intel的問題，透過圖書和論文來找解法和答案更準確安心。 我們找到下列懶人包和總整理

A Comprehensive Guide to Measuring the Power and Energy of Modern Systems

為了解決 intel的問題，作者Lee, Victor,Choi, Jee Whan,Cameron, Kirk 這樣論述：

Victor Lee is a principal engineer and research scientist at Intel’s Parallel Computing Lab. His research interests include emerging applications, application analysis and auto-tuning as well as computer architecture. He is currently working on analyzing the HW/SW interactions between HPC/Big-data a

pplications and modern processor architecture and on developing innovative architecture features to improve application and processor (performance and energy) efficiency. Victor received a B.S. in Electrical Engineering from University of Washington in 1994, S.M. in Electrical Engineering and Comput

er Science from Massachusetts Institute of Technology in 1996. He joined Intel in 1997 and had worked on many Intel processors include Intel Pentium Pro, Intel Pentium 4, and Intel Itanium processors. In 2002, Victor moved to Intel Labs and spearheaded the many-core research which eventually lead to

the Intel Many Integrated Core architecture and the first Intel Xeon Phi coprocessor product. He is a senior member of IEEE. He has 30+ professional publications, 15+ granted patents and more than 30 pending patent applications worldwide. Jee Choi is a postdoctoral research at IBM TJ Watson Researc

h Center. Kirk W. Cameron is a professor of computer science and a research fellow in the College of Engineering at Virginia Tech. The central theme of his research is to improve power and performance efficiency in high performance computing (HPC) systems and applications. Prof. Cameron is a pioneer

and leading expert in Green Computing. Cameron is also the Green IT columnist for IEEE Computer, Green500 co-founder, founding member of SPECPower, EPA consultant, Uptime Institute Fellow, and co-founder of power management software startup company MiserWare. His advanced power measurement software

infrastructure for research, (PowerPack), is used by dozens of research groups around the world. His power management software, Granola, is used by hundreds of thousands of people in more than 160 countries.

intel進入發燒排行的影片

5g Edge Computing Acceleration Technologies

為了解決 intel的問題，作者Kan, Hongwei,Hung, Patrick,Knopf, Greg 這樣論述：

PATRICK HUNG, PhD, is Asia Pacific Head of Maxeler Technologies. He is a techn/ical committee member on ESOC of IEEE Industrial Electronics Society, and an executive committee member of IEEE Hong Kong Section Computer Society Chapter. He cofounded CPO Technologies Corporation in Silicon Valley in 20

00 and Velosti Technology in Hong Kong in 2009.HONGWEI KAN is Chief Scientist at Inspur Group. He is also a Visiting Professor at Beijing University of Posts and Telecommunications as well as China University of Mining and Technology. He is an expert in computer architecture, artificial intelligence

and custom computer technologies. Mr. Kan is Jinan Special Expert in Shandong Province.GREG KNOPF is Senior Director within Server Customer Engineering at Advanced Micro Devices. Before joining Advanced Micro Devices, Mr. Knopf was Senior Director of Engineering at Intel Corporation, leading techni

cal development pipeline for new system and platform technologies targeting client devices.

採用CUDA圖型處理器平行化改良5G軟體基地台之隨機存取通道流程

為了解決 intel的問題，作者王靖 這樣論述：

隨著5G逐漸於全球開始商轉，越來越多企業發現其中商機並相繼開發相關應用與服務，例如：無人機、物聯網、邊緣運算等，然而這些應用都需要基地台為其傳遞訊號才能正確運作，因此基地台本身的穩定與效能將是這一切的基礎。本論文即提出一改善方法以提升原基地台本身之運算效率使其能夠更穩定的提供服務。無線行動網路近年快速發展，於是有軟體化基地台（Software-defined Radio, SDR）的概念被提出並運行提供服務，此概念即透過編寫軟體程式提供傳統基地台之服務，以應付行動網路技術規格之快速發展與變遷。本論文在此基礎之上針對基地台中提供使用者註冊接入網路與使用者裝置同步服務的隨機存取通道（Random

Access Channel, RACH）流程，討論其傳統實作方法並提出一改善效率之方法與流程架構。本論文將研究使用圖型處理器（Graphics Processing Unit, GPU）加速平行RACH 流程上的運算，並修改運算流程與方法使之更適合運行於GPU。透過本論文提出的架構設計，基地台的模擬測試運算執行時間可調降至大約原本的10%～50%。本論文的架構亦提供彈性化設計，因此可一次處理多基地台接收之訊號，且由於本研究將所有運算拆開至不同運算單元上平行運算，所以即使需要處理的訊號增加，總處理時間也不會有太大的差異。藉此研究，軟體基地台運行時將能有更多閒餘的效能維持整體性之效能與穩定或是

提供更多服務應用。