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**82495XP/490XP Cache Controller / Cache RAM (for i860) 06/05/91
***Notes:...
***Info:...
***Features:...
**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...
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*OPTi...
**82C556M/7M/8E Viper-N+ Viper Notebook Chipset c:96
***Notes:...
***Info:
The OPTi Viper-N+ chipset is the leading solution for PCI-based mobile
applications. Viper-N+ features leading edge power management
capability and flexibility for Intel Pentium 75/90/100/120 and Cyrix
6x86 processor based notebooks. The chipset incorporates desktop-like
performance features such as L1 and L2 cache support, a full 64-bit
DRAM controller and an integrated PCI controller, in a highly
integrated three chip set.
In terms of advanced power management, no chipset offers a more
effective, comprehensive or flexible feature set, allowing for maximum
performance with minimum power consumption for extended battery
life. In fact, for typical applications, Viper-N+'s power management
unit reduces power consumption by as much as 80%.
Viper-N+ offers the highest level of system integration, enabling the
lowest system cost and real estate requirement for Pentium-PCI
notebooks. A system without TTL is achievable with synchronous cache.
And, PCI offers easy upgradability to emerging standard interfaces,
such as PCMCIA/CardBus and PCI docking stations. Viper-N+ also
features an integrated local bus IDE controller to avoid ISA data bus
bottlenecks.
OPTi coupled its expertise in mobile technology and PCI-based design
to create its second generation 64-bit CPU mobile chipset. The result
is Viper-N+, enabling the highest levels of performance, system
integration and power management capability available for Pentium
PCI-based mobile systems.
***Configurations:...
***Features:...
**82C566/7/8 Viper-Max Chipset Scalable MultiMedia PC Solution ?...
**82C571/572 486/Pentium c:93...
**82C576/7/8 Viper Xpress [no datasheet] ?...
**82C576/8/9 Viper XPress+ [no datasheet, some info] <01/16/97...
**82C596/597 PTMAWB Pentium Adaptive Write-back (Cobra) c:93...
**82C650/1/2 Discovery (Pentium Pro) [no datasheet] ?...
**82C681/2/6/7 386/486WB EISA c:92...
**82C683 386/486AWB EISA [no datasheet] ?...
**82C693/6/7 Pentium uP Write Back Cache EISA c:93...
**82C700 FireStar c:97...
**82C701 FireStar Plus c:97...
**82C750 Vendetta [no datasheet] ?...
**82c801 SCWB2 DX Single Chip Solution c:92...
**82C802 SCWB2 PC/AT Single Chip [no datasheet] ?...
**82C802G/GP System/Power Management Controller (cached) c:93...
**82C895 System/Power Management Controller (cached) c:Sep94...
**82C898 System/Power Management Controller (non-cache)c:Nov94...
**
**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)...
**SN74LS610/2 IBM AT: SN74LS610, SN74LS612 Memory Mappers <84
***Notes:...
***Info:
Each 'LS610 and 'LS612 memory mapper integrated circuit contains a
4-line to 16-line decoder, a 16-word by 12-bit RAM, 16 channels of
2-line to 1-line multiplexers, and other miscellaneous circuitry on a
monolithic chip. Each 'LS610 also contains 12 latches with an enable
control.
The memory mappers are designed to expand a microprocessor's memory
addressing capability by eight bits. Four bits of the memory address
bus (see System Block Diagram)[see datasheet] can be used to select
one of 16 map registers that contain 12 bits each. these 12 bits are
presented to the system memory address bus through the map output
buffers along with the unused memory address bits from the CPU.
However, addressable memory space without reloading the map registers
is the same as would be available with the memory mapper left out.
The addressable memory space is increased only by periodically
reloading the map registers from the data bus. This configuration
lends itself to memory utilization of 16 pages of 2^(n-4) registers
each without reloading (n - number of address bits available from
CPU).
These devices have four modes of operation: read, write, map, and
pass. Data may be read from or loaded into the map register selected
by the register select inputs (RS0 thru RS3) under control of R/W
whenever chip select (CS) is low. The data I/O takes place on the data
bus DO thru D7. The map operation will output the contents of the map
register selected by the map address inputs (MA0 thru MA3) when CS is
high and MM (map mode control) is low. The 'LS612 output stages are
transparent in this mode, while the 'LS610 outputs may be transparent
or latched. When CS and MM are both high (pass mode), the address bits
on MA0 thru MA3 appear at M08-MO11, respectively (assuming appropriate
latch control) with low levels in the other bit positions on the map
outputs.
***Versions:...
***Features:...
**TACT82000 3-Chip 286 [no datasheet] c89...
**TACT82411 Snake Single-Chip AT Controller c90...
**TACT82S411 Snake+ Single-Chip AT Controller [no datasheet] c91...
**TACT83000 AT 'Tiger' Chip Set (386) c89...
**TACT84500 AT Chip Set (486, EISA) [no datasheet, some info] c91...
**Other:...
*UMC...
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*ZyMOS...
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