<WRAP centeralign round box>
<WRAP><color red><fs 200%>Corning Community College</fs></color></WRAP>
<WRAP><fs 150%>CSCS2650 Computer Organization</fs></WRAP>
</WRAP>

======PROJECT: Prime Number Computation (PNC0)======

=====OBJECTIVE=====
Start exploring algorithm/implementation comparison and optimization with respect to various approaches of computing prime numbers.

=====TASK=====
Implement two separate, independent programs, one in Vircon32 C, and other in Vircon32 assembly, that:

  * performs a brute force/"trial-by-division" process on a range of values, 2-N
    * the values for N are some sufficient quantity still small enough to fit within an integer
    * the values for N will have some relationship (powers of 2, powers of 10/magnitudes) that ideally can be computed via some loop/equation (ie 1024, 2048, 4098, 8192, 16384, etc.)
    * the values for N have some sufficient quantity large enough where its upper set values will take some amount of time to compute (fast enough to have some relatable value, not to exceed 16 seconds)
    * for each value of N:
	  * display that N/upper bound
      * tally: display the number of primes identified (2-N)
      * display the amount of time taken to do the total computation for that value of N, out to 3 decimal places
      * display each N value and result in an arrangement on the screen that can be clearly identified and read by the viewer
  * timing should go out, as reasonable, to a few decimal places, and should be consistent across all attempts.
    * timing is on the computational process only, not the display of results.
  * create a graph (using some external tool) that plots the performance of the C and assembly implementations working on identical workloads of this brute force algorithm according to the various N's and the time it took. Share your graph of your results on the class discord and on the project documentation page.
    * a line graph is the suggested best candidate
  * the assembly version is to be done entirely by hand, and make zero use of C API functions. Just the usual in/out stuff we've been doing.
  * this will not be an interactive program: it starts up, does its thing, outputs it results, then halts.
  * this brute force implementation is meant as our baseline. As such, it should not contain any optimizations or attempted improvements. As we progress through pnc1 and pnc2, this base implementation should be the least efficient. This is important, to allow us to realize the impact of various improvements we will be making in those upcoming projects.

=====REFERENCE=====
The following are reference screenshots of what your implementations should approximate.

====PNC0====

===C implementation===
{{:haas:spring2024:comporg:projects:pnc0runtime.png|}}

=====EDIT=====
You will want to go [[/notes/comporg/spring2024/projects/pncX|here]] to edit and fill in the various sections of the document:

  * [[/notes/comporg/spring2024/projects/pncX|https://lab46.g7n.org/notes/comporg/spring2024/projects/pncX]]

{{page>notes:comporg:spring2024:projects:pncX&nouser&nodate&nomdate&editbtn}}

=====SUBMISSION=====
To be successful in this project, the following criteria (or their equivalent) must be met:

  * Project must be submit on time, by the deadline.
    * Late submissions will lose 33%  credit per day, with the submission window closing on the 3rd day following the deadline.
  * Executed programs must display in a manner similar to provided output
    * output  formatted,  where applicable,  must match  that of  project requirements
  * Processing must be correct based on input given and output requested
  * Output, if applicable, must be correct based on values input
  * Code must be nicely and consistently indented
  * Code must be consistently written, to strive for readability from having a consistent style throughout
  * Code must be commented
    * Any "to be implemented" comments **MUST** be removed
      * these   "to  be  implemented"   comments,  if  still  present  at evaluation time, will result in points being deducted.
      * Sufficient  comments  explaining  the point  of  provided   logic **MUST** be present
  * No global variables (without instructor approval), no goto statements, no calling of main()!
  * Track/version the source code in your lab46 semester repository
  * Submit  a copy of  your source code to  me using the  **submit** tool by the deadline.

====Submit Tool Usage====
Let's  say you  have completed  work  on the  project, and  are ready  to
submit, you  would do the following:

<cli>
lab46:~/src/SEMESTER/DESIG/PROJECT$ submit DESIG PROJECT file1 file2 file3 ... fileN
</cli>

You should get some sort of confirmation indicating successful submission
if all went according to plan. If  not, check for typos and or locational
mismatches.

=====RUBRIC=====
I'll be evaluating the project based on the following criteria:

<code>
260:pnc0:final tally of results (260/260)
*:pnc0:submitted C and assembly implementations [26/26]
*:pnc0:each implementation builds cleanly [26/26]
*:pnc0:output conforms to specifications [52/52]
*:pnc0:processing is correct, and to specifications [52/52]
*:pnc0:no optimizations or improvements on the process [26/26]
*:pnc0:graph produced from timing data produced [26/26]
*:pnc0:graph posted to discord and documentation page [26/26]
*:pnc0:timing data is the taken out to 3 decimal places [26/26]
</code>

===Pertaining to the collaborative authoring of project documentation===

  * each class member is to participate in the contribution of relevant information and formatting of the documentation
    * minimal member contributions consist of:
      * near the class average edits (a value of at least four productive edits)
      * near the average class content change average (a value of at least 1024 bytes (absolute value of data content change))
      * no zero-sum commits (adding in one commit then later removing in its entirety for the sake of satisfying edit requirements)
    * adding and formatting data in an organized fashion, aiming to create an informative and readable document that anyone in the class can reference
    * content contributions will be factored into a documentation coefficient, a value multiplied against your actual project submission to influence the end result:
      * no contributions, co-efficient is 0.50
      * less than minimum contributions is 0.75
      * met minimum contribution threshold is 1.00

===Additionally===

  * Solutions not abiding  by spirit of project will be  subject to a 50% overall deduction
  * Solutions  not  utilizing descriptive  why and  how comments  will be subject to a 25% overall deduction
  * Solutions not utilizing indentation to promote scope and clarity or otherwise maintaining consistency in code style and presentation will be subject to a 25% overall deduction
  * Solutions not organized and easy to  read (assume a terminal at least 90 characters wide, 40 characters tall)  are subject to a 25% overall deduction