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Peter Feldmann
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Journal Articles
- 2015
- [j6]Hengliang Zhu, Yuanzhe Wang, Frank Liu, Xin Li, Xuan Zeng, Peter Feldmann:
Efficient Transient Analysis of Power Delivery Network With Clock/Power Gating by Sparse Approximation. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 34(3): 409-421 (2015) - 2014
- [j5]Hans Georg Brachtendorf, Robert C. Melville, Peter Feldmann, Siegmar Lampe, Rainer Laur:
Homotopy Method for Finding the Steady States of Oscillators. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 33(6): 867-878 (2014) - 1998
- [j4]Jaijeet Roychowdhury, David E. Long, Peter Feldmann:
Cyclostationary noise analysis of large RF circuits with multitone excitations. IEEE J. Solid State Circuits 33(3): 324-336 (1998) - 1995
- [j3]Peter Feldmann, Roland W. Freund:
Efficient linear circuit analysis by Pade approximation via the Lanczos process. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 14(5): 639-649 (1995) - 1993
- [j2]Peter Feldmann, Stephen W. Director:
Integrated circuit quality optimization using surface integrals. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 12(12): 1868-1879 (1993) - 1991
- [j1]Peter Feldmann, Tuyen V. Nguyen, Stephen W. Director, Ronald A. Rohrer:
Sensitivity computation in piecewise approximate circuit simulation. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 10(2): 171-183 (1991)
Conference and Workshop Papers
- 2021
- [c39]Peter J. Adams, Brannon Batson, Alistair Bell, Jhanvi Bhatt, J. Adam Butts, Timothy Correia, Bruce Edwards, Peter Feldmann, Christopher H. Fenton, Anthony Forte, Joseph Gagliardo, Gennette Gill, Maria Gorlatova, Brian Greskamp, J. P. Grossman, Jeremy Hunt, Bryan L. Jackson, Mollie M. Kirk, Jeffrey Kuskin, Roy J. Mader, Richard McGowen, Adam McLaughlin, Mark A. Moraes, Mohamed Nasr, Lawrence J. Nociolo, Lief O'Donnell, Andrew Parker, Jon L. Peticolas, Terry Quan, T. Carl Schwink, Keun Sup Shim, Naseer Siddique, Jochen Spengler, Michael Theobald, Brian Towles, William Vick, Stanley C. Wang, Michael E. Wazlowski, Madeleine J. Weingarten, John M. Williams, David E. Shaw:
The ΛNTON 3 ASIC: a Fire-Breathing Monster for Molecular Dynamics Simulations. HCS 2021: 1-22 - [c38]David E. Shaw, Peter J. Adams, Asaph Azaria, Joseph A. Bank, Brannon Batson, Alistair Bell, Michael Bergdorf, Jhanvi Bhatt, J. Adam Butts, Timothy Correia, Robert M. Dirks, Ron O. Dror, Michael P. Eastwood, Bruce Edwards, Amos Even, Peter Feldmann, Michael Fenn, Christopher H. Fenton, Anthony Forte, Joseph Gagliardo, Gennette Gill, Maria Gorlatova, Brian Greskamp, J. P. Grossman, Justin Gullingsrud, Anissa Harper, William Hasenplaugh, Mark Heily, Benjamin Colin Heshmat, Jeremy Hunt, Douglas J. Ierardi, Lev Iserovich, Bryan L. Jackson, Nick P. Johnson, Mollie M. Kirk, John L. Klepeis, Jeffrey S. Kuskin, Kenneth M. Mackenzie, Roy J. Mader, Richard McGowen, Adam McLaughlin, Mark A. Moraes
, Mohamed H. Nasr, Lawrence J. Nociolo, Lief O'Donnell, Andrew Parker, Jon L. Peticolas, Goran Pocina, Cristian Predescu, Terry Quan, John K. Salmon, Carl Schwink, Keun Sup Shim, Naseer Siddique, Jochen Spengler, Tamas Szalay, Raymond Tabladillo, Reinhard Tartler, Andrew G. Taube, Michael Theobald, Brian Towles, William Vick, Stanley C. Wang, Michael Wazlowski, Madeleine J. Weingarten, John M. Williams, Kevin A. Yuh:
Anton 3: twenty microseconds of molecular dynamics simulation before lunch. SC 2021: 1 - 2015
- [c37]Vladimir Zolotov, Peter Feldmann:
Variation aware cross-talk aggressor alignment by mixed integer linear programming. DAC 2015: 164:1-164:6 - [c36]Jie Wu, Peter Feldmann, Jinjun Xiong
Multi-threading based parallel dynamic simulator for transient behavior analysis of power systems. SmartGridComm 2015: 762-767 - 2014
- [c35]Frank Liu, Peter Feldmann:
A Time-Unrolling Method to Compute Sensitivity of Dynamic Systems. DAC 2014: 118:1-118:6 - 2011
- [c34]Frank Liu, Peter Feldmann:
Pure nodal analysis for efficient on-chip interconnect model order reduction. ISCAS 2011: 2493-2496 - 2009
- [c33]David D. Ling, Chandu Visweswariah, Peter Feldmann, Soroush Abbaspour:
A moment-based effective characterization waveform for static timing analysis. DAC 2009: 19-24 - [c32]Safar Hatami, Peter Feldmann, Soroush Abbaspour, Massoud Pedram:
Efficient compression and handling of current source model library waveforms. DATE 2009: 1178-1183 - 2008
- [c31]Peter Feldmann, Soroush Abbaspour, Debjit Sinha, Gregory Schaeffer, Revanta Banerji, Hemlata Gupta:
Driver waveform computation for timing analysis with multiple voltage threshold driver models. DAC 2008: 425-428 - [c30]Peter Feldmann, Soroush Abbaspour:
