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stack operations as a just a stack with out things being done with it or to it are pop push and peek most commonly and used ones for them push is to push it to the top of the stack pop is takes the top off and looks at it and peek looks at it with out moving it off the stack in any form but u are unable to do anything to it.
Big Endian- the Repersentation of data flowing from and to external devices or memory block with the most signifcant bit or byte being shown frist Little Endian- like big endian how ever it shows the lewast significant bit or byte frist size- interger- if repersentation of a numerial or character via a number or sieres of symbols floating point- ASCII- the american most commonly used standard with only 255 repersented symbols how ever the most useful aka unicode is universal and can understand ascii's 255 bit symbols and close to 16 thousand more symbols making it the best tranlator for a computer to computer interface.
sign representation - is the process and repersentation of negitive and positive numbers by looking at signle bit or parity bit tell it weather or not its negitive or positive ones complement - in a data stream one's complement is to swap all 1s for 0s and all 0s for 1s twos complement - in twos complement its the arthmatic used to represent negitive and positive numbers befor during and after processing
Identification of chosen keyword (unless you update the section heading above).
Definition (in your own words) of the chosen keyword.
Demonstration of the chosen keyword.
If you wish to aid your definition with a code sample, you can do so by using a wiki code block, an example follows:
/* * Sample code block */ #include <stdio.h> int main() { return(0); }
Alternatively (or additionally), if you want to demonstrate something on the command-line, you can do so as follows:
lab46:~$ cd src lab46:~/src$ gcc -o hello hello.c lab46:~/src$ ./hello Hello, World! lab46:~/src$
Identification of chosen keyword (unless you update the section heading above).
Definition (in your own words) of the chosen keyword.
Demonstration of the chosen keyword.
If you wish to aid your definition with a code sample, you can do so by using a wiki code block, an example follows:
/* * Sample code block */ #include <stdio.h> int main() { return(0); }
Alternatively (or additionally), if you want to demonstrate something on the command-line, you can do so as follows:
lab46:~$ cd src lab46:~/src$ gcc -o hello hello.c lab46:~/src$ ./hello Hello, World! lab46:~/src$
Identification of chosen keyword (unless you update the section heading above).
Definition (in your own words) of the chosen keyword.
Demonstration of the chosen keyword.
If you wish to aid your definition with a code sample, you can do so by using a wiki code block, an example follows:
/* * Sample code block */ #include <stdio.h> int main() { return(0); }
Alternatively (or additionally), if you want to demonstrate something on the command-line, you can do so as follows:
lab46:~$ cd src lab46:~/src$ gcc -o hello hello.c lab46:~/src$ ./hello Hello, World! lab46:~/src$
Adress bus is often refered to as the bus befor the real bus of information but in essence the adress bus is a location of data eitehr on the CPU memory or secondary storage device and is requested by the retiver or the sender befor the data can begin to eneter the data stream aka data bus
it is the bus in which data rides on from one place on the motehr board to another and even some times out of of the computer entirely- is however funny it may seems is almost entirely true the bus is not an accual bus but out ever a siereis of data flow devices able to direct a stream of data from one point to another apon request
experience using registers, stacks, and branches
Registers are what you may think of may be a way to store a single state or manuplate that same state lets say 1 or 0 however Registers can also be thought of the system instuction set can be located whcih is also be managed by stacks Stacks can hold said registers in a larger form of storage Branches are a system to run more or extra register types or to refernce anotehr stop in the stack or stacks
AND flipflop and OR flipflop are the most common registers used to store or maintain states desired Stacks are what is used with in the cpu to store and recusively cicle through registers that are being used Brnaches are a instuction set that can be used to almost perform a forking process to be done and possible implement a change some where else or to return a value or data type
now if i or we can getr the instuction code to complie run and exicute utalizing a stack fed with hexidecmals refernced to a instuction regstery and able to maniuplate a single stream of data we will knwo if this semester was a flop or a flip
Reflect upon your results of the measurement to ascertain your achievement of the particular course objective.
Identification of chosen keyword (unless you update the section heading above).
Definition (in your own words) of the chosen keyword.
Demonstration of the chosen keyword.
If you wish to aid your definition with a code sample, you can do so by using a wiki code block, an example follows:
/* * Sample code block */ #include <stdio.h> int main() { return(0); }
Alternatively (or additionally), if you want to demonstrate something on the command-line, you can do so as follows:
lab46:~$ cd src lab46:~/src$ gcc -o hello hello.c lab46:~/src$ ./hello Hello, World! lab46:~/src$
Identification of chosen keyword (unless you update the section heading above).
Definition (in your own words) of the chosen keyword.
Demonstration of the chosen keyword.
If you wish to aid your definition with a code sample, you can do so by using a wiki code block, an example follows:
/* * Sample code block */ #include <stdio.h> int main() { return(0); }
Alternatively (or additionally), if you want to demonstrate something on the command-line, you can do so as follows:
lab46:~$ cd src lab46:~/src$ gcc -o hello hello.c lab46:~/src$ ./hello Hello, World! lab46:~/src$
Identification of chosen keyword (unless you update the section heading above).
Definition (in your own words) of the chosen keyword.
Demonstration of the chosen keyword.
If you wish to aid your definition with a code sample, you can do so by using a wiki code block, an example follows:
/* * Sample code block */ #include <stdio.h> int main() { return(0); }
Alternatively (or additionally), if you want to demonstrate something on the command-line, you can do so as follows:
lab46:~$ cd src lab46:~/src$ gcc -o hello hello.c lab46:~/src$ ./hello Hello, World! lab46:~/src$
Identification of chosen keyword (unless you update the section heading above).
