SiliconArts releases Ray Tracing IP Core to Intel Solutions Marketplace, open source ray tracing APIs on Github
SiliconArts is releasing a dedicated ray tracing accelerator core into the Intel Solutions Marketplace as an Intel Partner Alliance(IPA) Gold Member.
SEOUL, SOUTH KOREA -- August 10, 2021 -- Silicon Arts releases GPU ray tracing RayCore RC1000 core into the Intel Solutions Marketplace. Open source release of ray tracing examples, apis, and drivers on Github with FPGA macro
SiliconArts announces it is releasing a dedicated ray tracing accelerator core into the Intel Solutions Marketplace. As an Intel Partner Alliance(IPA) Gold Member, SiliconArts is expanding its support for FPGA design services to incorporate its leading ray tracing IP into a dedicated IP core that can be combined with legacy GPUs to provide ray tracing to any level of graphics marketplace. A link describing the product on the Intel Partner website describes the RC1000 RayCore FPGA deliverables for evaluation and development purposes. This is especially useful for gaming and VR, as well as embedded, medical, industrial, military and professional use cases, where real-time ray tracing is a requirement that cannot be met with large dedicated GPUs and often must work with an existing legacy GPU.
To make the evaluation of the RC1000 as simple as possible for developers to evaluate or utilize the ray tracing api extensions to OpenGL, SiliconArts has released a demonstration build on the Github site (https://github.com/siliconarts) that allows for developers to access the source code for the rendering examples and execute them on an Intel PAC with Intel ArriaV GX FPGA card. The RayCore 1000 ray tracing accelerator IP core is provided in a downloadable FPGA build along with open source releases of its apis, driver and build files. Having the ray tracing api’s released to the open source communities will enable experimentation and innovation for ray tracing beyond the traditional markets. This will enable anyone to program and evaluate ray tracing without dedicating the latest generation GPU to the task. SiliconArts is working to incorporate advanced ray tracing functions into the open source developer environment to prepare for the conversion of graphics into photorealistic representations that can provide natural looking lighting and AR visual immersion.
SiliconArts own graphics technology, the RayCore MC-Series’, enabling a scalable 3D GPU rendering solution providing from 1 GRays/sec to up to 10 Grays/sec for multi-core solutions can be integrated to this GPU platform to provide futuristic capabilities for next generation visualization. Higher performance rendering platforms for dedicated and professional use cases can be scaled to 100’s of Grays/sec performance with multi-chip board level designs.
SiliconArts CEO Hyung-Min Yoon says “The ray tracing movement is so critical to our computing platform’s user interface. We can expect ray tracing to be a core function of all GPUs in the future.
SiliconArts
Bringing ray tracing to the mainstream GPU market based on a licensable IP core that incorporates patented innovations to accelerate ray tracing for all GPU product ranges, including embedded and legacy GPUs.
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