[Home] [This version is outdated, a new version is here]
*Title...
*Search:...
*Read Me/FAQ/General Info...
*_IBM...
*ACC Micro...
*ALD...
*ALi...
*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...
**800 series
***810         (Whitney)       04/26/99...
***810L        (Whitney)       04/26/99...
***810-DC100   (Whitney)       04/26/99...
***810e        (Whitney)       09/27/99...
***810e2       (Whitney)       01/03/01...
***815         (Solano)        06/19/00
Chips:         
[82815] (GMCH) [82801AA] (ICH) [82802] (FWH) i754 AGP (Coloma)
CPUs:          P-III/P-III(T)*1/Celeron
DRAM Types:    SDRAM PC133*2
Mem Rows:      6*3
DRAM Density:  64Mbit 128Mbit 256Mbit
Max Mem:       512MB
ECC/Parity:    No
AGP speed:     1x 2x 4x
Bus Speed:     66 100 133
PCI Clock/Bus: 1/2 1/3 1/4 PCI 2.2

>*1 P-III Tualatin first supported from B-0 stepping of chipset.

>*2 FSB and DRAM  can be asynchronous.  At 66MHz  FSB, and  100MHz FSB, 
    DRAM operates at 100MHz. At 133MHz FSB, DRAM can be set to 100 or
    133MHZ.

>*3 Supports 3 double-sided DIMMs @ 100MHz, 2 at 133MHz.

***815e        (Solano-2)      06/19/00...
***815em       (Solano-?)      10/23/00...
***815ep       (Solano-3)      c:Nov'00...
***815p        (Solano-3)      c:Mar'01...
***815g        (Solano-3)      c:Sep'01...
***815eg       (Solano-3)      c:Sep'01...
***820         (Camino)        11/15/99...
***820e        (Camino-2)      06/05/00...
***830M        (Almador)       07/30/01...
***830MP       (Almador)       07/30/01...
***830MG       (Almador)       07/30/01...
***840         (Carmel)        10/25/99...
***845         (Brookdale)     09/10/01...
***845MP       (Brookdale-M)   03/04/02...
***845MZ       (Brookdale-M)   03/04/02...
***845E        (Brookdale-E)   05/20/02...
***845G        (Brookdale-G)   05/20/02...
***845GL       (Brookdale-GL)  05/20/02...
***845GE       (Brookdale-GE)  10/07/02...
***845PE       (Brookdale-PE)  10/07/02...
***845GV       (Brookdale-GV)  10/07/02...
***848P        (Breeds Hill)   c:Aug'03...
***850         (Tehama)        11/20/00...
***850E        (Tehama-E)      05/06/02...
***852GM       (Montara-GM)    01/14/03...
***852GMV      (Montara-GM)    ???...
***852PM       (Montara-GM)    06/11/03...
***852GME      (Montara-GM)    06/11/03...
***854         (?)             04/11/05...
***855GM       (Montara-GM)    03/12/03...
***855GME      (Montara-GM)    03/12/03...
***855PM       (Odem)          03/12/03...
***860         (Colusa)        05/21/01...
***865G        (Springdale)    05/21/03...
***865PE       (Springdale-PE) 05/21/03...
***865P        (Springdale-P)  05/21/03...
***865GV       (Springdale-GV) c:Sep'03...
***875P        (Canterwood)    04/14/03...
*Headland/G2...
*HMC (Hulon Microelectronics)...
*Logicstar...
*Motorola...
*OPTi...
*PC CHIPS/Amptron/Atrend/ECS/Elpina/etc...
*SIS...
*Symphony...
*TI (Texas Instruments)...
*UMC...
**UM8890       Pentium chipset [no datasheet]                        ?
***Notes:...
***Configurations:...
**
**Support Chips:
**UM82152      Cache Controller (AUStek A38152 clone)              <91...
**UM82C852     Multi I/O For XT                                    <91...
**UM82C206     Integrated Peripheral Controller                    <91...
**UM82c45x     Serial/Parallel chips                                 ?...
**Other chips:...
*Unresearched:...
*VIA...
**VT8501       Apollo MVP4,Single-Chip 66-100MHz & AGP       <11/04/98
***Notes:...
***info:
The  Apollo MVP4  is  a PC  Socket-7  system logic  North Bridge  with
integrated 2D  / 3D Graphics  accelerator.  The core logic  portion of
the chip is  based on the popular 100MHz VIA  Apollo MVP3 chipset with
enhanced features  and graphics accelerator based  on the Cyber9398DVD
from Trident  Microsystems, Inc.  The  combination of the  two leading
edge  technologies   provides  a  stable,   cost-effective,  and  high
performance solution for personal computers, embedded systems, set-top
boxes and  others.  As  shown in Figure  1 [see datasheet]  below, the
Apollo MVP4 will interface to:

o Socket 7 CPU (66 – 100 MHz)
o L2 Cache RAM & Tag
o SDRAM Memory Interface
o PCI Bus (30 - 33 MHz)
o Analog RGB Monitor with DDC
o DFP / Digital Monitor Interface (TMDS)
o Video Capture / Playback CODECs

Apollo MVP4 Core Logic Overview
The Apollo  MVP4 –  System Media Accelerated  North Bridge (SMA)  is a
high performance, cost-effective and energy efficient solution for the
implementation  of Integrated  2D/3D  Graphics -  PCI  - ISA  personal
computer  systems from  66 MHz  to 100  MHz based  on  64-bit Socket-7
(Intel Pentium and Pentium MMX; AMD K6 and K6-2; Cyrix / National 6x86
/ 6x86MX, IDT / Centaur C6/WinChip), and Rise MP6 processors.

