CSC/ECE 506 Fall 2007: Difference between revisions

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=== Topics ===
=== Topics ===
* Sections 1.1 and 1.1.2
* '''''Sections 1.1 and 1.1.2'''''
** Update performance trends in multiprocessors.
** Update performance trends in multiprocessors.



Revision as of 07:01, 9 February 2009

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Peer-reviewed Assignment 1

Important Dates

  • 08/31/2007 Peer-reviewed 1 Selection
  • 09/05/2007 Peer-reviewed 1 Submission
  • 09/07/2007 Peer-reviewed 1 First feedback
  • 09/10/2007 Peer-reviewed 1 Resubmission
  • 09/12/2007 Peer-reviewed 1 Final review
  • 09/14/2007 Peer-reviewed 1 Review of review

Topics

  • Sections 1.1 and 1.1.2
    • Update performance trends in multiprocessors.


  • Section 1.1.1, first half: Scientific/engineering application trends
    • What characterizes present-day applications?
    • How much memory, processor time, etc.?
    • How high is the speedup?


  • Section 1.1.1, second half: Commercial application trends
    • What characterizes present-day applications?
    • How much memory, processor time, etc.?
    • How high is the speedup?


  • Section 1.1.3: Architectural trends
    • How have architectures changed in the past 10 years?
    • Update Figs. 1.8 and 1.9 with new points, for 2000, 2002, 2004, 2006, and 2007.

Architectural Trends- This summary give a detail observation of architectural trends. It also highlights the concepts of VLIW(Very Long Instruction Word), Multi-threading, Multi-core CPUs, and Speculative Execution. It also updates Figs. 1.8 and 1.9 with new points, for 2000, 2002, 2004, 2006, and 2007.


  • Section 1.1.4: Supercomputers
    • Compare current supercomputers with those of 10 yrs. ago.
    • Update Figures 1.10 to 1.12 with new data points. For 1.12, consult top500.org.

Supercomputers- This summary give a detail description of the definition of what a supercomputer is, the evolution of the supercomputer's architecture and performance, and explores the main metric (LINPACK Benchmark Suite) for evaluating the effectiveness of supercomputers. It also takes a look at the most dominant supercomputers of the last 10 years.


  • Sections 1.2.1 and 1.2.4: Communication architecture
    • Trends in last 10 years.
    • How has data parallelism found its way into shared-memory and message-passing machines? An early example would be MMX.
    • Would you change the number of layers in Fig. 1.13?


  • Section 1.2.2: Shared address space
    • Any changes in the organization of address spaces in the last 10 years?
    • Are the interconnection structures different in new computers now than they were 10 years ago?
    • What is the size and capacity of current SMPs?
    • How have supercomputers evolved since the Cray T3E?


  • Section 1.2.3: Message passing
    • Are blade servers an extension of message passing?
    • How have blade architectures evolved over the past 10 years?

Message Passing This summary highlights the typical structure, advantages and gives a detailed introduction of what message passing is.


  • Section 1.2.5: Trends in vector processing and array processing.
    • New machines have recently been announced. Why will this be an important architectural dimension in the coming years?


  • Section 1.2.6
    • New developments in dataflow and systolic architectures, if any.
    • Or if not, why are these styles not evolving with time?


  • Sections 1.3.1 and 1.3.2: Communication and programming model
    • How have reordering strategies evolved to accommodate larger multicomputers?
    • Have new kinds of synchronization operations been developed?
    • I doubt that other topics covered in these sections have changed much, but do check.


  • Sections 1.3.3 and 1.3.4: Most changes here are probably related to performance metrics.
    • Cite other models for measuring artifacts such as data-transfer time, overhead, occupancy, and communication cost. Focus on the models that are most useful in practice.