Intel® 80331 I/O Processor
Datasheet
Product Features
Warning: Intel Corporation products are not intended for use in life support appliances,
devices or systems . Us e of a Intel product s in such applicat ions without written
consent is prohibited.
■Integrated Intel XScale® cor e
—500, 667 and 800 MHz
—ARM* V5TE Compliant
—32 KByte, 32-way Set Associative
Instruction Cache with cache locking
—32 KByte, 32-way Set Associative Data
Cache with cache locking. Supports
write through or writ e ba ck
—2 KByte, 2-way Set Associative
Mini-Data Cache
—128- Entry Branch Target Buffer
—8-Entry Write Buffer
—4-Entry Fill and Pend Buffer
—Performance Monitor Unit
■Interna l Bus 266 MHz/64-bit
—333 MHz on D-0 stepping.
■PCI-X to PCI-X Bridge
—Primary and Seconda ry 133MHz/64-bit
PCI-X Interfaces
—8K byte Data Buffers
—Four Secondary PCI Output Cloc ks
—Secondary Bus Arbitration
—Private Device and Private Memory
■Address Translation Unit
—2 KB or 4 KB Outbound Read Queu e
—4 KB Outbound Write Queue
—4 KB Inbound Read and Write Queue
—Conn ects Interna l Bus to PCI/X Bus A
—Messag ing Unit and Expan si on ROM
■Two Programma ble 32-bi t Tim ers and
Watchdog Timer
■Eight General Purpose I/O Pins
■Two I2C Bus Interface Units
■Mem ory Controller
—PC 2700 Double Data Rate (DDR333)
SDRAM
—DDRII 400 SDRAM
—Up to 2 GB of 64-bit DDR333
—Up to 1 GB of 64-bit DDRII400
—Optional Single-bit Error Correction,
Mu lti-bit Detection Support (ECC)
—Supports Unbuffered or Registered
DIM Ms and Discrete SDRAM
—32-bit memory support
■DMA Controller
—Two Inde pendent Chann els Connected
to Inte rnal Bus
—Two 1KB Queues in Ch0 and Ch1
—CRC-32C Calculation
■Application Accelerator Unit
—RAID 6 suppo rt on D-0 st epping
—Performs optional XOR on Read Data
—Compute Parity Across Local Memory
Blocks
—1 KB/512-byte Store Queue
■Two UART (16550) Units
—6 4-byte Rece ive and Transmit FIFOs
—4 -pin, Master /Slave Capable
■Perip heral Bus Interfa ce
—8-/16-bit Data Bus with Two Chip Selects
■Interrupt Controller Unit
—F o ur P r io r i ty L ev els
—Vector Generation
—Twelve External Interrupt Pins with
High Priority Interrupt (HPI#)
■829-Ball, Flip Chip Ball Grid Array (FCBGA)
—37.5mm2and 1.27 mm ball pitch
D oc um en t Numbe r : 27 39 43-00 2
November 2004
Intel® 80331 I/O Processo r Datasheet
2November 2004 Document Number: 273943-002
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Intel® 803 31 I/O Process or Datasheet
Document Numbe r: 273943-002 November 2004 3
Contents
1.0 Introduction.........................................................................................................................7
1.1 About This Document.......... ....... ............ ....... ....... ....... ............ ....... ....... ............ ....7
1.1.1 Terminology..............................................................................................7
1.1.2 Other Relevant Documents......................................................................8
1.2 About the Intel® 80331 I/O Pro ce sso r........... ..... .... ............ ..... ..... .... ..... ..... ...........9
2.0 Features...........................................................................................................................11
2.1 Intel XScale® Core ..............................................................................................11
2.2 PCI-to-PCI Bridge Unit........................................................................................11
2.3 Addre ss Tra n slati o n Unit..... ..... .... ..... ..... ..... .... ..... ..... ............ .... ..... ..... ..... .... ..... ..12
2.4 Memory Controller...............................................................................................12
2.5 Appl icati o n Accel e r a to r Unit.. ..... ..... ..... .... ..... ..... .... ..... ..... ..... .... ..... ..... ..... .... ..... ..12
2.6 Peripheral Bus Interface.................... ....... ..... ....... .. .......... ....... ....... .. .......... ....... ..12
2.7 DMA Controller....................................................................................................13
2.8 I2C Bus Interface Unit..........................................................................................13
2.9 Messaging Unit....................................................................................................13
2.10 Int e r n al Bu s........... .... ..... ..... ..... ............ .... ..... ..... .... ............ ..... ..... .... ............ ..... ..13
2.11 UART Units .........................................................................................................13
2.12 Interrupt Controller Unit.......................................................................................14
2.13 GPIO ...................................................................................................................14
3.0 Package Inform ation ....................................................................................... .................15
3.1 Functio nal Signal Descriptions................... .......................... .......................... .....15
3.2 Package Therm al Spec ifications.... .......................... ............................... ............52
4.0 Ele ctric al Sp ec ifica tions...... .... ..... ............ ..... ..... .... ............ ..... ..... .... ............ ..... ..... .... .......53
4.1 Absolute Maximum Ratings .................................................................................53
4.2 VCCPLL Pin Requirement s.............. .......................... .......................... .................53
4.3 Tar geted DC Sp e cifica tions...... .... ..... ..... ..... .... ..... ..... ..... .... ..... ..... .... ..... ..... ..... ....54
4.4 Tar geted AC Specific at i ons...... .... ..... ..... ..... .... ..... ..... ............ .... ..... ..... ............ ....56
4.4.1 Clock Signal Ti mings.. ............................................. ...............................56
4.4.2 DDR/DDR-I I SDRAM Interface Signal Timings......................................57
4.4.3 Peripheral Bus Interface Signal T imings........................... ....... ....... .......59
4.4.4 I2C Inter face Sig n al Ti mi n g s...... ..... .... ..... ..... ..... .... ..... ..... .... ..... ............ ..61
4.4.5 UAR T Interface Signal Timin gs................... ...........................................61
4.4.6 Boundary Scan Test Signal Timings.... ................................. .................62
4.5 AC Timin g Wavefo rms . ..... .... ..... ..... ..... .... ..... ..... .... ..... ..... ..... .... ..... ..... ..... ...........63
4.6 AC Test Conditions ............... ..... ....... ....... ..... ....... .. .......... ....... .. ....... ..... ....... .......67
Intel® 80331 I/O Processo r Datasheet
4November 2004 Document Number: 273943-002
Figures 1 Intel® 80331 I/O Processor I/O Processor Functional Block Diagram ................10
2 829-Ball FCBGA Package Diagram.. ...................................... ............................34
3 Intel® 80331 I/O Processor Ballout (Bottom V iew)................ ..... ....... .. .......... ......35
4 Intel® 80331 I/O Processor Ballout - Left Side (Bottom View) ... .. ....... .......... .. ....36
5 Intel® 80331 I/O Processor Ballout - Right Side (Bottom View).................... ......37
6 Clock Timing Measurement Waveforms .............................................................63
7 Output Timing Measurement Waveforms ...........................................................63
8 I n p ut Timing Measur e men t Wave fo rms ......... .... ............ ..... ..... .... ..... ..... ............ .64
9I
2C/SMBus Interface Signal Timings.............................................. .....................64
10 UART Transmitter Receiver Timing ....................................................................64
11 DDR SDRAM Writ e Timings ........... ....................................................................65
12 DDR SDRAM Read Timings ........... ....................................................................65
13 Wri te Pr e Amble/PostAmbl e Durati o n s...... ..... .... ..... ............ ..... .... ..... ..... ............ .66
14 AC Test Load for All Signals Except PCI and DDR SDRAM ................ ..............67
15 AC Test Load for DDR SDRAM Signals ................................. ............................67
16 PCI/PCI-X TOV(max) Rising Edge AC Test Load............... .. ..... ....... .. ..... ..... ......67
17 PCI/PCI-X TOV(max) F alling Edge AC Test Load......... ....... ..... .. ....... ..... ....... ....68
18 PC I/PCI-X TOV(min) AC Test Load... ..... .... ..... ..... .... ..... ............ ..... .... ..... ..... ..... .68
Intel® 803 31 I/O Process or Datasheet
Document Numbe r: 273943-002 November 2004 5
Tables 1 Pin Description Nome nclature.............................................................................15
2 DDR SDRAM Signals. .........................................................................................16
4 MISC SDRAM Si gnals . ......................................................... ...............................17
3 DDR-II SDRAM Signals.......................................................................................17
5 Peripheral Bus Interface Signals............ ....... ....... ....... ....... ....... ....... .......... ....... ..18
6 Primary PCI Bus Signals.....................................................................................19
7 Secondary PCI Bu s Signals..................................... .......................... .................21
9I
2C Signals ..........................................................................................................23
8 Interrupt Signals...................... ............................................................................23
10 UA RT Signals.............. ............ ............ ................................................................24
11 Te st and Miscel laneou s Signals......................................................... .................26
12 Reset Str a p Si gna l s. ..... ..... .... ..... ..... ..... .... ..... ..... .... ..... ..... ............ .... ..... ..... ..... ....27
13 P ower and Ground Pins .................................... ................... ................... ............29
14 Pin Mode Behavior..............................................................................................30
15 Pin Multiplexing for Functional Modes.... ....... ......... ............ ....... ............ ..............33
16 FC-style, H-PBGA Package Dimensions ............. ....... ..... ....... .. ..... ....... ..... .. .......34
17 829-Lead Pac kage - Alphabetical B all Listings........................... ........................38
18 829-Lead Package - Alphabetical Signal Listings..... .. ....... ....... ................. .........45
19 Absolute Maximum Ratings .................................................................................53
20 Operating Conditio n s...... ..... ..... ............ .... ..... ..... .... ..... ............ ..... .... ..... ..... ..... ....53
21 DC Characteristics ..............................................................................................54
22 ICC Charac te ristics .. ..... ..... .... ..... ..... ............ .... ..... ..... ..... .... ............ ..... ..... .... ..... ..55
23 PCI Clock Timing s...............................................................................................56
24 DDR Clock Timings.............................................................................................56
25 DDR S DRAM Signal Timings..............................................................................57
26 DDR-II SDRAM Signal Timings. ..........................................................................58
27 P eripheral Bus Signal Timings ....... ................... ................... ...............................59
28 P CI Signal Tim ings................................................... ...................................... .....60
29 I2C Signal Timings...................................... ................................. ........................61
30 UA RT Signal Timings..................... ............ ................................. ............ ............61
31 B oundary S can Test Signal Timings........................................... ........................62
32 AC Measurement Conditions ..... ....... ............ ....... ............ ......... ....... ............ .......67
Intel® 80331 I/O Processo r Datasheet
6November 2004 Document Number: 273943-002
Revision History
Da t e R ev i si on # Des cr i pt io n
November 2004 002 Added D-0 text to Product Features and body text.
Revised Ball Maps and Signal designations for intel® 80331 I/O processor
design.
Added ICC numbers to Table 22.
September 2003 001 Initial Release.
Intel® 80331 I/O Processor Datasheet
Introduction
Docume nt Num ber: 273943-002 Novemb er 2004 7
1.0 Introduction
1.1 About This Document
This is the Intel® 80331 I/O Processor Datasheet. This docum ent contai ns a functional overview,
packa ge si gnal loc atio ns, ta r geted elect rical spec ifica tions , and bus functi ona l wavefor ms. Deta iled
functional descriptions other than parametric performance are published in the Int el® 80331 I/O
Processor Developer’s Manual.
Intel Corporation assumes no responsibility for any errors which may appear in this document nor
does it make a commitment to update the information contained herein.
Intel retains the r ight to make chang es to these specifications at any time, without notice. I n
particular, desc ription s of features, timings , packaging, and p in-outs does not imply a com m itment
to implement them. I n f act, this specifi cation d oes not imply a commitment by In tel to design,
manu fac ture, or sell the pr oduct described herei n.
1.1.1 Terminology
To aid the dis cussion of the Intel® 80331 I/O processor (80331) architecture, the following
term inology is us ed:
Core processor Intel XScale® core within the 80331
Lo cal pr oc e ss or Intel XScale® core within the 80331
Hos t proce ssor Processor located upstream from the 80331
Local bus 80331 Internal Bus
Local me mory Memory subsystem on the Intel XScale® core, Memory Controller or Peripheral
Bus Interface busses.
Inbound At or toward the Intern al Bus of the 80331 from the PCI interface of the ATU.
Outbound At or toward the PCI interface of the 80331 ATU from the Internal Bus.
Downstream At or toward the Secondary PCI interface from the Primary PCI
interface.
Upstream At or toward the Primary PCI interf ac e from the Secondary PCI
interface.
QWORD 64-bit data quantity (8 bytes).
DWORD 32-bit data quantity (4 bytes).
word 16-bit data quantity (2 bytes).
Intel® 80331 I/O Processor Datasheet
Introduction
8Novemb er 2004 Docu men t Number: 273943-002
1.1.2 Other Relevant Documents
1. I n tel XScale® Core Dev eloper’s Manual (273473), Intel Corporation.
2. Intel® 80331 I/O Pro ce ssor Developer’s Manual (273942), Intel Corporationl.
3. Intel® 80331 I/O Proces sor Design Guide (273823), Intel Corporationl.
4. Intel® 80331 I/O Pro cessor Specification Update (273930), Intel Corporationl.
5. PCI-t o-PCI Bridge Architect ure Specification, Revision 1.1 - PCI Special Interest Group.
6. PCI Local Bus Specification, Revision 2.3 - PCI Special Interest Group.
7. PCI-X Addendum to the PCI Local Bus Specification, Revisi on 1.0a - PCI Special Intere s t
Group.
8. PCI Bus P ower Management Interfa ce Specification, Revisi on 1.1 - PCI Special Interes t
Group.
Intel® 80331 I/O Processor Datasheet
Introduction
Docume nt Num ber: 273943-002 Novemb er 2004 9
1.2 About the Intel® 80331 I/O Processor
The 80331 is a multi-function device that integrates the Intel XScale® cor e (A RM * ar ch i te c t u re
comp liant) with i ntelligent periph erals and PCI-X to PCI-X Bridge. The 803 31 consolidate s, int o a
single sy stem:
•In tel XS ca le® co r e.
•PCI-to-P CI Bridge suppo rting PCI-X interfaces on the Primary and Seconda ry bus .
•Address Translation Unit (PCI-to-Internal Bus Application Bridge) interfaced to
the S ec ondary Bus.
•High-Performance Memory Control ler.
•Interrupt Con troller with up to 12 external interrupt inputs.
•Two Direct Memory Access (DMA) Controlle rs .
•Application Acc elerator.
•Messaging Unit.
•Peripheral Bus Interface Unit.
•Two I2C Bus Inte rfac e Units .
•Two 16550 compatible UARTs with flow control (four pins).
•Eight General Purpose Input Output (GPIO) ports.
It is an integrated processor that addresses the needs of intelligent I/O applications and helps
reduce intell ige nt I/O syste m cost s.
Intel® 80331 I/O Processor Datasheet
Introduction
10 Novemb er 2004 Docu men t Number: 273943-002
Figure 1 is a functiona l block diagram of the 80331.
Figu re 1. Inte l® 80331 I/O Processor I/O Processor Functional Block Diagram
B2472-02
Internal Bus
Primary PCI Bus Secondary PCI Bus
PCI-to-PCI
Bridge
ATU
Message
Unit
2 Channel
DMA
Controller
Interrupt
Controller
& Timers
Application
Accelerator
Arbiter
Intel XScale
®
Core
Bus Interface
Unit
32/64-bit DDR
Interface
Memory
Controller
16-bit
PBI
BRG
UART
Units
GPIO
2 - 1²C
Units
Intel® 80331 I/O Processor Datasheet
Features
Docume nt Num ber: 273943-002 Novemb er 2004 11
2.0 Features
The 80331 combines the Inte l XScale® co re wi th power ful new fe at ures to cre at e an int el li gent I/O
pro cessor. T hi s mul ti-d evice I/O Pr oces sor i s full y compl ia nt with t he P CI Local Bus Spe cifi cat ion,
Revis ion 2.3 and the PCI- to-P CI Br idge Architectu re Specificatio n , Revision 1.1. The
80331-specific features include:
The sub sections that follow briefly overview each feature. R efe r to th e Intel® 80331 I/O Processor
Deve loper’s Manual for full technical descriptions.
