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**82340DX Chip Set (VLSI) (82346/82345/82355) 01/08/90
***Notes:...
***Info:
****82346 System Controller:
The 82346 system Controller is highly configurable via software. No
hardware jumpers are required. Defaults on reset for the configuration
registers mimic the compatibility requirements of the original IBM
PC/AT as closely as possible. These power-up defaults allow any poss-
ible configuration of the system to boot at the CPU's rated speed.
However, operational capabilities are reduced until the configu-
ration registers are set to mirror the true system conf-
iguration. This normally occurs during BIOS power-on self-test in a
manner completely transparent to the user.
The System Controller is designed to perform in systems running up to
33 MHz. built-in page mode operation, two- or four-way interleaving
and fully programmable memory timing allow the PC designer to maximize
system performance using low cost DRAMs. Programmable memory timing
allows the system to be setup to perfectly match the requirements of
the chosen DRAMs, standard or custom. These adjustments can often be
made without incurring the penalty of additional wait states.
The System Controller handles system board refresh directly and also
controls the timing of slot bus refresh which is actually performed by
the 82344 ISA Bus Controller. Refresh may be performed in coupled or
decoupled mode. The former method is the standard PC/AT-compatible
mode where on- and off-board refreshes are performed synchronously. In
decoupled mode, the timing of on- and off-board refreshes is
independent. Both may be programmed for independent, slower than
normal rates. This allows use of low power, slow refresh DRAMs. The
82346 controls all timing in both modes. In all cases, refreshes are
staggered to minimize power supply loading and attendant noise on the
VDD and ground pins.
The physical banks of DRAM can be logically reordered through one of
the indexed configuration registers. This DRAM remap option is useful
in order to map out bad DRAM banks allowing continued use of a system
until repairs are possible. It also allows DRAM bank combinations not
in the supported memory maps to be logically moved into a supported
configuration without physically moving memory components. This
unique, programmable function performs this task by switching the
internal RASI# and CASI# signals between the external RAS# and CAS#
pins. This allows internal addresses generated for DRAM bank 0, for
example, to be routed to any one of the four on-board DRAM banks.
Active low RASBK# signals are generated to directly drive DRAM
banks. Active high CASBK and LBE signals are externally decoded with
NAMD gates to provide 16 active low CAS# signals. This scheme provides
extra timing margin and lower cost since NAND gates are cheaper and
faster than equivalent OR gates.
To maintain use of low cost DRAMs through the full 33 MHz range of the
system, special cache support is added. this minimizes the external
glue logic required by other systems. The chip set is easily
interfaced to the Intel 385DX cache controller.
Full EEMS support is provided in hardware for the complete LIM EMS 4.0
standard. Seventy-two mapping registers provide a standard and an
alternate set of 36 registers each. The system allows backfill down to
256k for EEMS support and provides 24 mapping registers covering this
space. Twelve of the 36 are page registers which cover the EMS space
from C0000h to E0000h. These twelve registers can alternatively be
mapped in the A0000-BFFFFh and D0000-DFFFFh range by changing a
configuration bit in the 82346. All registers are capable of
translating over the complete 64 Mbyte range of on-board DRAM. Users
preferring an alternate plug-in EMS solution can disable the on-board
EMS system as well as system board DRAM, as required, down to 256k.
Shadowing features are supported on all 16K boundaries between 640K
and 1M. EMS use, shadowed ROM, and direct system board access is
possible in non-overlapping fashion throughout this memory
space. Control over four access options is provided. These controls
are overridden by EMS in segments for which it is enabled.
1. Access ROM or slot bus for reads and writes.
2. Access system board DRAM for reads and writes.
3. Access system board DRAM for reads and slot bus for writes.
4. Shadow setup mode. Read ROM or slot bus, write system board DRAM.
The System Controller is used to program the desired operational mode
of AT bus. Based on this programming, it provides the bus clock and
signaling interface to the Bus Controller, which actually interfaces
with the bus. The bus may run synchronously with the CPU's CLK2 or
asynchronously via an external oscillator. A programmable divider co-
nditions the selected BUSCLK source providing divide by 1, 2, 3 or 4.
****82345 Data Buffer:
The 82345 Data Buffer is part of a custom, three chip set which allows
extremely high performance and integration in 386 DX processor based
PC/AT-compatible, personal computer designs. When used with the 82346
System Controller and the 82344 ISA Bus Controller, the set is called
the 82340DX chip set.
The 82345 performs all the data buffering functions required for a 386
DX-based PC/AR-type system. Under the control of the CPU, the data
buffer chip routes data to and from the CPU bus, the MD bus, the XD
bus, and the slots (SD bus). For an on-board DRAM read, the data is
latched in the MD latch allowing the 82346 System Controller to be
programmed for early CAS terminations. The parity is checked for MD
bus read operations and any errors are reported during the next read
cycle. When reading from ROM, the XD bus or the SD bus, the data can
be converted from 8-bits wide to 16-, 24- or 32-bits wide or from 16
bits to 32 bits at the 16/32 latch. the data is latched with LATLO#
and LATHI# for synchronization with the CPU. The data conversion is
accomplished without the use of the bus size 16 (BS16#) input to the
386DX allowing it to remain in pipelined mode.
