RIT Computer Engineering

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Saturday, 25-Feb-2017 06:28:58 EST


1 Visitors Since 23-Jan-2017

  

  

  

For the following lecture notes you can download or view a lecture as an Acrobat PDF file, or as a Microsoft Powerpoint file:

1-23-2017 Basics of Computer Design. Performance Measures. Instruction Set Architecture (ISA) Characteristics and Classifications. CISC vs. RISC, The MIPS64 ISA.
(Fourth Edition: Chapter 1, Appendix B,   Third Edition: Chapters 1, 2)
1-30-2017 Pipelining Review: Definitions, Performance, Classic 5-stage Integer Pipeline, Pipeline Hazard Classification, Data Forwarding. Compiler Pipeline Scheduling. Static Branch Prediction, Branch Delay Slot. MIPS R4000. Instruction Pipelining and Exception Handling. Floating Point/Multicycle Pipelining
(Both Editions: Appendix A)
2-8-2017 Exploiting Instruction-Level Parallelism (ILP): Basic Instruction Block, Loop Unrolling. Further Classification of Instruction Dependencies: Dependency Analysis and Graphs.
(Fourth Edition: Chapter 2.1, 2.2,   Third Edition: Chapter 3.1, 4.1)
2-15-2017 Dynamic Hardware-Based Instruction Pipeline Scheduling: The Scoreboard, The Tomasulo Approach.
(Fourth Edition: Appendix A.7, Chapter 2.4, 2.5,   Third Edition: Appendix A.8, Chapter 3.2, 3.3)
2-27-2017 Fundamental Dynamic Hardware-Based Branch Prediction Techniques: Branch-Target Buffer (BTB), Single-level, Correlating Two-Level, Gshare, and Hybrid Dynamic Branch Predictors.
(Fourth Edition: Chapter 2.3, 2.9,   Third Edition: Chapter 3.4, 3.5, 4.2)
3-6-2017 Multiple Instruction Issue, CPI <1 Approaches: Superscalar, VLIW. Hardware-Based Speculation: Speculative Tomasulo.
(Fourth Edition: Chapter 2.6-2.8, Third Edition: Chapter 3.6, 3.7, 4.3)


  

5:00-6:15 PM Monday and Wednesday in (GLE) 9/3129


  

Dr. Muhammad Shaaban
e-mail: meseec@rit.edu
Office: 9-3469 X52373


Office Hours:
My Spring 2017 schedule


  

Quizzes/Homework: 40%
Exam: 35%
Special Topic paper and presentation: 25%

Quizzes:
Quizzes are announced one class in advance, and are given only during first 20-30 minutes of the specified class. Quizzes are closed references (e.g. no books, notes, handouts, etc...). Calculators will be helpful. There are no makeup quizzes and your lowest quiz grade is automatically excluded from the average calculation.

2-hour Exam:
A single all-inclusive 2-hour examination is given in week ~ 15. Books, notes, quizzes and handouts are allowed in the exam. A calculator will be very helpful.

Special Topic paper and presentation:
Students will select one partner from the class to research a significant topic in the field of Computer Architecture, write a report, and give a presentation. Each groupís topic must be presented and approved by Dr. Shaaban. Duplicate topics are not permitted and proposals are accepted on a first come first serve basis.

The Paper: Each group will write a joint report (~ 6-8 pages) on their research using the IEEE journal format/guidelines/template. DO NOT CHANGE THE TEMPLATE! Take great care in following the guidelines, especially properly citing illustrations, graphs and quoting from their respective sources. The paper is due (hardcopy and electronic) at the beginning of the last day of the presentations. Late submissions will be significantly penalized. Plagiarism will result in a Zero (see page 14 of the KGCOE 2014-2015 Undergraduate Student Handbook).

The Presentation: Each group will give a 12-minute PowerPoint presentation of their research to the entire class. This is a joint presentation and the group must be thoroughly prepared to answer questions. A signup sheet for a time slot will be available towards the end of the quarter. Attendance is mandatory for all presentation sessions. Missing your presentation slot and/or electronic submission time will result in a zero. You must submit your Microsoft Power Point presentation electronically to Dr. Shaaban 24 hrs prior to your presentation time slot. Samples of prior presentations are available on the course website.