2.1 Intel XScale® Core
The 80331 is based upon the Intel XScale® core. The core processor operates at a maximum
frequency of 800 MHz. The instruction cache is 32 Kbytes in si ze and is 32-way set as sociative.
Also, the core processor includes a data cache that is 32 Kbytes and is 32-wa y set as socia tive, and
a mini data cache that is 2 Kbytes and is two-way set associative.
2.2 PCI-to-PCI Bridge Unit
The 8033 1 provides a PCI-X to PCI-X Bridge unit. The bri dge P rimary and Secondary PCI-X
support 64-bit 133 MHz interf aces compl iant to the PCI-X Addendum to t h e PCI Local Bus
Specification, Revision 1.0a.
•I ntel XScale® core
•Application Accelerator Unit
•Address Translation Unit
•Memory Controller
•Periph era l Bus Interface
•Two I2C Bus Interface Uni ts
•PCI-X to PCI-X Bridge with Prim ary and
Secondary 133 MHz/64-bit PCI-X
Interfaces
•Interrupt Controller Unit
•Messaging Unit
•Internal Bus
•Two DMA Controll ers
•Two UART Units
•Eight GPIOs
Intel® 80331 I/O Processor Datasheet
Features
12 Novemb er 2004 Docu men t Number: 273943-002
2.3 Address Translation Unit
An Address Translation U nit (ATU) allows PCI transactions direct access to the 80331 local
mem ory. The ATU supports transactions between PCI address space and 80331 address space.
Addres s trans lati on for th e ATU is control led thr ough pro grammable re gist ers acces sible from both
the PCI interface and the Intel XScale® core. The PCI inter face of the ATU is connecte d to the
80331 S econdary PCI inte rface of the bridge. Upstream access to the Primary PCI interface is
controlled by inverse dec ode with the addre s s windows of the bridge. Dual access to register s
allows flexibility in mapping the two addre ss spaces. The ATU also supports the power
ma nagement exte nded capabi lity conf igurat ion header that as define d by the PCI Bus Power
Management Inte rface Specification, Revision 1.1.
2.4 Memory Controller
The Memor y Controll er allows dire ct control of a DDR SDRAM memory subs ystem. It features
pr ogrammable chip sel ects and suppo rt for error correction codes (ECC). The memory controller
ma y be conf igured for DDR SDRAM at 333 MHz (with 500 MHz and 667 MHz processors) or
DDR- II SDRAM at 400 MHz (wit h 500 MHz and 800 MHz processors). The memory contr oller
interface configuration support includes Unbuffered DIMMs, Registered DIMMs, and discrete
DDR SDRAM devices. The memory cont oller is dua l-ported, with a dedicated interface for the
I ntel XScale® core Bus Interface Unit and a se cond interface to the Inte rnal Bus.
External memory may be configured as host a ddressable memory or private 803 31 memory
u tilizing the Address Tra nslation Unit an d Bridge.
2.5 Application Accelerator Unit
The Application Accelerator Unit (AA) provides low-latency, high-throughput data transfer
cap abili ty be tween th e AA unit, t he 80331 loc al memo ry and the PCI bu s. It e xecut es data tr ansfe rs
from and to the 80331 local memory, from the PCI bus to the 80331 local memory, or from the
80331 local mem ory to the PCI bus. The AA unit performs XOR operations, computes parity,
generates a nd verifies an eight byte data integr ity field, performs m em ory block fills, and provides
the necessary programming interface. The AAU has been enhanced to support RAID 6 in the D-0
stepping of the 80331.
2.6 Peripheral Bus Interface
The Peripheral Bus Interface Unit is a data comm unication path to the fl as h memory components
or other peripherals of an 80331 hardware system. The PBI incl udes support for either 8/16 bit
devices. To perform these tasks at high bandwidth, t he bus features a burst transfer capabilit y
which allows successive 8/16-bit data transfers.
Intel® 80331 I/O Processor Datasheet
Features
Docume nt Num ber: 273943-002 Novemb er 2004 13
2.7 DMA Controller
The DMA Controller allows low-latenc y, high-throughput data transfe rs between PCI bus age nts
an d th e local memo ry. Two separate DMA channels accommodate data transfe rs to th e PCI bus.
Both channels include a local m em o r y to local memory tr ansfer mode. The DMA Controller
supports chaining and unal igned data tra nsfers. It is progr ammable through the Intel XScale® cor e
only.
2.8 I2C Bus Interfa ce Unit
The I2C (Inter-Integrated Circuit) Bus Interface Unit allows the Intel XScale® core to serve as a
maste r and slave devic e residing on the I2C bus. The I2C un it us es a seri al bus deve lope d by Phi lips
Semiconduct or*, consisting of a two-pin inter face. The bus allows the 80331 to interface to other
I2C peripher als and microcontrollers for s ystem management f unctions. It requires a minim um of
hardware component s for a n eco nomi cal syste m to relay status and reliability inform ation on the
I/O subsystem to an external device. Also refer to I2C Periph erals fo r Mi crocontrollers (Philips
Semiconductor).
The 80331 includes two I2C bus interface units.
2.9 Messaging Unit
The Messaging Unit (MU) provides data tra nsfer betwe en the PCI s ystem and the 80331. It uses
interrupts to notify each system when new data arrives. The MU has four messaging mechanisms:
•Message Registers
•Doorbell Registers
•Circular Queues
•Index Registe rs
Each messaging mechanism allows a host processor or external PCI device and the 80331 to
communicate through message passing and interrupt generation.
2.10 Internal Bus
The Int ernal Bus is a high-speed interconne ct between internal units and Intel XScale® core
processor. The Internal Bus operat es at 266 MHz and is 64 bits wide . Th e internal bus on the D- 0
stepping of the 80331 operates at 333MHz.
2.11 UART Units
The 80331 includes two UART units. The UART units allow the Intel XScale® cor e to serve as a
maste r and slav e devic e residin g on the UAR T bus. The UAR T unit s use a seri al bus con sis ting of a
four-pin interfa ce. The bus all ows the 80331 to interface to other peripherals and microcontrollers.
Also refer to 16550 Dev ice Specification (Nat ional Semic onductor*).
Intel® 80331 I/O Processor Datasheet
Features
14 Novemb er 2004 Docu men t Number: 273943-002
2.12 Interrupt Controller Unit
The Interrupt Controller Unit (ICU) aggregates interrupt sources both external and inte rnal of the
80331 to the Intel XS cale® core processor. The ICU supports high performance interrupt
pr ocessing wi th direct in terrupt servi ce rou tin e vector g enerat ion on a pe r source basis. Each sourc e
has programmability for masking, core processor interrupt input, and priority.
2.13 GPIO
The 80331 includes eight General Pu rpose I/O (GPIO) pins which can also be used as external
interrupt inpu ts.
Intel® 80331 I/O Processor Datasheet
Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 15
3.0 Package Informatio n
The 8033 1 is of fered in a Flip Chi p Ball Grid Array (FCBGA) package. This is a full grid array
packa ge with 829 ball connecti ons .
3.1 Functional Signal Descriptions
Table 1. Pin Description Nomenclature
Symbol Description
C Configuration
I I np ut pi n only
O Output pin only
I/O Pin may be either an input or output.
OD Open Drain pin
PWR Pow er pin
GN D Groun d pi n
- Pin must be connected as described.
Sync(...) Synchronous. Signal meets timings relative to a clock.
Sync(P) Synchronous to P_CLK
Sync(M) Synchronous to M_CK[2:0]
Sync(S) Synchronous to S_CLKIN
Sync(T) Synchronous to TCK
Async Asynchronous. Inputs may be asynch ronous relative to all clocks. All asynchrono us signals
ar e le ve l-s en s itive.
Rst(P) The pin is res et with P_RST#
Rst(S) The pin is res et with S_RST#. Note that S_RST# is asserted when P_RST# is asserted .
Rst(M) The pin is reset with M_RST#. Note that M_RST# is ass erted when P_RST#is asserted or is
asserted with s oftware.
Rst(T) The pin is reset with TRST#.
Intel® 80331 I/O Processor Datasheet
Package Information
16 Novemb er 2004 Docu men t Number: 273943-002
Table 2. DDR SDRAM Signals
Name Count Type Description
M_CK[2:0] 3OMemory Clocks are used to provide the positive differential
clocks to the external SDRAM memory subsystem.
M_CK[2:0]# 3OMemory Clocks are use d to pr o vi de the ne gativ e differ e nt ial
clocks to the external SDRAM memory subsystem.
M_RST# 1O
Async Memory Res et indicates when the memory subsystem has
been reset with P_RST# or a so ftware r eset .
MA[13:0] 14 O
Sync(M), Rst(M) Memory Address Bus carries the multiplexed row and
column a ddresses to the SDRAM memory banks.
BA[1:0] 2O
Sync(M), Rst(M) SDRAM Bank Addre ss indicates which of the SDRAM
internal banks are read or written during the current
transaction.
RAS# 1O
Sync(M), Rst(M) SDRAM Row Address Strobe indicates the presence of a
valid row address on the Multiplexed Address Bus MA[12:0].
CAS# 1O
Sync(M), Rst(M) SDRAM Co lumn Address Strobe in dicat e s the p r ese nce of a
valid co lumn address on the Mult ipl exed Address Bus
MA[12:0].
WE# 1O
Sync(M), Rst(M) SDRAM Write Enable indicates that the current memory
transaction is a write operation.
CS[1:0]# 2O
Sync(M), Rst(M) SDRAM Chip Select enables the SDRAM devices for a
memory access (Ph y sica l banks 0 and 1).
CKE[1:0] 2O
Sync(M), Rst(M) SDRAM Clock Enable enables the clocks for the SDRAM
memory. Deasserti ng will place t he SDRAM in self-refres h
mode.
DQ[63:0] 64 I/O
Sync(M), Rst(M) SDRAM Data Bus carries 64-bit data to and from memory.
Dur ing a data cycle, read or write dat a is present on one or
more contig uous bytes. During wr ite o perations, unus ed pins
ar e driven t o de termi na te va lues.
CB[7:0] 8I/O
Sync(M), Rst(M) SDRAM ECC Check Bits ca r ry th e 8-b it EC C code to an d
from memory during data cy cles.
DQS[8:0] 9I/O
Sync(M), Rst(M) SDRAM Data Strobes carry the strobe signals, output in write
mode and input in read mo de for source sy nchronou s dat a
transfer.
DM[8:0] 9O
Sync(M), Rst(M) SDRAM Data Mask controls which bytes on the data bus
should be written. When DM[8:0] is asserted, the SDRAM
devices do not accept valid data from the byte lanes.
Total 120
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Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 17
Table 3. DDR-II SDRAM Signals
Name Count Type Description
DQS[8:0]# 9I/O
Sync(M)
Rst(M)
SDRAM Data Strobes car ry the diff erential strobe signals in
DDR-II mode, output in write mode and i nput in read mode for
s ource synchronous dat a transfer.
ODT[1:0] 2O
Sync(M)
Rst(M)
On Die Termination Control, turns on SDRAM termination
during writes.
DDRRES[2:1] 2I/OCompensation For DDR OCD (analog) DDR-II mode only.
Total 13
Table 4. MISC SDRAM Signals
Name Count Type Description
DDRCRES0 1OAnalog VSS Ref Pin (analog) both DDRSLWCRES and
DDRIMPCRES sign al s conn ec t to this pi n throug h a refere nc e
resistor.
DDRSLWCRES 1 I/O Compensation Voltage Reference (analog) f or DDR driver slew
rate control connected through a resistor to DDRCRES0.
DDRIMPCRES 1 I/O Compensation Voltage Reference (analog) f or DD R driver
im pedance contro l connected t hrough a resistor to DDRCRES0.
Total 3
Intel® 80331 I/O Processor Datasheet
Package Information
18 Novemb er 2004 Docu men t Number: 273943-002
Table 5. Peripher al Bus Interface Signals
Name Count Type Description
A[22:16] 7O
Rst(M) Address Bus 22:16 ca rr ies a de mul t ip lexe d ve rs ion of ad dres s bi t s
A22:16. During address (Ta), wait state (Tw) and data cycles (Td)
cycles, A22:16 rep res ent s the u pper seven address bits for the
current acce ss. A22:16 allows the PBI interface to address up to
8 Mbytes per peripheral device.
See “Table 12, “Reset Strap Signals” on page 27” for a functional
description.
AD[15:0] 16 I/O
Rst(M) Addre ss/Data Bus carries 16-bit physical addresses and 8-, or
16-bit data to and from memory. During an address (Ta) cycle, bit s
2-31 conta in a physical word address (bit s 0-1 indicate SIZE; se e
below). Durin g a data (Td) cycle, bits 0- 7, or 0-15 contain read or
write da ta, de pend in g on the co r res pond in g bu s w idth .
During w rite operatio ns to 8-bit w ide memory regions, the PBI
drives unused bus pins high or lo w.
SIZE, w hich comprises bi ts 0-1 of the AD lines during a Ta cycle,
specifies the number of data transfers during the bus transaction.
AD1 AD0
0 0 1 Transfer
0 1 2 Transfers
1 0 3 Transfers
1 1 4 Transfers
See “Table 12, “Reset Strap Signals” on page 27” for a functional
description.
A[2:0] 3O
Rst(M) Addr es s B us 2: 0 carri es a demultiplexe d vers ion of bits 2: 0 of the
AD[15:0] bu s. Dur ing a n address (Ta) cycle, bits A[2:0] matches
AD[2:0]. Dur ing a bursted read data (Td) cycle, A[2:0 ] will
represent the current byte address in the bursted transaction.
A[2:1] are used for an 16-bit wide peripheral while A[1:0] are used
for an 8-bit wide peripheral.
See “Table 12, “Reset Strap Signals” on page 27” for a functional
description.
ALE 1O
Rst(M) Address Latch Enable indi cat es th e tr ansf e r of a ph ysica l a dd res s.
The pin is asserte d during the first address cycle and deasserted
during the second address cycle.
POE# 1O
Rst(M) Peripheral Output Enable Indicates whether th e bus access is a
wr ite or a read with respect to the I/O processor and i s valid during
the entire bus access. This pin may be used to control the OE#
input on peripheral devices.
0 = Read
1 = Write
PWE# 1O
Rst(M) Peripheral Write Enable indicates whether the bus access is a
wr ite or a read with respect to the I/O processor and i s valid during
the entire bus access. This pin is use for flash memory accesses
and cont rols the WE# input on the ROM.
0 = Write
1 = Read
PCE[1]# 1O
Rst(M) Pe riphera l Chip Enables specify which of the tw o memory address
ranges are associated with current bus access. The pin remains valid
during the entire bus access.
PCE[0]# 1O
Rst(M) Pe riphera l Chip Enables specify which of the tw o memory address
ranges are associated with current bus access. The pin remains valid
during the entire bus access.
Total 31
Intel® 80331 I/O Processor Datasheet
Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 19
Table 6. P rim ary PCI Bus Signals (Shee t 1 of 2)
Name Count Type Description
P_AD[31:0] 32 I/O
Sync(P)
Rst(P)
Primary PCI Address/Data is the multiplexed PCI address and
lower 32 bits of the data bus.
