Parallel encoding of video inevitably frame rate gives varying rate performance due to dynamically changing video content and motion field since the encoding process of each macro-block, especially motion estimation, is data dependent. A multiprocessor schedule optimized for a particular frame with certain macro-block encoding time may not be optimized towards another frame with different encoding time, which causes performance degradation to the parallelization. To tackle this problem, we propose a method based on a batch of near-optimal schedules generated at compile-time and a run-time mechanism to select the schedule giving the shortest predicted critical path length. This method has the advantage of being near-optimal using compile-tim...
H.264 video codec provides a wide range of compression options and is popularly implemented over var...
In this paper a new approach for coding moving pictures is presented. Because of the ...
Many computer applications are currently using digital video. Recent advances in digital imaging an...
Parallel encoding of video inevitably gives varying frame rate performance due to dynamically changi...
The issue of balancing the macroblocks (MB) computing workload across the processors are explored. T...
Today’s video codingldecoding technology captures a wide area of applications such as video phonelco...
Abstract—Due to the nature of a dynamic group of picture (GOP) structure, parallel scheduling for vi...
MB-level parallelism is widely used in parallel video coding thanks to its merits of low latency, no...
In this paper, we first propose a new parallel video coding framework, considering three important f...
The well-known wave-front parallelization is proposed for parallel H.264/AVC videoprocessing. Under ...
This paper describes a generalized parallelization methodology for mapping video coding algorithms o...
Parallelization is an efficient solution for addressing the increased computational complexity in Hi...
This paper presents a parallelization methodology for video coding based on the philosophy of hiding...
In this paper, the parallelization of the H.261 video coding algorithm on the IBM SP2 multiprocessor...
Theoretical rate-distortion performance bounds are derived and evaluated for both layered and contin...
H.264 video codec provides a wide range of compression options and is popularly implemented over var...
In this paper a new approach for coding moving pictures is presented. Because of the ...
Many computer applications are currently using digital video. Recent advances in digital imaging an...
Parallel encoding of video inevitably gives varying frame rate performance due to dynamically changi...
The issue of balancing the macroblocks (MB) computing workload across the processors are explored. T...
Today’s video codingldecoding technology captures a wide area of applications such as video phonelco...
Abstract—Due to the nature of a dynamic group of picture (GOP) structure, parallel scheduling for vi...
MB-level parallelism is widely used in parallel video coding thanks to its merits of low latency, no...
In this paper, we first propose a new parallel video coding framework, considering three important f...
The well-known wave-front parallelization is proposed for parallel H.264/AVC videoprocessing. Under ...
This paper describes a generalized parallelization methodology for mapping video coding algorithms o...
Parallelization is an efficient solution for addressing the increased computational complexity in Hi...
This paper presents a parallelization methodology for video coding based on the philosophy of hiding...
In this paper, the parallelization of the H.261 video coding algorithm on the IBM SP2 multiprocessor...
Theoretical rate-distortion performance bounds are derived and evaluated for both layered and contin...
H.264 video codec provides a wide range of compression options and is popularly implemented over var...
In this paper a new approach for coding moving pictures is presented. Because of the ...
Many computer applications are currently using digital video. Recent advances in digital imaging an...