Power virus

A power virus is a computer program that executes specific machine code in order to reach the maximum CPU power dissipation (thermal energy output… Expand

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Papers overview

Semantic Scholar uses AI to extract papers important to this topic.

2015

Efficient Peak Power Estimation Using Probabilistic Cost-Benefit Analysis

Hadi Hajimiri, K. Rahmani, P. Mishra
28th International Conference on VLSI Design
2015

Corpus ID: 17410307

Estimation of peak power consumption is an essential task in order to design reliable systems. Optimistic design choices can make… Expand

2015

STG-based detection of power virus inputs in FSM

V. Moshnyaga, Hideki Nita
IEEE 58th International Midwest Symposium on…
2015

Corpus ID: 21317647

Finding input sequences that cause switching activity burst (power virus) and consequently peak power dissipation is an essential… Expand

Highly Cited

2013

Highly Cited

2013

Power containers: an OS facility for fine-grained power and energy management on multicore servers

Kai Shen, Arrvindh Shriraman, S. Dwarkadas, Xiao Zhang, Zhuan Chen
ASPLOS '13
2013

Corpus ID: 2909935

Energy efficiency and power capping are critical concerns in server and cloud computing systems. They face growing challenges due… Expand

2011

MAximum Multicore POwer (MAMPO) — An automatic multithreaded synthetic power virus generation framework for multicore systems

K. Ganesan, L. John
International Conference for High Performance…
2011

Corpus ID: 1366460

The practically attainable worst case power consumption for a computer system is a significant design parameter and it is a very… Expand

2010

System-level Max POwer (SYMPO) - a systematic approach for escalating system-level power consumption using synthetic benchmarks

K. Ganesan, Jungho Jo, W. Bircher, Dimitris Kaseridis, Zhibin Yu, L. John
19th International Conference on Parallel…
2010

Corpus ID: 6995371

To effectively design a computer system for the worst case power consumption scenario, system architects often use hand-crafted… Expand

Highly Cited

2009

Highly Cited

2009

Dynamic power gating with quality guarantees

Anita Lungu, P. Bose, A. Buyuktosunoglu, D. Sorin
ISLPED
2009

Corpus ID: 7811468

Power gating is usually driven by a predictive control, and frequent mispredictions can counter-productively lead to a large… Expand

Highly Cited

2008

Highly Cited

2008

A Sub-1W to 2W Low-Power IA Processor for Mobile Internet Devices and Ultra-Mobile PCs in 45nm Hi-Κ Metal Gate CMOS

G. Gerosa, S. Curtis, +6 authors H. Samarchi
IEEE International Solid-State Circuits…
2008

Corpus ID: 24544806

This paper describes a low-power Intel* Architecture (IA) processor specifically designed for Mobile Internet Devices (MID) and… Expand

2007

Power Virus Generation Using Behavioral Models of Circuits

K. Najeeb, Vishnu Vardhan Reddy Konda, S. Hari, V. Kamakoti, V. Vedula
25th IEEE VLSI Test Symposium (VTS'07)
2007

Corpus ID: 16225890

The problem of peak power estimation in CMOS circuits is essential for analyzing the reliability and performance of circuits at… Expand

2007

Controllability-driven Power Virus Generation for Digital Circuits

K. Najeeb, K. Gururaj, V. Kamakoti, V. Vedula
20th International Conference on VLSI Design held…
2007

Corpus ID: 15932999

The problem of peak power estimation in CMOS circuits is essential for analyzing the reliability and performance of circuits at… Expand

Highly Cited

2005

Highly Cited

2005

Interface Material Selection and a Thermal Management Technique in Second-Generation Platforms Built on Intel Centrino Mobile Technology

E. Samson
2005

Corpus ID: 14071147

The mobile thin and light platform has a limited cooling capability, in part due to a form factor that limits the volume… Expand

Power virus

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