aby raz skonfigurowana karta graficzna pracowała z zadanymi parametrami podczas każdego uruchomienia komputera.

MSI Afterburner umożliwia modyfikowanie napięcia i częstotliwości pracy GPU, regulację zegara shaderów, pamięci, a także (o ile wspiera to sprzęt) zmianę prędkości obrotowej wentylatorów zamontowanych na karcie graficznej. Z kolei czytelne wykresy pozwalają śledzić wpływ wprowadzanych zmian w ustawieniach na pracę układu, jego temperaturę itp. Informacje na ten temat wyświetlane mogą zostać w tray'u lub co istotne podczas zaawansowanego overclockingu w trakcie gry.

Program oferuje możliwość skonfigurowania 5 profili z ustawieniami, a także późniejszego ich łatwego przełączania za pośrednictwem skrótów klawiszowych. Dodatkowo umożliwia on także tworzenie zrzutów ekranowych. Wśród wspieranych przez program kart graficznych znaleźć można układy GeForce (seria 8, 9, 2xx, 4xx) oraz Radeon (seria HD 3000, 4000, 5000).
Uwaga!

Nieumiejętne wykorzystanie aplikacji prowadzić może do trwałego uszkodzenia karty graficznej! Pracę z ATI Tray Tools, a w szczególności funkcjami służącymi do podkręcania parametrów pracy układów graficznych zalecamy jedynie doświadczonym użytkownikom.

info:dobreprogramy.pl

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MSI Afterburner 3.0.0

Ported to new VC++ compiler, new core and skin engine libraries with better extendibility
Added Bonaire, Curacao and Hawaii graphics processors family support
Added core and auxiliary VDDCI voltage control for reference design AMD RADEON R9 290/290X series graphics cards with IR3567B voltage regulators
Added core voltage control for reference design AMD RADEON R7 260/260X series graphics cards with NCP81022 voltage regulators
Added core voltage control for reference design AMD RADEON 7790 series graphics cards with NCP81022 voltage regulators
Added NVIDIA GPU Boost 2.0 technology support for NVIDIA GeForce GTX Titan graphics cards:
Added slider for temperature limit adjustment
Added option for linked power limit and temperature limit adjustment
Added option for temperature limit prioritizing
Added maximum voltage adjustment
Improved NVAPI access layer architecture with better extendibility
Improved AMD ADL access layer with Overdrive 6 support to provide compatibility with future AMD GPUs
Added NCP4206 voltage regulators support to provide compatibility with future custom design MSI graphics cards
Improved voltage control layer architecture provides better compatibility with automatic voltage control on NCP4206 voltage regulators
Improved hardware monitoring module architecture with better extendibility
Added voltage control mode selection option to the "Compatibility properties" section in "General" tab. Now you can toggle between reference design, standard MSI and extended MSI voltage control modes
Added "boost edition" / "GHz edition" GPU type selection option for reference design AMD RADEON 7970 and AMD RADEON 7950 based graphics cards to "AMD compatibility properties" section in "General" tab
Added GPU usage averaging algorithm for Overdrive 6 capable AMD GPUs. Now displayed GPU usage is being averaged by sliding window to smooth GPU usage artifacts occurring due to bug in AMD ADL API on AMD Sea Islands GPU family
Added optional unified GPU usage monitoring path via D3DKMT performance counters. You may tick "Enable unified GPU usage monitoring" option in "AMD compatibilities properties" in "General" tab as a workaround to replace native AMD GPU usage monitoring if it is working improperly (e.g. broken GPU usage monitoring in AMD ADL API for AMD Sea Islands GPU family)

MSI Afterburner 3.0.1.2390

Added core voltage control for reference design AMD RADEON R9 295X2 series graphics cards with NCP81022 voltage regulators
Fixed hardware database for reference design AMD RADEON HD 7990 and AMD RADEON HD 290X series graphic cards
Fixed GDI resource leak when tray icon monitoring mode is enabled
RivaTuner Statistics Server has been upgraded to version 6.1.2

