Difference between revisions of "Syllabus"

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# Machines, Machine Languages and Digital Logic
 
# Machines, Machine Languages and Digital Logic
 
## Classification of Computers
 
## Classification of Computers
 +
### 4-, 3-, 2-, 1-, and 0-Address Instructions
 +
### Stack-based Machines
 +
### General Register (Load/Store) Machines (1 1/2 Address Machines)
 
## Instruction Sets
 
## Instruction Sets
 
## Introduction of the SRC (Simple RISC Computer)
 
## Introduction of the SRC (Simple RISC Computer)
 
## Using RTN (Register Transfer Notation)
 
## Using RTN (Register Transfer Notation)
## Addressing Modes
+
## Addressing Modes (w/RTN Descriptions)
 
### Immediate Addressing
 
### Immediate Addressing
 
### Direct Addressing
 
### Direct Addressing

Revision as of 18:55, 25 April 2011

  1. The General Purpose Machine
    1. User's View
    2. Programmer's View
    3. Architect's View
    4. Logic Designer's View
  2. Machines, Machine Languages and Digital Logic
    1. Classification of Computers
      1. 4-, 3-, 2-, 1-, and 0-Address Instructions
      2. Stack-based Machines
      3. General Register (Load/Store) Machines (1 1/2 Address Machines)
    2. Instruction Sets
    3. Introduction of the SRC (Simple RISC Computer)
    4. Using RTN (Register Transfer Notation)
    5. Addressing Modes (w/RTN Descriptions)
      1. Immediate Addressing
      2. Direct Addressing
      3. Indirect Addressing
      4. Register Direct Addressing
      5. Register Indirect Addressing
      6. Displacement-based Addressing
      7. Indexed Addressing
      8. Relative Addressing
    6. Hardware Implications of RTN
  3. Processor Design
    1. Introduction to the Design Process
    2. 1-Bus SRC Microarchitecture (w/VHDL Model)*
      1. Data Path
      2. Control
    3. 2-Bus SRC Microarchitecture
    4. 3-Bus SRC Microarchitecture
    5. Reset Considerations
    6. Exceptions/Interrupts
  4. Memory System Design
    1. Components of the Memory System
    2. Memory Types
      1. EPROM
        1. Example: SRC EPROM Memory Subsystem*
      2. SRAM
        1. Example: SRC SRAM Memory Subsystem*
      3. DRAM (FPM, EDO, VRAM)
        1. Example: SRC DRAM Memory Subsystem*
      4. SDRAM (SDRAM, DDR, DDR2)
      5. FLASH Memory
    3. Memory Modules
      1. Example: 72-pin 16 MB FPM DRAM DIMM
      2. Example: 144-pin 64 MB EDO DRAM DIMM
      3. Example: 184-pin 128 MB ECC DDR DRAM DIMM
    4. Two-Level Hierarchy
    5. Cache
      1. Associative Caches*
      2. Direct-Mapped Caches*
      3. N-Way Set-Associative Caches*
      4. Read/Write/Replacement Policies*
    6. Virtual Memory
      1. Segmentation
      2. Paging
      3. Regaining Lost Ground: The TLB
    7. Overall Memory Subsystem with Introduction to I/O Issues
  5. Input/Output
    1. I/O Subsystems Overview
    2. Programmed I/O
      1. General Principles
      2. Example: Programmed I/O on the SRC (w/VHDL Model)*
    3. Interrupt-Driven I/O
    4. DMA (Direct Memory Access)
      1. General Principles
      2. Example: DMA Engine for the SRC (w/VHDL Model)*
      3. Example: PCI(e)
        1. Parallel vs. Serial I/O Buses
    5. I/O Error Detection and Correction*
      1. Parity
      2. Hamming/SECDED Codes (ECC Memory)
      3. CRC Codes
  6. Advanced Topics
    1. Pipelining
      1. General Principles
      2. Example: Pipelined SRC (w/VHDL Model)*
    2. Instruction Level Parallelism
      1. Superscalar Processors
        1. General Principles
        2. Example: Intel Pentium (1st Superscalar X86 CPU)
        3. Example: AMD K7 (9-issue, Speculative Out-of-Order Execution, etc.)
      2. VLIW Machines
        1. General Principles
        2. Example: IBM VLIW Prototype
        3. Example: Intel Itanium/EPIC
    3. Microprogramming
      1. General Principles
      2. Example: Microprogrammed SRC (w/VHDL Model)*
    4. Code Morphing
      1. Example: Transmeta Crusoe
    5. Extending the Address Space
      1. 16- to 32-bit: Intel 80386
      2. 32- to 64-bit: AMD Hammer vs Intel Itanium
    6. Multicore CPUs
      1. Example: Intel i7-980X