Describe, using words and drawings, how you would build a Floating Point Adder circuit?

Please type or write clearly 100 or more words: • How would you design a full-subtractor...

Please type or write clearly 100 or more words: • How would you design a full-subtractor using a full-adder? • What are some of the applications of full-adder other than the full-subtractor? List and describe two of these applications.

(The Complete Persepolis) How would you describe the style of Satrapi’s drawings? How does this style...

(The Complete Persepolis) How would you describe the style of Satrapi’s drawings? How does this style contribute to the story that she tells?

Task: Design and Build a 3-to-1 MUX–4 Design a circuit that takes three different 4-bit words...

Task: Design and Build a 3-to-1 MUX–4 Design a circuit that takes three different 4-bit words and selects one to be connected to the output. In your template provide the design schematic as well as the approach you would use to test the circuit.

Show using a sketch (no circuits) how a 4-bit ripple adder works to add the value...

Show using a sketch (no circuits) how a 4-bit ripple adder works to add the value of 3 and 6. How could you determine an addition overflow for signed integers when using ripple adder? How could you determine an addition overflow for unsigned integers when using ripple adder?

Adder Start out by picking 2 positive six bit binary numbers that are less than 3210,...

Adder Start out by picking 2 positive six bit binary numbers that are less than 3210, written in 2's complement notation. The eventual goal is to add these two numbers. 1) Look at the LSB bit of the numbers, and using logic gates (NANDs, NORs, etc.) design a circuit that correctly gives the right output for any possible combination of bits in the LSB place. 2) Now look at the next column to the left (next to LSB). In this...

if one needed an elextric switch, describe how you would build it and include hand-dawn diagrams...

if one needed an elextric switch, describe how you would build it and include hand-dawn diagrams for explanation

Which of the following correctly describe ALU operations? [ ] There is no way to build...

Which of the following correctly describe ALU operations? [ ] There is no way to build a shift-and-add multiplier so that multiplying 32-bit ints takes less than 32 clock cycles [ ] A speculative carry can take up to two clock cycles to compute the result [ ] Floating-point reciprocal is often computed by making a guess and refining it [ ] Floating-point multiplication begins with a denormalization to make the exponents equal [ ] Binary integer multiplication can be...

1) In your own words, describe (or sketch) how you would determine the yield stress of...

1) In your own words, describe (or sketch) how you would determine the yield stress of a material from a tensile test. 2) In your own words (or sketch), describe a screw dislocation. 3) In your own words, describe how grain size affects yield and ultimate strength for metals.

1. You build an LRC series circuit using a 3.00 V AC source (and variable frequency),...

1. You build an LRC series circuit using a 3.00 V AC source (and variable frequency), a 10.0 Ω resistor, a 10.0 µF capacitor, and a coil of unknown inductance. You adjust the frequency of the source until the circuit is in resonance, and find that the resonant frequency is 100.0 Hz. What is the inductance of the coil? Show all work. 2. You take the same circuit as in Question 1, and adjust the frequency of the source to...

Design a 4-bit adder-subtractor circuit using the 4-bit binary Full adders (74LS83) and any necessary additional...

Design a 4-bit adder-subtractor circuit using the 4-bit binary Full adders (74LS83) and any necessary additional logic gates. The circuit has a mode input bit, M, that controls its operation. Specifically, when M=0, the circuit becomes a 4-bit adder, and when M=1, the circuit becomes a 4-bit subtractor that performs the operation A plus the 2’s complement of B.Where A and B are two 4-bits binary numbers. That is, * When M=0, we perform A+B, and we assume that both...