P_AD[63:32] 32 I/O
Sync(P)
Rst(P)
Pr imar y PC I Add r ess/ D at a is the up pe r 32 bi t s o f the PCI d ata bu s
drive n dur ing t he data phase.
P_PAR 1 I/O
Sync(P)
Rst(P)
Pri mary PCI Bus Parit y is even parity across P_AD[31:0] and
P_C/BE[3:0]#.
P_PAR64 1 I/O
Sync(P)
Rst(P)
Prim ary PCI Bus Upper DWORD Parity is even par ity across
P_AD[63:32] and P_C/BE[7:4]#
P_C/BE[7:0]# 8 I/O
Sync(P)
Rst(P)
Primary PCI Bus Command an d Byte Enables are multi plexed
on the sa me PCI pins. Dur ing the address phase, they define the
bus command. During the data phas e, they are use d as byt e
enables for P_AD[63:0].
P_REQ# 1O
Sync(P)
Rst(P)
Primary PCI Bus Request indicates to the PCI bus arbiter that the
I/O processo r desires use of the PCI bus.
P_REQ64# 1 I/O
Sync(P)
Rst(P)
Pr imary PCI Bus Re quest 64 -Bit Tr ansfer indicates the attempt
of a 64-bit transaction on the PCI bus. When the target is 64-bit
capable, the target ack nowledges the attempt with the assertion of
P_ACK64#.
P_IDSEL 1I
Sync(P) Primary PCI Bus Initialization Device Select is u sed t o sele ct the
80331 during a Co nfi guratio n Read or Wr it e command on the PCI
bus.
P_GNT# 1I
Sync(P) Pri ma ry PCI Bus Grant indicates that access to the PCI bus has
been granted.
P_ACK64# 1 I/O
Sync(P)
Rst(P)
Primary PCI Bus Acknowledge 64-Bit T ransfer indi cat es t hat th e
device has positively decoded its address as the target of the
current access and the target is willing to transfer dat a using the full
64-bit data bus.
P_FRAME# 1 I/O
Sync(P)
Rst(P)
Prima ry P CI Bu s C yc le F ram e is as serte d to indica te the
beginning and duration of an access.
P_IRDY# 1 I/O
Sync(P)
Rst(P)
Primary PCI Bus Initiator Ready indicates the initiating agent’s
ability to complete the current data phase of the transaction. During a
write, it indicates that valid data is present on the Address/Data bus.
During a read, it indicates the processor is ready to accept the data.
P_TRDY# 1 I/O
Sync(P)
Rst(P)
Primary PCI Bus Target Ready indicates the target agent’s ability
to complete the current data phase of the tr ansact ion. During a read,
it indicates that valid data is present on the Address/Dat a bus. During
a write, it indicates the target is ready to accept the data.
P_STOP# 1 I/O
Sync(P)
Rst(P)
Pri mary PCI Bu s Stop indicates a request to stop the current
transaction on the PCI bus.
P_DEVSEL# 1 I/O
Sync(P)
Rst(P)
Prima ry P CI Bu s D ev ice Sele ct is driven by a target agent that
has succe ssfu lly decoded the address. As an input, it indicates
whether or not an agent has been selected.
P_SERR# 1 I/O
OD
Sync(P)
Rst(P)
Pri mary PCI Bus Sys tem Erro r is dr iven for addr ess parity error s
on the PC I bus.
Intel® 80331 I/O Processor Datasheet
Package Information
20 Novemb er 2004 Docu men t Number: 273943-002
P_PERR# 1I/O
Sync(P)
Rst(P)
Primary PCI Bus Parity Error is asserted when a da ta p arity error
occurs during a PC I bus transaction.
P_M66EN 1I/OPrima ry PCI Bus 66 MHz Ena ble ind icat es the speed of the PC I
bus. When this signal is sa mpled high the PCI b us speed is 66
MHz, when low, the bus sp eed is 33 MH z.
P_CLK 1IPrimary PCI Bus Input Clock provides the timing for all PCI
transactions and is the clock source for most internal 80331 units.
P_RST# 1I
Async
RESET brings PCI-specific registe rs, seque ncers , an d sign als t o a
c onsistent stat e. When P_RST# is asserted:
• PC I ou tput signals are dr iven to a known con s istent state.
• PC I bu s int erface ou tpu t signals are three-stated.
• Open dr ain signals such as P_SERR# are floated .
P_RST# may be asynchronous to P_CLK when asserted or
deasserted. Although asynchronous, deassertion must be
guaranteed to be a clean, bounce-free edge.
P_RCOMP 1I/OPCI Resist or Compensation Pin is an analog pad that connects to
the board r esistor to control all pci output driver strengths (analog).
Total 90
NOTE: When the PCI bridge is disable d (BRG_EN = 0), all primary P CI interface signals b ecome inacti ve,
and the secondary interface becomes a primary PCI interface.
Table 6. Primary PCI Bus S ignals (S heet 2 of 2)
Name Count Type Description
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Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 21
Table 7. Secondary PCI Bus Signals (Sheet 1 of 2)
Name Count Type Description
S_AD[31:0] 32 I/O
Sync(S)
Rst(S)
Secondary PCI Address/Data is the multiplexed PCI address
and lower 32 bits of the data bus.
S_AD[63:32] 32 I/O
Sync(S)
Rst(S)
Secondary PCI Address/Dat a is the upper 32 bits of the PCI data
bus.
S_PAR 1 I/O
Sync(S)
Rst(S)
Secondary PCI Bus Parity is even parity across S_AD[31:0] and
S_C/BE[3:0]#.
S_PAR64 1 I/O
Sync(S)
Rst(S)
Secondary PCI Bus Upper DWORD Parity is even parity across
S_AD[63:32] and S_C/BE[7:4]#.
S_C/BE[3:0]# 4 I/O
Sync(S)
Rst(S)
Secondary PCI Bus Command and Byte Enables are
mult ip le xe d on t he sam e P CI p ins. D uri ng the a dd r es s phas e, t hey
defi ne th e bus co mman d. Dur ing th e da ta ph as e, th ey ar e us ed as
the byte enables for S_AD[31:0].
S_C/BE[7:4]# 4 I/O
Sync(S)
Rst(S)
Secondary PCI Byte Enables are used as byt e enables for
S_AD[63:32] during s econdary PCI data phas es.
S_REQ64# 1 I/O
Sync(S)
Rst(S)
Secondary PCI Bus Request 64-Bit T ransfer indicates the
attempt of a 64-bit transaction on the secondary PCI bus. When
the ta rget is 64-bit capable, the targ et acknow ledges the at tempt
with the assertion of S_ACK64#.
S_ACK64# 1 I/O
Sync(S)
Rst(S)
Secondary PCI Bus A cknowledge 64-Bi t T ransf er indicates the
device has positi vely decoded its address as the target of the current
access, indicates the t arget i s willing to transfer data us ing 64 bits.
S_FRAME# 1 I/O
Sync(S)
Rst(S)
Secondary PCI Bus Cycle Frame is asserted to indicate the
beginning and duration of an ac cess.
S_IRDY# 1 I/O
Sync(S)
Rst(S)
Secondary PC I Bus Initiat or Rea dy indicates the initiat ing agent
ability to complet e current data ph ase of transacti on. Dur ing a wr ite, it
indicates valid dat a is present on the secondary Address/Dat a bus.
During a read, it in dicates the processor is ready to accept the data.
S_TRDY# 1 I/O
Sync(S)
Rst(S)
Secondary PCI Bus Target Ready indicates the t arget agent abil ity
to complete the current data pha se of the transaction. During a read,
it indicates that valid data is pres ent on the secondary Address/Data
bus. During a write, i t indicates the target is ready to accept the data.
S_STOP# 1 I/O
Sync(S)
Rst(S)
Se condary PCI Bus Stop in di cate s a requ e st to stop the cur ren t
t ran sact io n on th e se co nd ary PC I bus.
S_DEVSEL# 1 I/O
Sync(S)
Rst(S)
Secondary PCI Bus D evi ce Select is driven by a target agent
that has succe ssfu lly decoded the address . As an input, it
indicat es whether or not an agent ha s been sel ecte d.
S_SERR# 1 I/O
OD
Sync(S)
Rst(S)
Secondary PCI Bus System Error is driven for address parity
errors on the secondary PCI bus.
S_RST# 1O
Async Secondary PCI Bus Reset is an output based on P_RST#. It bring s
PCI-specif ic registers, sequencers, and si gnals to a consisten t state.
When P_RST# is asserted, it causes S_RST# to asse rt and:
• PCI output signals are driven to a known consistent state.
• PCI bus interface output signals are three-stated.
• Open dr ain si gnals such as S_SERR# are fl oate d.
S_RST# may be asynchrono us to S_CLKIN when asserted or
deasser ted. Although asynchronous, deassert ion must be
ens ured to be a clean, bounce-free edge.
Intel® 80331 I/O Processor Datasheet
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22 Novemb er 2004 Docu men t Number: 273943-002
S_PERR# 1 I/O
Sync(S)
Rst(S)
Secondary PCI Bus Parity Error is asserted when a data parity
err or during a secondary PCI bus transaction.
S_CLKO[3:0] 4OSec ondary PCI Bus Output Clocks are used to drive external
logic on the secondary PCI bus .
S_CLKOUT 1OSecondary PCI Bus Output Clock is used to drive S_CLKIN
when the IO processor provides secondary bus clocks.
S_CLKIN/
P_CLK11ISecondary PCI Bus Input Clock provides the t iming for all PCI
transacti ons. Typically connected on th e board to S_CLKOUT.
Prov id es the timin g cl ock for all se cond a ry PC I interfaces .
When t he PC I Bri dg e i s di sab led (BRG_EN=0 ) , th is i s t he Primary
PCI Input Clock, driven by an external device.
S_M66EN 1 I/O Secondary PCI Bus 66 MHz Enable ind ic at es th e sp ee d of t he
secondary PCI bus. When this s igna l is high, the bus speed is 66
MHz and when it is low, the bus speed is 33 MHz.
S_REQ[3]#/
P_IDSEL11I
Sync(S) Secondary PCI Bus Request is the reques t signal from device 3
on the secondary PCI bus.
When th e PCI Brid ge is disabled (BRG_EN=0), this pin functions
as PCI Bus Initialization Device Select and is used to select the
80331 during a Configuration Read or Write command on the PCI
bus.
S_REQ[1]#
P_GNT#11I
Sync(S) Secondary PCI Bus Request is the reques t signal from device 1
on the secondary PCI bus.
When th e PCI Brid ge is disabled (BRG_EN=0), this pin functions
as Primary PCI Bus Grant indicating that access to the PCI bus
has been granted.
S_REQ[2,0]# 2I
Sync(S) Secondary PCI Bus Requests are the request signals from
devices 2 and 0 on the secondary PCI bus.
S_GNT[3,2]# 2O
Sync(A)
Rst(A)
Secondary PCI Bus Grants are grant signal s sent to de vices
3 and 2 on the secondary PCI bus.
S_GNT[1]#/
P_REQ#11O
Sync(S)
Rst(S)
Secondary PCI Bus Grant is a grant sign al sent to dev ice 1 on
the secondary PCI bus.
When th e PCI Brid ge is disabled (BRG_EN=0), this pin functions
as Primary PCI Bus Request and indicates to the PCI bus arbiter
that the I/O processor desires use of the PCI bus.
S_GNT[0]#/
P_BMI11O/OD
Sync(S)
Rst(S)
Secondary PCI Bus Grant is a grant sign al sent to dev ice 0 on
the secondary PCI bus.
When th e PCI Brid ge is disabled (BRG_EN=0), this pin functions
as PCI Bus M aster Indicator to be used with external RAIDIOS
logic for private device co ntrol.
S_PCIXCAP 1ISecondary PCI-X Capability is an analog pad that selects PC I/X
mode and frequency capabilities. Non-standard, special purpose
analog pin.
S_RCOMP 1 I/O PCI Resistor Compensation Pin is an analog p ad that connects to
the board resistor to control all PCI output driver strengths (analog).
Total 101
NOTE: When the PCI Bridge is disabled (BRG_EN=0), all secondary PCI interface signals become primary
interfac e signals.
1. These signal functions are only valid when BRG_EN=0 and ARB_EN=0.
Table 7. Secondary PCI Bus Signals (Sheet 2 of 2)
Name Count Type Description
Intel® 80331 I/O Processor Datasheet
Packa ge Information
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Table 8. Interrupt Si gnals
Name Count Type Description
P_INT[D:A]# 4O
OD
Async
Rst(P)
Primary PCI Bus Inter rupt requests an interrupt. The assertion and
deassertion of P_INT[D:A]# is asynchronous to P_CLK. A device
asserts its P_INT[D:A]# line when requesting attention from its
device driver. Once the P_INT[D:A]# signal is asserted, it remains
asserted until the device driver clears the pending request.
P_INT[D:A]# interr upts are lev el sens itive.
S_INT[D:A]# 4I
Async
Rst(S)
Secondary PCI Bus Interrupt requests an inter rupt. The asse rtion
and deassertion of S_INT[D:A]# is asynchronous to S_CLKIN. A
device asserts its S_INT[D:A]# line when requesting attention from
its device driver . Once the S_INT[D:A]# signal is asserted, it
remains asserted until the devi ce driver clears the pending request.
S_INT[D:A]# interr upts are lev el sens itive.
HPI# 1I
Async High Priority Interrupt causes a high priority interrupt to the I/O
processor. This pin is level-detect only and is internally
synchronized.
Total 9
Table 9. I2C Signals
Name Count Type Description
SCL0 1 I/O I2C Clock provides synchr onous operatio n of the I2C bus zero.
SCD0 1 I/O I2C Data is used for dat a transf er and ar bit ration of the I2C bus ze ro.
SCL1 1 I/O I2C Clock provides synchr onous operation of t he I2C bus one.
SCD1 1 I/O I2C Data is used for data t ransfer and arbitra tion of the I2C bus one.
Total 4
Intel® 80331 I/O Processor Datasheet
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24 Novemb er 2004 Docu men t Number: 273943-002
Table 10. UART Signals (Sheet 1 of 2)
Name Count Type Description
GPIO[0]/
U0_RXD 1I/OGeneral Purpose I/O: These pins may be selected on a per pin
basis as general purpose i nputs or outp uts. The defa ult m ode is a
general purpose input.
Serial Input: Serial data input from device pin to receive shift register .
GPIO[1]/
U0_TXD 1I/OGeneral Purpose I/O: These pins may be selected on a per pin
basis as general purpose i nputs or outp uts. The defa ult m ode is a
general purpose input.
Serial Output : Composit e serial data output to the communications
link- periphe ral, modem, or data set. The TX D sig nal i s set to the
MARKING (logic 1) state upon a Reset operation.
GPIO[2]/
U0_CTS# 1I/OGeneral Purpose I/O: These pins may be selected on a per pin
basis as general purpose i nputs or outp uts. The defa ult m ode is a
general purpose input.
Clea r To S end: When l ow , this p in i ndicates t hat the r eceivi ng UAR T i s
ready to receive d at a. When t he recei ving UA RT d easserts CTS# high,
the tr ansmitting UART should stop transmission to prevent overflow o f
the receiving UARTs buffer. The CTS# signal is a modem-st atus inp ut
whose condition may be tested by the host processor or by the UART
when in Autoflow mode as described below:
Non-Autoflow Mode:
When not in Autoflow mode, bit 4 (CTS) of the Modem Status
register (MSR) indicates the state of CTS#. Bit 4 is the complement
of the CTS# si gnal. Bit 0 (DCTS) o f the Modem Status register
indica tes whether the CTS# input has ch anged state since the
previ ous re ading of the Modem Status register. CTS# ha s no effec t
on the transmitter. The user may program the UART to interrupt the
proces sor when DCTS changes state. The programmer may then
stall the o utgoing d ata stream by starving the transmit FIFO or
disabling the UART with the IER regist er.