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MSI Afterburner 4.0.0.4604

Added MSI R9 280 series voltage control support
Added AMD Tonga graphics processors family support
Added core voltage control for reference design AMD RADEON R9 285X series graphics cards with NCP81022 voltage regulators
Added official overclocking limits extension support for AMD Tonga graphics processors. Please take a note that unofficial overclocking mode is currently not supported for AMD Tonga graphics processors family
Various parts of hardware monitoring module have been pumped up to improve hardware monitoring usability and flexibility:
o Added layered monitoring graphs rendering mode. Now you may right click source graph in monitoring window, select “Attach” in the context menu then point to destination graph to attach source graph to it and create a group of layered graphs. This feature allows you to render as many layered graphs on the same grid as you wish. The colors of graphs in layered rendering mode can be customized independently of each other so you can easily identify them
Added multi-column monitoring graphs rendering mode. Now you can adjust the number of graph columns in “Active monitoring graphs” section in “Monitoring” tab
Added “Override graph name” option to “Monitoring” tab. Now you can rename the graphs displayed in hardware monitoring window
Monitoring history buffer size is no longer defined by monitoring window width. Now pre-history buffer size is fixed and stores the last 3600 samples (1 hour for 1000ms polling period) for each graph
Improved tray icon monitoring module:
Now you can select either text mode or barchart indicator mode for each value displayed in tray icon. Barchart indicator mode can be extremely useful for visualizing data like GPU / CPU usage
Improved Logitech keyboard LCD monitoring module:
Ported to new Logitech API to provide support for newer Logitech LCD displays
Added support for color LCD display of Logitech G19/G19s keyboards
Added graph mode support for color LCD display of Logitech G19/G19s keyboards. Now in addition to previously available text mode you can optionally select graph mode and see exact copy of MSI Afterburner’s monitoring graphs displayed directly inside the keyboard LCD. You can also press “Menu” soft button on your Logitech G19/G19S keyboard to toggle between text and graph modes dynamically in realtime
Added acceleration support to LCD scrolling implementation
Added larger 8x12, 10x12, 12x12 and 12x16 fonts support for text mode
Added “Regional settings” section to “User Interface” tab:
Temperature format settings allow you to switch between Celsius and Fahrenheit format for monitored temperatures. Please take a note that this setting affects temperature readouts only. Hardware related temperature adjustments (e.g. fan speed to temperature mapping curve for all cards or temperature target adjustment for NVIDIA Kepler series) are always being displayed and adjusted in Celsius for maximum unification, safety and compatibility
12 hours / 24 hours time format settings allow you to configure time format for On-Screen Display and hardware monitoring window
Added “Enable low-level IO driver” option to the “Compatibility properties” section in “General” tab
Added SLI sync performance limit graph for release 340 and newer NVIDIA drivers
Display device enumeration implementation has been modified slightly to allow monitoring Intel iGPUs when low-level IO driver is not enabled
Improved handshaking algorithm reduces the risk of seeing multiple running instances of child processes (e.g. RTSS)
Optimized hardware polling for NVIDIA graphics cards
Optimized hardware polling for multi-GPU systems
Added SVI2 voltage control support via AMD ADL SDK to provide compatibility with future graphics cards
Added automatic prerecording settings to “Videocapture” tab. When you enable automatic mode prerecording session is being started automatically on each 3D application startup. Please take a note that in this case you can still use video prerecord hotkey to stop then manually restart prerecording session if necessary
Drastically improved skin engine:
Improved skin compiler gives more detailed error messages when skin compilation fail due to error in some source image file
Source image file format is no longer limited to 24-bit BMP files only. Now skin compiler supports all possible bit depths for BMP format and fully supports PNG format with alpha channel
Added built-in bitmap effect for extracting alpha-channel from PNG image files
Skin format has been upgraded to v1.3. New format supports alpha channel based transparency for skinned window, allowing skin designers to define semi-transparent skin areas, apply antialiasing to the skin window edges and so on
Added new skinned window composition modes support and “Skin composition mode” settings to “User interface tab”. New settings allows you to use one of the following modes:
Traditional mode – suits best for backward compatibility with existing skins and performance testing
Layered mode with colorkey - provides much faster rendering of skins with non-rectangular window shape and additionally allows you to adjust transparency of skinned window
Layered mode with alpha – provides per-pixel alpha channel support and advanced visual effects for compatible skins and also allows you to adjust transparency of skinned window
Skin format reference guide has been updated to v1.7 to document these changes
Improved implementation of rollback to default skin
Full skins cross-compatibility with other overclocking applications based on RivaTuner engine. Special GUI transformation layer allows you to use the skins designed for third party RivaTuner based overclocking applications and makes the process of migration to MSI Afterburner from such overclocking tools much more comfortable for you. You can keep the look and feel of your preferred overclocking application and at the same time enjoy extended MSI Afterburner’s features including full range of supported graphics cards, industry leading powerful and robust monitoring module, flexible video recording features and many more
RivaTuner Statistics Server has been upgraded to v6.2.0

