10.3 heterogeneous multi-processing quad-core CPU and dual-GPU design for optimal performance, power, and thermal tradeoffs in a 28nm mobile application processor.
Alice WangTsung-Yao LinShichin OuyangWei-Hung HuangJidong WangShu-Hsin ChangSheng-Ping ChenChun-Hsiung HuJ. C. TaiKoan-Sin TanMeng-Nan TsouMing-Hsien LeeGordon GammieChi-Wei YangChih-Chieh YangYeh-Chi ChouShih-Hung LinWuan KuoChi-Jui ChungLee-Kee YongChia-Wei WangKin Hooi DiaCheng-Hsing ChienYou-Ming TsaoN. K. SinghRolf LagerquistChih-Cheng ChenUming KoPublished in: ISSCC (2014)
Keyphrases
- mobile applications
- real time
- user experience
- functional verification
- graphics processing units
- parallel processing
- design decisions
- single chip
- chip design
- intel xeon
- user interface
- high speed
- computer architecture
- computational power
- heterogeneous computing
- multithreading
- parallel architecture
- power consumption
- infrared
- mobile devices