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**82385SX     32-bit Cache Controller for 80386SX             01/25/89
***Notes:...
***Info:
The  82385SX Cache  Controller is  a high  performance  peripheral for
Intel's 386 SX Microprocessor. It stores a copy of frequently accessed
code  and data  from main  memory  in a  zero wait  state local  cache
memory. The 82385SX  allows the 386 SX Microprocessor  to run near its
full potential  by reducing the average  number of CPU  wait states to
nearly zero.   The dual bus  architecture of the 82385SX  allows other
masters  to access  system resources  while  the 386  SX CPU  operates
locally  out of  its cache.   In  this situation,  the 82385SX's  "bus
watching" mechanism preserves cache coherency by monitoring the system
bus address lines at no cost to system or local throughput.

The  82385SX  is   completely  software  transparent,  protecting  the
integrity of system software. High performance and board space savings
are achieved because the 82385SX  integrates a cache directory and all
cache management logic on one chip.

1.0 82385SX FUNCTIONAL OVERVIEW
The  82385SX Cache  Controller is  a high  performance  peripheral for
Intel's 386  SX microprocessor.  This chapter provides  an overview of
the 82385SX, and  of the basic architecture and operation  of a 386 SX
CPU/ 82385SX system.

1.1 82385 OVERVIEW

The main  function of a cache  memory system is to  provide fast local
storage  for frequently  accessed  code and  data.   The cache  system
intercepts  386 SX  memory  references  to see  if  the required  data
resides in the cache. If the data  resides in the cache (a hit), it is
returned to the  386 SX without incurring wait states.  If the data is
not cached (a miss), the reference  is forwarded to the system and the
data retrieved from main memory.  An efficient cache will yield a high
"hit rate"  (the ratio of cache  hits to total 386  SX accesses), such
that the majority of accesses  are serviced with zero wait states. The
net effect is that the wait states incurred in a relatively infrequent
miss are  averaged over  a large number  of accesses, resulting  in an
average of  nearly zero wait states  per access. Since  cache hits are
serviced locally, a  processor operating out of its  local cache has a
much  lower  "bus  utilization"  which reduces  system  bus  bandwidth
requirements, making more bandwidth available to other bus masters.

The  82385SX Cache  Controller integrates  a cache  directory  and all
cache  management  logic required  to  support  an  external 16  Kbyte
cache. The cache directory structure  is such that the entire physical
address range  of the 386  SX is mapped  into the cache.  Provision is
made to  allow areas of memory  to be set aside  a non-cacheable.  The
user has two  cache organization options: direct mapped  and 2-way set
associative.   Both provide  the high  hit rates  necessary to  make a
large, relatively slow  main memory array look like  a fast, zero wait
state memory to the 386 SX.

A  good hit  rate is  an essential  ingredient of  a  successful cache
implementation. Hit rate  is the measure, of how  efficient a cache is
in maintaining a copy of  the most frequently requested code and data.
However,   efficiency  is   not  the   only  factor   for  performance
consideration.  Just as essential are sound cache management policies.
These policies refer to the handling of 386 SX writes, preservation of
cache  coherency, and ease  of system  design.  The  82385SX's "posted
write"  capability allows  the majority  of 386  SX  writes, including
non-cacheable, to  run with zero  wait states, and the  82385SX's "bus
watching" mechanism preserves cache coherency with no impact on system
performance.  Physically, the 82385SX ties directly to the 386 SX with
virtually no external logiC.

***Versions:...
***Features:...
**82395DX     High Performance Smart Cache                    06/18/90...
**82395SX     Smart Cache                                     12/17/90
***Notes:...
**82396SX     Smart Cache                                     12/17/90...
**82485       Turbo Cache (and 485Turbocache)                      c90...
**82489DX       Advanced Programmable Interrupt Controller    10/12/92...
**82495DX/490DX DX CPU-Cache Chip Set                           <Sep91...
**82495XP/490XP Cache Controller / Cache RAM (for i860)       06/05/91...
**82496/491     Cache Controller / Cache RAM (for P5 Pentium) 03/22/93...
**82497/492   Cache Controller / Cache RAM (for P54 Pentium)    <Nov94...
**82498/493   Cache Controller / Cache RAM (for P54 Pentium)    <Nov94...
**
**Later chipsets (basic spec):
**440 series:...
**450NX  (?)            06/29/98:...
**?????  (Profusion)    c:99...
**800 series...
*Headland/G2...
*HMC (Hulon Microelectronics)...
*Logicstar...
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*OPTi...
**82C898         System/Power Management Controller (non-cache)c:Nov94
***Notes:...
***Info:
Overview
The 82C898 provides a highly integrated solution for fully compatible,
high performance PC/AT platforms. The 82C898 supports 486SX/DX/DX2/DX4
and  P24T  microprocessors  in  the  most  cost  effective  and  power
efficient designs  available today. For  high-end system applications,
this  device offers  optimum  performance for  systems  running up  to
50MHz.  

Based  fundamentally  on  OPTi’s   proven  82C801  and  82C802  design
architectures,  the 82C898 adds  additional memory  configurations and
extensive  power  management  control  for  the  processor  and  other
motherboard components.

The 82C898  supports the latest  in write-back processor  designs from
Intel, AMD, and Cyrix, as well as supporting the AT bus and VESA local
bus  for compatibility  and performance.  It also  includes  an 82C206
Integrated Peripherals Controller (IPC),  all in a single 208-pin PQFP
(Plastic Quad Flat Pack) for low cost.

Power Management
Figure  2-1   [see  datasheet]  exemplifies  the   flexibility  of  an
82C898/82C602-based designs GREEN strategy.  System designs can easily
accommodate both  SLe and non-SLe  CPUs.  If  an Intel non-SLe  CPU is
used, SMI#, SMIAOT#, and FLUSH# are no connects. One design can easily
accommodate  both  types  of   processors  with  minimal  changes  for
upgrades.

***Configurations:...
***Features:...
**
**Support Chips:
**82C601/2       Buffer Devices                                 <Nov94...
**82C822         PCIB (VLB-to-PCI bridge)                         c:94...
**Other:...
*PC CHIPS/Amptron/Atrend/ECS/Elpina/etc...
*SIS...
*Symphony...
*TI (Texas Instruments)...
*UMC...
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