View in EDS

Design of an optimal folding mechanism for Java processors

Saved in:
Bibliographic Details
Title: Design of an optimal folding mechanism for Java processors
Authors: Lee-ren Ton A, Lung-chung Chang A, Jyh-jiun Shann A, Chung-ping Chung A
Contributors: The Pennsylvania State University CiteSeerX Archives
Source: http://www.cse.hcmut.edu.vn/~anhvu/teaching/2006/ACA/12.pdf.
Publication Year: 2002
Collection: CiteSeerX
Subject Terms: Java Virtual Machine, Stack operations folding, POC folding model, EPOC folding model, Java processor
Description: Java has become the most important language in the Internet area, but its execution performance is severely limited by the true data dependency inherited from the stack architecture defined by the Sun’s Java Virtual Machine (JVM). To enhance the performance of the JVM, a stack operations folding mechanism for the picoJava-II processor was proposed by Sun Microsystems to fold 42.3 % stack push/pop instructions. A systematic folding algorithm—Producer, Operator, and Consumer (POC) folding model was proposed in the earlier research to eliminate up to 82.9 % of stack push/pop instructions. The remaining push and pop instructions cannot be folded due to the sequential checking characteristic of the POC folding model. A new folding algorithm—enhanced POC (EPOC) folding model is proposed in this paper to further fold the remaining push and pop instructions. In the EPOC folding model, stack push/pop instructions are folded with the proposed Stack Reorder Buffer (SROB) architecture. With a small SROB size of 584 bits, almost all of the stack push/pop instructions can be folded with the precise exception handling capability. Statistical data shows that 98.8 % of the stack push/pop instructions can be folded, and the average execution performance speedup of a 4-foldable processor with a 7-byte instruction buffer is 1.74 as compared to a traditional singlepipelined
Document Type: text
File Description: application/pdf
Language: English
Relation: http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.98.3801; http://www.cse.hcmut.edu.vn/~anhvu/teaching/2006/ACA/12.pdf
Availability: http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.98.3801
http://www.cse.hcmut.edu.vn/~anhvu/teaching/2006/ACA/12.pdf
Rights: Metadata may be used without restrictions as long as the oai identifier remains attached to it.
Accession Number: edsbas.3CE5DA8E
Database: BASE
Description
Abstract:Java has become the most important language in the Internet area, but its execution performance is severely limited by the true data dependency inherited from the stack architecture defined by the Sun’s Java Virtual Machine (JVM). To enhance the performance of the JVM, a stack operations folding mechanism for the picoJava-II processor was proposed by Sun Microsystems to fold 42.3 % stack push/pop instructions. A systematic folding algorithm—Producer, Operator, and Consumer (POC) folding model was proposed in the earlier research to eliminate up to 82.9 % of stack push/pop instructions. The remaining push and pop instructions cannot be folded due to the sequential checking characteristic of the POC folding model. A new folding algorithm—enhanced POC (EPOC) folding model is proposed in this paper to further fold the remaining push and pop instructions. In the EPOC folding model, stack push/pop instructions are folded with the proposed Stack Reorder Buffer (SROB) architecture. With a small SROB size of 584 bits, almost all of the stack push/pop instructions can be folded with the precise exception handling capability. Statistical data shows that 98.8 % of the stack push/pop instructions can be folded, and the average execution performance speedup of a 4-foldable processor with a 7-byte instruction buffer is 1.74 as compared to a traditional singlepipelined