NOTE: When UART tr ansmission is stalled by disabling the UART,
the user may not receive an MSR interrupt when CTS#
reasserts. This occurs because disabling the UART also
disables interrupts. As a workaround, the user may use Auto
CTS in Autoflow Mode, or program the CTS# pin to interrupt.
Autoflow Mode:
NOTE: In Autoflow mode, the UART Transmit circuitry will check
the state o f CTS# before transmitting each byte. When
CTS# is high, no data is transmitted.
GPIO[3]/
U0_RTS# 1I/OGeneral Purpose I/O: These pins may be selected on a per pin
basis as general purpose i nputs or outp uts. The defa ult m ode is a
general purpose input.
Request To Send: When low, this informs the remote device that
the UART is ready to receive data. A reset operation sets this signal
to i t s Ina ct iv e (h ig h) st at e. L OO P mod e o pe rat io n hol ds th i s si gnal i n
its Inactive state.
Non-Autoflow Mode:
The RTS# output signal may be assert ed by set ting bit 1 (RT S) of
the Mode m Contr ol register to a 1. The RTS bi t is the complement
of the RTS# si gnal .
Autoflow Mode:
RTS# is automatically asserted by the autoflow circuitry when the
Receive buffer exceeds its programmed threshold. It is deasserted
when enough byt es ar e removed from th e buffer to lower the data
l ev el bac k to t h e thr e sh ol d.
Intel® 80331 I/O Processor Datasheet
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Docume nt Num ber: 273943-002 Novemb er 2004 25
GPIO[4]/
U1_RXD 1 I/O General Purpose I/O: These pins may be selected on a per pin
basis as general purpose inputs or outputs. The default mode is a
general purpose input.
Seria l Input: Serial data input from device pin to receive shift register.
GPIO[5]/
U1_TXD 1 I/O General Purpose I/O: These pins may be selected on a per pin
basis as general purpose inputs or outputs. The default mode is a
general purpose input.
Serial Output: Composite serial data output to the communications
link-peripheral, modem, or data set. The TXD signal is set to the
MARKING (logic 1) state upon a Reset operation.
GPIO[6]/
U1_CTS# 1 I/O General Purpose I/O: These pins may be selected on a per pin
basis as general purpose inputs or outputs. The default mode is a
general purpose input.
Cle ar To Sen d: When low , this pin indicate s that the receiving U ART is
ready to receive dat a. When t he receivi ng U ART deass ert s CTS# high,
the transmitt ing UART should stop transmission to prevent overflow of
the receiving UARTs buffer. The CTS# signal is a modem-st atus input
whose condition may be tested by the host processor or by the UART
when in Autoflo w mode as descr ibed belo w:
Non-Autoflow Mode:
When not in Autoflow mode, bit 4 (CTS) of the Modem Status
register (MSR) indicates the stat e of CTS#. Bit 4 is the complement
of the CTS# signal. Bit 0 ( DCTS) of the Modem Status register
indicates whether the CTS# inp ut ha s ch an ged sta te since t he
prev ious reading of the Mode m Sta tus regi ster. CTS# has no effect
on the transmitter. The user may program the UART to interrupt the
processor when DCTS ch ange s sta te. The programmer ma y then
s tal l th e outgoing data stream by starv ing the transmit FIFO or
disabling the UART with the IER register.
NOTE: When UART transmission is stalled by disabling the UART,
the user may not receive an MSR interrupt when CTS#
reasserts. This occurs because disabling the UART also
disables interrupt s. As a workaround, the user may use Auto
CTS in Autoflow Mode, or program the CTS# pin to in te rrupt.
Autoflow Mode:
NOTE: In Autoflow mode, the UART Transmit circuitry will check
the stat e of CTS# before transmitting each byte. When
CTS# is high, no data is transmitted.
GPIO[7]/
U1_RTS# 1 I/O General Purpose I/O: These pins may be selected on a per pin
basis as general purpose inputs or outputs. The default mode is a
general purpose input.
Reque s t To Send: When low, this informs the remote device that
the UART is ready to receive data. A reset operation sets this sig nal
to it s Inac t ive (hi gh ) st a te. LOO P mo de op era tio n h ol ds t his si gna l in
its Inac tiv e state.
Non-Autoflow Mode:
The RTS# output signa l may be asser ted by settin g bit 1 (RT S) of
the Mo dem Control regis ter to a 1. The RTS bit is the complement
of the RTS# si gn al.
Autoflow Mode:
RTS# is automati call y asserte d by the autoflow ci rcuitry when the
Receive buffer exceeds its pr ogrammed threshold. It is deassert ed
when enough bytes are removed from the buffer to lower the data
level back to the threshold.
Total 8
Table 10. UART Signals (Sheet 2 of 2)
Name Count Type Description
Intel® 80331 I/O Processor Datasheet
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26 Novemb er 2004 Docu men t Number: 273943-002
Table 11. Test and M iscel laneou s Signal s
Name Count Type Description
TCK 1ITe st Clo c k provides clock input for IEEE 1149.1 Boundary Scan
Tes ti ng (J TAG ). State inf or m a tion an d data are clocked int o the
devi ce o n t he r is in g cloc k ed ge an d da ta is c lo cke d out on th e fal l ing
clock edge.
TDI 1I
Sync(T) Te st Data Input is the JTAG serial input pin. TDI is sampled on the
risin g edge of TCK, during the S HIFT-IR and SHIFT-DR states of
the Test Access Port. This signal has a weak internal pull-up to
ensure proper opera tio n when thi s pin is not bei ng driven.
TDO 1O
Sync(T)
Rst(T)
Test Data Output is th e se ria l ou tput pin for t he JTAG fe atur e . TDO
is driven on the falling edge of TCK during the SHIFT-IR and
SHIFT-DR states of the Tes t Access Port. At other times, TDO
f loa ts. The be ha vi or of TDO is independent of P_RST#.
TRST# 1I
Async Test Reset asynchronously resets the Test Access Port controller
function of IEEE 1149 Boundary Scan Testing (JTAG). This pin has
a weak internal pull-up.
TMS 1I
Sync(T) Te st Mode Selec t is sampled on the rising edge of TCK t o se l e ct
the op era tion of the test logic f or IEEE 1149 Boundary Scan testing.
This pin has a w eak internal pull -up.
N/C 64 - No Connect. Do not connect to any signal, power or ground.
PU1 1IPullup 1 must be pulled high.
NOTE: This signal was formerly known as P_LOCK#.
PU2 1IPullup 2 must be pulled high. Is controlled by PCIODT_EN.
NOTE: This signal was formerly known as S_LOCK#.
PWRDELAY 1I
Async P ow er Fai l Dela y is used to delay the reset of the memory
controller in a power-fail condition. This allows the self-refresh
comman d to be sent to the DDR SDRAM array.
Total 72
Intel® 80331 I/O Processor Datasheet
Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 27
Table 12. Reset Strap Signals (Sheet 1 of 2)
Name Count Type Description
RETRY 1CConf igurat ion Re try Mode: RETRY is latched on the rising
(deasser ting) edge of P_RST# and determines w hen the PCI inter face
of the ATU will disable PCI c onfiguration c y c les by signaling a retry
until the conf igurat ion cycle retr y bit is cleared in the PCI configur ati on
and status register.
0 = Configuration Cycles enabled (Requires pull down resistor.)
1 = Configuration Retry enabled in the ATU (Defau lt mo de)
NOTE: Muxed onto signal AD[6], see Table 15, “P in Multiplexing
for Functional Modes” on page 33.
CORE_RST# 1CCore Reset Mode is latc hed on th e rising (deasser ting) edge of
P_RST# and determines w hen the Intel XS cale ® core is held in reset
until the proce ssor reset bi t is cleared in PCI configuratio n and status
register.
0 = Hold in reset. (R equires pull-down r esistor.)
1 = Do not hold in reset. (Default mode)
NOTE: Muxed onto signal AD[5], see Table 15, “P in Multiplexing
for Functional Modes” on page 33.
P_BOOT16# 1CBus W idth is latched on the rising (deasserting) edge of P_RST#, it
sets the default bus width for the PBI Memory Boot window.
0 = 16 bit s wide (Requires a pull -down resis tor.)
1 = 8 bits wid e (Default mode)
NOTE: Muxed onto signal AD[4], see Table 15, “P in Multiplexing
for Functional Modes” on page 33.
MEM_TYPE 1CMemor y Type: MEM_TYPE is latched on the r ising (deasserting)
edge of P_RST# and it defines the speed of the DDR SDRAM
interface.
0 = DDR-II SDRAM at 400 MHz (Required pull-down resistor.)
1 = DDR SDRAM at 333 MHz (Default mode)
NOTE: Muxed onto signal AD[2], see Table 15, “P in Multiplexing
for Functional Modes” on page 33.
S_PCIX133EN 1 Config Secondary PCI Bus 133 MHz Enable: S_PCIX133EN latched on
rising (deasserting) edge of P_RST# and deter mines maximum
PCI-X mode operating frequency.
0 = 100 MHz enabled (Requires pull down resistor.)
1 = 133 MHz enabled (Default mode)
NOTE: Muxed onto signal AD[3], see Table 15, “P in Multiplexing
for Functional Modes” on page 33.
PRIVMEM 1 Config Private Memory Enable: PRIVMEM latched at r isin g (d eass ertin g)
edge of P_RST# and determines if 80331 operates with Private
Memor y S p a ce on the se co nd ary P CI bu s of th e PCI -t o-P CI Brid ge .
0 = Normal add ress ing mo de (Requires pull-down resistor)
1 = Private Addressing enable in PCI-to-PCI Bridge. (Default
mode).
NOTE: Muxed on to si gn al A[1], see Table 15, “Pin Multiplexing for
Functional Modes” on page 33.
PRIVDEV 1 Config Pri va t e Dev i ce En ab le : PRIVDEV latched at r ising (deasserting)
edge of P_RST# and determines if 80331 operates with Private
Device enab led on the secondary PCI bus of the PCI-to-PCI
Bridge.
0 = All Secondary PCI devices are accessible to Primary PCI
config cycles. (Requires pull-down resistor)
1 = Private Devices enabled in PCI-to-PCI Bridge. (Default mode)
NOTE: Muxed on to si gn al A[0], see Table 15, “Pin Multiplexing for
Functional Modes” on page 33.
Intel® 80331 I/O Processor Datasheet
Package Information
28 Novemb er 2004 Docu men t Number: 273943-002
BRG_EN 1ConfigBridge En able: BRG_EN la tched at rising (deassert ing) edge of
P_RST# and determines if 80331 operate s with PCI-to-PCI Bridge .
0 = Disable Bridge, enable P_CLK inpu t on S_CLKIN input.
(Requires pull-down resistor)
1 = Enabled Bridge. (Default mode )
NOTE: Muxed ont o sign al AD[0], s ee Table 15, “Pin Multiplexing
for Functional Modes” on page 33.
ARB_EN 1ConfigInter nal Arbite r Enable: ARB_EN is latched on the rising
(deasserting) edge of P_RST# and it determines if the PCI interf ace
will enable the integrated arbiter, or use an external arbiter.
NOTE: ARB_EN only valid when PCI bridge disabled (BRG_EN=0).
0 = Internal Arbiter disab led (Requi res pull-down resistor).
1 = Inte rnal Arbiter enabled (Defau lt mo de).
NOTE: Muxed ont o sign al AD[1], s ee Table 15, “Pin Multiplexing
for Functional Modes” on page 33.
P_32BITPCI# 1ConfigPrimary PCI-X Bus Wi dth: P_32BITPCI# is latched on the rising
(deasserting) edge of P_RST#, and by default, identifies 80331
subsystem as 64-bit unless the appropriate pull-down resistor is
used. This strap sets bit 16 in the PCI-X Bridge status register.
0 = 32 bit wide bus. (Requires pull-down resistor).
1 = 64 bit wide bus. (Defau lt mod e).
NOTE: Muxed onto signal A[2], see Tabl e 1 5, “ Pin Mul t ip lexi ng fo r
Functional Modes” on page 33.
PCIODT_EN 1CPCI Bus ODT Enable: PCIODT_EN is latched on the rising
(deasserting) edge of P _RST#, and determines when the PCI-X
interface w ill have On Die Termination enabled. PCI ODT enable is
valid for the secondary PCI bus only.
The following signals are affected by PCIODT_EN :
S_AD[63:32], S_C/BE [7:4]#, S_PAR64, S_REQ64#, S_REQ[3:0]#,
S_ACK64#, S_ FRAME#, S_IRDY#, S_ DEVSEL#, S_TRDY#,
S_STOP#, S_PERR#, S_LOCK#, S_M66E N, S_ SERR#,
S_INT[D:A]#
0 = ODT disab led on the secondary PCI bus. ( Requires pu ll-down
resistor).
1 = ODT enable d on th e secondary PCI bus. (Default mode).
NOTE: Muxed ont o sign al A[20], see Table 15, “P in Multiplexing
for Functional Modes” on page 33.
Total 11
Table 12. Reset Strap Signals (Sheet 2 of 2)
Name Count Type Description
Intel® 80331 I/O Processor Datasheet
Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 29
Table 13. Power and Ground Pins
Name Count Type Description
VCCPLL[1-5] 4PWRPLL 1-5 Power is a separate VCC15 supply ball for the phase lock
loop clock generator. It is to be connected to the board VCC15 plan e.
Each VCCPLL requires a lowpass filter circuit to reduce
noi se - indu ced cl ock jitt er an d i ts effects on t imi ng re l atio ns hi ps. Se e
the Intel® 8033 1 I/O Pr oc es s or D es ig n G uid e for more information.
Note: There is no VC CPLL3 signal.
VCC33 49 PWR 3.3 V Power balls to be connected to a 3.3 V power board plane.
VCC25/18 29 PWR 2. 5 V/1.8 V Power bal ls to b e connected to a 2.5 V or 1.8 V power
board plane, dependent on DDR o r DDRII mode.
VCC15 58 PWR 1.5 V Power balls to be connected to a 1.5 V power board plane.
VCC13 7PWR1.3 V Power balls to be co nnected to a 1.35 V power board plane.
DDR_VREF 1ISDRAM Voltag e Referen ce is u se d t o supp ly th e ref er enc e vo lt a ge
to the dif ferential inputs of the me mory cont roller pins.
VSS 226 GND Ground balls to be connected to a ground board plane.
VSSA[1-5] 4GNDAnalog Ground balls need to be connected to the appropriate
VCCPLL filter, and not to board ground.
Note: There is no VSSA3 signal.