Definition (in your own words) of the chosen keyword.
Demonstration of the chosen keyword.
If you wish to aid your definition with a code sample, you can do so by using a wiki code block, an example follows:
/* * Sample code block */ #include <stdio.h> int main() { return(0); }
Alternatively (or additionally), if you want to demonstrate something on the command-line, you can do so as follows:
lab46:~$ cd src lab46:~/src$ gcc -o hello hello.c lab46:~/src$ ./hello Hello, World! lab46:~/src$
Identification of chosen keyword (unless you update the section heading above).
Definition (in your own words) of the chosen keyword.
Demonstration of the chosen keyword.
If you wish to aid your definition with a code sample, you can do so by using a wiki code block, an example follows:
/* * Sample code block */ #include <stdio.h> int main() { return(0); }
Alternatively (or additionally), if you want to demonstrate something on the command-line, you can do so as follows:
lab46:~$ cd src lab46:~/src$ gcc -o hello hello.c lab46:~/src$ ./hello Hello, World! lab46:~/src$
Identification of chosen keyword (unless you update the section heading above).
Definition (in your own words) of the chosen keyword.
Demonstration of the chosen keyword.
If you wish to aid your definition with a code sample, you can do so by using a wiki code block, an example follows:
/* * Sample code block */ #include <stdio.h> int main() { return(0); }
Alternatively (or additionally), if you want to demonstrate something on the command-line, you can do so as follows:
lab46:~$ cd src lab46:~/src$ gcc -o hello hello.c lab46:~/src$ ./hello Hello, World! lab46:~/src$
Identification of chosen keyword (unless you update the section heading above).
Definition (in your own words) of the chosen keyword.
Demonstration of the chosen keyword.
If you wish to aid your definition with a code sample, you can do so by using a wiki code block, an example follows:
/* * Sample code block */ #include <stdio.h> int main() { return(0); }
Alternatively (or additionally), if you want to demonstrate something on the command-line, you can do so as follows:
lab46:~$ cd src lab46:~/src$ gcc -o hello hello.c lab46:~/src$ ./hello Hello, World! lab46:~/src$
Identification of chosen keyword (unless you update the section heading above).
Definition (in your own words) of the chosen keyword.
Demonstration of the chosen keyword.
If you wish to aid your definition with a code sample, you can do so by using a wiki code block, an example follows:
/* * Sample code block */ #include <stdio.h> int main() { return(0); }
Alternatively (or additionally), if you want to demonstrate something on the command-line, you can do so as follows:
lab46:~$ cd src lab46:~/src$ gcc -o hello hello.c lab46:~/src$ ./hello Hello, World! lab46:~/src$
State the course objective
In your own words, define what that objective entails.
State the method you will use for measuring successful academic/intellectual achievement of this objective.
Follow your method and obtain a measurement. Document the results here.
Reflect upon your results of the measurement to ascertain your achievement of the particular course objective.
Perform the following steps:
Whose existing experiment are you going to retest? Provide the URL, note the author, and restate their question.
Evaluate their resources and commentary. Answer the following questions:
State their experiment's hypothesis. Answer the following questions:
Follow the steps given to recreate the original experiment. Answer the following questions:
Publish the data you have gained from your performing of the experiment here.
Answer the following:
Answer the following:
Perform the following steps:
Whose existing experiment are you going to retest? Provide the URL, note the author, and restate their question.
Evaluate their resources and commentary. Answer the following questions:
State their experiment's hypothesis. Answer the following questions:
Follow the steps given to recreate the original experiment. Answer the following questions:
Publish the data you have gained from your performing of the experiment here.
Answer the following:
Answer the following:
Perform the following steps:
Whose existing experiment are you going to retest? Provide the URL, note the author, and restate their question.
Evaluate their resources and commentary. Answer the following questions:
State their experiment's hypothesis. Answer the following questions:
Follow the steps given to recreate the original experiment. Answer the following questions:
Publish the data you have gained from your performing of the experiment here.
Answer the following:
Answer the following:
What is the question you'd like to pose for experimentation? State it here.
Collect information and resources (such as URLs of web resources), and comment on knowledge obtained that you think will provide useful background information to aid in performing the experiment.
Based on what you've read with respect to your original posed question, what do you think will be the result of your experiment (ie an educated guess based on the facts known). This is done before actually performing the experiment.
State your rationale.
How are you going to test your hypothesis? What is the structure of your experiment?
Perform your experiment, and collect/document the results here.
Based on the data collected:
What can you ascertain based on the experiment performed and data collected? Document your findings here; make a statement as to any discoveries you've made.
What is the question you'd like to pose for experimentation? State it here.
Collect information and resources (such as URLs of web resources), and comment on knowledge obtained that you think will provide useful background information to aid in performing the experiment.
Based on what you've read with respect to your original posed question, what do you think will be the result of your experiment (ie an educated guess based on the facts known). This is done before actually performing the experiment.
State your rationale.
How are you going to test your hypothesis? What is the structure of your experiment?
Perform your experiment, and collect/document the results here.
Based on the data collected:
What can you ascertain based on the experiment performed and data collected? Document your findings here; make a statement as to any discoveries you've made.
Perform the following steps:
Whose existing experiment are you going to retest? Provide the URL, note the author, and restate their question.
Evaluate their resources and commentary. Answer the following questions:
State their experiment's hypothesis. Answer the following questions:
Follow the steps given to recreate the original experiment. Answer the following questions:
Publish the data you have gained from your performing of the experiment here.
Answer the following:
Answer the following: