Journal ArticleA significant part of future microprocessor real estate will be dedicated to L2 or L3 caches. These on-chip caches will heavily impact processor performance, power dissipation, and thermal management strategies. There are a number of interconnect design considerations that influence power/performance/area characteristics of large caches, such as wire models (width/spacing/repeaters), signaling strategy (RC/differential/transmission), router design, etc. Yet, to date, there exists no analytical tool that takes all of these parameters into account to carry out a design space exploration for large caches and estimate an optimal organization. In this work, we implement two major extensions to the CACTI cache modeling tool that...
Abstract— Wire delays and leakage energy consumption are both growing problems in designing large on...
Large last level caches are a common design choice for today’s high performance microprocessors, but...
The number of processor cores and on-chip cache size has been increasing on chip multiprocessors (CM...
Journal ArticleThe ever increasing sizes of on-chip caches and the growing domination of wire delay...
Journal ArticleModern processors dedicate more than half their chip area to large L2 and L3 caches ...
Journal ArticleOn-chip wire delays are becoming increasingly problematic in modern microprocessors....
Wire delays continue to grow as the dominant component of latency for large caches. A recent work pr...
The issue of the power wall has had a drastic impact on many aspects of system design. Even though f...
Increases in on-chip communication delay and the large working sets of server and scientific workloa...
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 ...
Journal ArticleEfficiently executing multithreaded applications on future multicores will require fa...
Abstract—High-end embedded processors demand complex on-chip cache hierarchies satisfying several co...
Abstract—To deal with the “memory wall ” problem, micro-processors include large secondary on-chip c...
Non-uniform cache architectures (NUCAs) are a novel design paradigm for large last-level on-chip cac...
Abstract— Wire delays and leakage energy consumption are both growing problems in designing large on...
Large last level caches are a common design choice for today’s high performance microprocessors, but...
The number of processor cores and on-chip cache size has been increasing on chip multiprocessors (CM...
Journal ArticleThe ever increasing sizes of on-chip caches and the growing domination of wire delay...
Journal ArticleModern processors dedicate more than half their chip area to large L2 and L3 caches ...
Journal ArticleOn-chip wire delays are becoming increasingly problematic in modern microprocessors....
Wire delays continue to grow as the dominant component of latency for large caches. A recent work pr...
The issue of the power wall has had a drastic impact on many aspects of system design. Even though f...
Increases in on-chip communication delay and the large working sets of server and scientific workloa...
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 ...
Journal ArticleEfficiently executing multithreaded applications on future multicores will require fa...
Abstract—High-end embedded processors demand complex on-chip cache hierarchies satisfying several co...
Abstract—To deal with the “memory wall ” problem, micro-processors include large secondary on-chip c...
Non-uniform cache architectures (NUCAs) are a novel design paradigm for large last-level on-chip cac...
Abstract— Wire delays and leakage energy consumption are both growing problems in designing large on...
Large last level caches are a common design choice for today’s high performance microprocessors, but...
The number of processor cores and on-chip cache size has been increasing on chip multiprocessors (CM...