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MSI Afterburner 4.1.0

Brand new user interface skins by Drerex Design. New skins use improved skin format introduced in the previous version of MSI
Afterburner skin compiler, which reduces each compiled skin size by factor of 10 on average. Legacy MSI Afterburner v2 and v3 skins
were also recompiled in new format and included in distributive for those who prefer old-style user

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Improved hardware monitoring module, new robust hardware monitoring features have been ported from original RivaTuner
hardware monitoring module Added integrated viewer for native RivaTuner Hardware Monitoring Log (*.HML) files. Now you can view hardware
monitoring history stored in HML files either by pressing “View” button in “Monitoring” tab or directly open HML files via
Windows explorer
o Added custom tracking markers support. Now you can hold <Alt> key while clicking hardware monitor window to set up
to 8 custom tracking markers in desired positions
o Now you can customize graph color in layered mode via double clicking color legend box on the graph
o Now tracking markers display current values for all graphs in layered mode instead of active graph only
o Improved graphs resizing implementation for attached hardware monitor window
· Improved skin browser:
o Now “User interface” tab open immediately without waiting for processing of all installed skin files, which can be time
consuming if you have a lot of skin files. The list of installed skins is now being populated in separate background thread
o Added precaching for skin preview images. Skin files are no longer being accessed when switching between skins in the
browser

Improved skin engine:
o Improved skin rendering performance for layered skin composition mode with alpha channel
o Improved rendering performance for skins using animated indicators (e.g. animated profile save indicator in default MSI
Afterburner skin)
o Added backbuffering support to skinned windows to simplify implementation of various framebuffer processing related
effects (e.g. skin scaling)
o Vector indicators are now being rendered via GDI+ to provide improved antialiasing and rendering performance
o Added support for obfuscated USF format, which is represented by some unfair competitors as 100% in-house
development. Now you can use MSI Afterburner’s built-in skin decompiler to analyze source code of such skin files
o Added skins scaling support. The scaling may improves the appearance of some small third party skins on high resolution
monitors. Please take a note that upscaling may reduce the performance a bit

Improved skin cross-compatibility layer:
o Extended list of applications supported by skin cross-compatibility layer. Now MSI Afterburner supports USF skins created
for any version of third party overclocking tools starting from minimalistic oldschool skins from GeForce 200 series
overclocking era and ending by obfuscated USF skins used in modern overclocking tools
o Added support for 10 profile slots in skin cross-compatibility mode
o Now it is possible to open advanced settings window with <Ctrl> + <S> keyboard shortcut to provide compatibility with
third party skins having no dedicated button for accessing advanced settings window
o Now it is possible to open info window with <Ctrl> + <I> keyboard shortcut to provide compatibility with third party skins
having no dedicated button for accessing info window
Added configuration file switch allowing power users to invert colors in text mode for Logitech keyboard LCD displays
Added silent installation scenario support
RivaTuner Statistics Server has been upgraded to v6.3.0

