NAME

cpu - HP PA-RISC CPU

SYNOPSIS

cpu* at mainbus0 irq 31

DESCRIPTION

The following table lists the PA-RISC CPU types and their characteristics, such as TLB, maximum cache sizes and HP 9000/700 machines they were used in (see also intro(4) for the reverse list).

l l l l l l l
l l l l l l l
l l l l l l l
_ _ _ _ _ _ _
l l l l l l l .
CPU:PA:Clock:Caches:TLB:BTLB:Models
   :  :(max):(max) :   :    :
   :  : MHz : KB   :   :    :
7000:1.1a:66 : 256 L1I:96I:4 I:705,710,720
    :    :   : 256 L1D:96D:4 D:730,750
7100:1.1b:100:1024 L1I:120:16:715/33/50/75
    :    :   :2048 L1D:   :  :725/50/75
    :    :   :        :   :  :{735,755}/100
    :    :   :        :   :  :742i, 745i, 747i
7150:1.1b:125:1024 L1I:120:16:{735,755}/125
    :    :   :2048 L1D:   :  :
7100LC:1.1c:100:   1 L1I:64:8:712/60/80/100
      :    :   :1024 L2I:  : :715/64/80/100
      :    :   :1024 L2D:  : :715/100XC
      :    :   :        :  : :725/64/100
      :    :   :        :  : :743i, 748i
      :    :   :        :  : :SAIC
7200:1.1d:140:   2 L1 :120:16:C100,C110
    :    :   :1024 L2I:   :  :J200,J210
    :    :   :1024 L2D:   :  :
7300LC:1.1e:180:  64 L1I:96:8:A180,A180C
       :    :  :  64 L1D:  : :B132,B160,B180
       :    :  :8192 L2:  : :C132L,C160L
       :    :  :       :  : :744, 745, 748
       :    :  :       :  : :RDI PrecisioBook

FLOATING-POINT COPROCESSOR

The following table summarizes available floating-point coprocessor models for the 32-bit PA-RISC processors.

tab (:) ;
l l
_ _
l l .
FPU:Model
Indigo:
Sterling I MIU (TYCO):
Sterling I MIU (ROC w/Weitek):
FPC (w/Weitek):
FPC (w/Bit):
Timex-II:
Rolex:725/50, 745i
HARP-I:
Tornado:J2x0,C1x0
PA-50 (Hitachi):
PCXL:712/60/80/100

SUPERSCALAR EXECUTION

The following table summarizes the superscalar execution capabilities of 32-bit PA-RISC processors.

nokeep tab (:) ;
l l l
_ _ _
l l l .
CPU:Units:Bundles
7100:1 integer ALU:load-store/fp
    :1 FP         :int/fp
    :             :branch/*
7100LC:2 integer ALU:load-store/int
      :1 FP         :load-store/fp
      :             :int/fp
      :             :branch/*
7200:2 integer ALU:load-store/int
    :1 FP         :load-store/fp
    :        :int/int
    :        :int/fp
    :        :branch/*
7300LC:2 integer ALU:load-store/int
      :1 FP         :load-store/fp
      :        :int/fp
      :        :branch/*

In conclusion, all of the above CPUs are dual-issue, or 2-way superscalar, with the exception that on CPUs with two integer ALUs only one of these units is capable of doing shift, load/store, and test operations. Additionally, there are several kinds of restrictions placed upon the superscalar execution:

For the purpose of showing which instructions are allowed to proceed together through the pipeline, they are divided into classes:

tab (:) ;
l l
_ _
l l .
Class:Description
flop:floating point operation
ldst:loads and stores
flex:integer ALU
mm:shifts, extracts and deposits
nul:might nullify successor
bv:BV, BE
br:other branches
fsys:FTEST and FP status/exception
sys:system control instructions

For CPUs with two integer ALUs (7100LC, 7200, 7300LC), the following table lists the instructions which are allowed to be executed concurrently:

tab (:) ;
l l
_ _
l l .
First:Second instruction
flop: + ldst/flex/mm/nul/bv/br
ldst: + flop/flex/mm/nul/br
flex: + flop/ldst/flex/mm/nul/br/fsys
mm: + flop/ldst/flex/fsys
nul: + flop
sys: never bundled

ldst + ldst is also possible under certain circumstances, which is then called "double word load/store".

The following restrictions are placed upon the superscalar execution:

PERFORMANCE MONITOR COPROCESSOR

The performance monitor coprocessor is an optional, implementation-dependent coprocessor which provides a minimal common software interface to implementation-dependent performance monitor hardware.

DEBUG SPECIAL UNIT

The debug special function unit is an optional, architected SFU which provides hardware assistance for software debugging using breakpoints. The debug SFU is currently defined only for Level 0 processors.

SEE ALSO

asp(4), intro(4), lasi(4), mem(4), wax(4), http://www.openpa.net/

HISTORY

The cpu driver was written by Michael Shalayeff <mickey@openbsd.org>
for the HPPA port for OpenBSD2.5. It was ported to NetBSD1.6 by Matthew Fredette.