CLIPPER Module is NOT CISC!

Computer Science House CSH cshouse at ritcv.UUCP
Sun Jul 6 11:25:57 AEST 1986


This article is in response to the "RISC:  Myth and Reality" article
published in this month's (July) UNIX World.  Within this article,
Fairchild's CLIPPER Module is classified as a CISC processor.

This is dead WRONG!

Fairchild's CLIPPER module:

		1) has a completely hard-wired instruction set,
		2) contains no micro-code and
		3) utilizes a Load/Store architecture!!!

In Omri Serlin's article, he uses CMU's six criteria for a RISC processor
and has placed CLIPPER in the CISC group.  It should be placed in the
Semi-RISC group, if the CMU criteria is used!

1) The CLIPPER module has a completely hard-wired instruction set with 101
basic instructions and 67 MI ROM instructions which are just sequences of
these basic hard-wired instructions.  Due to the thruput requirements of
the CLIPPER CPU, the CLIPPER design team determined no time would be left
for decoding micro-code, so the CPU control was implemented as a hard-wired
state machine.

2) The CLIPPER module has a MACRO Instruction (MI ROM) which contains
sequences of hard-wired instructions.  This is NOT micro-code!!!  When
an MI ROM instruction is encountered in the instruction stream, an
instruction sequence is read from the MI ROM and is inserted into the DECODE
and RESOURCE MANAGEMENT stage of the instruction pipeline!  The input of
this sequence into the instruction pipeline is maintained at the peak
instruction rate of 1 clock cycle (30ns).  At the end of the MI instruction
sequence, the instruction stream is switched back to the Instruction
Cache/Memory Management Unit (ICAMMU) instruction buffer.  In addition,
the MI ROM is equipped with its own internal register file to avoid saving
and restoring the general purpose register files.  Also, interrupt latency
isn't affected during long sequences of these instructions, as some MI ROM
instructions can be interrupted, such as the CMPC instruction (string compare).

3) And, the CLIPPER module is implemented as a load / store register to 
register instruction set.  All non-memory instructions operate only on
registers, and all memory reference instructions pass data between a single
memory location and one register.

Now, if computer system architectures were compared, as opposed to just
theoretically comparing processors, the truth would be unveiled.  The
other processors mentioned in this article do NOT have the capability, once
realized into an actual architecture, to acheive their "true" potential,
as does Fairchild's CLIPPER.

Let's see some discussion on these processors, as they can be realized into
actual architectures.

The CLIPPER Research Project is involved in the research and development
of CLIPPER SHIP which is a high-end general purpose 32-bit super minicomputer
based upon Fairchild Corporation's CLIPPER Module and the RIT 1.0 version of
UNIX (a 4.2BSD UNIX port).

---------------------------------------------------------------------------

CLIPPER Research Project Team

Frank Giuffrida				Computer Science House
Paul Netzband				Rochester Institute of Technology
Steve Adams				Rochester, NY 14623
Brad Werner				(716) 475-3305

UUCP:  seismo!rochester!ritcv!ritcsh!clipper



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