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MSI Afterburner 4.1.1.7625

Added core voltage control for reference design NVIDIA GeForce GTX TITAN X series graphics cards
Added core voltage control for reference design NVIDIA GeForce GTX 980 Ti series graphics cards
Now core voltage control via NCP4206 is unlocked on reference design NVIDIA GeForce GTX 690, NVIDIA GeForce GTX 780 and NVIDIA GeForce GTX TITAN series graphics cards when extended MSI voltage control mode is selected
Added new third party voltage control mode. Traditionally we provided voltage control on reference design graphics cards or on custom design MSI graphics cards only. However, rich set of PWM controllers supported by MSI Afterburner core allows implementing voltage control on many third party custom design graphics cards as well. With this version we introduce original concept of user extendable voltage control mode, allowing experienced users to get access to programmable MSI Afterburner core, get access to full range of voltage controllers supported by it, create custom hardware database and program MSI Afterburner to provide voltage control on many third party custom design graphics cards. Third party voltage control mode requires populating and downloading third party hardware database, please visit MSI Afterburner discussion forums to help adding your custom design cards to the database or download the latest database version
Fixed bug causing application to crash when “layered with alpha” skin composition mode is selected, application is minimized to system tray and properties are accessed via the context menu of detached monitoring window
Improved hardware monitoring module:
Added negative temperatures monitoring support for NVIDIA GPUs o Fixed extended CPU family and model detection to address issue with incorrect maximum junction temperature (Tjmax) detection on some Intel CPUs
Now power users can override the maximum junction temperature (Tjmax) via configuration file if necessary
Added temperature monitoring for AMD Family 10h – 16h micro architecture CPUs. Please take a note that this functionality is currently experimental and disabled by default. Power users can unlock AMD CPU temperature monitoring via [CPUHAL] section in the configuration file if necessary
Added correction formulas support. Now you can apply a custom correction formula to any data source in hardware monitoring module. Correction formulas can be useful to apply temperature offsets to custom temperature sensors if necessary (e.g. set formula to “x+20”), display effective memory clock instead of base clock (e.g. set formula to “x*2”), display per-GPU memory usage instead of total memory usage on Crossfire systems (e.g. set formula to “x/2”) and many, many more
Hardware Monitoring Log file format has been upgraded to v1.5 to provide correction formulas support
Added “CPU load” graph to multicore CPUs. The graph is displaying the average CPU load across all CPU cores
Added “CPU temperature” graph to thermal monitoring capable multicore CPUs. The graph is displaying the maximum CPU temperature across all CPU cores
Added connection retry counter to Logitech LCD monitoring module. Now MSI Afterburner stop trying to connect to Logitech LCD after some failed connection attempts instead of trying to connect to it in endless loop. Retry counter implementation is aimed to bypass the problem with GDI resource leak in Logitech LCD API, which could cause application to crash after some period of time when output to LCD is enabled on the system with no Logitech LCD connected to it
Added dynamic output format for min / max limits displayed on the graphs. Now MSI Afterburner uses integer output format for limits if the range between minimum and maximum limits is greater than 1, otherwise it uses floating point output format
Improved skin engine:
Added support for altered USF skins obfuscation scheme used in most recent versions of third party overclocking tools
Drastically reduced load time for obfuscated USF skin files (*.UXF). Now MSI Afterburner open obfuscated skin files roughly 10 times faster than the previous version
