Add to ORKGThis paper describes the implementation and evaluation of an algorithm that maps a number of communicating processes to a heterogeneous tiled System on Chip (SoC) architecture at run-time. The mapping algorithm minimizes the total amount of energy consumption, while still providing an adequate Quality of Service (QoS). The properties of the algorithmare described and evaluated and a realistic mapping example is given
The reliance on Multi-Processor Systems-on-Chip (MPSoCs) to satisfy the high performance requirement...
Multi-task supported processing elements (PEs) are required in a Multiprocessor System-on-Chip platf...
AbstractMulti-task supported processing elements (PEs) are required in a Multiprocessor System-on-Ch...
This paper describes the implementation and evaluation of an algorithm that maps a number of communi...
This paper describes the implementation and evaluation of an algorithm that maps a number of communi...
This paper describes the implementation and evaluation of an algorithm that maps a number of communi...
Abstract — This paper describes the implementation and evaluation of an algorithm that maps a number...
This paper evaluates an algorithm that maps a number of communicating processes to a heterogeneous t...
This paper describes the implementation and evaluation of an algorithm that maps a number of communi...
This paper presents an iterative hierarchical approach to map an application to a parallel heterogen...
This work evaluates an algorithm that maps a number of communicating processes to a heterogeneous ti...
Abstract — This paper presents an iterative hierarchical ap-proach to map an application to a parall...
Task mapping plays a crucial role in achieving high performance and energy savings in heterogeneous ...
In this paper, we present an algorithm for run-time allocation of hardware resources to software app...
The reliance on Multi-Processor Systems-on-Chip (MPSoCs) to satisfy the high performance requirement...
The reliance on Multi-Processor Systems-on-Chip (MPSoCs) to satisfy the high performance requirement...
Multi-task supported processing elements (PEs) are required in a Multiprocessor System-on-Chip platf...
AbstractMulti-task supported processing elements (PEs) are required in a Multiprocessor System-on-Ch...
This paper describes the implementation and evaluation of an algorithm that maps a number of communi...
This paper describes the implementation and evaluation of an algorithm that maps a number of communi...
This paper describes the implementation and evaluation of an algorithm that maps a number of communi...
Abstract — This paper describes the implementation and evaluation of an algorithm that maps a number...
This paper evaluates an algorithm that maps a number of communicating processes to a heterogeneous t...
This paper describes the implementation and evaluation of an algorithm that maps a number of communi...
This paper presents an iterative hierarchical approach to map an application to a parallel heterogen...
This work evaluates an algorithm that maps a number of communicating processes to a heterogeneous ti...
Abstract — This paper presents an iterative hierarchical ap-proach to map an application to a parall...
Task mapping plays a crucial role in achieving high performance and energy savings in heterogeneous ...
In this paper, we present an algorithm for run-time allocation of hardware resources to software app...
The reliance on Multi-Processor Systems-on-Chip (MPSoCs) to satisfy the high performance requirement...
The reliance on Multi-Processor Systems-on-Chip (MPSoCs) to satisfy the high performance requirement...
Multi-task supported processing elements (PEs) are required in a Multiprocessor System-on-Chip platf...
AbstractMulti-task supported processing elements (PEs) are required in a Multiprocessor System-on-Ch...