Get More Frames On ASUS ROG Ally With Lossless Scaling!!
TLDRIn this video, the user discusses the performance of the ASUS ROG Li, a portable gaming PC, when running modern AAA games. They explore the use of upscaling technologies like FSR and DLSS to improve frame rates and gameplay experience. The video also introduces Lossless Scaling, a program that can enhance games that lack built-in upscaling, by running them at lower resolutions and then upscaling the image with special algorithms. The user demonstrates the effectiveness of Lossless Scaling and its frame generation feature, which interpolates frames to create smoother gameplay, even on lower-end systems.
Takeaways
- 🎮 The ASUS ROG Li is a portable handheld gaming PC with significant power in a compact form factor.
- 🚀 Performance on modern AAA games may not be optimal, as demonstrated by low frame rates in Helldivers 2.
- 🔧 Upscaling technologies like FSR and DLSS can improve gaming experience by rendering games at lower resolutions and then upscaling them without significant quality loss.
- 📉 Changing render scale in game settings can enhance frame rates, making games more playable on portable devices.
- 🎨 Lowering game resolution can also improve frame rates, but without special algorithms, the image may appear distorted or soft.
- 🖥️ Lossless Scaling is a program that can upscale lower resolutions to full screen with sharpness filtering, improving visual quality.
- 🕹️ Games not supporting built-in resolution upscaling can benefit from programs like Lossless Scaling to enhance performance.
- 🛠️ When using Lossless Scaling, games should run in windowed or borderless window mode for optimal results.
- 🔄 Frame generation, a feature of Lossless Scaling, can interpolate frames to create the illusion of higher frame rates, even when the native frame rate is lower.
- 💡 Despite some visual artifacts, frame generation can provide a smoother gaming experience, especially for single-player or PVE games.
- 🌐 Lossless Scaling is highly recommended for low-end gaming systems or portable gaming PCs to improve performance and maintain visual quality.
Q & A
What is the main topic of the video?
-The main topic of the video is about improving the gaming performance on a portable handheld PC, specifically the ASUS ROG Li, by using various upscaling techniques such as FSR, DLSS, and lossless scaling.
What is the issue with playing modern AAA games on the ASUS ROG Li?
-The issue with playing modern AAA games on the ASUS ROG Li is that the performance is not optimal, resulting in low frame rates which makes the gaming experience not very enjoyable.
What does the term 'upscaling' refer to in the context of the video?
-In the context of the video, 'upscaling' refers to techniques like FSR (FidelityFX Super Resolution) and DLSS (Deep Learning Super Sampling) that improve gaming performance by rendering the game at a lower resolution and then scaling it up to the display resolution without significant loss in visual quality.
How does changing the render scale in Helldivers 2 affect the frame rate?
-Changing the render scale in Helldivers 2 to 'Performance' mode, which uses FSR, results in the game rendering at a lower resolution and then upscaling it, leading to a significant increase in frame rate from 18 FPS to around 30 FPS.
What is the purpose of using a lower resolution in gaming?
-Using a lower resolution in gaming can help increase the frame rate by reducing the computational load on the GPU, making the game more playable on devices with lower-end hardware specifications.
How does lossless scaling differ from simple resizing of the game window?
-Lossless scaling uses special algorithms to resize the game window, which includes sharpness filtering and other techniques to maintain or improve the visual quality compared to a simple resize that might result in a blurry or pixelated image.
What is 'frame generation' in the context of the video?
-Frame generation is a feature of lossless scaling that interpolates additional frames between the existing ones, making the game appear to run at a higher frame rate than it actually does, resulting in a smoother visual experience.
What are the potential drawbacks of using frame generation?
-The potential drawbacks of using frame generation include increased GPU usage and the introduction of a small amount of input lag, which might not be suitable for certain types of games where responsiveness is crucial.
How does the performance of the ASUS ROG Li compare when playing Dragon's Dogma 2?
-When playing Dragon's Dogma 2, the ASUS ROG Li struggles with low frame rates, around 18-20 FPS, even at very low settings, due to the high system requirements of the game.
What is the recommendation for portable gaming PCs regarding upscaling technology?
-The recommendation for portable gaming PCs is to use lossless scaling as it provides a significant improvement in gaming performance by allowing games to run at lower resolutions and then upscaling them without sacrificing much detail or quality.
What is the alternative to lossless scaling mentioned in the video?
-The alternative to lossless scaling mentioned in the video is Mee, which is a free program that can perform upscaling similar to lossless scaling but does not include frame generation capabilities.
Outlines
🎮 Introduction to Asus Rog Li and Gaming Performance
The speaker introduces the Asus Rog Li, a portable handheld gaming PC, highlighting its compact form factor and powerful capabilities. Despite not being able to perform miracles on modern AAA games, the device is demonstrated running Hell divers 2 at a low frame rate of 18 frames per second. The discussion then shifts to upscaling technologies like FSR and DLSS, and how adjusting render scale in-game settings can improve performance. By lowering the render scale to 'Performance' and utilizing FSR or DLSS, the frame rate increases to a smoother 30 frames per second, making the gaming experience more enjoyable on portable devices.
