An architecture proof-of-concept which adapts the throughput datapath based on the anticipation of computational demand in dynamic environments is demonstrated and evaluated for a motion estimation (ME) engine. The input signal characteristics are exploited to anticipate the time varying computational complexity as well as to instantiate dynamic replicas (DRs) to realize fault-resilience. The scheme employs amorphous processing elements (APEs) which either perform as active elements (AEs) to maintain quality/throughput, serve as DRs to increase reliability levels, or hibernate passively as reconfigurable slack (RS) available to other tasks. Experimental results from a hardware platform for field programmable gate array (FPGA)-based video en...
Research has been undertaken into domain-specific reconfigurable architectures for future System-on-...
Signal processing algorithms and architectures can use dynamic reconfiguration to exploit variations...
In this paper, we propose a hardware architecture of an adaptive multi-resolution motion estimation ...
An architecture proof-of-concept which adapts the throughput datapath based on the anticipation of c...
The progress of VLSI technology towards deep sub-micron feature sizes, e.g., sub-100 nanometer techn...
Due to the large amount of data transfers it involves, the motion estimation (ME) engine is one of t...
Motion Estimation (ME) is the most computationally intensive and most power consuming part of video ...
In MPEG standard, motion estimation (ME) is used to eliminate the temporal redundancy of video frame...
ABSTRACT Presented is an energy-efficient motion estimation architecture using error-tolerance. The ...
We propose a novel system-level error tolerance approach specifically targeted for multimedia compre...
This paper tackles the problem of accelerating The rest of this paper is organised as follows: secti...
In this paper we study the computation error tolerance properties of motion estimation algorithms. W...
Power consumption is very critical for portable video applications. Motion estimation in the video e...
Motion Estimation (ME) is the most computationally intensive part in the whole video compression pro...
A new class of fully parameterizable multiple array architectures for motion estimation (ME) in vide...
Research has been undertaken into domain-specific reconfigurable architectures for future System-on-...
Signal processing algorithms and architectures can use dynamic reconfiguration to exploit variations...
In this paper, we propose a hardware architecture of an adaptive multi-resolution motion estimation ...
An architecture proof-of-concept which adapts the throughput datapath based on the anticipation of c...
The progress of VLSI technology towards deep sub-micron feature sizes, e.g., sub-100 nanometer techn...
Due to the large amount of data transfers it involves, the motion estimation (ME) engine is one of t...
Motion Estimation (ME) is the most computationally intensive and most power consuming part of video ...
In MPEG standard, motion estimation (ME) is used to eliminate the temporal redundancy of video frame...
ABSTRACT Presented is an energy-efficient motion estimation architecture using error-tolerance. The ...
We propose a novel system-level error tolerance approach specifically targeted for multimedia compre...
This paper tackles the problem of accelerating The rest of this paper is organised as follows: secti...
In this paper we study the computation error tolerance properties of motion estimation algorithms. W...
Power consumption is very critical for portable video applications. Motion estimation in the video e...
Motion Estimation (ME) is the most computationally intensive part in the whole video compression pro...
A new class of fully parameterizable multiple array architectures for motion estimation (ME) in vide...
Research has been undertaken into domain-specific reconfigurable architectures for future System-on-...
Signal processing algorithms and architectures can use dynamic reconfiguration to exploit variations...
In this paper, we propose a hardware architecture of an adaptive multi-resolution motion estimation ...