Asymmetric multicore architectures (AMC) with single-ISA can accelerate multi-threaded applications by running the serial region on the big core and the parallel region on multiple small cores. In such architectures, all cores implement resource-expensive and application-specific instruction extensions (e.g., SIMD and FP). We argue that instead of implementing such extensions in the big core, the resources must be traded-off to increase the number of small cores. Furthermore, when the big core requires such instruction extensions, we offload execution to the small cores. This design mainly leverages the observation that SIMD/FP operations are more frequently executed inside parallel regions. The proposed AMC provides an additional 1.76x spe...
Exploitation of parallelism has for decades been central to the pursuit of computing performance. Th...
This paper evaluates asymmetric cluster chip multiprocessor (ACCMP) architectures as a mechanism to ...
As transistor densities increase, it is becoming ever more difficult to gain significant performance ...
textExtracting high-performance from Chip Multiprocessors (CMPs) requires that the application be pa...
Asymmetric multicore processors have demonstrated a strong potential for improving performance and e...
As the microprocessor industry embraces multicore architectures, inherently parallel applications be...
To achieve high performance, contemporary computer systems rely on two forms of parallelism: instruc...
To achieve high performance, contemporary computer systems rely on two forms of parallelism: instruc...
Chip Multiprocessors are becoming common as the cost of increasing chip power begins to limit single...
The design of microprocessors is undergoing radical changes that affect the performance and reliabil...
textThe level of Thread-Level Parallelism (TLP), Instruction-Level Parallelism (ILP), and Memory-Lev...
Abstract—Several studies and real world designs have advocated the sharing of large execution units ...
Conference of 9th IEEE International Symposium on Embedded Multicore/Manycore SoCs, MCSoC 2015 ; Con...
A consideration of Amdahl’s Law [9] suggests a single-chip multiprocessor with asymmetric cores is a...
With growing computing demands, power aware computation has become a major concern in recent studies...
Exploitation of parallelism has for decades been central to the pursuit of computing performance. Th...
This paper evaluates asymmetric cluster chip multiprocessor (ACCMP) architectures as a mechanism to ...
As transistor densities increase, it is becoming ever more difficult to gain significant performance ...
textExtracting high-performance from Chip Multiprocessors (CMPs) requires that the application be pa...
Asymmetric multicore processors have demonstrated a strong potential for improving performance and e...
As the microprocessor industry embraces multicore architectures, inherently parallel applications be...
To achieve high performance, contemporary computer systems rely on two forms of parallelism: instruc...
To achieve high performance, contemporary computer systems rely on two forms of parallelism: instruc...
Chip Multiprocessors are becoming common as the cost of increasing chip power begins to limit single...
The design of microprocessors is undergoing radical changes that affect the performance and reliabil...
textThe level of Thread-Level Parallelism (TLP), Instruction-Level Parallelism (ILP), and Memory-Lev...
Abstract—Several studies and real world designs have advocated the sharing of large execution units ...
Conference of 9th IEEE International Symposium on Embedded Multicore/Manycore SoCs, MCSoC 2015 ; Con...
A consideration of Amdahl’s Law [9] suggests a single-chip multiprocessor with asymmetric cores is a...
With growing computing demands, power aware computation has become a major concern in recent studies...
Exploitation of parallelism has for decades been central to the pursuit of computing performance. Th...
This paper evaluates asymmetric cluster chip multiprocessor (ACCMP) architectures as a mechanism to ...
As transistor densities increase, it is becoming ever more difficult to gain significant performance ...