In our quest to bring down the power consumption in low-power chip-multiprocessors, we have found that TLB and snoop accesses account for about 40 % of the energy wasted by all L1 data-cache accesses. We have investigated the prospects of using virtual caches to bring down the number of TLB accesses. A key observa-tion is that while the energy wasted in the TLBs are cut, the energy associated with snoop accesses becomes higher. We then contrib-ute with two techniques to reduce the number of snoop accesses and their energy cost. Virtual caches together with the proposed techniques are shown to reduce the energy wasted in the L1 caches and the TLBs by about 30%
Abstract. Power consumption is becoming one of the most important con-straints for microprocessor de...
L1 instruction caches in many-core systems represent a siz-able fraction of the total power consumpt...
Managing power and energy consumption has become a primary consideration for microprocessor design. ...
In our quest to bring down the power consumption in low-power chip-multiprocessors, we have found th...
The number of battery powered devices is growing significantly and these devices require energy-effi...
Recently, energy dissipation by microprocessors is getting larger, which leads to a serious problem ...
Caches consume a significant amount of energy in modern microprocessors. To design an energy-efficie...
As the transistor feature sizes and threshold voltages reduce, leakage energy consumption has become...
High-performance processors use a large set–associative L1 data cache with multiple ports. As clock ...
L1 data caches in high-performance processors continue to grow in set associativity. Higher associat...
L1 data caches in high-performance processors continue to grow in set associativity. Higher associat...
We investigate some power efficient data cache designs that try to significantly reduce the cache en...
International audienceModern processors are using increasingly larger sized on-chip caches. Also, wi...
The end of Dennard scaling has shifted the focus of performance enhancement in technology to power b...
Energy efficiency is one of the key metrics in the design of a widerange of processor types. For exa...
Abstract. Power consumption is becoming one of the most important con-straints for microprocessor de...
L1 instruction caches in many-core systems represent a siz-able fraction of the total power consumpt...
Managing power and energy consumption has become a primary consideration for microprocessor design. ...
In our quest to bring down the power consumption in low-power chip-multiprocessors, we have found th...
The number of battery powered devices is growing significantly and these devices require energy-effi...
Recently, energy dissipation by microprocessors is getting larger, which leads to a serious problem ...
Caches consume a significant amount of energy in modern microprocessors. To design an energy-efficie...
As the transistor feature sizes and threshold voltages reduce, leakage energy consumption has become...
High-performance processors use a large set–associative L1 data cache with multiple ports. As clock ...
L1 data caches in high-performance processors continue to grow in set associativity. Higher associat...
L1 data caches in high-performance processors continue to grow in set associativity. Higher associat...
We investigate some power efficient data cache designs that try to significantly reduce the cache en...
International audienceModern processors are using increasingly larger sized on-chip caches. Also, wi...
The end of Dennard scaling has shifted the focus of performance enhancement in technology to power b...
Energy efficiency is one of the key metrics in the design of a widerange of processor types. For exa...
Abstract. Power consumption is becoming one of the most important con-straints for microprocessor de...
L1 instruction caches in many-core systems represent a siz-able fraction of the total power consumpt...
Managing power and energy consumption has become a primary consideration for microprocessor design. ...