Chip Multiprocessors are becoming common as the cost of increasing chip power begins to limit single core performance. The most power efficient CMP consists of low power in-order cores. However, performance on such a processor is low unless the workload is nearly completely parallelized, which depending on the workload can be impossible or require significant programmer effort. This paper argues that the programmer effort required to parallelize an application can be reduced if the underlying architecture promises faster execution of the serial portion of an application. In such a case, programmers can parallelize only the easier-to-parallelize portions of the application and rely on the hardware to run the serial portion faster. We make a ...
This paper evaluates new techniques to improve performance and efficiency of Chip MultiProcessors (C...
As battery-powered embedded devices move towards multicore processors, multicore energy efficiency i...
The design of microprocessors is undergoing radical changes that affect the performance and reliabil...
textExtracting high-performance from Chip Multiprocessors (CMPs) requires that the application be pa...
This paper evaluates asymmetric cluster chip multiprocessor (ACCMP) architectures as a mechanism to ...
Hardware design for high performance computing appears to be reaching its limits on several fronts. ...
Abstract—Asymmetric chip multiprocessors (ACMPs) have multiple core types that are instruction-set c...
As transistor densities increase, it is becoming ever more difficult to gain significant performance ...
Chip multiprocessors — also called multi-core microprocessors or CMPs for short — are now the only w...
Asymmetric multicore architectures (AMC) with single-ISA can accelerate multi-threaded applications ...
Faced with the challenge of finding ways to use an ever-growing transistor budget, microarchitects h...
Through the past several decades, based on the Moore's law, the semiconductor industry was doubling ...
Asymmetric chip multiprocessors (ACMPs) have multiple core types that are instruction-set compatible...
On the hardware side, asymmetric multicore processors present software with the challenge and opport...
Most of chip multiprocessors (CMPs) are symmetric, i.e. they are composed of identical cores. These ...
This paper evaluates new techniques to improve performance and efficiency of Chip MultiProcessors (C...
As battery-powered embedded devices move towards multicore processors, multicore energy efficiency i...
The design of microprocessors is undergoing radical changes that affect the performance and reliabil...
textExtracting high-performance from Chip Multiprocessors (CMPs) requires that the application be pa...
This paper evaluates asymmetric cluster chip multiprocessor (ACCMP) architectures as a mechanism to ...
Hardware design for high performance computing appears to be reaching its limits on several fronts. ...
Abstract—Asymmetric chip multiprocessors (ACMPs) have multiple core types that are instruction-set c...
As transistor densities increase, it is becoming ever more difficult to gain significant performance ...
Chip multiprocessors — also called multi-core microprocessors or CMPs for short — are now the only w...
Asymmetric multicore architectures (AMC) with single-ISA can accelerate multi-threaded applications ...
Faced with the challenge of finding ways to use an ever-growing transistor budget, microarchitects h...
Through the past several decades, based on the Moore's law, the semiconductor industry was doubling ...
Asymmetric chip multiprocessors (ACMPs) have multiple core types that are instruction-set compatible...
On the hardware side, asymmetric multicore processors present software with the challenge and opport...
Most of chip multiprocessors (CMPs) are symmetric, i.e. they are composed of identical cores. These ...
This paper evaluates new techniques to improve performance and efficiency of Chip MultiProcessors (C...
As battery-powered embedded devices move towards multicore processors, multicore energy efficiency i...
The design of microprocessors is undergoing radical changes that affect the performance and reliabil...