[exclusive] - Spice Simulator
Easily manage and swap NVIDIA DLSS versions for optimal gaming performance
Easily manage and swap NVIDIA DLSS versions for optimal gaming performance
DLSS Swapper is an open-source tool designed to allow users to easily swap between different versions of NVIDIA's Deep Learning Super Sampling (DLSS) technology in games. This tool enables gamers to optimize their gaming experience by upgrading or downgrading the DLSS version used in a game, which can improve performance, image quality, or compatibility.
What sets DLSS Swapper apart is its comprehensive support for multiple upscaling technologies. Beyond NVIDIA DLSS, it also supports AMD FSR 3.1 and Intel XeSS upscaling libraries, making it a versatile tool for managing various upscaling technologies in games.
| Analysis Type | Purpose | Example | |---------------|---------|---------| | | Find operating points, transfer curves | Bias point of a transistor | | AC Analysis | Small-signal frequency response | Gain/phase vs. frequency | | Transient Analysis | Time-domain response | Turn-on waveform, ringing |
SPICE simulators are powerful because they offer multiple analysis modes, allowing engineers to view their circuits from different perspectives.
At its core, SPICE solves (using modified nodal analysis and Newton-Raphson iterations) to predict circuit behavior in the time and frequency domains.
SPICE performs three main types of analysis:
Go to DLSS-Swapper.Com and download the latest version. Choose between an installer or portable version.
Run the installer for a full installation, or extract the portable version to any folder of your choice. spice simulator
Launch the application and it will automatically detect your installed DLSS-enabled games. | Analysis Type | Purpose | Example |
Select a game, choose your preferred DLSS version, and click to apply the changes. spice simulator
| Analysis Type | Purpose | Example | |---------------|---------|---------| | | Find operating points, transfer curves | Bias point of a transistor | | AC Analysis | Small-signal frequency response | Gain/phase vs. frequency | | Transient Analysis | Time-domain response | Turn-on waveform, ringing |
SPICE simulators are powerful because they offer multiple analysis modes, allowing engineers to view their circuits from different perspectives.
At its core, SPICE solves (using modified nodal analysis and Newton-Raphson iterations) to predict circuit behavior in the time and frequency domains.
SPICE performs three main types of analysis: