Found the PR on the Internets:
TOKYO, March 2, 1999 -- Sony Computer Entertainment has developed the Graphics Synthesizer for the next generation PlayStation® incorporating a massively parallel rendering engine that contains a 2,560 bit wide data bus that is 20 times the size of leading PC-based graphics accelerators. Very high pixel fill rates and drawing performance is achieved only through the use of embedded DRAM process technology pioneered by SCE for use in advanced graphics technology.
The current PlayStation introduced the concept of the Graphics Synthesizer via the real-time calculation and rendering of a 3D object. This new GS rendering processor is the ultimate incarnation of this concept – delivering unrivalled graphics performance and capability. The rendering function was enhanced to generate image data that supports NTSC/PAL Television, High Definition Digital TV and VESA output standards. The quality of the resulting screen image is comparable to movie-quality 3D graphics in real time.
In the design of graphics systems, the rendering capability is defined by the memory bandwidth between the pixel engine and the video memory. Conventional systems use external VRAM reached via an off-chip bus that limits the total performance of the system. However in the case of the new GS, there is a 48-Gigabyte memory access bandwidth achieved via the integration of the pixel logic and the video memory on a single high performance chip. This allows orders of magnitude greater pixel fill-rate performance compared to today’s best PC-based graphics accelerators.
When rendering small polygons, the peak drawing capacity is 75 Million polygons per second and the system can render 150 Million particles per second. With this large drawing capability, it is possible to render a movie-quality image. With Z-buffering, textures, lighting and alpha blending (transparency), a sustained rate of 20 Million polygons per second can be drawn continuously.
This new architecture can also execute recursive multi-pass rendering processing and filter operations at a very fast speed without the assistance of the main CPU or main bus access. In the past, this level of real-time performance was only achieved when using very expensive, high performance, dedicated graphics workstations. However, with the design of the new Graphics Synthesizer, this high quality image is now available for in-home computer entertainment applications. This will help accelerate the convergence of movies, music and computer technology into a new form of digital entertainment.
