EECC551 - Shaaban #1 Lec # 11 Winter 2003 2-2-2004 A Typical Memory Hierarchy Control Datapath Virtual Memory, Secondary Storage (Disk) Processor Registers.
EECC551 - Shaaban #1 Lec # 10 Winter 2010 2-7-2011 Mainstream Computer System Components Double Date Rate (DDR) SDRAM One channel = 8 bytes = 64 bits wide.
EECC551 - Shaaban #1 lec # 8 Fall 2005 10-13-2005 The Memory Hierarchy & Cache Memory Hierarchy & Cache Basics (from 550):Review of Memory Hierarchy &
EECC551 - Shaaban #1 lec # 8 Fall 2003 10-16-2003 Main Memory Main memory generally utilizes Dynamic RAM (DRAM), which use a single transistor to store.
EECC551 - Shaaban #1 Lec # 13 Winter2003 2-9-2004 Magnetic Disk CharacteristicsMagnetic Disk Characteristics I/O Connection StructureI/O Connection Structure.
EECC551 - Shaaban #1 lec # 5 Spring 2006 4-3-2006 Reduction of Control Hazards (Branch) Stalls with Dynamic Branch Prediction So far we have dealt with.
EECC551 - Shaaban #1 Lec # 9 Fall 2008 10-21-2008 Input/Output & System Performance Issues System Architecture & I/O Connection StructureSystem Architecture.
EECC551 - Shaaban #1 lec # 9 Winter2000 1-16-2001 Memory Hierarchy: The motivation The gap between CPU performance and main memory has been widening with.
EECC551 - Shaaban #1 Lec # 10 Fall 2004 10-26-2004 Computer System Components SDRAM PC100/PC133 100-133MHZ 64-128 bits wide 2-way inteleaved ~ 900 MBYTES/SEC.
EECC551 - Shaaban #1 Exam Review Fall 2002 10-31-2002 EECC551 Review Instruction In-order Pipeline Performance.Instruction In-order Pipeline Performance.
EECC551 - Shaaban #1 Lec # 1 Winter 2001 12-3-2001 The Von Neumann Computer Model Partitioning of the computing engine into components: –Central Processing.
EECC551 - Shaaban #1 lec # 5 Fall 2004 9-28-2004 Static Conditional Branch Prediction Branch prediction schemes can be classified into static (at compilation.