In the following PEP/8 instruction 0111 1001 0000 0000 0100
0101
bit 5 indicates:
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In the following PEP/8 instruction 0111 1001 0000 0000 0100 0101 bit 5 indicates: Opcode Addressing...
Write the MIPS assembly code that creates the 32-bit constant 0010 0000 0000 0001 0100 1001 0010 0100 and stores that value to register $t1. From previous answers, I see that there is an lui and ori code. Where do those come from? Do they come from the mips reference sheet? Can I get a good explanation please.?
Draw how the following bit pattern 0011 0001 0111 0101 0110 1001 Examples (but do not limit yourself to these): http://what-when-how.com/data-communications-and-networking/analog-transmission-of-digital-data- data-communications-and-networkin https://www.youtube.com/watch?v-gGwUOvErR8 Draw how the following bit pattern 0011 0001 0111 0101 0110 1001 will stream using Digital transmissions Unipolar Bipolar NRZ Bioar RZ . Bipolar AMI . Manchester encoding Analog Transmissions: 1-bit AM e 1-bit FM 1-bit PM . 2-bit AM . 2-bit FM 2-bit PM You can use any drawing tool or you can manually draw and...
(d) 7650 (e) None of the above Question 7 [18 Points]-Instruction Set Architecture (ISA) I. Suppose an instruction set has 32-bit instructions. Every instruction has an 8-bit opcode and a 12- bit immediate operand. Some instructions have three register operands (two sources and a destination register). Every instruction that uses registers must be able to specify any of the registers. How many registers can this instruction set support? (a) 32. (b) 64. (c) 16. (d) There is not enough information...
Convert the following Binary numbers to their Decimal equivalents: 1100 1001 1111 0100 1010 0101 1111 1111 0000 1000
5. a.) Design an Expanding Opcode to allow all the following to be encoded in a 16-bit instruction: 4 instructions with two 5-bit addresses and one 3-bit register number 15 instructions with one 5-bit address and one 3-bit register number 31 instructions with no addresses or registers (Specify the bit organization and the beginning opcode and ending opcode for each category.) b.) Design an Expanding Opcode to allow all the following to be encoded in a 36-bit instruction: 7 instructions...
Questions 6-10: Prior to execution of the instruction MOV CX,[1234H) - following are the information given on the state of the processor CS = 0100H; DS=0200H; IP = 0000H; CX = 8B3AH Machine code for the above instruction=8B0E3412H; Answer the following questions 6-10 given below related to this instruction - 6. What is the content of the destination-operand prior to the instructions execution? a. 1234H b. 43211 c. 8B3AH d. 3A8BH e. Unknown 7. What is the content of the...
5. Number conversion a. (114)dec → Doct b. (1001 1011.011)bin → ( )dec c. (1011 0101)8-bit 2's comp → ()dec d. (-39)dec → ( )8-bit 2's comp e. (1A2B.3C)hex → ( )bin f. (1100101011.11011)bin oct g. (21.2)dec → bin
pls both ans Question 20 5 pts Suppose a computer has 32-bit instructions. The instruction set consists of 64 different operations. All instructions have an opcode and two address fields (allowing for two addresses). The first of these addresses must be a register direct address, and the second must be a memory address. Expanding opcodes are not used. The machine has 16 registers. How many bits can be used for the memory address? Question 21 5 pts Suppose we have...
2. Consider an 8-bit register with the following bit pattern, interpret it in each of the following ways, and give the required values: 0101 1001 Give the decimal value if it is to be interpreted as a binary coded decimal (BCD) number Give the decimal value if it is to be interpreted as a signed integer in 2's complement form. e. Give the decimal value if it is to be interpreted as a number in excess 127 code. 4 Give...
HW3: Problem 1: (first, study the example-1 in page-6) A computer uses 8-bit for FLP (1 bit for sign, 4 bit for exponent with excess-7 rep. (see table below), rest for magnitude). Assume 0000 and 1111 in exponent field are reserved for denormalization. 6 Decimal 0 Unsigned 0000 Excess-7 Reserved used as -6 in unnormalized 1 0001 -6 2 0010 -5 3 0011 -4 4 0100 -3 5 0101 -2 0110 -1 7 0111 0 9 Decimal 8 Unsigned 1000...