The Apollo  MVP4 controller provides superior  performance between the
integrated  2D/3D Graphics  Engine, CPU,  optional  synchronous cache,
DRAM,  and PCI bus  with pipelined,  burst, and  concurrent operation.
For  L2-Cache  solutions  using  pipelined  burst  synchronous  SRAMs,
3-1-1-1-1-1-1-1  timing  can  be  achieved  for both  read  and  write
transactions at 100 MHz.  Tag timing is specially optimized internally
(less  than 4 nsec  setup time)  to allow  implementation of  L2 cache
using an external tag for t  he most flexible cache organization (0K /
256K / 512K / 1M /  2M).  Four cache lines (16 quadwords) of CPU/cache
to  DRAM  write  buffers  with concurrent  write-back  capability  are
included on chip to speed up cache read and write miss cycles.

The Apollo  MVP4 supports six  banks of DRAMs  up to 768MB.   The DRAM
controller  supports  standard Fast  Page  Mode  (FP) DRAM,  EDO-DRAM,
Synchronous DRAM  (SDRAM), and Virtual  Channel Synchronous DRAM  in a
flexible mix  / match manner.   The Synchronous DRAM  interface allows
zero wait state bursting between the  DRAM and the data buffers at 100
MHz.  The six banks of DRAM can be composed of an arbitrary mixture of
1M / 2M  / 4M / 8M  / 16MxN DRAMs.  The DRAM  controller also supports
optional ECC (single-bit error  correction and multi-bit detection) or
EC (error checking) capability separately selectable on a bank-by-bank
basis.   The  DRAM Controller  can  run at  either  the  host CPU  bus
frequency (66  / 100 MHz) or  at the PC100 memory  frequency (100 MHz)
with  built-in deskew  PLL  timing control.   With  the advanced  DRAM
controller,  the  Apollo  MVP4   allows  implementation  of  the  most
flexible, reliable, and high-performance DRAM interface.

The  Apollo MVP4  also  supports  full AGP  v2.0  capability with  the
internal 2D/3D Graphics Engine for maximum software compatibility.  An
eight level request  queue plus a four level  post-write request queue
with thirty-two  and sixteen quadwords  of read and write  data FIFO’s
respectively   are  included   for  deep   pipelined  and   split  AGP
transactions.   A  single-level  GART  TLB with  16  full  associative
entries and  flexible CPU/AGP/PCI  remapping control is  also provided
for  operation  under  protected  mode operating  environments.   Both
Windows-95 VXD and Windows-98 / NT5 miniport drivers are supported.

The Apollo MVP4 supports one 32-bit  3.3 / 5V system bus (PCI) that is
synchronous  /  pseudo-synchronous to  the  CPU  bus.   The chip  also
contains a built-in AGP bus  -to- PCI bus bridge to allow simultaneous
concurrent  operations  on each  bus.   Five  levels (doublewords)  of
posted write buffers are included  to allow for concurrent CPU and PCI
operation.  For PCI master operation, forty-eight levels (doublewords)
of posted  write buffers and sixteen levels  (doublewords) of prefetch
buffers are  included for concurrent PCI bus  and DRAM/cache accesses.
The   chip  also   supports  enhanced   PCI  bus   commands   such  as
Memory-Read-Line,   Memory-Read-Multiple,   and   Memory-Write-Invalid
commands to  minimize snoop overhead.  In  addition, advanced features
are  supported such  as snoop  ahead, snoop  filtering,  L1 write-back
forward to  PCI master, and L1  write-back merged with  PCI post write
buffers  to minimize  PCI master  read latency  and  DRAM utilization.
Delayed transaction  and read caching mechanisms  are also implemented
for further improvement of overall system performance.

The Apollo MVP4 provides independent  clock stop control for the CPU /
SDRAM, PCI, and AGP buses and Dynamic CKE control for powering down of
the SDRAM.  A separate suspend-well plane is implemented for the SDRAM
control  signals  for  Suspend-to-DRAM  operation.  Coupled  with  the
324-pin Ball Grid Array VIA VT82C596B south bridge chip, a complete PC
main board can be implemented with no external TTLs.

The Apollo MVP4 controller  coupled with VIA’s highly integrated south
bridge,  the   VT82C686A,  is  ideal  for   high  performance,  energy
efficient,  and  highly integrated  computer  systems.  The  VT82C686A
supports a PCI-to-ISA bus  controller, four USB ports, dual bus-master
IDE  with UltraDMA33/66,  AC97  basic digital  audio, system  hardware
monitoring, and integrated "Super-I/O" functionality.
***Configurations:...
***Features:...
**VT82C680     Apollo P6, Pentium-Pro Chip Set               <08/30/96...
**Support chips:
**VT82C505     Pentium/486 VL to PCI Bridge                  <05/30/94...
**VT82C586/A/B PCI Integrated Peripheral Controller          <10/13/96...
**VT82C596/A   Mobile PCI Integrated Peripheral Controller   <11/05/97...
**VT82C686A/B  PCI Super-I/O Integrated Peripheral Ctrl.     <02/10/98...
**Later P-Pro/II/III/Celeron...
**Later AMD...
**Other...
*VLSI...
*Western Digital...
*Winbond...
*ZyMOS...
*General Sources:...

(c) Copyright mR_Slugs Warehouse - All rights Reserved