2008 |
43 | EE | Changzhong Chen,
Dharmendra Saraswat,
Ramachandra Achar,
Emad Gad,
Michel S. Nakhla,
Mustapha Chérif-Eddine Yagoub:
A Robust Algorithm for Passive Reduced-Order Macromodeling of MTLs With FD-PUL Parameters Using Integrated Congruence Transform.
IEEE Trans. on CAD of Integrated Circuits and Systems 27(3): 574-578 (2008) |
2007 |
42 | EE | Natalie Nakhla,
Michel S. Nakhla,
Ramachandra Achar:
Sparse and passive reduction of massively coupled large multiport interconnects.
ICCAD 2007: 622-626 |
41 | EE | Dharmendra Saraswat,
Ramachandra Achar,
Michel S. Nakhla:
Fast Passivity Verification and Enforcement via Reciprocal Systems for Interconnects With Large Order Macromodels.
IEEE Trans. VLSI Syst. 15(1): 48-59 (2007) |
2006 |
40 | EE | Dharmendra Saraswat,
Ramachandra Achar,
Michel S. Nakhla:
Circuit Compatible Macromodeling of High-Speed VLSI Modules Characterized by Scattering Parameters.
VLSI Design 2006: 667-671 |
39 | EE | Gurpreet Shinh,
Natalie Nakhla,
Ramachandra Achar,
Michel S. Nakhla,
Ihsan Erdin:
Efficient and Accurate EMC Analysis of High-Frequency VLSI Subnetworks.
VLSI Design 2006: 672-676 |
2005 |
38 | EE | Natalie Nakhla,
Ramachandra Achar,
Michel S. Nakhla,
Anestis Dounavis:
Delay extraction based closed-form SPICE compatible passive macromodels for distributed transmission line interconnects.
ASP-DAC 2005: 1082-1085 |
37 | EE | Dharmendra Saraswat,
Ramachandra Achar,
Michel S. Nakhla:
On passivity enforcement for macromodels of S-parameter based tabulated subnetworks.
ISCAS (4) 2005: 3777-3780 |
36 | EE | Natalie Nakhla,
Ramachandra Achar,
Michel S. Nakhla:
Accurate and closed-form SPICE compatible passive macromodels for distributed interconnects with frequency dependent parameters.
ISCAS (6) 2005: 5770-5773 |
35 | EE | Dharmendra Saraswat,
Ramachandra Achar,
Michel S. Nakhla:
Projection Based Fast Passive Compact Macromodeling of High-Speed VLSI Circuits and Interconnects.
VLSI Design 2005: 629-633 |
34 | EE | Dharmendra Saraswat,
Ramachandra Achar,
Michel S. Nakhla:
Global Passivity Enforcement Algorithm for Macromodels of Interconnect Subnetworks Characterized by Tabulated Data.
IEEE Trans. VLSI Syst. 13(7): 819-832 (2005) |
2004 |
33 | | Natalie Nakhla,
Anestis Dounavis,
Ramachandra Achar,
Michel S. Nakhla:
Fast sensitivity analysis of transmission line networks.
ISCAS (5) 2004: 121-124 |
32 | | Praveen Pai,
Emad Gad,
Ramachandra Achar,
Roni Khazaka,
Michel S. Nakhla:
Computing large-change sensitivity of periodic responses of nonlinear circuits using reduction techniques.
ISCAS (5) 2004: 333-336 |
31 | EE | Emad Gad,
Michel S. Nakhla:
Efficient simulation of nonuniform transmission lines using integrated congruence transform.
IEEE Trans. VLSI Syst. 12(12): 1307-1320 (2004) |
2003 |
30 | EE | Emad Gad,
Michel S. Nakhla:
Model order reduction of nonuniform transmission lines using integrated congruence transform.
DAC 2003: 238-243 |
29 | EE | Dharmendra Saraswat,
Ramachandra Achar,
Michel S. Nakhla:
Passive macromodeling of subnetworks characterized by measured data.
ISCAS (3) 2003: 502-505 |
2002 |
28 | EE | Roni Khazaka,
Michel S. Nakhla:
Compact Macromodel for Lossy Coupled Transmission Lines.
DATE 2002: 1114 |
27 | EE | Emad Gad,
Michel S. Nakhla:
Efficient Model Reduction of Linear Time-Varying Systems via Compressed Transient System Function.
DATE 2002: 916-922 |
26 | EE | Yuichi Tanji,
Akio Ushida,
Michel S. Nakhla:
Passive closed-form expression of RLCG transmission lines.
ISCAS (3) 2002: 795-798 |
2000 |
25 | EE | Emad Gad,
Anestis Dounavis,
Michel S. Nakhla,
Ramachandra Achar:
Passive model order reduction of multiport distributed interconnects.
DAC 2000: 526-531 |
24 | EE | Pavan K. Gunupudi,
Michel S. Nakhla,
Ramachandra Achar:
Simulation of high-speed distributed interconnects usingKrylov-space techniques.
IEEE Trans. on CAD of Integrated Circuits and Systems 19(7): 799-808 (2000) |
1999 |
23 | EE | Pavan K. Gunupudi,
Michel S. Nakhla:
Model-Reduction of Nonlinear Circuits Using Krylov-Space Techniques.
