Portable devices often demand powerful processors to run computing intensive applications, such as video playing or gaming, and ultra low en-ergy consumption to extend device uptime. Such con-flicting requirements are hard to fulfil and appeal for adaptive hardware that only consumes energy when required. LP-NUCA is a tiled cache organization aimed at high-performance low-power embedded processors that sequentially looks up for blocks ordered by tem-poral locality in groups of small tiles. Unfortunately, LP-NUCA has two main dynamic energy wasting sources: (a) blocks are continuously migrating among tiles even in low locality phases, (b) to reduce cache latency, the tag and data arrays of the tiles are always accessed in parallel. This pape...
Abstract—High-end embedded processors demand complex on-chip cache hierarchies satisfying several co...
Journal ArticleEnergy efficiency in microarchitectures has become a necessity. Significant dynamic ...
D-NUCA L2 caches are able to tolerate the increasing wire delay effects due to technology scaling th...
Portable devices often demand powerful processors to run computing intensive applications, such as v...
Cache working-set adaptation is key as embedded systems move to multiprocessor and Simultaneous Mult...
Abstract—High-end embedded processors demand complex on-chip cache hierarchies satisfying several co...
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 ...
D-NUCA caches are cache memories that, thanks to banked organization, broadcast search and promoti...
Abstract: Non-uniform cache architecture (NUCA) aims to limit the wire-delay problem typical of lar...
D-NUCA caches are cache memories that, thanks to banked organization, broadcast search and promotion...
Advances in technology have increased the number of cores and size of caches present on chip multico...
Although multi-threading processors can increase the performance of embedded systems with a minimum ...
In the last years, embedded systems have evolved so that they offer capabilities we could only find ...
Abstract—High-end embedded processors demand complex on-chip cache hierarchies satisfying several co...
Journal ArticleEnergy efficiency in microarchitectures has become a necessity. Significant dynamic ...
D-NUCA L2 caches are able to tolerate the increasing wire delay effects due to technology scaling th...
Portable devices often demand powerful processors to run computing intensive applications, such as v...
Cache working-set adaptation is key as embedded systems move to multiprocessor and Simultaneous Mult...
Abstract—High-end embedded processors demand complex on-chip cache hierarchies satisfying several co...
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 ...
D-NUCA caches are cache memories that, thanks to banked organization, broadcast search and promoti...
Abstract: Non-uniform cache architecture (NUCA) aims to limit the wire-delay problem typical of lar...
D-NUCA caches are cache memories that, thanks to banked organization, broadcast search and promotion...
Advances in technology have increased the number of cores and size of caches present on chip multico...
Although multi-threading processors can increase the performance of embedded systems with a minimum ...
In the last years, embedded systems have evolved so that they offer capabilities we could only find ...
Abstract—High-end embedded processors demand complex on-chip cache hierarchies satisfying several co...
Journal ArticleEnergy efficiency in microarchitectures has become a necessity. Significant dynamic ...
D-NUCA L2 caches are able to tolerate the increasing wire delay effects due to technology scaling th...