Reduced skinned GUI initialization time due to cached access to the skin header
Added support for negative GPU temperature indicators in all skins supplied with application
Multimedia timer resolution is no longer hardcoded to 10ms. The resolution is now adjustable and set to 16ms by default to reduce timer interrupts related CPU load at the cost of losing some smoothness in GUI animation. Power users can override timer resolution via the configuration file if necessary
Updated kernel mode driver provides new IOCTLs for safe access to PCI bus required for temperature monitoring on AMD CPUs

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MSI Afterburner 4.2.0.7826

Fixed database issue with Device_ID for GeForce GTX 980 Ti Lightning edition
Added AMD Fiji graphics processors family support.
Hardware abstraction layer architecture has been revamped to allow implementation of voltage control via direct access to GPU ondie voltage controllers (e.g. AMD Fiji SMC) in addition to previously supported external voltage controllers connected to GPU via I2C bus. Please take a note that direct access to AMD SMC from multiple simultaneously running hardware monitoring applications can be unsafe and result in collisions, so similar to I2C access synchronization we introduce global namespace synchronization mutex “Access_ATI_SMC” as SMC access synchronization standard. Other developers are strongly suggested to use it during accessing AMD GPU SMC in order to provide collision free hardware monitoring.
Added core voltage control for reference design AMD RADEON R9 Fury / Nano series cards with on-die SMC voltage controller
Added unofficial overclocking support for PowerPlay7 capable graphics cards (AMD Tonga and newer graphics processors family). Please take a note that unofficial overclocking mode with completely disabled PowerPlay is currently not supported for PowerPlay7 capable hardware.
Added version detection for AMD Radeon Software Crimson edition. Please take a note that new AMD Radeon Software versioningscheme is not backward compatible so now Catalyst version can be reported improperly if you reinstall older versions of Catalyst drivers on top of AMD Radeon Software Crimson edition without cleaning the registry up. Until the issue is addressed inside AMD Radeon Software Crimson edition installer, MSI Afterburner is providing compatibility switch “LegacyDriverDetection” in the configuration file allowing you to use legacy driver version detection mechanism if you’re rolling back to legacy Catalyst drivers after AMD Radeon Software Crimson edition drivers
GPU usage monitoring filtering algorithms, aimed to filter GPU usage monitoring artifacts in AMD ADL API on AMD Sea Islands GPU family are now disabled by default. Filtering algorithms can still be enabled by power users via configuration file if necessary
Added core, memory and auxiliary PEXVDD voltage control for custom design MSI GTX980Ti Lightning series graphics cards with IR3595A+IR3567B voltage regulators
Added memory and VRM temperature monitoring for custom design MSI GTX980Ti Lightning series graphics cards with NCT7511Y thermal sensors
Now SDK includes detailed documentation for third party hardware database format, allowing experienced users to add voltage control support for custom design non-MSI graphics cards
Temperature monitoring for AMD Family 10h – 16h micro architecture CPUs is no longer experimental. Now thermal monitoring on such CPUs is unlocked by default.
Slightly altered VRAM usage monitoring implementation for AMD and Intel graphics cards. Now total resident bytes are being displayed as VRAM usage instead of total committed bytes, and allocated blocks are no longer being rounded to 1MB boundary per block when calculating a total value
Improved skin engine. Added support for altered USF skins obfuscation scheme used in most recent versions of third party overclocking tools.
Added Brazilian Portuguese localization.
RivaTuner Statistics Server has been upgraded to v6.4.1