  

Current: http://people.rit.edu/meseec/cmpe550-spring2017/
Fall 2016: http://people.rit.edu/meseec/cmpe550-fall2016/
Spring 2016: http://people.rit.edu/meseec/cmpe550-spring2016/
Fall 2015: http://people.rit.edu/meseec/cmpe550-fall2015/
Spring 2015: http://people.rit.edu/meseec/cmpe550-spring2015/
Fall 2014: http://people.rit.edu/meseec/cmpe550-fall2014/
Spring 2014: http://people.rit.edu/meseec/cmpe550-spring2014/
Fall 2013: http://people.rit.edu/meseec/cmpe550-fall2013/
Spring 2013: http://people.rit.edu/meseec/eecc551-spring2013/
Winter 2012: http://people.rit.edu/meseec/eecc551-winter2012/
Fall 2012: http://people.rit.edu/meseec/eecc551-fall2012/
Spring 2012: http://people.rit.edu/meseec/eecc551-spring2012/
Winter 2011: http://people.rit.edu/meseec/eecc551-winter2011/
Fall 2011: http://people.rit.edu/meseec/eecc551-fall2011/
Spring 2011: http://people.rit.edu/meseec/eecc551-spring2011/
Winter 2010: http://people.rit.edu/meseec/eecc551-winter2010/
Fall 2010: http://people.rit.edu/meseec/eecc551-fall2010/
Spring 2010: http://people.rit.edu/meseec/eecc551-spring2010/
Winter 2009: http://people.rit.edu/meseec/eecc551-winter2009/
Fall 2009: http://people.rit.edu/meseec/eecc551-fall2009/
Spring 2009: http://people.rit.edu/meseec/eecc551-spring2009/
Winter 2008: http://people.rit.edu/meseec/eecc551-winter2008/
Fall 2008: http://people.rit.edu/meseec/eecc551-fall2008/
Spring 2008: http://people.rit.edu/meseec/eecc551-spring2008/
Winter 2007: http://people.rit.edu/meseec/eecc551-winter2007/
Fall 2007: http://people.rit.edu/meseec/eecc551-fall2007/
Spring 2007: http://people.rit.edu/meseec/eecc551-spring2007/
Winter 2006: http://people.rit.edu/meseec/eecc551-winter2006/
Fall 2006: http://people.rit.edu/meseec/eecc551-fall2006/
Spring 2006: http://people.rit.edu/meseec/eecc551-spring2006/
Winter 2005: http://people.rit.edu/meseec/eecc551-winter2005/
Fall 2005: http://people.rit.edu/meseec/eecc551-fall2005/
Spring 2005: http://people.rit.edu/meseec/eecc551-spring2005/
Winter 2004: http://people.rit.edu/meseec/eecc551-winter2004/
Fall 2004: http://people.rit.edu/meseec/eecc551-fall2004/
Spring 2004: http://people.rit.edu/meseec/eecc551-spring2004/
Winter 2003: http://people.rit.edu/meseec/eecc551-winter2003/
Fall 2003: http://people.rit.edu/meseec/eecc551-fall2003/
Winter 2002: http://people.rit.edu/meseec/eecc551-winter2002/
Fall 2002: http://people.rit.edu/meseec/eecc551-fall2002/
Winter 2001: http://people.rit.edu/meseec/eecc551-winter2001/
Fall 2001: http://people.rit.edu/meseec/eecc551-fall2001/
Winter 2000: http://people.rit.edu/meseec/eecc551-winter2000/
Fall 2000: http://people.rit.edu/meseec/eecc551-fall2000/
Winter 99: http://people.rit.edu/meseec/eecc551-winter99/
Fall 99: http://people.rit.edu/meseec/eecc551-fall99/


  

The course covers various aspects of advanced uniprocessor computer architecture design. Instruction set architecture design alternatives are discussed. Techniques to enhance performance such as pipelined execution optimizations, branch-handling, exploiting instruction-level parallelism, multiple-instruction issue and dynamic scheduling are studied. Cache, and memory hierarchy design and performance issues are also presented. Finally, the design of efficient and reliable input/output systems are covered.


