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引用次数: 0
摘要
图形处理器分为固定功能图形处理器和可编程图形处理器。固定功能gpu对于低功耗移动应用非常重要。本文在FPGA上设计并实现了一个完全兼容OpenGL 1.1.12标准的固定功能GPU。该GPU的代号为Cairo University GPU (CUGPU)。我们遵循系统的设计方法来设计我们的CUGPU。建立了MATLAB模型、c语言模型、RTL模型,最后建立了图形处理器的逻辑模型。遵循RTL合成的混合方法,其中自动和手动合成明智地结合在一起,以实现较小的设计时间和可接受的性能。最终的CUGPU在Xilinx Vertix-7 FPGA上实现。通过硬件仿真和实时片上逻辑分析,与C模型结果直接比较,验证了CUGPU的功能。
Design and Implementation Of Cairo University Graphics Processing (CUGPU) Using HLS Approach
GPUs can be divided to fixed function GPUs and programmable GPUs. Fixed function GPUs are important for low power mobile applications. This paper addresses the design and implementation, on an FPGA, of a fixed function GPU fully compatible with OpenGL 1.1.12 standard. This GPU is code-named Cairo University GPU (CUGPU). We follow a systematic design approach to design our CUGPU. We developed MATLAB model, C-language model, RTL model and finally a logic model for CUGPU. A hybrid approach for RTL synthesis is followed where automatic and manual synthesis are judiciously combined to achieve small design time and acceptable performance. The final CUGPU is implemented on Xilinx Vertix-7 FPGA. The functionality of CUGPU is verified via direct comparison with the C model results, using hardware simulation and real time on-chip logic analysis.
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