Shounak Chakraborty scite author profile

ACM Trans. Des. Autom. Electron. Syst.

2019

In the era of short channel length, Dynamic Thermal Management (DTM) has become a challenging task for the architects and designers engineering modern Chip Multi-Processors (CMPs). Ever-increasing demand of processing power along with the developed integration technology produces CMPs with high power density, which in turn increases effective chip temperature. This increased temperature leads to increase in the reliability issues for the chip-circuitry with significant increment in leakage power consumption. Recent DTM techniques apply DVFS or Task Migration to reduce temperature at the cores, the hottest on-chip components, but often ignore the on-chip hot caches. To commensurate the high data demand of these cores, most of the modern CMPs are equipped with large multi-level on-chip caches, out of which on-chip Last Level Caches (LLCs) occupy the largest on-chip area. These LLCs are accounted for their significantly high leakage power consumption that can also potentially generate on-chip hotspots at the LLCs similar to the cores. As power consumption constructs the backbone of heat dissipation, hence, this work dynamically shrinks cache size while maintaining performance constraint to reduce LLC leakage, primarily. These turned-off cache portions further work as on-chip thermal buffers for reducing average and peak temperature of the CMP without affecting the computation. Simulation results claim that, at a minimal penalty on the performance, proposed cache-based thermal management having 8MB centralised multi-banked shared LLC gives around 5°C reduction in peak and average chip temperature, which are comparable with a Greedy DVFS policy.

show abstract

Analysing the Role of Last Level Caches in Controlling Chip Temperature

IEEE Trans. Sustain. Comput.

2018

Static energy reduction by performance linked dynamic cache resizing

2016

Performance Constrained Static Energy Reduction Using Way-Sharing Target-Banks

Das

2015

Cache capacity and its effects on power consumption for tiled chip multi-processors

Deb

Buragohain

et al. 2014