  

Computer Organization CMPE350.


  

Computer Architecture: A Quantitative Approach, Fourth Edition, John Hennessy, and David Patterson, Morgan Kaufmann Publishers, 2006.

Reference Papers:

  • Virtual Memory:

    1. Virtual memory: Issues of implementation, PDF,
      B. Jacob, and T. Mudge,
      Computer, vol. 31, no. 6, pp. 33-43. June 1998.

    2. Virtual memory in contemporary microprocessors, PDF,
      B. Jacob, and T. Mudge,
      Micro, vol. 18, no. 4, pp. 60-75. July/Aug. 1998.

  • I/O Performance, RAID, Unix I/O Performance:

    1. Maximizing Performance in a Striped Disk Array, PDF,
      P. Chen and D.A. Patterson,
      Proc. 17th Annual IEEE Symposium on Computer Architecture, 1990, pp. 322-331.

    2. Storage Performance--Metrics and Benchmarks, PDF,
      P. Chen and D. Patterson,
      Proceedings of the IEEE 81(8):1151-1165, Aug., 1993.

    3. RAID: HighPerformance, Reliable Secondary Storage, PDF,
      P. M. Chen, E. K. Lee, G. A. Gibson, R. H. Katz and D. A. Patterson,
      ACM Computing Surveys, Vol.26, No.2, June 1994, pp.145-185.

    4. Unix I O Performance in Workstations and Mainframes, PDF,
      Peter M. Chen, David A. Patterson,
      Dept. of Electrical Engr. and Computer Science, University of Michigan, Technical Report, CSE-TR-200-94, 1994.

    5. Striping in a RAID Level 5 Disk Array, PDF,
      P. Chen, P.M., AND E. Lee,
      Proc. 1995 ACM SIGMETRICS Conference on Measurement and Modeling of Computer Systems, pp.136---145, May 1995.

  • Vector Processing, Vector IRAM:

    1. Vector Processors, PDF, Appendix G, Computer Architecture: A Quantitative Approach, Third Edition.

    2. Scalable Processors in the Billion Transistor Era: IRAM, PDF,
      Christoforos E. Kozyrakis et al.
      IEEE Computer Special Issue: Future Microprocessors - How to use a Billion Transistors, September 1997.


  

Attending all lecture sessions is expected.


  

Week 1: Fundamentals of Computer Architecture Design, Performance Measures Review. Instruction Set Principles Review and Examples. CISC vs. RISC. A Typical RISC Example: The MIPS64 Architecture.
Week 2: CPU Pipelining Concepts Review, Pipeline Hazards. Branch Handling: Static branch prediction Static Compiler pipeline scheduling. Pipelining and Exception Handling.
Week 3: Advanced Pipelining, Exploiting Instruction-Level Parallelism (ILP). Pipeline Scheduling, Loop Unrolling. Instruction Dependencies Analysis.
Week 4-5: Dynamic Instruction Scheduling: The Scoreboard Approach, The Tomasulo Approach.
Week 6: Dynamic Hardware-based Branch Prediction.
Week 7: Exploiting ILP Further: Multiple-Instruction Issue Approaches: Superscalar, VLIW. Software and hardware Speculation.
Week 8: Spring Break.
Week 9: Compiler ILP support.
Week 10-11: Cache Design Issues, Memory-Hierarchy Design. Advanced Techniques to Improve Cache Performance.
Week 12: Storage Systems, Bus Design, I/O Performance Measures and Benchmarks Reliable Storage: Redundant Array of Inexpensive Disks (RAID). I/O System Design Issues.
Week 13: Main Memory Issues and Performance. Virtual Memory Architecture.
Week 14: Introduction to parallel processing and multiprocessor system architecture.
Week 15-17: Exam/Project Presentations.

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