Intel® 80331 I/O Processor Datasheet
Package Information
30 Novemb er 2004 Docu men t Number: 273943-002
Table 14. Pin Mod e Behavior (Sheet 1 of 3)
Pin Reset
Lind
Reset
Lind
nobrg
Norm
Lind
Norm
Lind
nobrg
ECC
off
DDR
32Bit
DDR 32Bit
P_PCI 32Bit
S_PCI
M_CK[2:0] X (1) X (1) VO VO VO VO - -
M_CK[2:0]# X (1) X (1) VO VO VO VO - -
M_RST# 0 0 VO VO VO VO - -
MA[13:0] 0* 0* VO VO VO VO - -
BA[1:0] 0* 0* VO VO VO VO - -
RAS# 1* 1* VO VO VO VO - -
CAS# 1* 1* VO VO VO VO - -
WE# 1* 1* VO VO VO VO - -
CS[1:0]# 1* 1* VO VO VO VO - -
CKE[1:0] 0* 0* VO VO VO VO - -
DQ[63:32] Z* Z* VB VB VB Z - -
DQ[31:0] Z* Z* VB VB VB VB - -
CB[7:0] Z* Z* VB VB VB VB - -
DQS[8] Z* Z* VB VB ID,Z VB - -
DQS[7:4] Z* Z* VB VB VB ID,Z - -
DQS[3:0] Z* Z* VB VB VB VB - -
DQS[8]# Z* Z* VB VB ID,Z VB - -
DQS[7:4]# Z* Z* VB VB VB ID,Z - -
DQS[3:0]# Z* Z* VB VB VB VB - -
DM[8] Z* Z* VO VO Z VO - -
DM[7:4] Z* Z* VO VO VO Z - -
DM[3:0] Z* Z* VO VO VO VO - -
DDR_VREF VI VI VI VI VI VI - -
ODT[1:0] (2) 0 0 VO VO VO VO - -
DDRRES[2:1] Z* Z* VB VB VB VB - -
DDRCRES0 0 0 0000 - -
DDRSLWCRES VB VB VB VB VB VB - -
DDRIMPCRES VB VB VB VB VB VB - -
A[22:16] H H VO VO - - - -
AD[15:0] HHVBVB-- - -
A[2:0] H H VO VO - - - -
ALE 0 0 VO VO - - - -
POE# 1 1 VO VO - - - -
PWE# 1 1 VO VO - - - -
PCE[1]# H H VO VO - - - -
PCE[0]# H H VO VO - - - -
P_AD[63:32] ZZVBH--H -
P_AD[31:0] 0ZVBH--VB-
P_PAR ZZVBH--VB-
Intel® 80331 I/O Processor Datasheet
Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 31
P_PAR64 ZZVBH--H-
P_C/BE[7:4]# ZZVBH--H-
P_C/BE[3:0]# ZZVBH--VB-
P_REQ# 1ZVOZ--- -
P_REQ64# VI H VB H - - - -
P_IDSEL VI H VI H - - - -
P_GNT# VI H VI H - - - -
P_ACK64# ZHVBH-- - -
P_FRAME# ZHVBH-- - -
P_IRDY# ZHVBH-- - -
P_TRDY# VI H VB H - - - -
P_STOP# VI H VB H - - - -
P_DEVSEL# VI H VB H - - - -
P_LOCK# ZHVBH-- - -
P_SERR# ZHVBH-- - -
P_CLK VI H VI H - - - -
P_RST# VI VI VI VI - - - -
P_PERR# ZHVBH-- - -
P_M66EN VB H VB H - - - -
S_AD[63:32] Z Z VB VB - - - H
S_AD[31:0] 0 Z VB VB - - - -
S_PAR 0 Z VB VB - - - -
S_PAR64 Z Z VB VB - - - H
S_C/BE[3:0]# 0 Z VB VB - - - -
S_C/BE[7:4]# Z Z VB VB - - - H
S_REQ64# VO VI VB VB - - - -
S_ACK64# Z Z VB VB - - - -
S_FRAME# Z Z VB VB - - - -
S_IRDY# Z Z VB VB - - - -
S_TRDY# VO VI VB VB - - - -
S_STOP# VO VI VB VB - - - -
S_DEVSEL# VO VI VB VB - - - -
S_SERR# Z Z VB VB - - - -
S_RST# VO Z VO Z - - - -
S_PERR# Z Z VB VB - - - -
S_LOCK# Z Z VB VB - - - -
S_CLKO[3:0] VO Z VO Z - - - -
S_CLKOUT VO Z VO Z - - - -
Table 14. Pin Mode Behavi or (Sheet 2 of 3)
Pin Reset
Lind
Reset
Lind
nobrg
Norm
Lind
Norm
Lind
nobrg
ECC
off
DDR
32Bit
DDR 32Bit
P_PCI 32Bit
S_PCI
Intel® 80331 I/O Processor Datasheet
Package Information
32 Novemb er 2004 Docu men t Number: 273943-002
S_CLKIN VI VI VI VI - - - -
S_M66EN VB VB VB VB - - - -
S_REQ [3 ]#/ P_IDSEL VI VI VI VI - - - -
S_REQ[1]#/ P _GNT# VI VI VI H - - - -
S_REQ[2,0]# VI H VI H - - - -
S_GNT[3,2]#, HHVOH-- - -
S_GNT[1]#/
P_REQ# H H VO VO - - - -
S_GNT[0]#/ P_BMI H H VO VO - - - -
S_PCIXCAP VI VSS VI VSS - - - -
P_RCOMP AO AO AO AO - - - -
S_RCOMP AO AO AO AO - - - -
P_INT[D:A]# ZZ
(3) Z/0 Z (3) --- -
S_INT[D:A]# VI ID VI ID - - - -
HPI# VI VI VI VI - - - -
SCL0 , SCD0, SCL1,
SCD1 HHVBVB-- - -
GPIO[3:0]/ U0_RTS#,
U0_CTS#,
U0_TXD,
U0_RXD,
VI VI VB VB - - - -
GPIO[7:4]/ U1_RTS#,
U1_CTS#,
U1_TXD,
U1_RXD
VI VI VB VB - - - -
TCK VI VI VI VI - - - -
TDI HHHH-- - -
TDO(4) VO* VO* VO VO - - - -
TRST# HHHH-- - -
TMS HHHH-- - -
PWRDELAY VI VI VI VI - - - -
NC[3:0] HHHH-- - -
NOTES:
1 = driven to VCC
0 = driven to VSS
X = driven to unk nown state
ID = The in put is disabled.
H = pulled up to VCC
PD = pull-up disabled
L = pulled down to VSS
Z = output disabled (F loats)
VB = acts like a Valid Bidirectional pin.
VO = a Valid Ou tput level is driv en.
VI = Need to driv e a Valid Input l evel.
* = After power fail sequence completes.
** = Caused by Hi-Z from mode pins only.
AO = analog output level.
1. Clocks become valid right bef ore M_RST# deassert s.
2. O DT sign al to be low du ring pow er up and in iti alizat i on per DD RI I JED EC spe ci fic a t io n.
3. P_INT[ A]# is the only act ive ouput in 80331 no bridge mode.
4. Test inputs pulled up as noted in signal description table Table 11, “Test and Miscellaneous Signals” on
page 26 and test outputs tris ta ted during normal functi onal operation.
Table 14. Pin Mod e Behavior (Sheet 3 of 3)
Pin Reset
Lind
Reset
Lind
nobrg
Norm
Lind
Norm
Lind
nobrg
ECC
off
DDR
32Bit
DDR 32Bit
P_PCI 32Bit
S_PCI
Intel® 80331 I/O Processor Datasheet
Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 33
Table 15. Pin Multiplexing for Functional Modes
Pin Bri dg e D isa b l ed Re se t Stra ps
A[20] -PCIODT_EN
AD[6] -RETRY
AD[5] -CORE_RST#
AD[4] -P_BOOT16#
AD[3] -S_PCIX133EN
AD[2] -MEM_TYPE
AD[1] - ARB_EN
AD[0] -BRG_EN
A[2] -P_32BITPCI#
A[1] -PRIVMEM
A[0] -PRIVDEV
S_REQ[3]# P_IDSEL -
S_REQ[1]# P_GNT# -
S_GNT[1]# P_REQ# -
S_GNT[0]# P_BMI -
S_CLKIN P_CLK -
Intel® 80331 I/O Processor Datasheet
Package Information
34 Novemb er 2004 Docu men t Number: 273943-002
Figure 2. 829-Ball FCBGA Pac kage Diagram
Table 16. FC-style, H-PBGA P ackag e Dimen sions
829- Pin BGA
Symbol Minimum Maximum
A 2.392 2.942
A1 0.50 0.70
A3 0.742 0.872
b 0.61 Ref.
C 1.15 1.37
D 37.45 37.55
E 37.45 37.55
F1 9.88 Ref.
F2 10.16 Ref.
e 1.27 Ref.
S1 0.97 Ref.
S2 0.97 Ref.
NOTE: Measurement in millimeters.
B1230-02
E
D
F1
F2
Die
Laser Mark
S2
S1
Pin #1
Corner øb
e
A3 A
A1
C
Top View Bottom View
Side View
Seating Plane
A
1234
B
C
D
E
F
G
H
J
K
L
N
P
R
T
U
V
W
Y
AA
AB
AC
AD
AE
AF
AG
AH
AJ
M
5 6 7 8 9 1011121314151617181920212223242526272829
Intel® 80331 I/O Processor Datasheet
Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 35
Figure 3. Intel® 80331 I/O Processor Ballout (B ottom View)
B1210-0
1
DDRII/SDRAM
JTAG GPIO
PBI
VCC/VSS
Primary
PCI-X Bus Secondary
PCI-X Bus
AJ
AH
AG
AF
AE
AD
AC
AB
AA
Y
W
V
U
T
R
P
N
M
L
K
J
H
G
F
E
D
C
B
A
AJ
AH
AG
AF
AE
AD
AC
AB
AA
Y
W
V
U
T
R
P
N
M
L
K
J
H
G
F
E
D
C
B
A
1 2 3 4 5 6 7 8 9 101112131415161718192021 22 23 24 25 26 27 28 29
1 2 3 4 5 6 7 8 9 101112131415161718192021 22 23 24 25 26 27 28 29
Intel® 80331 I/O Processor Datasheet
Package Information
36 Novemb er 2004 Docu men t Number: 273943-002
Figure 4. Intel® 80331 I/O Pr oce ssor Ba llout - Left Side (Bottom View)
B3969-01
AF
12345 6 78910111213
12345 678910111213
AE
AD
14 15
14 15
AJ
AH
AG
AC
AB
AA
Y
W
V
U
T
R
P
N
M
L
K
J
H
G
F
E
D
C
B
A
VSS
VSS VSS CKE0 DM1
VSSDQ9
DQ13 DQ8
DQ21 DQ29 DQ30 CB1
VSS VSS
VSS
VSSVSS VSS
VSS TDO TMS
VSS
VSS
VSSVCC15
VSS
TCK
VSSVSS VCC13 VCC13 VCC15
VSS N/CN/C
VSS N/C N/C N/C
VSS VSSN/C N/CN/C
N/C
VSS
VSS
VSS
VSS
VSS VSSTDI N/C
N/C N/C N/C
VSS
VSS HPI# VSS
VSS VSS VSS
VSS
VCC13 VCC13 VCC13 VCC15
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VSS VSS
VSS VSS
VSS VSS VSS
VSS VSS VSS VSS
NB
NB NB DQS1# DQS1 DQ15 DQ10 DQ17 DQ28 DQ25
DQ24DQ20DQ14
DQ16 DQS3 DQ31DQ18 MA4
MA3
MA1
MA7
MA11 MA9 MA2 CB5 CB4MA0
BA1
DQ11
DM2 DM3MA8 M_CK1 M_
CK1#
NB
NB NB
VSS VSS VSS
DQ6 DQ2 MA12
DQ5
N/C
N/C
DM0 DQS0# DQS0
DDR_
VREF
P_
C/BE4#
P_
C/BE5#
P_
C/BE7#
P_
C/BE6#
N/CN/C N/C
N/C
TRST#
P_
AD63
P_
AD45
P_
AD60
P_
AD61
P_
AD62
P_
AD59
P_
AD56
P_
AD53
P_
AD50
P_
AD49
P_
AD0
P_
AD3
P_
AD6
P_
C/BE0#
P_
AD10
P_
AD13
P_
AD58
P_
AD57
P_
AD41
P_
IDSEL
P_
AD48
P_
AD32
P_
REQ64#
P_
REQ#
N/CP_GNT#
N/C
N/CN/C
N/C N/C N/C
N/C N/C
N/C N/C
N/C
N/C
N/C
N/C
N/C
P_
DEVSEL#
P_
STOP#
P_
TRDY#
P_
PERR#
P_
AD4
P_
M66EN
P_
AD7
P_
AD8
P_
AD9
P_
AD11
P_
AD12
P_
AD17
P_
AD22
P_
AD28
P_
AD31
P_
AD25
P_
AD30
P_
AD14
P_
AD15
P_
AD16
P_
AD18
P_
AD21
P_
AD26
P_
AD29
P_
AD20
P_
AD23
P_
C/BE1#
P_
C/BE3#
P_
PAR
P_
AD19
P_
AD24
P_
AD27
P_
C/BE2#
P_
FRAME#
P_
IRDY#
P_
AD5
P_
CLK
P_
AD1
P_
AD2
P_
ACK64#
P_
SERR#
P_
AD52
P_
AD51
P_
AD55
P_
AD46
P_
AD44
P_
AD40
P_
AD43
P_
AD42
P_
AD47
P_
PAR64
PWR
DELAY
P_
INTA#
P_
RST#
P_
RCOMP
P_
INTB#
P_
INTC#
P_
INTD#
DQ4 DQ1 DQ0
DQ7 DQS2
DQS2# DQ23 DQ26
DQ27DQ19DQ22DQ12
CB0
VSS VSS VSS
VSS VSS
VCC33
VCC33 VCC15 VCC15 VCC13
VCC33 VCC15 VCC15VCC13
VSS VSS VSS
VSS VSS VCC15
VCC15
VSS
VCC15
VCC33 VCC33
VSS VCC15VSS
VCC15VCC15 VSS
VSS VSS
VSS P_
AD39
VSS
VCC15 VCC
PLL4
VCC
PLL5 VSSA5
VSS
VSS VCC15VCC15
VCC33 P_
AD54
P_
AD38 VCC33
VCC33 VSS
VSS VSSN/CN/CN/C
VCC15
VCC15
VCC33
VCC33 N/C N/C N/C N/C N/C
P_
AD37
P_
AD36 VCC15
VSS VCC15VSS
VCC15VSS
VSS
VCC15VSS VSS VSSVSS
VCC15 VCC15 VCC15
VCC33 VSSVCC33 N/C N/C
VSS N/CVSS VSS VCC33 VSS VSS
VSSVSSVSSVCC33
VCC33VCC33 VCC33
VSS VSS
VSS VSS VSS
VSS VSS VSS VSS VSS
VCC15
VCC15 VCC15
VSS
VCC15
VSS VSS VSSVSS
VSS
VSSN/CVSS PU1
VSS
VSS VSS VSS VCC33 VSS VSS
VSS VCC15
VCC15 VSS VCC15 VSS VCC15 VSS
VSS VSS
VCC15 VCC15VCC15 VSS VSS
VCC
PLL2 VSSA2 VCC15VSS
VSS
VCC15VSS
VSS VSS
VSS VSS VSS
DQS3#M_RST# CKE1
DQ3
DM8MA5MA6
P_
AD35
P_
