Q. Address sizes for displacement mode, is to be at least

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Q. Some architectures of the computer strongly support a decimal format, typically called

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Q. Accesses to objects being larger than a byte, must be

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Q. When the control change is unconditional, then the instruction we use is

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Q. The ways in which the addresses gets specified by instructions, called

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Q. PC-relative addressing permitting the code for running independently, where it has been loaded, the stated technology is known as

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Q. Addressing modes being used in the execution of the programs, have purpose of significantly reduce

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Q. The number of memory-operands that are being supported by the typical ALU-instruction may be varing from none to

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Q. Numeric character-strings are often known as

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Q. An access towards an object of size a single bytes at byte address A is aligned, if

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Q. Little Endian byte order puts the byte having address

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Q. Add R4,#3, the given instruction is the example of

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Q. Big Endian byte order putting the byte having address

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Q. Width of object like a double-word will be having a size of

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Q. Whenever a memory location is used, then the actual memory address specified through the addressing mode, is called the

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Q. Regs[R4] ? Regs[R4]+ Regs[R3]; the given statement represents the

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Q. Modern compiler technology with its ability to effectively using larger numbers of

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Q. If we have single memory address then the numbers of operands allowed maximum, would be

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Q. A GPR computer having memory to memory operations can easily be ignored by the compiler and is used as a

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Q. The example/s of general-purpose RISC architectures is/are

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