This paper reports on a set of experiments that measure the amount of CPU processing needed to decode MPEGcompressed video in software. These experiments were designed to discover indicators that could be used to predict how many cycles are required to decode a given frame. Such predictors can be used to do more accurate CPU scheduling. We found that by considering both frame type and size, it is possible to construct a linear model of MPEG decoding with R 2 values of 0.97 and higher. Moreover, this model can be used to predict decoding times at both the frame and packet level that are almost always accurate to within 25% of the actual decode times. This is a surprising result given the large variability in MPEG decoding times, and sugges...
This paper describes a dynamic voltage and frequency scaling (DVFS) technique for MPEG decoding to r...
Abstract. This paper describes a dynamic voltage and frequency scaling (DVFS) technique for MPEG dec...
Abstract-- Media workloads have been a principal driving force behind processor designs for several ...
Decoding MPEG-2 video streams imposes hard realtime constraints for consumer devices such as TV sets...
Abstract — Decoding MPEG-2 video streams imposes hard realtime constraints for consumer electronic d...
Development costs and time-to-market of software-intensive media processing systems can be reduced w...
A number of algorithms have been presented for handling software decoding of MPEG-2 streams based on...
This paper is motivated through the advantages offered by employing real-time (priority-driven) sche...
In this article, I will discuss a method to predict per-frame decoding times of modern decoder algor...
This paper describes a dynamic voltage and frequency scaling (DVFS) technique for MPEG decoding to r...
Abstract – In this paper we present three efficient DVS techniques for an MPEG decoder. Their energy...
In this paper, a performance analysis of MPEG-4 encoder and decoder programs on standard personal co...
This paper describes a dynamic voltage and frequency scaling (DVFS) technique for MPEG decoding to r...
This paper addresses an efficient implementation of new emerging video algorithms like the coding of...
Component-based software development is very attractive, because it allows a clear decomposition of ...
This paper describes a dynamic voltage and frequency scaling (DVFS) technique for MPEG decoding to r...
Abstract. This paper describes a dynamic voltage and frequency scaling (DVFS) technique for MPEG dec...
Abstract-- Media workloads have been a principal driving force behind processor designs for several ...
Decoding MPEG-2 video streams imposes hard realtime constraints for consumer devices such as TV sets...
Abstract — Decoding MPEG-2 video streams imposes hard realtime constraints for consumer electronic d...
Development costs and time-to-market of software-intensive media processing systems can be reduced w...
A number of algorithms have been presented for handling software decoding of MPEG-2 streams based on...
This paper is motivated through the advantages offered by employing real-time (priority-driven) sche...
In this article, I will discuss a method to predict per-frame decoding times of modern decoder algor...
This paper describes a dynamic voltage and frequency scaling (DVFS) technique for MPEG decoding to r...
Abstract – In this paper we present three efficient DVS techniques for an MPEG decoder. Their energy...
In this paper, a performance analysis of MPEG-4 encoder and decoder programs on standard personal co...
This paper describes a dynamic voltage and frequency scaling (DVFS) technique for MPEG decoding to r...
This paper addresses an efficient implementation of new emerging video algorithms like the coding of...
Component-based software development is very attractive, because it allows a clear decomposition of ...
This paper describes a dynamic voltage and frequency scaling (DVFS) technique for MPEG decoding to r...
Abstract. This paper describes a dynamic voltage and frequency scaling (DVFS) technique for MPEG dec...
Abstract-- Media workloads have been a principal driving force behind processor designs for several ...