AD34
P_
AD33
Intel® 80331 I/O Processor Datasheet
Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 37
Fi gure 5. In tel® 80331 I/O Processor Ballout - Right Side (Bottom V iew)
B3970-01
16 17 18 19 20 21 22 23 24 25 26 27 28 29
16 17 18 19 20 21 22 23 24 25 26 27 28 29
AF
AE
AD
AJ
AH
AG
AC
AB
AA
Y
W
V
U
T
R
P
N
M
L
K
J
H
G
F
E
D
C
B
A
M_CK0
ODT0
SCL1
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
S_
RCOMP
S_
CLKO0
S_
REQ64#
S_
C/BE7#
DQ35 DQ40
DQS8
DQ36 DQ38
DQ39
DQ34
DQ37
DQ32
DQ33 DQ53
DQ62
DQ49
DM6
DQ43
DQ42
DQS5 DQ54
DQ50
DQ57
DQ63
DQS5# DQS6DQS6#
BA0
MA10
CB6 CB2
CB7
M_CK2#
M_CK2
M_CK0#
CB3
DQS8# DQS4
DQS4#
DM4 VSS NB NB
VSS NB
NB
NBNB
VSSVSSVSS
VSS VSS
VSS VSS VSS
VSS
VSS
VSS
VSS
CS1# VSS
VSS VSS
VSS VSS
DQ55
DM5 DM7
MA13
VSS ODT1
CS0#
WE#
VSS DDR
RES1
GPIO2/
U0_CTS#
GPIO3/
U0_RTS#
GPIO6/
U1_CTS#
GPIO7/
U1_RTS#
GPIO5/
U1_TXD
GPIO4/
U1_RXD
GPIO0/
U0_RXD
GPIO1/
U0_TXD
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
VCC
25/18
DDR
CRES0
A16
AD0
DDRSLW
CRES
DDRIMP
CRES
A20
DDR
RES2
A1VSS
VSS VCC15 VSS VSS VSSVCC15
RAS# SCD1
VCC15 VSS VSS VSS VSS
ALE
A21
AD1
VCC15
VSS VSSVCC15 VCC15 VSSVSS
AD10 AD4
AD3 AD13
AD8
AD5
S_
AD52
S_
AD51
S_
AD57
S_
AD61
A0
SCL0
AD7
AD6
S_RST#
S_
GNT2#
S_
GNT3#
A18 AD14 AD12
A2 A22
A19POE#
PWE# AD15 AD11
AD2
A17
AD9
SCD0
CAS#
S_
PCIXCAP
S_
INTD#
S_
AD50
S_
AD49
S_
INTC#
S_
AD48
S_
INTA#
S_
INTB#
VSSVCC15 VCC15 VSS VSS
VSS VSSVCC33 PCE1# PCE0#
VCC33
VCC33
VCC33
VCC33
VSSVSSA4 VCC15 VSS VCC33
VCC33VSS VCC15 VSS VSS VSSVCC15
VCC33 VCC33 VCC33VCC15 VSS VSS
VCC33
VCC33 VCC33
VSS VSS
VSSVCC15
VSS VSS
VCC33VSS VSS VCC33
VCC33
VCC33VSS VSS
VSSVCC15
VSS VSSA1
VSS VSS
VCC15 VSS
VSS S_
C/BE1#
S_
C/BE2#
S_
C/BE3#
S_
C/BE6#
S_
C/BE5#
S_
ACK64#
S_
C/BE0#
S_
AD14
S_
AD15
S_
AD9
S_
AD10
S_
AD13
S_
AD12
S_
AD30
S_
AD31
S_
AD25
S_
AD26
S_
AD1
S_
AD46
S_
CLKO3
S_
AD2
S_
AD37
S_
AD32
S_
AD39
S_
GNT0#
S_
AD17
S_
AD18
S_
AD19
S_
AD6
S_
AD35
S_
AD38
S_
AD41
S_
AD42
S_
AD47
S_
AD3
S_
AD4
S_
AD5
S_
AD27
S_
AD28
S_
AD29
S_
AD7
S_
AD8
S_
AD11
VCC15
VSS VSS
VSS
VSS VSS VSS PU2
VSS
VCC33 VCC33 VCC33
VSS
S_
SERR#
VSS
VSS
VSSVSSVSS
VSSVSSVSSVSS
VCC15
VSS
VSS
VSS VSS
VCC33 VCC33 VCC33VSS
VCC33
VCC33
S_PAR
VCC33
VCC33
VSS
S_
CLKO1
S_
CLKO2
S_
CLKOUT
S_
PERR#
S_
DEVSEL#
VSS S_
CLKIN VSS
VSS VSS VSS
VSS
VCC15 VCC
PLL1
S_
AD53
S_
AD33 VSS
S_
AD55
S_
AD54
S_
AD34
VCC33 S_
AD60
S_
AD36
S_
AD62
S_
AD0
S_
IRDY#
S_
REQ2#
S_
AD24
S_
AD22
S_
AD16
S_
AD21
S_
FRAME#
S_
STOP#
S_
TRDY#
S_
REQ1#
S_
AD23
S_
M66EN
S_
AD20
S_
AD45
S_
AD44
N/C
N/C
N/C
N/C
N/C
N/C
N/C
N/C N/C
N/C N/C
N/C
N/C
N/C
N/C
N/C
S_
GNT1#
VSS
S_
REQ3#
S_
REQ0#
S_
C/BE4#
S_
PAR64
S_
AD43
S_
AD40
S_
AD63
S_
AD59
S_
AD58
S_
AD56
VCC33 N/C VCC33
VSS VCC15 VSS VSS VSS VSSVCC15
VCC33
DQ45 DQ61
DQ41
DQ46
DQ47
DQ48
DQ52
DQ51
DQ56
DQ59 DQ58
DQS7
DQS7#
DQ60
DQ44
Intel® 80331 I/O Processor Datasheet
Package Information
38 Novemb er 2004 Docu men t Number: 273943-002
Table 17. 829-Le ad Packag e - Alphabetical Ball Listings (Sheet 1 of 7)
Ball Signal Ball Signal Ball Signal
A1 -- B13 VSS C25 S_AD21
A2 -- B14 VSS C26 S_AD17
A3 VSS B15 VSS C27 S_C/BE2#
A4 P_AD16 B16 VSS C28 S_FRAME#
A5 P_AD18 B17 N/C C29 VCC33
A6 P_AD21 B18 N/C D1 P_AD10
A7 P_C/BE3# B19 VSS D2 P_AD11
A8 P_AD26 B20 VSS D3 P_AD12
A9 P_AD29 B21 S_AD30 D4 VCC33
A10 VSS B22 VSS D5 P_C/BE2#
A11 N/C B23 S_AD26 D6 P_AD19
A12 N/C B24 S_GNT1# D7 VSS
A13VCC15B25 VSS D8P_AD24
A14 VSS B26 S_AD18 D9 P_AD27
A15 VCC15 B27 S_AD16 D10 VSS
A16 VSS B28 VSS D11 N/C
A17 VSS B29 -- D12 N/C
A18 N/C C1 VCC33 D13 VSS
A19 N/C C2 P_AD13 D14 N/C
A20 N/C C3 P_AD14 D15 N/C
A21 S_AD31 C4 P_PAR D16 N/C
A22 S_AD29 C5 P_AD17 D17 VSS
A23 S_GNT0# C6 VCC33 D18 N/C
A24 S_AD24 C7 P_AD22 D19 N/C
A25 S_AD22 C8 P_AD25 D20 VSS
A26 S_AD19 C9 VCC33 D21 S_AD8
A27 VSS C10 P_AD30 D22 S_AD27
A28 -- C11 N/C D23 VSS
A29 -- C12 N/C D24 S_AD23
B1 -- C13 VCC15 D25 S_AD20
B2 VSS C14 N/C D26 VCC33
B3 P_AD15 C15 VSS D27 S_C/BE3#
B4 P_C/BE1# C16 N/C D28 S_STOP#
B5 VSS C17 N/C D29 VSS
B6 P_AD20 C18 VCC15 E1 P_C/BE0#
B7 P_AD23 C19 N/C E2 VSS
B8 VSS C20 S_M66EN E3 P_M66EN
B9 P_AD28 C21 VCC33 E4 P_AD9
B10 P_AD31 C22 S_AD28 E5 VSS
B11 VSS C23 S_AD25 E6 P_FRAME#
B12 N/C C24 VCC33 E7 N/C
Intel® 80331 I/O Processor Datasheet
Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 39
E8 VSS F20 S_AD9 H3 P_AD1
E9 VCC33 F21 VCC33 H4 P_AD2
E10 VSS F22 S_AD5 H5 VCC33
E11 VSS F23 S_AD1 H6 P_ACK64#
E12 N/C F24 VSS H7 N/C
E13 N/C F25 S_CLKO2 H8 N/C
E14 VCC15 F26 S_PAR H9 N/C
E15 N/C F27 VSS H10 P_TRDY#
E16 VCC15 F28 S_REQ1# H11 P_REQ#
E17 N/C F29 S_DEVSEL# H12 N/C
E18 N/C G1 P_AD3 H13 N/C
E19 VSS G2 P_AD4 H14 VSS
E20 S_AD10 G3 P_AD5 H15 VCC15
E21 S_REQ2# G4 VSS H16 VSS
E22 VSS G5 P_DEVSEL# H17 S_C/BE1#
E23 S_AD2 G6 P_STOP# H18 S_AD14
E24 S_AD0 G7 VSS H19 S_AD11
E25 VSS G8 VSS H20 S_C/BE0#
E26 S_SERR# G9 P_CLK H21 S_AD6
E27 PU2 G10 VCC33 H22 S_AD3
E28 S_TRDY# G11 P_REQ64# H23 S_CLKO3
E29 S_IRDY# G12 P_GNT# H24 S_CLKO0
F1 P_AD6 G13 VSS H25 VSS
F2 P_AD7 G14 N/C H26 VCC33
F3 VCC33 G15 VSS H27 VSS
F4 P_AD8 G16 N/C H28 VSS
F5 P_IRDY# G17 VSS H29 VSS
F6 VCC33 G18 S_AD15 J1 P_AD49
F7 N/C G19 S_AD12 J2 P_AD48
F8 VSS G20 VSS J3 VCC33
F9 VSS G21 S_AD7 J4 P_PERR#
F10 VSS G22 S_AD4 J5 P_SERR#
F11 N/C G23 VCC33 J6 VSS
F12 VSS G24 S_CLKO1 J7 PU1
F13 N/C G25 S_CLKOUT J8 N/C
F14 N/C G26 VSS J9 VSS
F15 VSS G27 S_CLKIN J10 VCC15
F16 N/C G28 VSS J11 VSS
F17 N/C G29 S_PERR# J12 VCC15
F18 VSS H1 P_AD0 J13 VSS
F19 S_AD13 H2 VSS J14 VCC15
Table 17. 829-Lead Package - Alphabetical Ball Li stings (Sheet 2 of 7)
Ball Signal Ball Signal Ball Signal
Intel® 80331 I/O Processor Datasheet
Package Information
40 Novemb er 2004 Docu men t Number: 273943-002
J15 VSS K27 S_C/BE4# M10 VSS
J16 VCC15 K28 S_C/BE5# M11 VCCPLL2
J17 VSS K29 S_PAR64 M12 VSSA2
J18 VCC33 L1 P_AD53 M13 VCC15
J19 VSS L2 VSS M14 VSS
J20 VCC33 L3 P_AD52 M15 VCC15
J21 VSS L4 P_AD51 M16 VSS
J22 S_AD47 L5 VCC33 M17 VCC15
J23 S_AD46 L6 P_AD35 M18 VSSA1
J24 VCC33 L7 P_AD34 M19 VCCPLL1
J25 S_AD45 L8 P_AD33 M20 VSS
J26 S_AD44 L9 VSS M21 VCC33
J27 VCC33 L10 VCC15 M22 S_AD38
J28 S_ACK64# L11 VSS M23 S_AD37
J29 S_REQ64# L12 VCC15 M24 VSS
K1 P_AD50 L13 VSS M25 S_AD36
K2 N/C L14 VSS M26 S_AD62
K3 P_IDSEL L15 VSS M27 VCC33
K4 VSS L16 VSS M28 S_AD61
K5 N/C L17 VSS M29 S_AD60
K6 N/C L18 VCC15 N1 P_AD59
K7 VSS L19 VSS N2 P_AD58
K8 P_AD32 L20 VCC33 N3 P_AD57
K9 VCC15 L21 VSS N4 VSS
K10 VCC15 L22 S_AD41 N5 P_AD41
K11 VCC15 L23 S_AD39 N6 P_AD40
K12 VSS L24 S_AD40 N7 VSS
K13 VCC15 L25 VCC33 N8 P_AD39
K14 VSS L26 S_C/BE6# N9 VSS
K15 VSS L27 S_C/BE7# N10 VCC15
K16 VSS L28 VSS N11 VSS
K17 VCC33 L29 S_AD63 N12 VCC15
K18 VSS M1 P_AD56 N13 VSS
K19 VCC33 M2 P_AD55 N14 VCC15
K20 VSS M3 VCC33 N15 VSS
K21 VCC33 M4 P_AD54 N16 VCC15
K22 S_AD42 M5 P_AD38 N17 VSS
K23 VSS M6 VCC33 N18 VCC15
K24 S_AD43 M7 P_AD37 N19 VSS
K25 S_REQ3# M8 P_AD36 N20 VCC33
K26 VSS M9 VCC15 N21 VSS
Table 17. 829-Le ad Packag e - Alphabetical Ball Listings (Sheet 3 of 7)
Ball Signal Ball Signal Ball Signal
Intel® 80331 I/O Processor Datasheet
Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 41
N22 S_AD35 R5 P_AD45 T17 VCC15
N23 VCC33 R6 VCC33 T18 VSS
N24 S_AD34 R7 P_AD46 T19 VCC15
N25 S_REQ0# R8 P_AD47 T20 VSS
N26 VCC33 R9 VSS T21 AD10
N27 S_AD59 R10 VCC15 T22 AD6
N28 S_AD57 R11 VSS T23 AD4
N29 S_AD58 R12 VCC15 T24 S_INTC#
P1 P_AD60 R13 VSS T25 VSS
P2 VSS R14 VCC15 T26 S_AD49
P3 P_AD61 R15 VCCPLL4 T27 S_AD50
P4 P_AD62 R16 VSSA4 T28 VSS
P5 VSS R17 VSS T29 S_RCOMP
P6 P_AD44 R18 VCC15 U1 P_C/BE4#
P7 P_AD43 R19 VSS U2 P_C/BE5#
P8 P_AD42 R20 VCC33 U3 P_C/BE7#
P9 VCC15 R21 S_PCIXCAP U4 VSS
P10 VSS R22 S_RST# U5 N/C
P11 VCC15 R23 S_INTD# U6 N/C
P12 VSS R24 VCC33 U7 VCC33
P13VCCPLL5R25 N/C U8 N/C
P14 VSSA5 R26 S_AD51 U9 VSS
P15 VCC15 R27 VCC33 U10 VCC15
P16 VSS R28 S_AD52 U11 VSS
P17 VCC15 R29 S_AD53 U12 VCC13
P18 VSS T1 N/C U13 VSS
P19 VCC15 T2 VSS U14 VCC15
P20 VSS T3 P_C/BE6# U15 VSS
P21 VCC33 T4 N/C U16 VCC15
P22 S_GNT2# T5 VSS U17 VSS
P23 S_AD32 T6 N/C U18 VCC15
P24 S_AD33 T7 VSS U19 VSS
P25 VSS T8 N/C U20 VCC33
P26 S_AD54 T9 VCC15 U21 A18
P27 S_AD55 T10 VSS U22 AD14
P28 VSS T11 VCC15 U23 VSS
P29 S_AD56 T12 VSS U24 AD12
R1 P_AD63 T13 VCC15 U25 S_GNT3#
R2 P_PAR64 T14 VSS U26 VCC33
R3 VCC33 T15 VCC15 U27 S_INTA#
R4 N/C T16 VSS U28 S_INTB#
Table 17. 829-Lead Package - Alphabetical Ball Li stings (Sheet 4 of 7)
Ball Signal Ball Signal Ball Signal
Intel® 80331 I/O Processor Datasheet
Package Information
42 Novemb er 2004 Docu men t Number: 273943-002
U29 S_AD48 W12 VCC13 Y24 AD11
V1 P_RCOMP W13 VSS Y25 A0
V2 P_INTD# W14 VCC15 Y26 VCC33
V3 VCC33 W15 VSS Y27 A17
V4 P_INTC# W16 VCC15 Y28 A21
V5 P_INTB# W17 VSS Y29 A20
V6 VSS W18 VCC15 AA1 N/C
V7 N/C W19 VSS AA2 N/C
V8 N/C W20 VCC33 AA3 VSS
V9 VCC15 W21 A2 AA4 N/C
V10 VSS W22 A22 AA5 TRST#
