Step 1
Open search on your taskbar
Open search on your taskbar
Open search on your taskbar
Open search on your taskbar
Open search on your taskbar
Open search on your taskbar
Step 1
Open search on your taskbar
Step 2
Search for "View network connections" and open that
Search for "View network connections" and open that
Search for "View network connections" and open that
Search for "View network connections" and open that
Search for "View network connections" and open that
Search for "View network connections" and open that
Step 2
Search for "View network connections" and open that
Step 3
Left and than right click on your wifi adapter. Select properties.
Left and than right click on your wifi adapter. Select properties.
Left and than right click on your wifi adapter. Select properties.
Left and than right click on your wifi adapter. Select properties.
Left and than right click on your wifi adapter. Select properties.
Left and than right click on your wifi adapter. Select properties.
Step 3
Left and than right click on your wifi adapter. Select properties.
Step 4
In properties:
Uncheck everything but
"Internet Protocol Version 4 (TCP/IPv4)"
and "QoS Packet Schelduler"
In properties:
Uncheck everything but
"Internet Protocol Version 4 (TCP/IPv4)"
and "QoS Packet Schelduler"
In properties:
Uncheck everything but
"Internet Protocol Version 4 (TCP/IPv4)"
and "QoS Packet Schelduler"
In properties:
Uncheck everything but
"Internet Protocol Version 4 (TCP/IPv4)"
and "QoS Packet Schelduler"
In properties:
Uncheck everything but
"Internet Protocol Version 4 (TCP/IPv4)"
and "QoS Packet Schelduler"
In properties:
Uncheck everything but
"Internet Protocol Version 4 (TCP/IPv4)"
and "QoS Packet Schelduler"
Step 4
In properties:
Uncheck everything but
"Internet Protocol Version 4 (TCP/IPv4)"
and "QoS Packet Schelduler"
Step 5
Click "OK" and REOPEN
Click "OK" and REOPEN
Click "OK" and REOPEN
Click "OK" and REOPEN
Click "OK" and REOPEN
Click "OK" and REOPEN
Step 5
Click "OK" and REOPEN
Step 6
After reopening
Click "Configure"
After reopening
Click "Configure"
After reopening
Click "Configure"
After reopening
Click "Configure"
After reopening
Click "Configure"
After reopening
Click "Configure"
Step 6
After reopening
Click "Configure"
Step 7
Select "Power Managment" and uncheck all check boxes
click "OK" and REOPEN
Select "Power Managment" and uncheck all check boxes
click "OK" and REOPEN
Select "Power Managment" and uncheck all check boxes
click "OK" and REOPEN
Select "Power Managment" and uncheck all check boxes
click "OK" and REOPEN
Select "Power Managment" and uncheck all check boxes
click "OK" and REOPEN
Select "Power Managment" and uncheck all check boxes
click "OK" and REOPEN
Step 7
Select "Power Managment" and uncheck all check boxes
click "OK" and REOPEN
Step 8
After reopening:
Head to the "Advanced" tab and copy settings from under here. When you are done with that, click "OK" again "OK" and than enjoy your internet speed.
After reopening:
Head to the "Advanced" tab and copy settings from under here. When you are done with that, click "OK" again "OK" and than enjoy your internet speed.
After reopening:
Head to the "Advanced" tab and copy settings from under here. When you are done with that, click "OK" again "OK" and than enjoy your internet speed.
After reopening:
Head to the "Advanced" tab and copy settings from under here. When you are done with that, click "OK" again "OK" and than enjoy your internet speed.
After reopening:
Head to the "Advanced" tab and copy settings from under here. When you are done with that, click "OK" again "OK" and than enjoy your internet speed.
After reopening:
Head to the "Advanced" tab and copy settings from under here. When you are done with that, click "OK" again "OK" and than enjoy your internet speed.