Towards a more physical approach to gate modeling for timing, noise, and power. DAC 2008: 453-455 - [c29]Frank Liu, Peter Feldmann:
MAISE: An Interconnect Simulation Engine for Timing and Noise Analysis. ISQED 2008: 621-626 - 2006
- [c28]Emrah Acar, Peter Feldmann:
Simulation of SOI transistor circuits through non-equilibrium initial condition analysis (NEICA). ISCAS 2006 - 2004
- [c27]Peter Feldmann:
Model Order Reduction Techniques for Linear Systems with Large Numbers of Terminals. DATE 2004: 944-947 - [c26]Peter Feldmann, Frank Liu:
Sparse and efficient reduced order modeling of linear subcircuits with large number of terminals. ICCAD 2004: 88-92 - 2002
- [c25]Hans Georg Brachtendorf, Siegmar Lampe, Rainer Laur, Robert C. Melville, Peter Feldmann:
Steady State Calculation of Oscillators Using Continuation Methods. DATE 2002: 1139 - 2000
- [c24]Mark Chapman, Alper Demir, Peter Feldmann:
Finite-length signal quantization using discrete optimization. CICC 2000: 455-458 - [c23]Alper Demir
Stochastic Modeling and Performance Evaluation for Digital Clock and Data Recovery Circuits. DATE 2000: 340-344 - [c22]Alper Demir
Optimal coarse quantization of finite-length signals using integer programming. ICASSP 2000: 2649-2652 - [c21]Alper Demir
Modelling and Analysis of Communication Circuit Performance Using Markov Chains and Efficient Graph Representations. ICCAD 2000: 290-295 - 1999
- [c20]Peter Feldmann, Sharad Kapur, David E. Long:
Efficient Techniques for Modeling Chip-Level Interconnect, Substrate and Package Parasitics. DATE 1999: 418-417 - [c19]Lun Ye, Foong-Charn Chang, Peter Feldmann, Rakesh Chadha, Nagaraj Ns, Frank Cano:
Chip-Level Verification for Parasitic Coupling Effects in Deep-Submicron Digital Designs. DATE 1999: 658-663 - [c18]Alper Demir, Peter Feldmann:
Modeling and simulation of the interference due to digital switching in mixed-signal ICs. ICCAD 1999: 70-75 - 1998
- [c17]Zhaojun Bai, Peter Feldmann, Roland W. Freund:
How to make theoretically passive reduced-order models passive in practice. CICC 1998: 207-210 - [c16]Al Dunlop, Alper Demir, Peter Feldmann, Sharad Kapur, David E. Long, Robert C. Melville, Jaijeet S. Roychowdhury:
Tools and Methodology for RF IC Design. DAC 1998: 414-420 - [c15]Roland W. Freund, Peter Feldmann:
Reduced-Order Modeling of Large Linear Passive Multi-Terminal Circuits Using Matrix-Pade Approximation. DATE 1998: 530-537 - 1997
- [c14]Jaijeet S. Roychowdhury, Peter Feldmann:
A new linear-time harmonic balance algorithm for cyclostationary noise analysis in RF circuits. ASP-DAC 1997: 483-492 - [c13]Peter Feldmann, Roland W. Freund:
Circuit noise evaluation by Padé approximation based model-reduction techniques. ICCAD 1997: 132-138 - 1996
- [c12]Roland W. Freund, Peter Feldmann:
Reduced-order modeling of large passive linear circuits by means of the SYPVL algorithm. ICCAD 1996: 280-287 - [c11]Peter Feldmann, Jaijeet S. Roychowdhury:
Computation of circuit waveform envelopes using an efficient, matrix-decomposed harmonic balance algorithm. ICCAD 1996: 295-300 - 1995
- [c10]Peter Feldmann, Roland W. Freund:
Reduced-Order Modeling of Large Linear Subcircuits via a Block Lanczos Algorithm. DAC 1995: 474-479 - [c9]Abelardo Pardo, R. Iris Bahar
CMOS dynamic power estimation based on collapsible current source transistor modeling. ISLPD 1995: 111-116 - 1994
- [c8]Peter Feldmann, Roland W. Freund:
Efficient linear circuit analysis by Padé approximation via the Lanczos process. EURO-DAC 1994: 170-175 - [c7]Roland W. Freund, Peter Feldmann:
Efficient small-signal circuit analysis and sensitivity computations with the PVL algorithm. ICCAD 1994: 404-411 - 1992
- [c6]Peter Feldmann, Robert C. Melville, Shahriar Moinian:
Automatic differentiation in circuit simulation and device modeling. ICCAD 1992: 248-253 - [c5]Bob Melville, Peter Feldmann, Shahriar Moinian:
AC++ Based Environment for Analog Circuit Simulation. ICCD 1992: 516-519 - 1991
- [c4]Peter Feldmann, Stephen W. Director:
Improved Methods for IC Yield and Quality Optimization Using Surface Integrals. ICCAD 1991: 158-161 - 1990
- [c3]Peter Feldmann, Stephen W. Director:
Accurate and Efficient Evaluation of Circuit Yield and Yield Gradients. ICCAD 1990: 120-123 - [c2]Chandramouli Visweswariah, Peter Feldmann, Ronald A. Rohrer:
Incorporation of Inductors in Piecewise Approximate Circuit Simulation. ICCAD 1990: 162-165 - 1989
- [c1]Tuyen V. Nguyen, Peter Feldmann, Stephen W. Director, Ronald A. Rohrer:
SPECS simulation validation with efficient transient sensitivity computation. ICCAD 1989: 252-255
Coauthor Index
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