V11 VCC15 W23 AD7 AA6 VSS
V12 VSS W24 AD2 AA7 P_RST#
V13 VCC13 W25 VSS AA8 HPI#
V14 VSS W26 AD8 AA9 VSS
V15 VCC15 W27 AD9 AA10 VCC25/18
V16 VSS W28 VSS AA11 VSS
V17 VCC15 W29 A16 AA12 VCC25/18
V18 VSS Y1 VCC15 AA13 VSS
V19 VCC15 Y2 TCK AA14 VCC25/18
V20 VSS Y3 VSS AA15 VSS
V21 POE# Y4 VSS AA16 VCC25/18
V22 A19 Y5 N/C AA17 VSS
V23 AD3 Y6 TDI AA18 VCC25/18
V24 VCC33 Y7 VSS AA19 VSS
V25 AD13 Y8 N/C AA20 VCC25/18
V26 AD5 Y9 VCC13 AA21 GPIO2/U0_CTS#
V27 VSS Y10 VSS AA22 GPIO3/U0_RTS#
V28 AD1 Y11 VCC13 AA23 SCL0
V29 AD0 Y12 VSS AA24 VCC33
W1 PWRDELAY Y13 VCC13 AA25 PCE1#
W2 VSS Y14 VSS AA26 PCE0#
W3 P_INTA# Y15 VCC15 AA27 VSS
W4 VSS Y16 VSS AA28 ALE
W5 VCC33 Y17 VCC15 AA29 A1
W6 N/C Y18 VSS AB1 N/C
W7 N/C Y19 VCC15 AB2 VSS
W8 N/C Y20 VSS AB3 TDO
W9 VSS Y21 PWE# AB4 TMS
W10 VCC13 Y22 AD15 AB5 VSS
W11 VSS Y23 VSS AB6 VSS
Table 17. 829-Le ad Packag e - Alphabetical Ball Listings (Sheet 5 of 7)
Ball Signal Ball Signal Ball Signal
Intel® 80331 I/O Processor Datasheet
Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 43
AB7 VCC25/18 AC19 RAS# AE2 VSS
AB8 VSS AC20 VCC25/18 AE3 DQS0#
AB9 VCC25/18 AC21 CAS# AE4 DQS0
AB10 VSS AC22 ODT0 AE5 VSS
AB11 VCC25/18 AC23 VSS AE6 DQ13
AB12 VSS AC24 SCD1 AE7 DQ8
AB13 VCC25/18 AC25 GPIO5/U1_TXD AE8 VSS
AB14 VSS AC26 GPIO4/U1_RXD AE9 DQS2#
AB15 VCC25/18 AC27 DDRCRES0 AE10 DQ23
AB16 VSS AC28 DDRSLWCRES AE11 VSS
AB17 VCC25/18 AC29 DDRIMPCRES AE12 MA1
AB18 VSS AD1 DQ5 AE13 DQ26
AB19 VCC25/18 AD2 DQ4 AE14 VSS
AB20 ODT1 AD3 VSS AE15 CB0
AB21 SCD0 AD4 DQ1 AE16 VSS
AB22 SCL1 AD5 DQ0 AE17 CB7
AB23 GPIO6/U1_CTS# AD6 VCC25/18 AE18 DQ33
AB24 GPIO7/U1_RTS# AD7 MA7 AE19 VSS
AB25 VSS AD8 DQ12 AE20 CS0#
AB26 GPIO0/U0_RXD AD9 VSS AE21 DM5
AB27 GPIO1/U0_TXD AD10 DQ22 AE22 VSS
AB28 DDRRES1 AD11 DQ19 AE23 DQ53
AB29 DDRRES2 AD12 VCC25/18 AE24 DQ52
AC1 DDR_VREF AD13 BA1 AE25 VSS
AC2 VSS AD14 DQ27 AE26 DQ57
AC3 VSS AD15 VSS AE27 DM7
AC4 VSS AD16 CB6 AE28 VSS
AC5 VSS AD17 CB2 AE29 DQS7
AC6 VSS AD18 BA0 AF1 DQ6
AC7 VSS AD19 VCC25/18 AF2 DQ7
AC8 MA11 AD20 WE# AF3 DQ2
AC9 MA9 AD21 VSS AF4 VCC25/18
AC10 VCC25/18 AD22 MA13 AF5 MA12
AC11 VSS AD23 CS1# AF6 DQ9
AC12 MA2 AD24 VCC25/18 AF7 VSS
AC13 MA0 AD25 DQ62 AF8 DQ21
AC14 CB5 AD26 DQ63 AF9 DQS2
AC15 CB4 AD27 VSS AF10 VCC25/18
AC16 CB3 AD28 DQ59 AF11 MA3
AC17 VSS AD29 DQ58 AF12 DQ29
AC18 MA10 AE1 DM0 AF13 VCC25/18
Table 17. 829-Lead Package - Alphabetical Ball Li stings (Sheet 6 of 7)
Ball Signal Ball Signal Ball Signal
Intel® 80331 I/O Processor Datasheet
Package Information
44 Novemb er 2004 Docu men t Number: 273943-002
AF14 DQ30 AG26 DQ50 AJ9 DM2
AF15 CB1 AG27 DQ51 AJ10 MA8
AF16 DQS8# AG28 DQ60 AJ11 DQ28
AF17 VCC25/18 AG29 VSS AJ12 DQ25
AF18 DQ32 AH1 -- AJ13 DM3
AF19 DQS4 AH2 VSS AJ14 M_CK1
AF20 VCC25/18 AH3 M_RST# AJ15 M_CK1#
AF21 DQ45 AH4 CKE1 AJ16 M_CK0
AF22 VCC25/18 AH5 VSS AJ17 M_CK0#
AF23 DQ43 AH6 DQ14 AJ18 DQ36
AF24 DQ48 AH7 DQ20 AJ19 DM4
AF25 DQ49 AH8 VSS AJ20 DQ38
AF26 VCC25/18 AH9 MA6 AJ21 DQ35
AF27 DQ61 AH10 MA5 AJ22 DQ40
AF28 DQ56 AH11 VCC25/18 AJ23 DQS5#
AF29 DQS7# AH12 DQ24 AJ24 DQ46
AG1 VSS AH13 DQS3# AJ25 DQS6#
AG2 DQ3 AH14 VSS AJ26 DQS6
AG3 VSS AH15 DM8 AJ27 VSS
AG4 CKE0 AH16 VCC25/18 AJ28 --
AG5 DM1 AH17 M_CK2 AJ29 --
AG6 VSS AH18 DQ37
AG7 DQ11 AH19 VSS
AG8 DQ16AH20DQ39
AG9 VSS AH21 DQ44
AG10 DQ18 AH22 VSS
AG11 MA4 AH23 DQS5
AG12 VSS AH24 DQ47
AG13 DQS3 AH25 VSS
AG14 DQ31 AH26 DQ54
AG15 VSS AH27 DQ55
AG16 DQS8 AH28 VSS
AG17 M_CK2# AH29 --
AG18 VSS AJ1 --
AG19 DQS4# AJ2 --
AG20 DQ34 AJ3 VCC25/18
AG21 VSS AJ4 DQS1#
AG22 DQ41 AJ5 DQS1
AG23 DQ42 AJ6 DQ15
AG24 VSS AJ7 DQ10
AG25 DM6 AJ8 DQ17
Table 17. 829-Le ad Packag e - Alphabetical Ball Listings (Sheet 7 of 7)
Ball Signal Ball Signal Ball Signal
Intel® 80331 I/O Processor Datasheet
Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 45
Table 18. 829-L ead Packag e - Alphabetical Signal Listings (Sheet 1 of 7)
Signal Ball Signal Ball Signal Ball
-- A1 CAS# AC21 DQ20 AH7
-- A2 CB0 AE15 DQ21 AF8
-- A28 CB1 AF15 DQ22 AD10
-- A29 CB2 AD17 DQ23 AE10
-- AH1 CB3 AC16 DQ24 AH12
-- AH29 CB4 AC15 DQ25 AJ12
-- AJ1 CB5 AC14 DQ26 AE13
-- AJ2 CB6 AD16 DQ27 AD14
-- AJ28 CB7 AE17 DQ28 AJ11
-- AJ29 CKE0 AG4 DQ29 AF12
-- B1 CKE1 AH4 DQ3 AG2
-- B29 CS0# AE20 DQ30 AF14
A0 Y25 CS1# AD23 DQ31 AG14
A1 AA29 DDR_VREF AC1 DQ32 AF18
A16 W29 DDRCRES0 AC27 DQ33 AE18
A17 Y27 DDRIMPCRES AC29 DQ34 AG20
A18 U21 DDRRES1 AB28 DQ35 AJ21
A19 V22 DDRRES2 AB29 DQ36 AJ18
A2 W21 DDRSLWCRES AC28 DQ37 AH18
A20 Y29 DM0 AE1 DQ38 AJ20
A21 Y28 DM1 AG5 DQ39 AH20
A22 W22 DM2 AJ9 DQ4 AD2
AD0 V29 DM3 AJ13 DQ40 AJ22
AD1 V28 DM4 AJ19 DQ41 AG22
AD10 T21 DM5 AE21 DQ42 AG23
AD11 Y24 DM6 AG25 DQ43 AF23
AD12 U24 DM7 AE27 DQ44 AH21
AD13 V25 DM8 AH15 DQ45 AF21
AD14 U22 DQ0 AD5 DQ46 AJ24
AD15 Y22 DQ1 AD4 DQ47 AH24
AD2 W24 DQ10 AJ7 DQ48 AF24
AD3 V23 DQ11 AG7 DQ49 AF25
AD4 T23 DQ12 AD8 DQ5 AD1
AD5 V26 DQ13 AE6 DQ50 AG26
AD6 T22 DQ14 AH6 DQ51 AG27
AD7 W23 DQ15 AJ6 DQ52 AE24
AD8 W26 DQ16 AG8 DQ53 AE23
AD9 W27 DQ17 AJ8 DQ54 AH26
ALE AA28 DQ18 AG10 DQ55 AH27
BA0 AD18 DQ19 AD11 DQ56 AF28
BA1AD13DQ2 AF3DQ57AE26
Intel® 80331 I/O Processor Datasheet
Package Information
46 Novemb er 2004 Docu men t Number: 273943-002
DQ58 AD29 M_CK2 AH17 N/C D19
DQ59 AD28 M_CK2# AG17 N/C E12
DQ6 AF1 M_RST# AH3 N/C E13
DQ60 AG28 MA0 AC13 N/C E15
DQ61 AF27 MA1 AE12 N/C E17
DQ62 AD25 MA10 AC18 N/C E18
DQ63 AD26 MA11 AC8 N/C E7
DQ7 AF2 MA12 AF5 N/C F11
DQ8 AE7 MA13 AD22 N/C F13
DQ9 AF6 MA2 AC12 N/C F14
DQS0 AE4 MA3 AF11 N/C F16
DQS0# AE3 MA4 AG11 N/C F17
DQS1 AJ5 MA5 AH10 N/C F7
DQS1# AJ4 MA6 AH9 P_GNT# G12
DQS2 AF9 MA7 AD7 N/C G14
DQS2# AE9 MA8 AJ10 N/C G16
DQS3 AG13 MA9 AC9 P_REQ# H11
DQS3# AH13 N/C A11 N/C H12
DQS4 AF19 N/C A12 N/C H13
DQS4# AG19 N/C A18 N/C H7
DQS5 AH23 N/C A19 N/C H8
DQS5# AJ23 N/C A20 N/C H9
DQS6 AJ26 N/C AA1 N/C J8
DQS6# AJ25 N/C AA2 N/C K2
DQS7 AE29 N/C AA4 N/C K5
DQS7# AF29 N/C AB1 N/C K6
DQS8 AG16 N/C B12 N/C R25
DQS8# AF16 N/C B17 N/C T1
GPIO0/U0_RXD AB26 N/C B18 N/C T4
GPIO1/U0_TXD AB27 N/C C11 N/C T8
GPIO2/U0_CTS# AA21 N/C C12 N/C U5
GPIO3/U0_RTS# AA22 N/C C14 N/C U6
GPIO4/U1_RXD AC26 N/C C16 N/C U8
GPIO5/U1_TXD AC25 N/C C17 N/C V7
GPIO6/U1_CTS# AB23 N/C C19 N/C V8
GPIO7/U1_RTS# AB24 N/C D11 N/C W6
HPI# AA8 N/C D12 N/C W7
M_CK0 AJ16 N/C D14 N/C W8
M_CK0# AJ17 N/C D15 N/C Y5
M_CK1 AJ14 N/C D16 N/C Y8
M_CK1# AJ15 N/C D18 ODT0 AC22
Table 18. 829-Le ad Packag e - Alphabetical Signal Listings (Sheet 2 of 7)
Signal Ball Signal Ball Signal Ball
Intel® 80331 I/O Processor Datasheet
Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 47
ODT1 AB20 P_AD45 R5 P_INTD# V2
P_ACK64# H6 P_AD46 R7 P_IRDY# F5
P_AD0 H1 P_AD47 R8 PU1 J7
P_AD1 H3 P_AD48 J2 P_M66EN E3
P_AD10 D1 P_AD49 J1 P_PAR C4
P_AD11 D2 P_AD5 G3 P_PAR64 R2
P_AD12 D3 P_AD50 K1 P_PERR# J4
P_AD13 C2 P_AD51 L4 P_RCOMP V1
P_AD14 C3 P_AD52 L3 N/C T6
P_AD15 B3 P_AD53 L1 P_REQ64# G11
P_AD16 A4 P_AD54 M4 P_RST# AA7
P_AD17 C5 P_AD55 M2 P_SERR# J5
P_AD18 A5 P_AD56 M1 P_STOP# G6
P_AD19 D6 P_AD57 N3 P_TRDY# H10
P_AD2 H4 P_AD58 N2 PCE0# AA26
P_AD20 B6 P_AD59 N1 PCE1# AA25
P_AD21 A6 P_AD6 F1 POE# V21
P_AD22 C7 P_AD60 P1 PWE# Y21
P_AD23 B7 P_AD61 P3 PWRDELAY W1
P_AD24 D8 P_AD62 P4 RAS# AC19
P_AD25 C8 P_AD63 R1 S_ACK64# J28
P_AD26 A8 P_AD7 F2 S_AD0 E24
P_AD27 D9 P_AD8 F4 S_AD1 F23
P_AD28 B9 P_AD9 E4 S_AD10 E20
P_AD29 A9 P_C/BE0# E1 S_AD11 H19
P_AD3 G1 P_C/BE1# B4 S_AD12 G19
P_AD30 C10 P_C/BE2# D5 S_AD13 F19
P_AD31 B10 P_C/BE3# A7 S_AD14 H18
P_AD32 K8 P_C/BE4# U1 S_AD15 G18
P_AD33 L8 P_C/BE5# U2 S_AD16 B27
P_AD34 L7 P_C/BE6# T3 S_AD17 C26
P_AD35 L6 P_C/BE7# U3 S_AD18 B26
P_AD36 M8 P_CLK G9 S_AD19 A26
P_AD37 M7 P_DEVSEL# G5 S_AD2 E23
P_AD38 M5 P_FRAME# E6 S_AD20 D25
P_AD39 N8 N/C R4 S_AD21 C25
P_AD4 G2 P_IDSEL K3 S_AD22 A25
P_AD40 N6 P_INTA# W3 S_AD23 D24
P_AD41 N5 P_INTB# V5 S_AD24 A24
P_AD42 P8 P_INTC# V4 S_AD25 C23
P_AD43 P7 P_AD45 R5 S_AD26 B23
Table 18. 829-L ead Packag e - Alphabetical Signal Listings (Sheet 3 of 7)
Signal Ball Signal Ball Signal Ball
Intel® 80331 I/O Processor Datasheet
Package Information
48 Novemb er 2004 Docu men t Number: 273943-002
S_AD27 D22 S_AD7 G21 S_SERR# E26
S_AD28 C22 S_AD8 D21 S_STOP# D28
S_AD29 A22 S_AD9 F20 S_TRDY# E28
S_AD3 H22 S_C/BE0# H20 SCD0 AB21
S_AD30 B21 S_C/BE1# H17 SCD1 AC24
S_AD31 A21 S_C/BE2# C27 SCL0 AA23
S_AD32 P23 S_C/BE3# D27 SCL1 AB22
S_AD33 P24 S_C/BE4# K27 TCK Y2
S_AD34 N24 S_C/BE5# K28 TDI Y6
S_AD35 N22 S_C/BE6# L26 TDO AB3
S_AD36 M25 S_C/BE7# L27 TMS AB4
S_AD37 M23 S_CLKIN G27 TRST# AA5
S_AD38 M22 S_CLKO0 H24 VCC13 U12
S_AD39 L23 S_CLKO1 G24 VCC13 V13
S_AD4 G22 S_CLKO2 F25 VCC13 W10
S_AD40 L24 S_CLKO3 H23 VCC13 W12
S_AD41 L22 S_CLKOUT G25 VCC13 Y11
S_AD42 K22 S_DEVSEL# F29 VCC13 Y13
S_AD43 K24 S_FRAME# C28 VCC13 Y9
S_AD44 J26 S_GNT0# A23 VCC15 A13
S_AD45 J25 S_GNT1# B24 VCC15 A15
S_AD46 J23 S_GNT2# P22 VCC15 C13
