This paper describes a generalized parallelization methodology for mapping video coding algorithms onto a multiprocessing architecture, through systematic task decomposition, scheduling and performance analysis. It exploits data parallelism inherent in the coding process and performs task scheduling base on task data size and access locality with the aim to hide as much communication overhead as possible. Utilizing Petri-nets and task graphs for representation and analysis, the method enables parallel video frame capturing, buffering and encoding without extra communication overhead. The theoretical speedup analysis indicates that this method offers excellent communication hiding, resulting in system efficiency well above 90%. A H.261 video...
Last generation video encoding standards increase computing demands in order to reach the limits on ...
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...
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...
In this paper, the parallelization of the H.261 video coding algorithm on the IBM SP2 multiprocessor...
High definition video applications often require heavy computation, high bandwidth and high memory r...
Driven by the rapidly increasing demand for audio-visual applications, digital video compression tec...
High Efficiency Video Coding (HEVC) sets the scene for economic video transmission and storage, but ...
In this paper, we describe a software-based MPEG-4 video encoder which is implemented using parallel...
In this paper, we first propose a new parallel video coding framework, considering three important f...
The processing time needed for motion estimation usually accounts for a significant part of the over...
The issue of balancing the macroblocks (MB) computing workload across the processors are explored. T...
With the rapid convergence in telecommunications, computer, and TV/film industries, rigorous efforts...
Parallel encoding of video inevitably frame rate gives varying rate performance due to dynamically c...
Last generation video encoding standards increase computing demands in order to reach the limits on ...
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...
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...
In this paper, the parallelization of the H.261 video coding algorithm on the IBM SP2 multiprocessor...
High definition video applications often require heavy computation, high bandwidth and high memory r...
Driven by the rapidly increasing demand for audio-visual applications, digital video compression tec...
High Efficiency Video Coding (HEVC) sets the scene for economic video transmission and storage, but ...
In this paper, we describe a software-based MPEG-4 video encoder which is implemented using parallel...
In this paper, we first propose a new parallel video coding framework, considering three important f...
The processing time needed for motion estimation usually accounts for a significant part of the over...
The issue of balancing the macroblocks (MB) computing workload across the processors are explored. T...
With the rapid convergence in telecommunications, computer, and TV/film industries, rigorous efforts...
Parallel encoding of video inevitably frame rate gives varying rate performance due to dynamically c...
Last generation video encoding standards increase computing demands in order to reach the limits on ...
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...