UC Berkeley Academic Calendar: Spring Semester 2006 |
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SPRING SEMESTER BEGINS |
January 10, 2006 |
Tuesday |
Fee Payment Due |
January 15, 2006 |
Sunday |
Martin Luther King Holiday |
January 16, 2006 |
Monday |
Instruction Begins |
January 17, 2006 |
Tuesday |
Presidents' Day Holiday |
February 20, 2006 |
Monday |
Spring Recess |
March 27, 2006 - March 31, 2006
|
Monday-Friday |
Cesar Chavez Holiday |
March 31, 2006 |
Friday |
Charter Anniversary |
April 8, 2006 |
Saturday |
Cal Day |
April 22, 2006 |
Saturday |
Instruction Ends |
May 9, 2006 |
Tuesday |
Final Examinations |
May 12, 2006 - May 19, 2006 |
Friday-Friday |
SPRING SEMESTER ENDS |
May 19, 2006 |
Friday |
Memorial Day Holiday |
May 29, 2006 |
Monday |
Lecture 1: Introduction PPT
Lecture 2: Example Problems and Basic Equations PPT
Lecture 1: Example Problems and Basic Equations PPT
Lecture 2: Solving Linear Systems – Gaussian Elimination PPT
Lecture 1: Solving Linear Systems – Gaussian Elimination (PPT above)
Lecture 2: Solving Linear Systems – Sparse Matrices PPT
Lecture 1: QR and Krylov-Subspace Matrix Solution Methods PPT
Lecture 2: Generalized Conjugate Residual (GCR) Convergence PPT
Lecture 1: Generalized Conjugate Residual (GCR) Convergence (PPT above)
Lecture 2: Generalized Conjugate Residual (GCR) Preconditioners PPT
Lecture 1:
Lecture 2: Modified
Lecture 1: Methods for Ordinary Differential Equations PPT
Lecture 2: Multistep Methods I: Small Time-Steps Consistency PPT
Lecture 1: Multistep Methods II: Small and Large Time-Steps Stability PPT
Lecture 2: Sensitivity PPT
Lecture 1: Methods for Computing Periodic Steady-State (Amit Mehrotra) PPT
Lecture 2: Methods for Computing Periodic Steady-State (Amit Mehrotra) (PPT above)
Lecture 1: Integral Equation Methods (Zhenhai Zhu) PPT
Lecture 2: Integral Equation Methods II (Zhenhai Zhu) PPT
The Best of the 20th Century: Editors Name Top 10 Algorithms
Lecture 1: Fast Methods for Integral Equation Solvers (Zhenhai Zhu) PPT
Lecture 2: Fast Methods for Integral Equation Solvers II (Zhenhai Zhu) (PPT above)
Lecture 1: Finite Element Methods PPT
Lecture 2: Finite Difference Methods (PPT above)
Lecture 1: Package-Chip Co-Design (Shauki Elassaad) PPT
Lecture 2: Package-Chip Co-Design II (PPT above)
Lecture 1: Model Order Reduction (Zhenhai Zhu) PPT
Lecture 2: Variational Interconnect Analysis via PMTBR (Zhenhai Zhu) PPT
Lecture 1: Nonlinear Model Order Reduction and Applications (Jaijeet Roychowdhuri) PPT
Lecture 2: Nonlinear Model Order Reduction and Applications II (Jaijeet Roychowdhuri) (PPT above)