计算机科学
图灵
绘图
领域(数学)
航程(航空)
建筑
高效能源利用
计算科学
混合动力系统
计算机图形学
计算机体系结构
并行处理
张量(固有定义)
并行计算
图形处理单元的通用计算
图形处理单元
数据处理
理论计算机科学
系统体系结构
对称多处理机系统
作者
Quazi Rian Hasnaine,Mostafa M. Fouda,Steve C. Chiu
标识
DOI:10.1109/icmi65310.2025.11141315
摘要
Graphics Processing Units (GPUs) and Central Processing Units (CPUs) are the foundations of contemporary computing in the rapidly developing field of computational technology. Their performance, architectural variations, and energy efficiency are compared in this research, emphasizing their distinct advantages across a range of workloads, including gaming, scientific computing, and artificial intelligence. This survey paper highlights how GPUs have transformed parallel processing with breakthroughs like Compute Unified Device Architecture (CUDA) cores and tensor operations. CPUs continue to play a crucial role in sequential and hybrid computing applications. Particular attention is given to NVIDIA's achievements, which include innovations in Turing and Ampere architectures, NVLink interconnects, and hybrid CPU-GPU systems such as the Grace Hopper superchip. The results highlight the complementary functions of these processors in heterogeneous systems and address their consequences for energy efficiency, High-Performance Computing (HPC), and hybrid architectures in the future.
科研通智能强力驱动
Strongly Powered by AbleSci AI