Assembly languages vary by the intended architecture.
In general, assembly languages are very basic when compared to higher level languages like C, Java, Perl or Python, consisting of only a few dozen instructions. These instructions are grouped together to form higher level operations. Generally, it takes many lines of assembly code to do the same task as a few lines of higher level code.
Variables are not 'named' like in high level languages and are limited in quantity. However, greater control over storage locations can be acheived. For instance, r0 would refer to a variable stored in register 0. Mathematic operations are often performed by logical operations (AND, OR, XOR etc etc).
Assembly is a symbolic language where each of the machine's operation codes (opcodes) is represented by an easy-to-remember mnemonic, typically 3 or 4 letters long. Having read a mnemonic from the source file, a simple look-up table will reveal the corresponding opcode. Some mnemonics have more than one opcode depending on the operand types. For instance, the MOV opcode can move a value from working memory into a register, from one register to another register, or from a register back to memory. Thus the specific opcode will be chosen based upon both the mnemonic and its operand types.
Assembler is the name of programming language.
An Assembler converts assembly language instructions into machine language.
Assembly langue is translated into machine language by an assembler.
Assembler.
An Assembler converts an assembly language source code into machine-specific code.
A low-level language is any symbolic computer programming language that has a low-level of abstraction between the language itself and the machine code that it produces. Assembler language has a near 1:1 relationship with its resultant machine code and is therefore a low-level language. In fact, the only things lower than assembler language is machine code itself and disassembly, which is the reverse of assembly, both of which have no abstraction whatsoever. The only real difference between assembler language and disassembly are that disassembly has none of the comments and none of the symbolic references used by the original assembler, since both were stripped out during assembly. However, a competent hacker, with the aid of the disassembler, can reconstruct a facsimile of the original assembler from the machine code disassembly, thus permitting software to be reverse-engineered.
An Assembler converts assembly language instructions into machine language.
Most of the compiler's that are used to compile programs is coded with the old assembler language. Assembler is also the older language which is used in the old Mainframe environment
Assembly langue is translated into machine language by an assembler.
Meta-assembler is a program that accepts the syntactic and semantic description of an assembly language, and generates an assembler for that language.
Meta-assembler is a program that accepts the syntactic and semantic description of an assembly language, and generates an assembler for that language.
Kevin McQuillen has written: 'DOS/VSE assembler language' -- subject(s): Assembler language (Computer program language), DOS/VSE 'MVS assembler language' -- subject(s): Assembler language (Computer program language), IBM MVS
pass 1 assembler is assembler which convert assembly level language into machine level language in one pass only
Assemblers are used to convert a specific assembly language into bytecode.
Assemblers are used to convert a specific assembly language into bytecode.
Assembler translates assembly language into machine language.Answered by-Rashmi Dahiya
assembler
It is an assembler language programmer