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MSI Afterburner 4.3.0.9267

Added AMD Ellesmere and Baffin graphics processors families support
Added Overdrive N (Overdrive 7) technology support for AMD Polaris architecture based graphics cards
Added core voltage control for reference design AMD RADEON RX 460, AMD RADEON RX 470 and AMD RADEON RX 480 series cards with on-die SMC voltage controller
Added memory controller usage graph to hardware monitoring module for AMD graphics cards. Currently memory controller usage monitoring is implemented for AMD Ellesmere and Baffin graphics processors families only
Added GPU power draw graph to hardware monitoring module for AMD graphics cards. Currently GPU power draw monitoring is implemented for AMD Ellesmere and Baffin graphics processors families only
Added “Erase autosaved startup settings” option to “AMD compatibility properties” section in “General” tab. Starting from AMD Crimson drivers family, the driver is automatically saving hardware settings (e.g. overclocking or fan control settings) in the registry and apply it at Windows startup. It makes settings of any third party hardware overclocking tool virtually permanent, meaning that applied settings stay in the system even after rebooting or powering down the system. However, such implementation is unsafe and even potentially dangerous, because you're no longer able to undo unsafe overclocking with system reboot or even driver reinstall. To prevent such situations, MSI Afterburner can now optionally erase AMD driver's autosaved startup settings after applying new settings to hardware
Increased default maximum limits for “Core clock”, “Memory clock” and “Memory usage” graphs to improve graphs readability on NVIDIA Pascal series graphics cards
Community-created third party hardware database providing voltage control support on some non-MSI custom design graphics cards is now included in distributive
Added uP1816 voltage regulators support to provide compatibility with future custom design MSI graphics cards
Improved validation and handling of erroneous data reported after TDR or during runtime driver installation on NVIDIA graphics
cards
Improved clock monitoring on GPU Boost 2.0 NVIDIA graphics cards after dynamic uninstallation/reinstallation of display driver during MSI Afterburner runtime
Added detection of runtime driver installation on NVIDIA graphics cards. Now MSI Afterburner is periodically checking the presence of NVIDIA driver and displaying notification message informing you that the connection with GPU is lost when the driver is being dynamically uninstalled during MSI Afterburner runtime
Startup profile is now also affected by “Lock profiles” button, which means that you cannot modify or delete your startup overclocking settings while this button is pressed. This feature can be useful to protect startup overclocking settings from modification while temporarily testing various overclocking scenarios on overclocked system
Added support for unofficial overclocking mode with disabled PowerPlay on PowerPlay7 capable hardware (AMD Tonga and newer graphics processors family)
Added unofficial overclocking support for AMD Polaris architecture based graphics cards
Added ability to use low-level hardware access interface on the systems with AMD graphics cards when legacy VGA BIOS image is not mapped to memory (e.g. in UEFI environment)
Improved compatibility with the systems with both Overdrive 5 and Overdrive 6 API AMD graphics cards installed
Added driver registry key detection for the secondary display adapters in SLI/Crossfire systems. Due to this improvement it is no longer necessary to temporarily disable Crossfire when altering some settings in “!MD compatibility properties” section (e.g. “Extend official overclocking limits” or “Enable ULPS” settings)
Improved hardware polling and application startup time on ULPS-enabled Crossfire systems with AMD Fiji and newer AMD graphics processors
Primary GPU usage is no longer cloned on all secondary GPU usage graphs on Crossfire systems when “Enable unified GPU usage monitoring” is enabled in “!MD compatibility properties”. Please take a note that only the primary GPU load is available on Crossfire systems when this option is enabled
Updated IO driver provides more secure MMIO access interface
Fixed bug causing the maximum value to be invisible on some hardware monitoring graphs under certain conditions (e.g. “Framerate” or “Frametime” graphs After closing 3D application)
Added ability to define numpad keys as hotkeys when in on
Guru3D RivaTuner Statistics Server has been upgraded to v6.5.0
Added GPU Boost 3.0 technology support for NVIDIA Pascal graphics cards:
Added percent based overvoltage support
Added voltage/frequency curve customization support. You may use traditional core clock slider on NVIDIA GeForce GTX 1070 and 1080 graphics cards to apply fixed offset to all voltage/frequency curve points as well as use brand new flexible voltage/frequency curve editor window for more precise per-point curve adjustment. The editor window can be activated either with “Voltage/frequency curve editor” button in the main application window or with + keyboard shortcut and it provides you the following features:
You may independently adjust clock frequency offset for each point with mouse cursor or / keys
You may hold key to set anchor and fix clock frequency offset in minimum/maximum voltage point and adjust the offset of any other point with mouse to linearly interpolate the offsets between the anchor and adjustment points
You may hold key while adjusting the offset of any point with mouse to apply the same fixed offset to all points. That’s equal to adjusting the offset with the slider in main application window
You may press + to reset offsets for all points
You may switch between traditional core clock control slider in the main window and voltage/frequency curve editor window to see how they affect each other in realtime
You may press after selecting any point on the curve with mouse cursor to disable GPU dynamic voltage/frequency adjustment and lock the voltage and core clock frequency to a state defined by the target point. This feature allows you to test graphics card stability independently for each voltage/frequency point of the curve using real 3D applications or any stress test of your choice. In addition to stability testing usage scenario, MSI Afterburner allows you to save a curve with locked point setting to a profile, so you may easily switch between dynamic voltage/frequency management and fixed voltage/frequency settings in realtime (e.g. to achieve the maximum performance during benchmarking). Please take a note that fixed voltage and frequency settings do not allow you to disable power and thermal throttling
Added configuration file switch, allowing you to toggle the source for “Power” graph on NVIDIA graphics cards. Normalized total power draw (i.e. normalized value from multiple power sensors installed on the graphics card) is selected by default per NVIDIA recommendation, however you can configure MSI Afterburner to display power draw from GPU sensor only:
Improved representation of performance limits graphs for NVIDIA graphics cards per NVIDIA recommendations - "Voltage limit” and “OV max limit” graphs have been merged into single “Voltage limit” graph
Utilization limit” graph has been renamed to “No load limit” graph
SLI sync” graph is now hidden on the systems with single NVIDIA GPU
Improved representation of performance limits graphs in On-Screen Display or in Logitech keyboard LCD. Now the names or currently triggered performance limits are being displayed in On-Screen Display or in Logitech keyboard LCD instead of previously used binary limits representation form

