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Lecture
Integers Representation: Sign vs. Two's Complement
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Digital Systems: Fixed and Floating Point Arithmetic
Discusses fixed and floating-point arithmetic in digital systems, covering representations, operations, and rounding techniques.
Computer Arithmetic: Floating Point Operations
Covers the basics of computer arithmetic, focusing on floating point numbers and their operations.
Integer Representation: Positive Integers
Covers the representation of positive integers, binary notation, machine limitations, overflow, and floating-point representation.
Nonlinear Equations: Representation of Real Numbers
Discusses the representation of real numbers in various bases and the implications of floating-point arithmetic.
Computer Arithmetic (Integers)
Covers binary representation, two's complement, overflow detection, and operations in MIPS for computer arithmetic with integers.
Information Representation: Computation Module
Explores the representation of information, rounding errors, and image encoding.
Integer Representations: Magnitude & Complement
Explores integer representations, focusing on sign-and-magnitude, one's complement, two's complement, Excess-N, overflow, underflow, and binary multiplication.
Datapath Design: Mandelbrot & Fixed-Point
Explores datapath design for Mandelbrot set and fixed-point number representation in digital systems.
Information Representation: Negative Integers
Explores the representation of negative integers using Two's Complement and practical examples for efficient calculations.
Floating Point Representation in Computers
Covers the representation of real numbers in a computer using floating point representation and the dangers of significant digit cancellation.
