An Energy-Efficient Graphics Processor in 14-nm Tri-Gate CMOS Featuring Integrated Voltage Regulators for Fine-Grain DVFS, Retentive Sleep, and ${V}_{\text{MIN}}$ Optimization.
Pascal Andreas MeinerzhagenCarlos TokunagaAndres MalavasiVaibhav A. VaidyaAshwin MendonDeepak MathaikuttyJaydeep KulkarniCharles AugustineMinki ChoStephen T. KimGeorge E. MatthewRinkle JainJoseph F. RyanChung-Ching PengSomnath PaulSriram R. VangalBrando Perez EsparzaLuis CuellarMichael WoodmanBala IyerSubramaniam MaiyuranGautham N. ChinyaXiang ZouYuyun LiaoKrishnan RavichandranHong WangMuhammad M. KhellahJames W. TschanzVivek DePublished in: IEEE J. Solid State Circuits (2019)
Keyphrases
- fine grain
- cmos technology
- low voltage
- coarse grain
- graphics processors
- leakage current
- nm technology
- low power
- power consumption
- metal oxide semiconductor
- parallel computation
- power reduction
- parallel processing
- power dissipation
- high speed
- low cost
- wireless sensor networks
- silicon on insulator
- distributed memory
- real time
- gpu implementation
- nested transactions
- energy efficiency
- data processing
- sensor networks
- gate dielectrics