Subject: General Tech | September 25, 2014 - 10:04 AM | Jeremy Hellstrom
Tagged: euclideon, voxels, larrabee, point cloud
Could the next Elder Scrolls game you play look like the screenshot below? Euclideon is working to make that a reality with their new voxel engine. The engine is strictly CPU based, similar to the long dead Larrabee architecture but with one major difference, currently they are capable of rendering 2000x1000 frames at around 32 FPS on a six-core processor. They are properly referred to as frames because this is a point cloud solution, not pixel based. They generated the images in the video you can see at The Tech Report by rendering 3D scans of real objects and locations but programmers will still be able to create scenes with Maya or 3ds Max. Euclideon feels that they can still get a lot more performance out of a CPU with software refinements and are not planning on moving to GPU at this time. With two unannounced games using this new engine in development it might be time to make sure your machine has at least 6 cores so that you can be ready for their launch
"We first heard about Euclideon back in 2011, when the company posted a video of a voxel-based rendering engine designed to enable environments with unlimited detail. This month, the firm made headlines again with a new video showing the latest iteration of is technology, which uses 3D scanners to capture real-world environments as point-cloud data. We spoke to Euclideon CEO Bruce Dell to find out more about these innovations—and about the first games based on them."
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A new generation of Software Rendering Engines.
We have been busy with side projects, here at PC Perspective, over the last year. Ryan has nearly broken his back rating the frames. Ken, along with running the video equipment and "getting an education", developed a hardware switching device for Wirecase and XSplit.
My project, "Perpetual Motion Engine", has been researching and developing a GPU-accelerated software rendering engine. Now, to be clear, this is just in very early development for the moment. The point is not to draw beautiful scenes. Not yet. The point is to show what OpenGL and DirectX does and what limits are removed when you do the math directly.
Errata: BioShock uses a modified Unreal Engine 2.5, not 3.
In the above video:
- I show the problems with graphics APIs such as DirectX and OpenGL.
- I talk about what those APIs attempt to solve, finding color values for your monitor.
- I discuss the advantages of boiling graphics problems down to general mathematics.
- Finally, I prove the advantages of boiling graphics problems down to general mathematics.
I would recommend watching the video, first, before moving forward with the rest of the editorial. A few parts need to be seen for better understanding.
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