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MSI Afterburner 4.3.0.9267

• Added AMD Ellesmere and Baffin graphics processors families support
• Added Overdrive N (Overdrive 7) technology support for AMD Polaris architecture based graphics cards
• Added core voltage control for reference design AMD RADEON RX 460, AMD RADEON RX 470 and AMD RADEON RX 480 series cards with on-die SMC voltage controller
• Added memory controller usage graph to hardware monitoring module for AMD graphics cards. Currently memory controller usage monitoring is implemented for AMD Ellesmere and Baffin graphics processors families only
• Added GPU power draw graph to hardware monitoring module for AMD graphics cards. Currently GPU power draw monitoring is implemented for AMD Ellesmere and Baffin graphics processors families only
• Added “Erase autosaved startup settings” option to “AMD compatibility properties” section in “General” tab. Starting from AMD Crimson drivers family, the driver is automatically saving hardware settings (e.g. overclocking or fan control settings) in the registry and apply it at Windows startup. It makes settings of any third party hardware overclocking tool virtually permanent, meaning that applied settings stay in the system even after rebooting or powering down the system. However, such implementation is unsafe and even potentially dangerous, because you're no longer able to undo unsafe overclocking with system reboot or even driver reinstall. To prevent such situations, MSI Afterburner can now optionally erase AMD driver's autosaved startup settings after applying new settings to hardware
• Increased default maximum limits for “Core clock”, “Memory clock” and “Memory usage” graphs to improve graphs readability on NVIDIA Pascal series graphics cards
• Community-created third party hardware database providing voltage control support on some non-MSI custom design graphics cards is now included in distributive
• Added uP1816 voltage regulators support to provide compatibility with future custom design MSI graphics cards
• Improved validation and handling of erroneous data reported after TDR or during runtime driver installation on NVIDIA graphics
• cards
• Improved clock monitoring on GPU Boost 2.0 NVIDIA graphics cards after dynamic uninstallation/reinstallation of display driver during MSI Afterburner runtime
• Added detection of runtime driver installation on NVIDIA graphics cards. Now MSI Afterburner is periodically checking the presence of NVIDIA driver and displaying notification message informing you that the connection with GPU is lost when the driver is being dynamically uninstalled during MSI Afterburner runtime
• Startup profile is now also affected by “Lock profiles” button, which means that you cannot modify or delete your startup overclocking settings while this button is pressed. This feature can be useful to protect startup overclocking settings from modification while temporarily testing various overclocking scenarios on overclocked system
• Added support for unofficial overclocking mode with disabled PowerPlay on PowerPlay7 capable hardware (AMD Tonga and newer graphics processors family)
• Added unofficial overclocking support for AMD Polaris architecture based graphics cards
• Added ability to use low-level hardware access interface on the systems with AMD graphics cards when legacy VGA BIOS image is not mapped to memory (e.g. in UEFI environment)
• Improved compatibility with the systems with both Overdrive 5 and Overdrive 6 API AMD graphics cards installed
• Added driver registry key detection for the secondary display adapters in SLI/Crossfire systems. Due to this improvement it is no longer necessary to temporarily disable Crossfire when altering some settings in “!MD compatibility properties” section (e.g. “Extend official overclocking limits” or “Enable ULPS” settings)
• Improved hardware polling and application startup time on ULPS-enabled Crossfire systems with AMD Fiji and newer AMD graphics processors
• Primary GPU usage is no longer cloned on all secondary GPU usage graphs on Crossfire systems when “Enable unified GPU usage monitoring” is enabled in “!MD compatibility properties”. Please take a note that only the primary GPU load is available on Crossfire systems when this option is enabled
• Updated IO driver provides more secure MMIO access interface
• Fixed bug causing the maximum value to be invisible on some hardware monitoring graphs under certain conditions (e.g. “Framerate” or “Frametime” graphs After closing 3D application)
• Added ability to define numpad keys as hotkeys when in on
• Guru3D RivaTuner Statistics Server has been upgraded to v6.5.0
• Added GPU Boost 3.0 technology support for NVIDIA Pascal graphics cards:
• Added percent based overvoltage support
• Added voltage/frequency curve customization support. You may use traditional core clock slider on NVIDIA GeForce GTX 1070 and 1080 graphics cards to apply fixed offset to all voltage/frequency curve points as well as use brand new flexible voltage/frequency curve editor window for more precise per-point curve adjustment. The editor window can be activated either with “Voltage/frequency curve editor” button in the main application window or with + keyboard shortcut and it provides you the following features:
• You may independently adjust clock frequency offset for each point with mouse cursor or / keys
• You may hold key to set anchor and fix clock frequency offset in minimum/maximum voltage point and adjust the offset of any other point with mouse to linearly interpolate the offsets between the anchor and adjustment points
• You may hold key while adjusting the offset of any point with mouse to apply the same fixed offset to all points. That’s equal to adjusting the offset with the slider in main application window
• You may press + to reset offsets for all points
• You may switch between traditional core clock control slider in the main window and voltage/frequency curve editor window to see how they affect each other in realtime
• You may press after selecting any point on the curve with mouse cursor to disable GPU dynamic voltage/frequency adjustment and lock the voltage and core clock frequency to a state defined by the target point. This feature allows you to test graphics card stability independently for each voltage/frequency point of the curve using real 3D applications or any stress test of your choice. In addition to stability testing usage scenario, MSI Afterburner allows you to save a curve with locked point setting to a profile, so you may easily switch between dynamic voltage/frequency management and fixed voltage/frequency settings in realtime (e.g. to achieve the maximum performance during benchmarking). Please take a note that fixed voltage and frequency settings do not allow you to disable power and thermal throttling
• Added configuration file switch, allowing you to toggle the source for “Power” graph on NVIDIA graphics cards. Normalized total power draw (i.e. normalized value from multiple power sensors installed on the graphics card) is selected by default per NVIDIA recommendation, however you can configure MSI Afterburner to display power draw from GPU sensor only:
• Improved representation of performance limits graphs for NVIDIA graphics cards per NVIDIA recommendations - "Voltage limit” and “OV max limit” graphs have been merged into single “Voltage limit” graph
• Utilization limit” graph has been renamed to “No load limit” graph
• SLI sync” graph is now hidden on the systems with single NVIDIA GPU
• Improved representation of performance limits graphs in On-Screen Display or in Logitech keyboard LCD. Now the names or currently triggered performance limits are being displayed in On-Screen Display or in Logitech keyboard LCD instead of previously used binary limits representation form

