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3DMark is a computer benchmarking tool created and developed by UL (formerly Futuremark), to determine the performance of a computer's 3D graphic rendering and CPU workload processing capabilities. Running 3DMark produces a 3DMark score, with higher numbers indicating better performance.
Superposition Benchmark is a benchmarking software based on the UNIGINE Engine. The benchmark was developed and published by UNIGINE Company in 2017. The main purpose of software is performance and stability testing for GPUs. Users can choose a workload preset, Low to Extreme, or set the parameters by custom.
The 3DMark series has been the company's most popular and successful to date. Futuremark's applications are distributed via the Internet as well as offline media. In addition to its benchmarking software, the company has also provided services such as IHV/ISV customised benchmarks, 3D demos as well as online and data services.
Combo Benchmark Compare to Compete Online Benchmarking web-based database This web-based database is suitable for groups of competitors to benchmark individual performance against group performance. All process and performance benchmarks can be processed in this software, providing interesting analysis tools and complete benchmarking report ...
The benchmark was developed and published by UNIGINE Company in 2009. The main purpose of software is performance and stability testing for GPUs. Users can choose a workload preset, Basic or Extreme, or set the parameters by custom. The benchmark 3D scene is a steampunk-style city on flying islands in the middle of the clouds.
It uses a scoring system that separates single-core and multi-core performance, [7] [8] and workloads designed to simulate real-world scenarios. [9] The software benchmark is available for macOS, Windows, Linux, Android and iOS. Free users are required to upload test results online in order to run the benchmark.
Fraps is proprietary and commercial software, but it is free to use for frame rate display and benchmarking, and free to use with limitations for video capture (30 second time limit, watermark) and screen capture (BMP format only).
UNIGINE 1 had support for large virtual scenarios and specific hardware required by professional simulators and enterprise VR systems, often called serious games.. Support for large virtual worlds was implemented via double precision of coordinates (64-bit per axis), [12] zone-based background data streaming, [13] and optional operations in geographic coordinate system (latitude, longitude ...