Title :
Advanced POC model-based Java instruction folding mechanism
Author :
Kim, Austin ; Chang, Morris
Author_Institution :
Dept. of Comput. Sci., Illinois Inst. of Technol., Chicago, IL, USA
Abstract :
Ever since Java was introduced world wide, the execution performance has always been a problem. As one of the solutions, a bytecode instruction folding process for Java processors was developed in a PicoJava model and a Producer, Operator and Consumer (POC) model, but it could not handle certain types of instruction sequences. In this paper, a new instruction folding scheme based on a new, advanced POC model is proposed and demonstrates improvement in bytecode execution. The proposed POC model is able to detect and fold all possible instruction sequence types dynamically in hardware, including a sequence that is separated by other bytecode instructions. SPEC JMV98 benchmark results show that the proposed POC model-based folder can save more than 90% of folding operations. In addition, a design of the proposed POC model-based folding process in hardware is much smaller and more efficient than traditional folding mechanisms
Keywords :
Java; program testing; virtual machines; POC model-based Java instruction folding mechanism; PicoJava model; SPEC JMV98 benchmark results; bytecode execution; bytecode instruction folding process; execution performance; instruction folding scheme; instruction sequence types; producer, operator and consumer model; Computer languages; Computer science; Consumer electronics; Face detection; Field programmable gate arrays; Hardware; Internet; Java; Software performance; Virtual machining;
Conference_Titel :
Euromicro Conference, 2000. Proceedings of the 26th
Conference_Location :
Maastricht
Print_ISBN :
0-7695-0780-8
DOI :
10.1109/EURMIC.2000.874650
