2007 |
23 | EE | Yuan-Shin Hwang,
Jia-Jhe Li:
Snug set-associative caches: Reducing leakage power of instruction and data caches with no performance penalties.
TACO 4(1): (2007) |
2006 |
22 | EE | Ying Chen Lin,
Sy-Yuan Li,
Yuan-Shin Hwang:
Dynamic Load-Balancing of Jini and .NET Services.
ICPP Workshops 2006: 257-265 |
2005 |
21 | | Chung-Chin Luo,
Yuan-Shin Hwang,
Gene Eu Jan:
Minimal Steiner Trees in X Architecture with Obstacles.
CDES 2005: 198-203 |
20 | EE | Jia-Jhe Li,
Yuan-Shin Hwang:
Snug set-associative caches: reducing leakage power while improving performance.
ISLPED 2005: 345-350 |
19 | | Hung-Hsiang Lin,
Chia-Heng Tu,
Yuan-Shin Hwang:
Dynamic Load-Balancing of Jini Services with Smart Proxies.
PDPTA 2005: 721-726 |
2004 |
18 | EE | Peng-Sheng Chen,
Yuan-Shin Hwang,
Roy Dz-Ching Ju,
Jenq Kuen Lee:
Interprocedural Probabilistic Pointer Analysis.
IEEE Trans. Parallel Distrib. Syst. 15(10): 893-907 (2004) |
17 | EE | Gene Eu Jan,
Yuan-Shin Hwang,
Ming-Bo Lin,
Deron Liang:
Novel Hierarchical Interconnection Networks for High-Performance Multicomputer Systems.
J. Inf. Sci. Eng. 20(6): 1213-1229 (2004) |
2003 |
16 | EE | Peng-Sheng Chen,
Ming-Yu Hung,
Yuan-Shin Hwang,
Roy Dz-Ching Ju,
Jenq Kuen Lee:
Compiler support for speculative multithreading architecture with probabilistic points-to analysis.
PPOPP 2003: 25-36 |
15 | EE | Yuan-Shin Hwang,
Joel H. Saltz:
Identifying parallelism in programs with cyclic graphs.
J. Parallel Distrib. Comput. 63(3): 337-355 (2003) |
14 | | Yuan-Shin Hwang,
Joel H. Saltz:
Interprocedural definition-use chains of dynamic pointer-linked data structures.
Scientific Programming 11(1): 3-37 (2003) |
13 | EE | Gene Eu Jan,
Yuan-Shin Hwang:
An Efficient Algorithm for Perfect Load Balancing on Hypercube Multiprocessors.
The Journal of Supercomputing 25(1): 5-15 (2003) |
2002 |
12 | EE | Yung-Chia Lin,
Yuan-Shin Hwang,
Jenq Kuen Lee:
Compiler Optimizations with DSP-Specific Semantic Descriptions.
LCPC 2002: 75-89 |
11 | | Yuan-Shin Hwang:
Parallelizing graph construction operations in programs with cyclic graphs.
Parallel Computing 28(9): 1307-1328 (2002) |
2001 |
10 | EE | Raja Das,
Yuan-Shin Hwang,
Joel H. Saltz,
Alan Sussman:
Runtime and Compiler Support for Irregular Computations.
Compiler Optimizations for Scalable Parallel Systems Languages 2001: 751-778 |
9 | EE | Yuan-Shin Hwang,
Peng-Sheng Chen,
Jenq Kuen Lee,
Roy Dz-Ching Ju:
Probabilistic Points-to Analysis.
LCPC 2001: 290-305 |
2000 |
8 | EE | Yuan-Shin Hwang,
Joel H. Saltz:
Identifying Parallelism in Programs with Cyclic Graphs.
ICPP 2000: 201-208 |
1997 |
7 | | Yuan-Shin Hwang,
Joel H. Saltz:
Identifying DEF/USE Information of Statements that Construct and Traverse Dynamic Recursive Data Structures.
LCPC 1997: 131-145 |
6 | | Joel H. Saltz,
Gagan Agrawal,
Chialin Chang,
Raja Das,
Guy Edjlali,
Paul Havlak,
Yuan-Shin Hwang,
Bongki Moon,
Ravi Ponnusamy,
Shamik D. Sharma,
Alan Sussman,
Mustafa Uysal:
Programming Irregular Applications: Runtime Support, Compilation and Tools.
Advances in Computers 45: 105-153 (1997) |
1996 |
5 | | Yuan-Shin Hwang,
Joel H. Saltz:
Side Effect Analysis on User-Defined Reduction Functions with Dynamic Pointer-Linked Data Structures.
LCPC 1996: 594-596 |
1995 |
4 | EE | Ravi Ponnusamy,
Joel H. Saltz,
Alok N. Choudhary,
Yuan-Shin Hwang,
Geoffrey Fox:
Runtime Support and Compilation Methods for User-Specified Irregular Data Distributions.
IEEE Trans. Parallel Distrib. Syst. 6(8): 815-831 (1995) |
3 | | Yuan-Shin Hwang,
Bongki Moon,
Shamik D. Sharma,
Ravi Ponnusamy,
Raja Das,
Joel H. Saltz:
Runtime and Language Support for Compiling Adaptive Irregular Programs on Distributed-memory Machines.
Softw., Pract. Exper. 25(6): 597-621 (1995) |
1994 |
2 | EE | Shamik D. Sharma,
Ravi Ponnusamy,
Bongki Moon,
Yuan-Shin Hwang,
Raja Das,
Joel H. Saltz:
Run-time and compile-time support for adaptive irregular problems.
SC 1994: 97-106 |
1 | | Raja Das,
Mustafa Uysal,
Joel H. Saltz,
Yuan-Shin Hwang:
Communication Optimizations for Irregular Scientific Computations on Distributed Memory Architectures.
J. Parallel Distrib. Comput. 22(3): 462-478 (1994) |