LILY is a high performance VLIW DSP processor for multimedia applications, developed by Tsinghua University. The processor classifies the instructions, and determines whether the instructions should be issued in parallel according to the order of the instructions. Under this parallelism, LILY processor is capable of saving one bit of operation code in the condition of inserting very few no operation (NOP) instructions. In addition, it is needed to design a corresponding assembler to accommodate the above new parallelism, which aids LILY to complete the highly efficient method The evaluation results show satisfactory suitability of the processor for high performance applications, high code density, and small program code size.(1)Engineering,...
[[abstract]]To support high-performance and low-power for multimedia applications and for hand-held ...
Thesis (M.S.) California State University, Los Angeles, 2012Committee members: Charles Liu, Ka...
The growing interest that multimedia processing has experimented during the last decade is motivatin...
Abstract. This paper presents the design and implementation of a novel VLIW digital signal processor...
Although programmable digital signal processors comprise a significant fraction of the processors so...
grantor: University of TorontoVLIW architectures are well-suited for implementing applicat...
Recent high performance processors have depended on Instruction Level Parallelism (ILP) to achieve h...
This paper presents a unified processor core with two operation modes. The processor core works as a...
This paper proposes new processor architecture for accelerating data-parallel applications based on ...
grantor: University of TorontoProgrammable digital signal processors (DSPs) are microproce...
Abstract—Customization of a (generic) processor to a partic-ular application makes it possible to ac...
Very Long Instruction Word (VLIW) architectures can enhance performance by exploiting fine-grained i...
This paper presents a unified processor core with two operation modes. The processor core works as a...
dataflow processors, superscalar processors, instruction scheduling, trace scheduling, software pipe...
Applications run on embedded processors are constantly evolving. They are for the most part growing ...
[[abstract]]To support high-performance and low-power for multimedia applications and for hand-held ...
Thesis (M.S.) California State University, Los Angeles, 2012Committee members: Charles Liu, Ka...
The growing interest that multimedia processing has experimented during the last decade is motivatin...
Abstract. This paper presents the design and implementation of a novel VLIW digital signal processor...
Although programmable digital signal processors comprise a significant fraction of the processors so...
grantor: University of TorontoVLIW architectures are well-suited for implementing applicat...
Recent high performance processors have depended on Instruction Level Parallelism (ILP) to achieve h...
This paper presents a unified processor core with two operation modes. The processor core works as a...
This paper proposes new processor architecture for accelerating data-parallel applications based on ...
grantor: University of TorontoProgrammable digital signal processors (DSPs) are microproce...
Abstract—Customization of a (generic) processor to a partic-ular application makes it possible to ac...
Very Long Instruction Word (VLIW) architectures can enhance performance by exploiting fine-grained i...
This paper presents a unified processor core with two operation modes. The processor core works as a...
dataflow processors, superscalar processors, instruction scheduling, trace scheduling, software pipe...
Applications run on embedded processors are constantly evolving. They are for the most part growing ...
[[abstract]]To support high-performance and low-power for multimedia applications and for hand-held ...
Thesis (M.S.) California State University, Los Angeles, 2012Committee members: Charles Liu, Ka...
The growing interest that multimedia processing has experimented during the last decade is motivatin...