Last level caches (LLCs) account for a substantial fraction of the area and power budget in many modern processors. Two recent trends ? dwindling die yield that falls off sharply with larger chips and increasing static power ? make a strong case for a fresh look at LLC design. Inclusive caches are particularly interesting because many, if not most, commercially successful processors use inclusion to ease coherence at a cost of some data being stale or redundant. LLC designs can be improved statically (at design time) or dynamically (at runtime). The "static dataless ways," removes the data?but not tag?from some cache ways to save energy and area without complicating inclusive-LLC coherence. A dynamic version ("dynamic dataless ways") co...
Caches contribute to much of a microprocessor system's power and energy consumption. We have de...
Power consumption is becoming an increasingly important component of processor design. As technology...
International audienceWith each CMOS technology generation, leakage energy has been increasing at an...
Abstract: Static energy dissipation in cache memories will constitute an increasingly larger portion...
Energy is an increasingly important consideration in memory system design. Although caches can save ...
The last level cache (LLC) is critical for mobile computer systems in terms of both energy consumpti...
L1 data caches in high-performance processors continue to grow in set associativity. Higher associat...
On-chip cache memories are instrumental in tackling several performance and energy issues facing con...
Abstract: Caches contribute to much of a microprocessor system's set-associative cache. However...
We investigate some power efficient data cache designs that try to significantly reduce the cache en...
In recent years, CPU performance has become energy constrained. If performance is to continue increa...
L1 data caches in high-performance processors continue to grow in set associativity. Higher associat...
Abstract—In modern processor systems, on-chip Last Level Caches (LLCs) are used to bridge the speed ...
Caching is built up each time when the machine starts up according to user’s application usability. ...
Continuing increases in transistor density are enabling increases in the number of on-chip cores and...
Caches contribute to much of a microprocessor system's power and energy consumption. We have de...
Power consumption is becoming an increasingly important component of processor design. As technology...
International audienceWith each CMOS technology generation, leakage energy has been increasing at an...
Abstract: Static energy dissipation in cache memories will constitute an increasingly larger portion...
Energy is an increasingly important consideration in memory system design. Although caches can save ...
The last level cache (LLC) is critical for mobile computer systems in terms of both energy consumpti...
L1 data caches in high-performance processors continue to grow in set associativity. Higher associat...
On-chip cache memories are instrumental in tackling several performance and energy issues facing con...
Abstract: Caches contribute to much of a microprocessor system's set-associative cache. However...
We investigate some power efficient data cache designs that try to significantly reduce the cache en...
In recent years, CPU performance has become energy constrained. If performance is to continue increa...
L1 data caches in high-performance processors continue to grow in set associativity. Higher associat...
Abstract—In modern processor systems, on-chip Last Level Caches (LLCs) are used to bridge the speed ...
Caching is built up each time when the machine starts up according to user’s application usability. ...
Continuing increases in transistor density are enabling increases in the number of on-chip cores and...
Caches contribute to much of a microprocessor system's power and energy consumption. We have de...
Power consumption is becoming an increasingly important component of processor design. As technology...
International audienceWith each CMOS technology generation, leakage energy has been increasing at an...