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Q1. Consider the control unit and microinstruction format shown in the figure below. Assume that the control memory has 2048 words of 32 bits each.
Q1. Consider the control unit and microinstruction format shown in the figure below. Assume that the control memory has 2048 words of 32 bits each. Assume that the system has 15 status bits and that 15 bits are used to specify the micropoerations. What is the size of the "branch address" field of the microinstruction? How many bits are there in each of the mutiplexer input lines (the lines shown in blue)? As part of the "branch selection" field, how many bits of the microinstruction are needed for selectinga status bit? As part of the "branch selection" field, how many bits are needed as selection bits for the shown multiplexer? In fact, the shown multiplexer represents many multiplexers. How many such multiplexers are there and how many input lines are there for each multiplexer? a. b. c. d. e. f. How many bits are there in the control address register? g. How many bits are there in the control data register? Instruction code Mapping Status bits Branch MUX Multiplexer logic select Subroutine ster Control address register Incrementer Control memory (ROM) Microinstruction Branch Selection Branch address micro Control Data register operations select a status bit Activate Go to PC set Microoperations Branch address Q1. Consider the control unit and microinstruction format shown in the figure below. Assume that the control memory has 2048 words of 32 bits each. Assume that the system has 15 status bits and that 15 bits are used to specify the micropoerations. What is the size of the "branch address" field of the microinstruction? How many bits are there in each of the mutiplexer input lines (the lines shown in blue)? As part of the "branch selection" field, how many bits of the microinstruction are needed for selectinga status bit? As part of the "branch selection" field, how many bits are needed as selection bits for the shown multiplexer? In fact, the shown multiplexer represents many multiplexers. How many such multiplexers are there and how many input lines are there for each multiplexer? a. b. c. d. e. f. How many bits are there in the control address register? g. How many bits are there in the control data register? Instruction code Mapping Status bits Branch MUX Multiplexer logic select Subroutine ster Control address register Incrementer Control memory (ROM) Microinstruction Branch Selection Branch address micro Control Data register operations select a status bit Activate Go to PC set Microoperations Branch address
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