CPU writes to any of the three buses are accomplished in several
different ways. The 82345 supports posted writes from a cache
controller or non-posted writes to the MD bus. Parity is generated for
all data written to the MD bus. The 82345 provides the data
conversion necessary for 32- or 16-bit writes to 16- or 8-bit devices
on the XD or SD bus.
In non-cached systems, system board DRAM can be placed on either the
MD bus or the CPU's D bus. In slower systems ( \< 16 MHz) true zero
wait state operation is possible with available 60 ns DRAMs when the D
bus is used. This is due to the extra timing margin available when the
MD bus delay through the 82345 is removed from the critical path.
Faster non-cached systems can come close to zero wait state
performance using 80 ns to 100 ns DRAMs and page mode inter-
leaving. This requires an even number of DRAM banks.
Under the control of DMA or a bus master, the 82345 will allow 8- or
16-bit data to be routed to and from the XD and the MD buses. The chip
also is capable of performing high to low and low to high byte swaps
on the SD bus. For transfers between two peripherals on the slot bus,
the outputs of the 82345 will be disabled. The chip also provides the
feature of a single input, TRI#, to disable all of its outputs for
board level testability.
****82344 ISA Bus Controller:...
***Configurations:...
***Features:...
**82340SX Chip Set (VLSI) (82343/82344) 01/25/89...
**82350 EISA Chip Set 07/10/89...
**82350DT EISA Chip Set 04/22/91...
**82420TX/ZX PCIset (for 486) TX (Saturn), ZX (Saturn II) c:Nov92...
**82420EX PCIset (for 486) EX (Aries) (82425EX/82426EX) <Dec94...
**82430LX PCIset (Pentium) LX (Mercury) (82433LX/82434LX) 03/22/93...
**82430NX PCIset (Pentium) NX (Neptune) (82433NX/82434NX) Mar94...
**82430FX PCIset (Pentium) FX (Triton I) (82437FX/82438FX)01/31/95...
**82430MX PCIset (Pentium) MX (Mobile Triton)(82437/438MX)11/01/95...
**82430HX PCIset (Pentium) HX (Triton II) (82439HX) 02/12/96...
**82430VX PCIset (Pentium) VX (Triton II) (82437VX/82438) 02/12/96...
**82430TX PCIset (Pentium) TX (Triton II) (82439TX) 02/17/97...
**82450KX/GX PCIset (Pentium Pro) KX/GX (Mars/Orion) 11/01/95...
**
**Support Chips:
**82091AA Advanced Interface Peripheral (AIP) c93...
**8289 Bus Arbiter (808x) c79...
**82289 Bus Arbiter for iAPX 286 Processor Family c83...
**82258 Advanced Direct Memory Access Coprocessor(ADMA) 01/01/84...
**82335 High-Integration Interface Device For 386SX c:Nov88...
**82360SL I/O Subsystem 10/05/90...
**82370 Integrated System Peripheral (for 82376) c:Oct88...
**82371FB/SB PCI ISA IDE Xcelerator 82371FB/82371SB (PIIX/3) 01/31/95...
**82371MX Mobile PCI I/O IDE Xcelerator (MPIIX) 11/01/95...
**82371AB PCI-TO-ISA / IDE Xcelerator 82371AB (PIIX4) 02/17/97...
**82374/82375 PCI-EISA Bridge (82374EB/82375EB, 374SB/375SB) c:Mar93...
**82378 System I/O (SIO) (82378IB and 82378ZB) c:Mar93...
**82379AB System I/O-APIC (SIO.A) <Dec94...
**82380 32-bit DMA Controller w/ Integrated Peripherals 02/01/87...
**82380FB/AB PCIset: 82380FB Mobile PCI-to-PCI Bridge(MPCI2) 02/17/97...
**82384 Clock Generator and Reset Interface c86...
**82385 32-bit Cache Controller for 80386 09/29/87...
**82385SX 32-bit Cache Controller for 80386SX 01/25/89...
**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...
**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:
***440FX (Natoma) 05/06/96...
***440LX (Balboa) 08/27/97...
***440BX (Seattle) c:Apr'98...
***440DX (?) c:?...
***440EX (?) c:Apr'98...
***440GX (Marlinespike) 06/29/98...
***440ZX & 440ZX-66 (?) 01/04/99...
***440ZX-M (?) 05/17/99...
***440MX (Banister) 05/17/99...
**450NX (?) 06/29/98:...
**????? (Profusion) c:99...
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