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[krisluck60]

MSI Afterburner 4.6.0 Stable

Spoiler

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MSI Afterburner 4.6.1 build 15447

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[Camel1965]

MSI Afterburner 4.6.1

Version 4.6.1

• Added new MSI Touch of Modern skin by Drerex design
• Added asynchronous dual fan control support for reference design NVIDIA GeForce RTX 20x0 series graphics cards. Please take a note that only 100% NVIDIA reference design dual fan control implementations are supported, third party proprietary asynchronous fan control solutions (e.g. EVGA iCX series asynchronous fans) are not supported and will not be supported in future versions. The following asynchronous fan control functionality is available:
  • Added new “Synchronize fan speeds” button, which is allowing you to switch between synchronous and asynchronours fan control modes. Please take a note that new fan speed controls are available in v4 skins only, v3 and v2 skins are deprecated and no longer receive new functionality
  • When fan speeds synchronization is enabled, MSI Afterburner’s fan control functionality behaves exactly like in the previous version, i.e. both fans are running asynchronically in default hardware automatic fan speed control mode but become linked synchronically if you enable manual or software automatic fan speed control mode
  • When fan speeds synchronization is disabled, you may select and adjust each fan speed independently. For software automatic fan speed control mode independent temperature curves are also adjustable for each fan
• Improved hardware monitoring module:
  • Inverted hotkeys handling approach for multiple selected hardware monitoring graphs. Previously single graph settings mode was active by default, but you could apply some settings (e.g. “Show in On-Screen Display”) to multiple selected graphs with <Ctrl> hotkey modifier. Now such settings are applied to multiple selected graphs by default and <Ctrl> hotkey modifier is used to apply settings to single focused graph
  • Group operation notifier has been moved to hardware monitoring graph properties header
  • Improved backward compatibility with monitoring profiles created in the previous versions of application. It is no longer necessary to recreate the profiles having monitoring settings without On-Screen Display layout
  • It is no longer necessary to click <Apply> button inside the On-Screen Display layout editor after changing current layout, now the changes are applied properly on closing the editor
  • The progress of saving multiple graphs’ settings is now displayed in the caption of the application’s property sheet
  • Optimized handling of “dirty” flag for settings decreases saving time for multiple graph’s settings when using multiple subsequent group operations
  • Added new “Hide attached monitoring panel” command to the context menu of hardware monitoring window. You may use it to toggle visibility of monitoring window when it is attached to the main application window
  • Now you may press <Ctrl> + <M> hotkeys to toggle monitoring window attachment
• Improved voltage/frequency curve editor for both AMD and NVIDIA GPUs:
  • Now you may hold <Shift>and press left mouse button on initial desired horizontal position in the editor window to begin fragment selection, then drag mouse cursor to desired final horizontal position and release left mouse button to select a fragment. The following functionality is available for selected fragments:
    • You may double click the editor window to reset fragment selection
    • You may adjust the offset for any point inside the selection with mouse cursor to apply the same offset simultaneously to all selected points
    • You may adjust the offset for any point inside the selection with keyboard cursor keys, <Enter> or <Shift>+<Enter> keys to apply the same offset or specify the same target frequency or voltage for all selected points
• Improved skin engine:
  • Skin engine no longer crashes when switching between the skins having the same site with and without alpha channel
  • Added thumbless skinned slider controls support
  • Added alpha path threshold support for skinned slider controls
• Improved skin cross-compatibility layer:
  • Extended list of applications supported by skin cross-compatibility layer
  • Various compatibility fixes for third party skins supported by cross-compatibility layer
  • Fixed issue with GUI stopping responding during adjusting skin scaling ratio on the fly in high DPI mode when skin composition mode was set to layered mode with alpha
• Updated third party hardware database:
  • Added new third party voltage control capable graphics cards to the database
  • Added new third party graphics cards with multichannel GPU, memory and VRM temperature sensors to the database
• RivaTuner Statistics Server has been upgraded to v7.2.2

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