Step 8
After reopening:
Head to the "Advanced" tab and copy settings from under here. When you are done with that, click "OK" again "OK" and than enjoy your internet speed.
Copy these Properties:
Copy these Properties:
Copy these Properties:
Copy these Properties:
Copy these Properties:
AdaptivityPara
1
AdaptivityPara refers to the parameters that allow the network adapter to adjust its performance settings dynamically based on network conditions, optimizing throughput and reducing errors by adapting to varying traffic loads.
AdaptivityPara refers to the parameters that allow the network adapter to adjust its performance settings dynamically based on network conditions, optimizing throughput and reducing errors by adapting to varying traffic loads.
AdaptivityPara refers to the parameters that allow the network adapter to adjust its performance settings dynamically based on network conditions, optimizing throughput and reducing errors by adapting to varying traffic loads.
AdaptivityPara refers to the parameters that allow the network adapter to adjust its performance settings dynamically based on network conditions, optimizing throughput and reducing errors by adapting to varying traffic loads.
AdaptivityPara refers to the parameters that allow the network adapter to adjust its performance settings dynamically based on network conditions, optimizing throughput and reducing errors by adapting to varying traffic loads.
HLDiffForAdaptivity
Default
HLDiffForAdaptivity (High-Level Difference for Adaptivity) adjusts the threshold for network performance changes, enabling the network adapter to dynamically fine-tune its settings based on the difference in traffic conditions, ensuring optimal adaptation to varying network loads.
HLDiffForAdaptivity (High-Level Difference for Adaptivity) adjusts the threshold for network performance changes, enabling the network adapter to dynamically fine-tune its settings based on the difference in traffic conditions, ensuring optimal adaptation to varying network loads.
HLDiffForAdaptivity (High-Level Difference for Adaptivity) adjusts the threshold for network performance changes, enabling the network adapter to dynamically fine-tune its settings based on the difference in traffic conditions, ensuring optimal adaptation to varying network loads.
HLDiffForAdaptivity (High-Level Difference for Adaptivity) adjusts the threshold for network performance changes, enabling the network adapter to dynamically fine-tune its settings based on the difference in traffic conditions, ensuring optimal adaptation to varying network loads.
HLDiffForAdaptivity (High-Level Difference for Adaptivity) adjusts the threshold for network performance changes, enabling the network adapter to dynamically fine-tune its settings based on the difference in traffic conditions, ensuring optimal adaptation to varying network loads.
Bandwidth
20_40MHz
Bandwidth refers to the maximum rate at which data can be transferred over a network connection, typically measured in bits per second (bps), which determines how much data can be transmitted within a given time frame.
Bandwidth refers to the maximum rate at which data can be transferred over a network connection, typically measured in bits per second (bps), which determines how much data can be transmitted within a given time frame.
Bandwidth refers to the maximum rate at which data can be transferred over a network connection, typically measured in bits per second (bps), which determines how much data can be transmitted within a given time frame.
Bandwidth refers to the maximum rate at which data can be transferred over a network connection, typically measured in bits per second (bps), which determines how much data can be transmitted within a given time frame.
Bandwidth refers to the maximum rate at which data can be transferred over a network connection, typically measured in bits per second (bps), which determines how much data can be transmitted within a given time frame.
L2HForAdaptivity
Default
L2HForAdaptivity (Layer 2 Handshake for Adaptivity) refers to the process where the network adapter uses Layer 2 (data link layer) protocols to assess and adjust its performance settings based on network conditions, ensuring better stability and throughput in varying traffic environments.
L2HForAdaptivity (Layer 2 Handshake for Adaptivity) refers to the process where the network adapter uses Layer 2 (data link layer) protocols to assess and adjust its performance settings based on network conditions, ensuring better stability and throughput in varying traffic environments.
L2HForAdaptivity (Layer 2 Handshake for Adaptivity) refers to the process where the network adapter uses Layer 2 (data link layer) protocols to assess and adjust its performance settings based on network conditions, ensuring better stability and throughput in varying traffic environments.
