Energy management is a primary consideration in the design of modern smartphones, made more interesting by the recent proliferation of multi-core processors in this space. We investigate how core offlining and DVFS can be used together on these systems to reduce energy consumption. We show that core offlining leads to very modest savings in the best circumstances, with a heavy penalty in others, and show the cause of this to be low per-core idle power. We develop a policy in Linux that exploits this fact, and show that it improves up to 25 % on existing implementations.
Smartphones are now equipped with powerful application processors to meet the requirement of perform...
Most modern mobile cyber-physical systems such as smartphones come equipped with multi-processor sys...
Battery life and performance are two important aspects for smart phone devices. The Android platform...
Modern smartphones are increasingly performant and feature-rich, but because they are battery powere...
As battery-powered embedded devices move towards multicore processors, multicore energy efficiency i...
tion is becoming an important aspect to consider. Due to the high costs that represent energy produc...
Abstract—Mobile devices continue to increase the number of cores in an attempt to meet the needs of ...
This paper has been presented at 2020 IEEE International Conference on Communications WorkshopsEnerg...
Increased power consumption is a critical concern for smartphone users. While multi-core processors ...
Today, mobile smartphones are expected to be able to run the same complex, memory-intensive applicat...
Dynamic voltage and frequency scaling (DVFS) is ubiquitous on mobile devices as a mechanism for savi...
Despite advances in multicore smartphone technologies, battery consumption still remains one of cust...
Multi-core mobile platforms are on rise as they enable efficient parallel processing to meet ever-in...
Dynamic voltage and frequency scaling (DVFS) is ubiqui-tous on mobile devices as a mechanism for sav...
Multicore processors deliver a higher throughput at lower power consumption than unicore processors....
Smartphones are now equipped with powerful application processors to meet the requirement of perform...
Most modern mobile cyber-physical systems such as smartphones come equipped with multi-processor sys...
Battery life and performance are two important aspects for smart phone devices. The Android platform...
Modern smartphones are increasingly performant and feature-rich, but because they are battery powere...
As battery-powered embedded devices move towards multicore processors, multicore energy efficiency i...
tion is becoming an important aspect to consider. Due to the high costs that represent energy produc...
Abstract—Mobile devices continue to increase the number of cores in an attempt to meet the needs of ...
This paper has been presented at 2020 IEEE International Conference on Communications WorkshopsEnerg...
Increased power consumption is a critical concern for smartphone users. While multi-core processors ...
Today, mobile smartphones are expected to be able to run the same complex, memory-intensive applicat...
Dynamic voltage and frequency scaling (DVFS) is ubiquitous on mobile devices as a mechanism for savi...
Despite advances in multicore smartphone technologies, battery consumption still remains one of cust...
Multi-core mobile platforms are on rise as they enable efficient parallel processing to meet ever-in...
Dynamic voltage and frequency scaling (DVFS) is ubiqui-tous on mobile devices as a mechanism for sav...
Multicore processors deliver a higher throughput at lower power consumption than unicore processors....
Smartphones are now equipped with powerful application processors to meet the requirement of perform...
Most modern mobile cyber-physical systems such as smartphones come equipped with multi-processor sys...
Battery life and performance are two important aspects for smart phone devices. The Android platform...