Question
a.
1ten
b.
2ten
c.
3ten
d.
4ten
Posted under Computer Architecture
Engage with the Community - Add Your Comment
Confused About the Answer? Ask for Details Here.
Know the Explanation? Add it Here.
Q. Using a 4-bit version of the algorithm dividing 7ten by 2ten will produce the quotient
Similar Questions
Discover Related MCQs
Q. For adding immediate unsigned the command we have is
View solution
Q. Negating decimal number 2ten will produce the result of
View solution
Q. MIPS architecture provides a separate pair of 32-bit registers to contain the product of 64-bits called
View solution
Q. MIPS architecture detects the exception of overflow also known as
View solution
Q. Multiplying (1000)10 by (1001t)en will produce the product of
View solution
Q. The given instruction multu $s2,$s3; shows the multiplication of
View solution
Q. The floating point operation is also called
View solution
Q. This binary instruction (1111 1111 1111 1111 1111 1111 1111 1101)two, will be represented in binary no as
View solution
Q. One billion is 1 000 000 000 and it will contain
View solution
Q. Loading half unsigned instruction can be executed using
View solution
Q. A number in scientific notation, that has no leading 0s is called a
View solution
Q. The human readable base representation of the numbers is
View solution
Q. To handle division of unsigned integers MIPS has instruction of
View solution
Q. Converting (-2047)10 into a 32-bit 2
View solution
Q. The decimal value of this 32-bit two
View solution
Q. Instruction set less than immediate unsigned can be executed with the command
View solution
Q. The first operand is called the multiplicand and the second
View solution
Q. Dividing (1,001,010)10 by (1000)10 will produce the reminder of
View solution
Q. Power of binary system for positional values is
View solution
Q. The cumulative addition of the four bits ( 1 + 1 + 1 + 1 ) gives
View solution
Suggested Topics
Are you eager to expand your knowledge beyond Computer Architecture? We've curated a selection of related categories that you might find intriguing.
Click on the categories below to discover a wealth of MCQs and enrich your understanding of Computer Science. Happy exploring!