🔧 Resolving Lower Resolution and Input Lag Issues
The speaker addresses the problem of resolution resizing in games, which often requires quitting the game, as seen with changing the graphics settings to 720p. The game's performance improves, maintaining above 30 frames per second, but the downside is the loss of sharpness when stretched to full-screen resolution. To counter this, the speaker introduces a window resizing program called 'less scaling,' which uses special algorithms like AMD FSR or its own LS1 algorithm to upscale 720p to 1080p with sharpness filtering, resulting in a better visual experience. The speaker also notes that using such programs introduces a small amount of input lag, making it more suitable for single-player or PVE games rather than competitive ones.
🚀 Enhancing Gaming Experience with Frame Generation
The speaker discusses the concept of frame generation, a technology that can interpolate frames to make games appear smoother even when running at a lower frame rate. This feature is available in 'less scaling' and can be particularly beneficial for games that don't natively support upscaling technologies. The speaker demonstrates this by increasing the perceived frame rate from 60 FPS to 70 FPS through frame generation, while noting that the actual frame rate remains the same. Despite some visual artifacts due to frame interpolation, the overall gaming experience is smoother, and the GPU usage increases significantly during this process.
🧙♂️ Frame Generation in Extreme Cases
The speaker explores the use of frame generation in extreme cases, using the example of Dragon's Dogma 2, a game known for its high system requirements. Running the game on low settings at 720p and 30 FPS, the performance is still poor, with frame rates dropping below 20 FPS. By applying 'less scaling' and enabling frame generation, the speaker manages to improve the gaming experience, despite some visual anomalies due to the interpolation of additional frames. The speaker emphasizes that while frame generation can introduce artifacts, it can significantly enhance the fluidity of the game, making it more enjoyable to play on low-end systems.
🛠️ Utilizing Less Scaling for Low-End Gaming Systems
The speaker underscores the value of 'less scaling' for portable gaming PCs and low-end systems, which lack built-in upscaling capabilities. 'Less scaling' allows these systems to run games at lower resolutions without sacrificing too much detail and quality when scaled back up to full screen. The speaker also highlights the effectiveness of frame generation, especially for games like Dragon's Dogma 2, where it can increase the frame rate from an unplayable 18 FPS to a smoother 30 FPS. The speaker advises that while frame generation can introduce some visual artifacts, the overall improvement in fluidity can be worth it for many gamers, and recommends 'less scaling' for those looking to enhance their gaming experience on low-end systems.
🌟 Conclusion and Recommendation of Less Scaling
In the concluding paragraph, the speaker summarizes the benefits of using 'less scaling' for portable gaming PCs and low-end systems. The speaker reiterates that 'less scaling' not only provides upscaling for games that lack this feature but also improves the gaming experience through frame generation, despite the potential for visual artifacts. The speaker also mentions that 'less scaling' is available on Steam and can be used with any game, not just Steam titles. Finally, the speaker compares 'less scaling' to another program called 'macpie,' which does not offer frame generation but is free to use. The speaker recommends 'less scaling' as a valuable tool for enhancing game performance on low-end systems and encourages viewers to try it out, with the option to refund it within two hours if it does not meet their needs.
Mindmap
Keywords
💡ASUS ROG Li
💡Helldivers 2
💡Upscaling
💡Render Scale
💡FSR (FidelityFX Super Resolution)
💡DLSS (Deep Learning Super Sampling)
💡Performance Mode
💡Resolution
💡Lossless Scaling
💡Frame Generation
💡Input Lag
Highlights
The ASUS ROG Li is a portable handheld gaming PC with impressive power in a compact form factor.
Modern AAA games may not perform optimally on portable devices, as demonstrated by Helldivers 2 running at 18 frames per second.
Upscaling technologies like FSR and DLSS can improve gaming experience on portable devices by rendering at lower resolutions and then upscaling the image.
By adjusting the render scale to Performance in Helldivers 2, the frame rate increased to approximately 30 FPS, making the game more enjoyable.
When using ultra-performance settings, the frame rate can drop to below 20 FPS, which negatively impacts the gaming experience.
Lowering the game resolution can help achieve higher frame rates, but without special algorithms, the image can become soft and lose quality.
Lossless Scaling is a program that can upscale lower resolution games while maintaining sharpness and quality, unlike simple stretching.
Lossless Scaling can be used with various algorithms such as AMD FSR or the built-in LS1 algorithm for optimal results.
Using Lossless Scaling with frame generation can interpolate frames, making games appear smoother even if the native frame rate is lower.
For best results with frame generation, the game should limit its frame rate and run at a high refresh rate, such as 120Hz.
Frame generation can introduce some input lag and GPU usage may increase, but it can provide a smoother gaming experience.
Lossless Scaling is particularly useful for portable gaming PCs and low-end systems, allowing them to run modern games more effectively.
The program can be used with any game, not just Steam games, including Xbox Game Pass and EA Games, providing flexibility for various gaming platforms.
There is a 2-hour refund window for Lossless Scaling on Steam, allowing users to try it out and see if it benefits their gaming experience.
Another similar program, Magni, offers free upscaling but does not include frame generation and is not primarily focused on game performance.
Lossless Scaling is recommended for users with portable gaming devices or low-end systems looking to enhance their gaming performance and visual quality.