2016 benchmark test gpu
Per-core performance continues to reign supreme in most graphics-accelerated workloads, so high clock speeds and/or architectures with higher IPC tend to thrive in many of these benchmarks. As such, we see that mainstream desktop PC chips frequently lead, with the Core i9-12900K having a particularly strong showing due to its class-leading performance in single-threaded workloads. snx-04 - Siemens NX 8.0 - 10 tests ranging from 7.15 to 8.45 million vertices with wireframe, anti-aliasing, shaded, shaded with edges, and studio mode rendering modes.creo-03 - Creo 4 - Model sizes range from 20 to 48 million vertices, with multiple rendering modes.medical-03 - 2D slice rendering and raycasting techniques found in medical applications.energy-03 - OpendTect seismic visualization - 3D tests based on real-world seismic datasets.Viewsets include several rendering modes - shaded, shaded with edges, ambient occlusion, shaders, and environment maps. solidworks-05 - Dassault Systems Solidworks 2020 - 10 tests ranging from 2.1 to 21 million vertices.Viewsets include several rendering modes - anti-aliasing, shaded, and shaded with edges. catia-06 - Dassault Systems Catia v5 / 3DExperience - 10 tests ranging from 2.1 to 21 million vertices.maya-06 - Autodesk Maya 2017 - 10 rendering tests, including shaded, ambient occlusion, multi-sample anti-aliasing, and transparency.3ds max-07 - Autodesk 3ds Max 2016 - 11 tests representing rendering modes used in gaming, film visual effects, and architectural markets.Each entry has a link to more detailed test descriptions on the SPEC website. The following short descriptions are from the SPEC committee.
This has long been a weakness of previous-gen Threadripper processors, but the Zen 3 5000-series models build on the improvements we saw with the Zen 2 3000-series.
#2016 benchmark test gpu pro#
The SPECviewperf 2020 benchmarks show how well the Threadripper Pro processors can push along an Nvidia GeForce RTX 3090 in professional rendering applications.
Due to the W-3175X's six-channel memory controller and our limited stock of high-capacity DIMMs, we used six 8GB DIMMs for a total capacity of 48GB. With the exception of the W-3175X and Threadripper Pro systems, we loaded down our test platforms with 64GB of DDR4 memory spread across four modules to accommodate the expanded memory capacity required for several of these workstation-focused tasks.