Abstract — In this paper, a systematic analysis for memory usage in H.264/AVC scalable extension (SVC) decoder is presented. This paper analyzes the memory requirements with three different decoding flows, macroblock, row and frame based, to find out a best method which can achieve optimal trade-off between internal memory usage and external memory access. The analysis shows that the SVC decoding needs 88 % to 110 % extra memory bandwidth compared to single layer H.264 decoding due to inter-layer prediction disregarding of decoding flow. However, extra internal memory storage by inter-layer prediction varies a lot according to the flow. This analysis could provide as a foundation to design a SVC decoder for further step. Index Terms — scala...
The spatial scalability of H.264/SVC is achieved by a multi-layer approach, where an enhancement lay...
This paper presents a memory-efficient CAVLC decoding architecture for H.264/AVC. In the proposed ar...
HW/SW co-design and optimization requires an in-depth performance and bottleneck analysis of the dev...
Abstract — In this paper, a systematic analysis for memory usage in H.264/AVC scalable extension (SV...
Abstract—In this paper, the first overall memory analysis for H.264/AVC scalable extension (SVC) is ...
Abstract—In this paper, a memory efficient Fine Grain Scalability (FGS) coefficient encoding method ...
Scalability at a bit-stream level is a desirable feature for many applications. The need for scalabi...
Abstract—This paper provides a performance analysis of the Scalable Video Coding (SVC) extension of ...
International audienceThe Joint Video Team (JVT) of the ITU-T Video Coding Experts Group (VCEG) and ...
H.264/AVC is a new international video coding standard that provides higher coding efficiency with r...
Abstract—Memory bandwidth issue becomes more and more critical in designing video coding system espe...
This paper investigates the scalability of MacroBlock(MB) level parallelization of the H.264 decoder...
An important question is whether emerging and future applications exhibit sufficient parallelism, in...
An important question is whether emerging and future applications exhibit sufficient parallelism, in...
Abstract — To satisfy the video application diversities, an extension of H.264/advanced video coding...
The spatial scalability of H.264/SVC is achieved by a multi-layer approach, where an enhancement lay...
This paper presents a memory-efficient CAVLC decoding architecture for H.264/AVC. In the proposed ar...
HW/SW co-design and optimization requires an in-depth performance and bottleneck analysis of the dev...
Abstract — In this paper, a systematic analysis for memory usage in H.264/AVC scalable extension (SV...
Abstract—In this paper, the first overall memory analysis for H.264/AVC scalable extension (SVC) is ...
Abstract—In this paper, a memory efficient Fine Grain Scalability (FGS) coefficient encoding method ...
Scalability at a bit-stream level is a desirable feature for many applications. The need for scalabi...
Abstract—This paper provides a performance analysis of the Scalable Video Coding (SVC) extension of ...
International audienceThe Joint Video Team (JVT) of the ITU-T Video Coding Experts Group (VCEG) and ...
H.264/AVC is a new international video coding standard that provides higher coding efficiency with r...
Abstract—Memory bandwidth issue becomes more and more critical in designing video coding system espe...
This paper investigates the scalability of MacroBlock(MB) level parallelization of the H.264 decoder...
An important question is whether emerging and future applications exhibit sufficient parallelism, in...
An important question is whether emerging and future applications exhibit sufficient parallelism, in...
Abstract — To satisfy the video application diversities, an extension of H.264/advanced video coding...
The spatial scalability of H.264/SVC is achieved by a multi-layer approach, where an enhancement lay...
This paper presents a memory-efficient CAVLC decoding architecture for H.264/AVC. In the proposed ar...
HW/SW co-design and optimization requires an in-depth performance and bottleneck analysis of the dev...