Source : Free On-Line Dictionary of Computing

Scalable Processor ARChitecture
     
         (SPARC) An {instruction set architecture} designed
        by {Sun Microsystems} for their own use in 1985.  Sun was a
        maker of {680x0}-based {Unix} {workstations}.  Research
        versions of {RISC} processors had promised a major step
        forward in speed but existing manufacturers were slow to
        introduce a RISC type processor, so Sun went ahead and
        developed its own, based on the {University of California at
        Berkley}'s {RISC I} and {RISC II} 1980-2.  In keeping with
        their open philosophy, they licenced it to other companies,
        rather than manufacture it themselves.  The evolution and
        standardisation of SPARC is now directed by the non-profit
        consortium {SPARC International, Inc.}
     
        SPARC was not the first {RISC} processor.  The {AMD 29000}
        came before it, as did the {MIPS R2000} (based on {Stanford}'s
        design) and {Hewlett-Packard} {Precision Architecture} {CPU},
        among others.  The SPARC design was radical at the time, even
        omitting multiple cycle multiply and divide instructions (like
        a few others), while most RISC CPUs are more conventional.
     
        SPARC implementations usually contain 128 or 144 {registers},
        ({CISC} designs typically had 16 or less).  At each time 32
        registers are available - 8 are global, the rest are allocated
        in a "window" from a stack of registers.  The window is moved
        16 registers down the stack during a function call, so that
        the upper and lower 8 registers are shared between functions,
        to pass and return values, and 8 are local.  The window is
        moved up on return, so registers are loaded or saved only at
        the top or bottom of the register stack.  This allows
        functions to be called in as little as 1 cycle.  Like some
        other RISC processors, reading global register zero always
        returns zero and writing it has no effect.  SPARC is
        {pipelined} for performance, and like previous processors, a
        dedicated {condition code register} holds comparison results.
     
        SPARC is "scalable" mainly because the register stack can be
        expanded (up to 512, or 32 windows), to reduce loads and saves
        between functions, or scaled down to reduce {interrupt} or
        {context switch} time, when the entire register set has to be
        saved.  Function calls are usually much more frequent, so the
        large register set is usually a plus.
     
        SPARC is not a chip, but a specification, and so there are
        various implementations of it.  It has undergone revisions,
        and now has multiply and divide instructions.  Most versions
        are 32 bits, but there are designs for 64-bit and
        {superscalar} versions.  SPARC was submitted to the {IEEE}
        society to be considered for the {P1754} microprocessor
        standard.
     
        SPARC(R) is a registered trademark of SPARC International,
        Inc. in the United States and other countries.
     
        [The SPARC Architecture Manual, v8, ISBN 0-13-825001-4].
     
        (1994-11-01)