[Home] [This version is outdated, a new version is here]
*Title...
*Search:...
*Read Me/FAQ/General Info...
*_IBM...
*ACC Micro...
*ALD...
*ALi...
**M1521/23 Aladdin III 50-66MHz <Nov96
***Info:...
***Configurations:...
***Features:...
**M1531/33/43 Aladdin IV & IV+ 50-83.3MHz <05/28/97...
**M1541/42/33/43 Aladdin V & V+ 50-100MHz ?...
**M1561/43/35D Aladdin 7 ArtX [no datasheet, some info] 11/08/99...
**M6117 386SX Single Chip PC <97...
**
**Support Chips:
**M1535/D South Bridge ?...
**
**May not exist:...
**Later Chipsets:...
**Other:...
*AMD . . . . . . . [no datasheets, some info]...
*Chips & Technologies...
*Contaq . . . . . [no datasheets, some info]...
*Efar Microsystems [no datasheets, some info]...
*ETEQ...
*Faraday...
*Forex . . . . . . [List only, no datasheets found]...
*Intel...
**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...
**82396SX Smart Cache 12/17/90...
**82485 Turbo Cache (and 485Turbocache) c90
***Notes:...
***Info:
The 82485 is a second-level cache controller designed to improve the
performance of Intel486 Microprocessor systems. One 82485 cache
controller supports 64K or 128K bytes of second level cache memory
that maps to the entire 4 Gigabytes of the Intel486 microprocessor
address space. The controller is completely software transparent. One
controller plus SRAMs provides a 64K or a 128K cache. External EPROM
can be cached yet remain write protected. The 82485 is fully
compatible with the Intel486 microprocessor. All Intel486 CPU bus
cycles and timings are supported.
A complete, optional second level cache controller using the 82485 is
available as the 485Turbocache Module from Intel (data sheet order
number 240722).
2.0 FUNCTIONAL DESCRIPTION
2.1 Introduction
The 82485 is a single ported, two-way set associative cache controller
designed specifically to interface with the Intel486 microprocessor.
The controller supports either a sectored configuration (two lines per
tag) or a non-sectored configuration (one line per tag). The 82485
will directly support a nonsectored 64K data cache or a 128K sectored
data cache. Both the 64K and 128K configurations are able to map the
entire 4 gigabytes of the Intel486 microprocessor address space. The
82485 interfaces directly to the Intel486 microprocessor. All Intel-
486 CPU bus cycles and timings are supported. The 82485 also supports
0 wait state processor operation when there is a cache hit and has
provisions to support invalidation cycles, BOFF# cycles, and premature
BLAST# terminations. The controller is look aside (monitors bus act-
ivity in parallel to the processor) and write through (all writes pro-
pagate to the system bus), so it supports the same cache consistency
mechanisms as the Intel486 CPU. The controller also provides a safe
method to cache ROM BIOS through the use of a write protect pin and a
write protect strapping option.
The data cache (Static RAM) resides external to the 82485. The 82485
provides all controls for the SRAMs. No external latches or tran-
ceivers are required. The 82485 output buffers support up to eight
SRAMs. A 64K cache can be designed with only five components; nine
components for a 128K cache. Two-way set associativity is provided by
dual banked SRAMs. Data parity is supported.
The 82485 can be used to design a custom second level cache
configuration. For an easier system design and higher integration, the
82485M Turbocache can be used (see data sheet order number 240722).
This module is a complete second level cache in one package. It
consists of a single 82485 cache controller and SRAM to provide a
complete 64K or 128K second level Intel486 microprocessor second level
cache.
***Versions:...
***Features:...
**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...
*Motorola...
*OPTi...
*PC CHIPS/Amptron/Atrend/ECS/Elpina/etc...
*SIS...
*Symphony...
*TI (Texas Instruments)...
*UMC...
*Unresearched:...
*VIA...
*VLSI...
*Western Digital...
*Winbond...
*ZyMOS...
*General Sources:...
(c) Copyright mR_Slugs Warehouse - All rights Reserved