Design a 32-input Mux using 8 and 4 input multiplexers. Design 4 to 16 decoder using...
Design a 32-to1 multiplexer (MUX) using 1. 8-to-1 MUX and 2-to-4 decoders. 2. 4-to-1 MUX and 2-to-4 decoders. Thank you!
Draw a 4:16 Decoder that has no enable input (so 4 inputs and 16 outputs) using only 3:8 Decoders that have the enable input hardcoded to a 1. No other gates allowed.
Design 3- to – 8 decoder using logic gates with enabler, AND, NOT, etc..? Design 3- to – 8 decoder using only two 2-to-4 decoders graphical blocks, use enabler input? a) Design a 3-bit ripple-carry adder using AND, OR, NOT, EXOR, etc.; include carry-in (Cin), carry-out (Cout) and overflow input/output signals? Note: Design for 1-bit first, then extrapolate to 4-bit using 1-bit full-adder graphical block. Design a 3-bit ripple-carry subtractor using AND, OR, NOT, EXOR, etc..; include carry-in (Cin), carry-out...
1. Make a 4 to 16 decoder circuit from 2 to 4 decoders with details of 4 inputs (high), 1 enable (low), and 16 output (high) 2. Make a series of multiplexers 8 to 1 from multiplexers 2 to 1 with details of 8 inputs (high) 3 selector (high), 1 output (high)
Show the design of a 4-to-16 decoder from 2-to-4 decoders only. Each 2-to-4 decoder has an enable line, E. Please use each of the 2-to-4 decoders in block diagram.
Design a four-bit combinational circuit 2'scomplementer. (The output generates the 2's complement of the input binary number.) Construct a 5-to-32-line decoder with enable by using 3-to-8 and 2-to-4-line decoders with enables For the decimal-to-BCD encoder given in the text (Slide 33 of chapter 5), assume by error that the 6 input and the 3 input are both HIGH. What is the output code? Is it a valid BCD code? Construct a 16 times 1 multiplexer with 4 times 1 multiplexers....
design a 2x1 MUX using 3x8 active high decoder with an external gate of your choice
4. Show how to construct a 5 X 32 decoder with four 3 X 8 decoders (with active high enable inputs) and one 2 X 4 decoder.
Make a 4-to-16 decoder and show its circuit diagram in both ways: -Create every minterm via multiple 4-input AND gates. -Employ hierarchical design, use smaller decoders and two groups of 8 AND gates.
Use 8:1 Multiplexers to make 20:1 MUX.