Graphics processing is an increasing important application domain with the demand of real-time rendering,video streaming,virtual reality,and so on.Illumination is a critical module in graphics rendering and is typical...Graphics processing is an increasing important application domain with the demand of real-time rendering,video streaming,virtual reality,and so on.Illumination is a critical module in graphics rendering and is typically compute-bound,memory-bound,and power-bound in different application cases.It is crucial to decide how to schedule different illumination algorithms with different features according to the practical requirements in reconfigurable graphics hardware.This paper analyze the performance characteristics of four main-stream lighting algorithms,Lambert illumination algorithm,Phong illumination algorithm,Blinn-Phong illumination algorithm,and Cook-Torrance illumination algorithm,using hardware performance counters on x86 processor platform KabyLake(KBL).The data movement,computation,power consumption,and memory accessing are evaluated over a range of application scenarios.Further,by analyzing the system-level behavior of these illumination algorithms,obtains the cons and pros of these specific algorithms were obtained.The associated relationship between performance/energy and the evaluated metrics was analyzed through Pearson correlation coefficient(PCC)analysis.According to these performance characterization data,this paper presents some reconfiguration suggestions in reconfigurable graphics processor.展开更多
基金supported by the Natural National Science Foundation of China (61602377, 61834005, 61772417, 61802304,61874087,61634004)the International Science and Technology Cooperation Program of Shaanxi (2018KW006)
文摘Graphics processing is an increasing important application domain with the demand of real-time rendering,video streaming,virtual reality,and so on.Illumination is a critical module in graphics rendering and is typically compute-bound,memory-bound,and power-bound in different application cases.It is crucial to decide how to schedule different illumination algorithms with different features according to the practical requirements in reconfigurable graphics hardware.This paper analyze the performance characteristics of four main-stream lighting algorithms,Lambert illumination algorithm,Phong illumination algorithm,Blinn-Phong illumination algorithm,and Cook-Torrance illumination algorithm,using hardware performance counters on x86 processor platform KabyLake(KBL).The data movement,computation,power consumption,and memory accessing are evaluated over a range of application scenarios.Further,by analyzing the system-level behavior of these illumination algorithms,obtains the cons and pros of these specific algorithms were obtained.The associated relationship between performance/energy and the evaluated metrics was analyzed through Pearson correlation coefficient(PCC)analysis.According to these performance characterization data,this paper presents some reconfiguration suggestions in reconfigurable graphics processor.