L2HForAdaptivity (Layer 2 Handshake for Adaptivity) refers to the process where the network adapter uses Layer 2 (data link layer) protocols to assess and adjust its performance settings based on network conditions, ensuring better stability and throughput in varying traffic environments.
L2HForAdaptivity (Layer 2 Handshake for Adaptivity) refers to the process where the network adapter uses Layer 2 (data link layer) protocols to assess and adjust its performance settings based on network conditions, ensuring better stability and throughput in varying traffic environments.
Wireless Mode
IEEE 802.11b/g/n
Wireless Mode defines the type of wireless network standard (such as 802.11a/b/g/n/ac/ax) that the device uses for communication, determining the maximum possible speed, range, and compatibility with other devices on the network.
Wireless Mode defines the type of wireless network standard (such as 802.11a/b/g/n/ac/ax) that the device uses for communication, determining the maximum possible speed, range, and compatibility with other devices on the network.
Wireless Mode defines the type of wireless network standard (such as 802.11a/b/g/n/ac/ax) that the device uses for communication, determining the maximum possible speed, range, and compatibility with other devices on the network.
Wireless Mode defines the type of wireless network standard (such as 802.11a/b/g/n/ac/ax) that the device uses for communication, determining the maximum possible speed, range, and compatibility with other devices on the network.
Wireless Mode defines the type of wireless network standard (such as 802.11a/b/g/n/ac/ax) that the device uses for communication, determining the maximum possible speed, range, and compatibility with other devices on the network.
EnableAdaptivity
Auto
EnableAdaptivity allows the network adapter to automatically adjust its performance settings (such as speed and error correction) based on real-time network conditions, improving efficiency and reliability.
EnableAdaptivity allows the network adapter to automatically adjust its performance settings (such as speed and error correction) based on real-time network conditions, improving efficiency and reliability.
EnableAdaptivity allows the network adapter to automatically adjust its performance settings (such as speed and error correction) based on real-time network conditions, improving efficiency and reliability.
EnableAdaptivity allows the network adapter to automatically adjust its performance settings (such as speed and error correction) based on real-time network conditions, improving efficiency and reliability.
EnableAdaptivity allows the network adapter to automatically adjust its performance settings (such as speed and error correction) based on real-time network conditions, improving efficiency and reliability.
QoS Support
Support QoS
QoS (Quality of Service) Support allows the network device to prioritize certain types of traffic over others, ensuring that high-priority applications (like video streaming or VoIP) receive the necessary bandwidth and low latency for optimal performance, even in high-traffic conditions.
QoS (Quality of Service) Support allows the network device to prioritize certain types of traffic over others, ensuring that high-priority applications (like video streaming or VoIP) receive the necessary bandwidth and low latency for optimal performance, even in high-traffic conditions.
QoS (Quality of Service) Support allows the network device to prioritize certain types of traffic over others, ensuring that high-priority applications (like video streaming or VoIP) receive the necessary bandwidth and low latency for optimal performance, even in high-traffic conditions.
QoS (Quality of Service) Support allows the network device to prioritize certain types of traffic over others, ensuring that high-priority applications (like video streaming or VoIP) receive the necessary bandwidth and low latency for optimal performance, even in high-traffic conditions.
QoS (Quality of Service) Support allows the network device to prioritize certain types of traffic over others, ensuring that high-priority applications (like video streaming or VoIP) receive the necessary bandwidth and low latency for optimal performance, even in high-traffic conditions.
Disclaimer
The recommended settings provided on this website are intended to optimize network performance based on general configurations. However, these settings may not work optimally for all machines or network environments. Individual results may vary depending on hardware, software, and network conditions. We strongly recommend conducting thorough testing on your specific setup to determine the best configuration for your needs. Always ensure compatibility with your system before applying any changes.
Henry Blade
@j.cepelqaa
