Abstract: Non-uniform cache architecture (NUCA) aims to limit the wire-delay problem typical of large on-chip last level caches: by partitioning a large cache into several banks, with the latency of each one depending on its physical location and by employing a scalable on-chip network to interconnect the banks with the cache controller, the average access latency can be reduced with respect to a traditional cache. The addition of a migration mechanism to move the most frequently accessed data towards the cache controller (D-NUCA) further improves the average access latency. In this work we propose a last-level cache design, based on the D-NUCA scheme, which is able to significantly limit its static power consumption by dynamically ...
Future embedded applications will require high performance processors integrating fast and low-power...
Increasing on-chip wire delay and growing off-chip miss latency, present two key challenges in desig...
ABSTRACT NUCA caches are large L2 on-chip cache memories characterized by multi-bank partitioning a...
D-NUCA caches are cache memories that, thanks to banked organization, broadcast search and promotion...
Wire delays and leakage energy consumption are both growing problems in the design of large on chip ...
Large last level caches are a common design choice for today’s high performance microprocessors, but...
D-NUCA caches are cache memories that, thanks to banked organization, broadcast search and promotion...
D-NUCA caches are cache memories that, thanks to banked organization, broadcast search and promoti...
Abstract— Wire delays and leakage energy consumption are both growing problems in designing large on...
In a Way Adaptable D-NUCA cache the number of active ways is dynamically varied, according to the ne...
Growing wire delay and clock rates limit the amount of cache accessible within a single cycle. Non-u...
To deal with the “memory wall” problem, microprocessors include large secondary on-chip caches. But ...
Future embedded applications will require high performance processors integrating fast and low-power...
Wire delays continue to grow as the dominant component of latency for large caches. A recent work pr...
D-NUCA L2 caches are able to tolerate the increasing wire delay effects due to technology scaling th...
Future embedded applications will require high performance processors integrating fast and low-power...
Increasing on-chip wire delay and growing off-chip miss latency, present two key challenges in desig...
ABSTRACT NUCA caches are large L2 on-chip cache memories characterized by multi-bank partitioning a...
D-NUCA caches are cache memories that, thanks to banked organization, broadcast search and promotion...
Wire delays and leakage energy consumption are both growing problems in the design of large on chip ...
Large last level caches are a common design choice for today’s high performance microprocessors, but...
D-NUCA caches are cache memories that, thanks to banked organization, broadcast search and promotion...
D-NUCA caches are cache memories that, thanks to banked organization, broadcast search and promoti...
Abstract— Wire delays and leakage energy consumption are both growing problems in designing large on...
In a Way Adaptable D-NUCA cache the number of active ways is dynamically varied, according to the ne...
Growing wire delay and clock rates limit the amount of cache accessible within a single cycle. Non-u...
To deal with the “memory wall” problem, microprocessors include large secondary on-chip caches. But ...
Future embedded applications will require high performance processors integrating fast and low-power...
Wire delays continue to grow as the dominant component of latency for large caches. A recent work pr...
D-NUCA L2 caches are able to tolerate the increasing wire delay effects due to technology scaling th...
Future embedded applications will require high performance processors integrating fast and low-power...
Increasing on-chip wire delay and growing off-chip miss latency, present two key challenges in desig...
ABSTRACT NUCA caches are large L2 on-chip cache memories characterized by multi-bank partitioning a...