High-Performance low-vcc in-order core

Author

Abella, Jaume ; Chaparro, Pedro ; Vera, Xavier ; Carretero, Javier ; Gonzalez, Antonio

Author_Institution

Intel Barcelona Res. Center, Intel Labs. Barcelona - UPC, Barcelona, Spain

fYear

2010

fDate

9-14 Jan. 2010

Firstpage

1

Lastpage

11

Abstract

Power density grows in new technology nodes, thus requiring Vcc to scale especially in mobile platforms where energy is critical. This paper presents a novel approach to decrease Vcc while keeping operating frequency high. Our mechanism is referred to as immediate read after write (IRAW) avoidance. We propose an implementation of the mechanism for an Intel^Â® Silverthorne^TM in-order core. Furthermore, we show that our mechanism can be adapted dynamically to provide the highest performance and lowest energy-delay product (EDP) at each Vcc level. Results show that IRAW avoidance increases operating frequency by 57% at 500mV and 99% at 400mV with negligible area and power overhead (below 1%), which translates into large speedups (48% at 500mV and 90% at 400mV) and EDP reductions (0.61 EDP at 500mV and 0.33 at 400mV).

Keywords

microprocessor chips; Intel Silverthorne in-order core; energy-delay product; immediate read after write avoidance; low-Vcc in-order core; mobile platforms; operating frequency; power density; voltage 400 mV; voltage 500 mV; Batteries; CMOS process; Clocks; Delay estimation; Energy efficiency; Frequency; Mobile handsets; Phase estimation; Random access memory; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

High Performance Computer Architecture (HPCA), 2010 IEEE 16th International Symposium on

Conference_Location

Bangalore

ISSN

1530-0897

Print_ISBN

978-1-4244-5658-1

Type

conf

DOI

10.1109/HPCA.2010.5416630

Filename

5416630