Design BCD to Excess 3 code converter using logical gates. What is meant by Standard SOP form? Convert the following Boolean function into standard SOP and express it in terms of M... Design BCD to Excess 3 code converter using logical gates. What is meant by Standard SOP form? Convert the following Boolean function into standard SOP and express it in terms of Min-terms Y(A, B,C,D)= ABC+B̅CD+A̅BC̅. Design 2 bit comparator using 4:1 Multiplexer. Design full adder using 3:8 decoder. Implement the following SOP using 3:8 decoder Y(A,B,C,D)= ∑m(0,1,2,4,7,9,10,13,14). Design 2 bit Synchronous up-down counter using M/S JK FF with neat diagram. Draw the circuit diagram for M/S JK FF and discuss race around condition. Describe with neat block diagram T flip flop and create excitation table for T Flip Flop. Elaborate the memory segmentation in the 8086 microprocessor with neat diagram and calculate the Physical address if CS: 2AB5 and IP: 13C6. Identify the addressing modes for the following instructions and justify the same. Calculate the Effective address for both instructions: 1. MOV AX, 50H[BX+04H], 2. MOV AX, [SI]. Give detail working operations of the following instructions of 8086: 1. DIV, 2. CMP, 3. JLE, 4. CALL. Distinguish between minimum mode and maximum mode with respect to pin functions. Draw the timing diagram for Memory read of 8086. Draw the Interrupt vector table and discuss the NMI in detail. Draw the block diagram of Priority Interrupt Controller 8259. Minimize the following expression using K-map and draw the circuit diagram for the same Y(A,B,C,D)= ∑m(0,2,4,7,8,10,12,13). Solve the following: a. Convert (10110111)2 to hexadecimal number, b. Convert (A25C)16 to decimal number. Design full adder using logical gates. Design 4:1 mux using 2:1 mux. Implement the following SOP using 3:8 decoder Y(A,B,C)= ∑m(0,1,2,4). Draw the circuit diagram for M/S JK FF and discuss race around condition. Design 2 bit Asynchronous up counter using M/S JK FF. Discuss with neat block diagram T and D flip flop. Describe the following addressing modes with neat diagram and one example for each: a. Immediate addressing mode, b. Register addressing mode, c. Direct addressing mode. Draw and describe the complete architecture of 8086 microprocessor. Discuss the register organization of 8086 microprocessor. Enlist the different types of 8086 instructions set with one example for each type. Discuss the pin functions of 8086 microprocessor in the maximum mode. Discuss types of Interrupts and draw the block diagram of Priority Interrupt Controller 8259.
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The question is asking to design various digital circuits and discuss concepts related to microprocessors, particularly focused on logical gate implementation, flip-flops, addressing modes, and interrupt handling in circuits. This involves digital logic design principles and an understanding of microprocessor architecture.
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The provided text covers a variety of topics related to digital electronics, computer architecture, and microprocessors including designing combinational circuits, using K-maps for simplification, understanding microprocessor architecture, and more.
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