DAC 1999: 13-16 |
22 | EE | Emad Gad,
Michel S. Nakhla:
Model reduction for DC solution of large nonlinear circuits.
ICCAD 1999: 376-379 |
21 | EE | Ramachandra Achar,
Michel S. Nakhla:
Efficient simulation of on-chip RF components using model-reduction techniques.
ISCAS (2) 1999: 81-84 |
20 | EE | Pavan K. Gunupudi,
Michel S. Nakhla,
Ramachandra Achar:
Multi-point multi-port reduction of high-speed distributed interconnects using Krylov-space techniques.
ISCAS (6) 1999: 242-245 |
1998 |
19 | EE | Ramachandra Achar,
Michel S. Nakhla,
Qi-Jun Zhang:
Full-wave analysis of high-speed interconnects using complex frequency hopping.
IEEE Trans. on CAD of Integrated Circuits and Systems 17(10): 997-1016 (1998) |
1997 |
18 | EE | J. Richard Griffith,
Michel S. Nakhla:
A new high-order absolutely-stable explicit numerical integration algorithm for the time-domain simulation of nonlinear circuits.
ICCAD 1997: 276-280 |
1996 |
17 | EE | Guowu Zheng,
Qi-Jun Zhang,
Michel S. Nakhla,
Ramachandra Achar:
An efficient approach for moment-matching simulation of linear subnetworks with measured or tabulated data.
ICCAD 1996: 20-23 |
1995 |
16 | EE | Ramachandra Achar,
Michel S. Nakhla,
Qi-Jun Zhang:
Addressing high frequency effects in VLSI interconnects with full wave model and CFH.
ICCAD 1995: 53-56 |
15 | EE | Eli Chiprout,
Michel S. Nakhla:
Analysis of interconnect networks using complex frequency hopping (CFH).
IEEE Trans. on CAD of Integrated Circuits and Systems 14(2): 186-200 (1995) |
1994 |
14 | | Qi-Jun Zhang,
Michel S. Nakhla:
Signal Integrity Analysis and Optimization of VLSI Interconnects using Neural Network Models.
ISCAS 1994: 459-462 |
13 | EE | Sanjay L. Manney,
Michel S. Nakhla,
Qi-Jun Zhang:
Analysis of nonuniform, frequency-dependent high-speed interconnects using numerical inversion of Laplace transform.
IEEE Trans. on CAD of Integrated Circuits and Systems 13(12): 1513-1525 (1994) |
1993 |
12 | EE | Eli Chiprout,
Michel S. Nakhla:
Addressing High-Speed Interconnect Issues in Asymptotic Waveform Evaluation.
DAC 1993: 732-736 |
11 | EE | Eli Chiprout,
Hansruedi Heeb,
Michel S. Nakhla,
Albert E. Ruehli:
Simulating 3-D retarded interconnect models using complex frequency hopping (CFH).
ICCAD 1993: 66-72 |
10 | | J. Richard Griffith,
Qi-Jun Zhang,
Michel S. Nakhla:
Parallel Time Domain Analysis and Optimization of Distributed VLSI Interconnects.
ISCAS 1993: 1543-1546 |
9 | | J. Richard Griffith,
Qi-Jun Zhang,
Michel S. Nakhla:
Parallel Time Domain Analysis and Optimization of High-Speed VLSI Interconnects.
PPSC 1993: 225-227 |
8 | EE | Dong H. Xie,
Michel S. Nakhla:
Delay and crosstalk simulation of high-speed VLSI interconnects with nonlinear terminations.
IEEE Trans. on CAD of Integrated Circuits and Systems 12(11): 1798-1811 (1993) |
1992 |
7 | EE | Eli Chiprout,
Michel S. Nakhla:
Generalized Moment-Matching Methods for Transient Analysis of Interconnect Networks.
DAC 1992: 201-206 |
6 | EE | Sanjay L. Manney,
Michel S. Nakhla,
Qi-Jun Zhang:
Time domain analysis of nonuniform frequency dependent high-speed interconnects.
ICCAD 1992: 449-453 |
5 | EE | Tak K. Tang,
Michel S. Nakhla:
Analysis of high-speed VLSI interconnects using the asymptotic waveform evaluation technique.
IEEE Trans. on CAD of Integrated Circuits and Systems 11(3): 341-352 (1992) |
4 | EE | J. Richard Griffith,
Michel S. Nakhla:
Mixed frequency/time domain analysis of nonlinear circuits.
IEEE Trans. on CAD of Integrated Circuits and Systems 11(8): 1032-1043 (1992) |
1991 |
3 | | Dong H. Xie,
Michel S. Nakhla:
Delay and Crosstalk Simulation of High-Speed VLSI Interconnects with Nonlinear Terminations.
ICCAD 1991: 66-69 |
1990 |
2 | | Tak K. Tang,
Michel S. Nakhla:
Analysis of High-Speed VLSI Interconnects Using the Asymptotic Waveform Evaluation Technique.
ICCAD 1990: 542-545 |
1 | | Michel S. Nakhla:
Performance Evaluation of Optical Fiber Transmission Systems.
IEEE Journal on Selected Areas in Communications 8(8): 1617-1623 (1990) |