The speed gap between processor and memory continues to limit performance. To address this problem, we explore the potential of eliminating Zero Loads — loads accessing memory locations that contain the value “zero” — to improve performance and energy dissipation. Our study shows that such loads comprise as many as 18% of the total number of dynamic loads. We show that a significant fraction of zero loads ends up on the critical memory-access path in out-of-order cores. We propose a non-speculative microarchitectural technique — Zero-Value Cache (ZVC) — to capitalize on zero loads and explore critical design options of such caches. We show that with modest investment (typically a 512-byte structure), we can obtain speedups up to 32%. Most...
Abstract: Static energy dissipation in cache memories will constitute an increasingly larger portion...
Abstract: Caches contribute to much of a microprocessor system's set-associative cache. However...
Caches contribute to much of a microprocessor system's power and energy consumption. We have de...
The speed gap between processor and memory continues to limit performance. To address this problem, ...
The speed gap between processor and memory continues to limit performance. To address this problem, ...
The speed gap between processor and memory continues to limit performance. To address this problem, ...
The considerable gap between processor and DRAM speed and the power losses in the cache hierarchy ca...
Execution efficiency of memory instructions remains critically important. To this end, a plethora of...
Most microprocessors employ the on-chip caches to bridge the performance gap between the processor a...
Untolerated load instruction latencies often have a significant impact on overall program performanc...
Memory safety defends against inadvertent and malicious misuse of memory that may compromise program...
It has been observed that some applications manipulate large amounts of null data. Moreover these ze...
This paper introduces the notion of silent loads to classify load accesses that can be satisfied by ...
Execution efficiency of memory instructions remains critically important. To this end, a plethora of...
Both managed and native languages use memory safety techniques to ensure program correctness and as ...
Abstract: Static energy dissipation in cache memories will constitute an increasingly larger portion...
Abstract: Caches contribute to much of a microprocessor system's set-associative cache. However...
Caches contribute to much of a microprocessor system's power and energy consumption. We have de...
The speed gap between processor and memory continues to limit performance. To address this problem, ...
The speed gap between processor and memory continues to limit performance. To address this problem, ...
The speed gap between processor and memory continues to limit performance. To address this problem, ...
The considerable gap between processor and DRAM speed and the power losses in the cache hierarchy ca...
Execution efficiency of memory instructions remains critically important. To this end, a plethora of...
Most microprocessors employ the on-chip caches to bridge the performance gap between the processor a...
Untolerated load instruction latencies often have a significant impact on overall program performanc...
Memory safety defends against inadvertent and malicious misuse of memory that may compromise program...
It has been observed that some applications manipulate large amounts of null data. Moreover these ze...
This paper introduces the notion of silent loads to classify load accesses that can be satisfied by ...
Execution efficiency of memory instructions remains critically important. To this end, a plethora of...
Both managed and native languages use memory safety techniques to ensure program correctness and as ...
Abstract: Static energy dissipation in cache memories will constitute an increasingly larger portion...
Abstract: Caches contribute to much of a microprocessor system's set-associative cache. However...
Caches contribute to much of a microprocessor system's power and energy consumption. We have de...