S_AD47 J22 S_GNT3# U25 VCC15 C18
S_AD48 U29 S_INTA# U27 VCC15 E14
S_AD49 T26 S_INTB# U28 VCC15 E16
S_AD5 F22 S_INTC# T24 VCC15 H15
S_AD50 T27 S_INTD# R23 VCC15 J10
S_AD51 R26 S_IRDY# E29 VCC15 J12
S_AD52 R28 PU2 E27 VCC15 J14
S_AD53 R29 S_M66EN C20 VCC15 J16
S_AD54 P26 S_PAR F26 VCC15 K10
S_AD55 P27 S_PAR64 K29 VCC15 K11
S_AD56 P29 S_PCIXCAP R21 VCC15 K13
S_AD57 N28 S_PERR# G29 VCC15 K9
S_AD58 N29 S_RCOMP T29 VCC15 L10
S_AD59 N27 S_REQ0# N25 VCC15 L12
S_AD6 H21 S_REQ1# F28 VCC15 L18
S_AD60 M29 S_REQ2# E21 VCC15 M13
S_AD61 M28 S_REQ3# K25 VCC15 M15
S_AD62 M26 S_REQ64# J29 VCC15 M17
S_AD63 L29 S_RST# R22 VCC15 M9
Table 18. 829-Le ad Packag e - Alphabetical Signal Listings (Sheet 4 of 7)
Signal Ball Signal Ball Signal Ball
Intel® 80331 I/O Processor Datasheet
Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 49
VCC15 N10 VCC25/18 AA20 VCC33 J18
VCC15 N12 VCC25/18 AB11 VCC33 J20
VCC15 N14 VCC25/18 AB13 VCC33 J24
VCC15 N16 VCC25/18 AB15 VCC33 J27
VCC15 N18 VCC25/18 AB17 VCC33 J3
VCC15 P11 VCC25/18 AB19 VCC33 K17
VCC15 P15 VCC25/18 AB7 VCC33 K19
VCC15 P17 VCC25/18 AB9 VCC33 K21
VCC15 P19 VCC25/18 AC10 VCC33 L20
VCC15 P9 VCC25/18 AC20 VCC33 L25
VCC15 R10 VCC25/18 AD12 VCC33 L5
VCC15 R12 VCC25/18 AD19 VCC33 M21
VCC15 R14 VCC25/18 AD24 VCC33 M27
VCC15 R18 VCC25/18 AD6 VCC33 M3
VCC15 T11 VCC25/18 AF10 VCC33 M6
VCC15 T13 VCC25/18 AF13 VCC33 N20
VCC15 T15 VCC25/18 AF17 VCC33 N23
VCC15 T17 VCC25/18 AF20 VCC33 N26
VCC15 T19 VCC25/18 AF22 VCC33 P21
VCC15 T9 VCC25/18 AF26 VCC33 R20
VCC15 U10 VCC25/18 AF4 VCC33 R24
VCC15 U14 VCC25/18 AH11 VCC33 R27
VCC15 U16 VCC25/18 AH16 VCC33 R3
VCC15 U18 VCC25/18 AJ3 VCC33 R6
VCC15 V11 VCC33 AA24 VCC33 U20
VCC15 V15 VCC33 C1 VCC33 U26
VCC15 V17 VCC33 C21 VCC33 U7
VCC15 V19 VCC33 C24 VCC33 V24
VCC15 V9 VCC33 C29 VCC33 V3
VCC15 W14 VCC33 C6 VCC33 W20
VCC15 W16 VCC33 C9 VCC33 W5
VCC15 W18 VCC33 D26 VCC33 Y26
VCC15 Y1 VCC33 D4 VCCPLL1 M19
VCC15 Y15 VCC33 E9 VCCPLL2 M11
VCC15 Y17 VCC33 F21 VCCPLL4 R15
VCC15 Y19 VCC33 F3 VCCPLL5 P13
VCC25/18 AA10 VCC33 F6 VSS A10
VCC25/18 AA12 VCC33 G10 VSS A14
VCC25/18 AA14 VCC33 G23 VSS A16
VCC25/18 AA16 VCC33 H26 VSS A17
VCC25/18 AA18 VCC33 H5 VSS A27
Table 18. 829-L ead Packag e - Alphabetical Signal Listings (Sheet 5 of 7)
Signal Ball Signal Ball Signal Ball
Intel® 80331 I/O Processor Datasheet
Package Information
50 Novemb er 2004 Docu men t Number: 273943-002
VSS A3 VSS AE28 VSS D23
VSS AA11 VSS AE5 VSS D29
VSS AA13 VSS AE8 VSS D7
VSS AA15 VSS AF7 VSS E10
VSS AA17 VSS AG1 VSS E11
VSS AA19 VSS AG12 VSS E19
VSS AA27 VSS AG15 VSS E2
VSS AA3 VSS AG18 VSS E22
VSS AA6 VSS AG21 VSS E25
VSS AA9 VSS AG24 VSS E5
VSS AB10 VSS AG29 VSS E8
VSS AB12 VSS AG3 VSS F10
VSS AB14 VSS AG6 VSS F12
VSS AB16 VSS AG9 VSS F15
VSS AB18 VSS AH14 VSS F18
VSS AB2 VSS AH19 VSS F24
VSS AB25 VSS AH2 VSS F27
VSS AB5 VSS AH22 VSS F8
VSS AB6 VSS AH25 VSS F9
VSS AB8 VSS AH28 VSS G13
VSS AC11 VSS AH5 VSS G15
VSS AC17 VSS AH8 VSS G17
VSS AC2 VSS AJ27 VSS G20
VSS AC23 VSS B11 VSS G26
VSS AC3 VSS B13 VSS G28
VSS AC4 VSS B14 VSS G4
VSS AC5 VSS B15 VSS G7
VSS AC6 VSS B16 VSS G8
VSS AC7 VSS B19 VSS H14
VSS AD15 VSS B2 VSS H16
VSS AD21 VSS B20 VSS H2
VSS AD27 VSS B22 VSS H25
VSS AD3 VSS B25 VSS H27
VSS AD9 VSS B28 VSS H28
VSS AE11 VSS B5 VSS H29
VSS AE14 VSS B8 VSS J11
VSS AE16 VSS C15 VSS J13
VSS AE19 VSS D10 VSS J15
VSS AE2 VSS D13 VSS J17
VSS AE22 VSS D17 VSS J19
VSS AE25 VSS D20 VSS J21
Table 18. 829-Le ad Packag e - Alphabetical Signal Listings (Sheet 6 of 7)
Signal Ball Signal Ball Signal Ball
Intel® 80331 I/O Processor Datasheet
Packa ge Information
Docume nt Num ber: 273943-002 Novemb er 2004 51
VSS J6 VSS P2 VSS W19
VSS J9 VSS P20 VSS W2
VSS K12 VSS P25 VSS W25
VSS K14 VSS P28 VSS W28
VSS K15 VSS P5 VSS W4
VSS K16 VSS R11 VSS W9
VSS K18 VSS R13 VSS Y10
VSS K20 VSS R17 VSS Y12
VSS K23 VSS R19 VSS Y14
VSS K26 VSS R9 VSS Y16
VSS K4 VSS T10 VSS Y18
VSS K7 VSS T12 VSS Y20
VSS L11 VSS T14 VSS Y23
VSS L13 VSS T16 VSS Y3
VSS L14 VSS T18 VSS Y4
VSS L15 VSS T2 VSS Y7
VSS L16 VSS T20 VSSA1 M18
VSS L17 VSS T25 VSSA2 M12
VSS L19 VSS T28 VSSA4 R16
VSS L2 VSS T5 VSSA5 P14
VSS L21 VSS T7 WE# AD20
VSS L28 VSS U11
VSS L9 VSS U13
VSS M10 VSS U15
VSS M14 VSS U17
VSS M16 VSS U19
VSS M20 VSS U23
VSS M24 VSS U4
VSS N11 VSS U9
VSS N13 VSS V10
VSS N15 VSS V12
VSS N17 VSS V14
VSS N19 VSS V16
VSS N21 VSS V18
VSS N4 VSS V20
VSS N7 VSS V27
VSS N9 VSS V6
VSS P10 VSS W11
VSS P12 VSS W13
VSS P16 VSS W15
VSS P18 VSS W17
Table 18. 829-L ead Packag e - Alphabetical Signal Listings (Sheet 7 of 7)
Signal Ball Signal Ball Signal Ball
Intel® 80331 I/O Processor Datasheet
Electrical Specifications
Docume nt Num ber: 273943-002 Novemb er 2004 53
4.0 Electrical Specifications
4.1 Absolute Maximum Ratings
4.2 VCCPLL Pin Requirements
The VCCPLL[1-5] ba lls for the Phase Lock L oop (P LL) circuit must each have filters, and be
connected to th e appropriate VSSA ball. See the Intel® 80331 I/O Processor Design Guide for
specific recommendations.
NOTE: There are no VCCPLL3 or VSSA3 signals.
Tabl e 19 . A bsolut e Maximu m Ratin g s
Parameter Maximum Rating NOTE: This data sheet contains information on
pr od uc ts in the design phas e of
development. Do not finalize a design with
this information. Revised information will
be published when the produc t becomes
av ail abl e . The sp eci fic at io ns a re s ub je ct to
change without notice. Contact your local
Intel represent ative before finalizing a
design.
Storage Temperature –55° C to +125°C
Case Tempe rature Under Bias 0°C to +105 °C
Supply Voltage VCC33 wrt. VSS –0.5 V to +4.1 V
Supply Voltage VCC25 wrt. VSS –0.5 V to +3.2 V
Supply Voltage VCC15 wrt. VSS –0.5 V to +2.1 V
Supply Voltage VCC13 wrt. VSS –0.5 V to +2.1 V
Voltage on Any Ball wrt. VSS –0.5 V to VCCP + 0.5 V
WARNING: Stressing the device beyond the Absolute Maximum Ratings may cause permanent damage.
These are stress ratings only. Operation beyond the Operating Conditions is not recommended and extended
exposure beyond the Operating Conditions may affect device reliability.
Table 20. Operating Conditions
Symbol Parameter Minimum Maximum Units Notes
VCC33 3.3 V PCI/PCI-X Supply Voltage 3.0 3.6 V +/- 10%
VCC25/18 2.5 V/1.8V DDR/ DDR-II Supply Voltage 2.3/1.7 2.7/1.9 V +/ -8%, 5% 1
1. +/- 3% DC; additional +/- 2% for AC transients. Under no circumstance may the supply voltage go past the
AC min/ max window. The supply volt age wind ow may go outside the DC min/max window for transient
events.
VCC15 1.5 V IOP Core Supply V oltage 1.425 1.575 V +/- 5%1
VCC13 1. 35 V I nte l X Sc al e® core Supply
Voltage 1.282 1.418 V +/- 5%
VCCPLL1-5 PLL Supply V oltage VCC15 VCC15 V
DDR_VREF Memo ry I/O Reference Voltage 0.49VCC25/18 0.51 VCC25/18 V
P_CLK Input C lock Freque ncy 16 133 M Hz
TCCase Temperature Under Bias 0 105 °C
Intel® 80331 I/O Processor Datasheet
Electrical Speci fications
54 Novemb er 2004 Docu men t Number: 273943-002
4.3 Targeted DC Specifications
Table 21. DC Characte ristics
Symbol Parameter Minimum Maximum Units Notes
VIL1 Input Low Voltage (DDR SDR AM) -0 .3 DDR_VREF - 0.18 V (1, 2)
VIH1 Input High V oltage (DDR SDRAM) DDR_VREF + 0.18 VCC25 + 0.3 V (1, 2)
VIL2 Input Low Voltage (DDR-II SDRAM) -0.2 DDR_VREF - 0.125 V (1, 3)
VIH2 Input High Vo ltage (DDR-II SDRAM) DDR_VREF + 0.125 VCC25 + 0.2 V (1, 3)
VIL2 In pu t Low Voltag e (Misc.) -0 .3 0.8 V (4)
VIH2 Input High Voltage (Misc.) 2.0 VCC33 + 0.3 V (4)
VIL3 Input Low Voltage ( PCI-X) -0.5 0.35 VCC33 V
VIH3 Input High V oltage (PCI-X/PCI) 0.5 VCC33 VCC33 + 0.5 V
VIL5 Input Low Voltage (PCI) -0.5 0.3 VCC33 V
VOL2 Output Low Voltage (Misc.) 0.4 V IOL = 6 mA
VOH2 Output High Voltage (Misc.) 2.4 V IOH = - 2 mA
VOL1 Ou tput Low Voltage (DDR SDRA M) 0.46 V IOL = 34 .2 mA (1, 2)
VOH1 Output High Voltage (DDR SDRAM) 1.94 V IOH = -33.9 mA (1, 2)
VOL2 Output Low Voltage (DDR-II SDRAM) 0.414 V IOL = 20 .7mA (3)
VOH2 Output High Voltage (DDR-II SDRAM) 1 .314 V IOH = -18mA (3)
VOL3 Output Low Voltage (PCI-X) 0.1 VCC33 VIOL = 1500 µA
VOH3 Outp ut High Voltage (PCI-X) 0.9 VCC33 VIOH = -500 µA
CIN In pu t pin Ca pac ita nc e 8 pF (5)
CCLK PC I cl oc k pin Capa citan ce 8 pF (5)
LPIN Ball Inductance 15 nH (1, 2, 5)
NOTES:
1. SDRAM signals include MA[12:0], BA[1:0], CAS#, CS[1:0]#, CKE[1:0], DM[8:0], RAS#, WE#,M_CK[2:0], M_CK[2:0]#,
DQ[63:0], DQS[8:0] and CB[7:0].
2. F or 2.5 V DDR SDRAM support .
3. F or 1.8 V DDR-II SDRAM support.
4. Miscellaneous s igna ls include all sig nals t hat are not PCI-X or SDRAM signals.
5. Ensured by design.
Intel® 80331 I/O Processor Datasheet
Electrical Specifications
Docume nt Num ber: 273943-002 Novemb er 2004 55
Table 22. ICC Characteri stics
Symbol Parameter Typ Max Units Notes
ILI1 Input Lea k age Current for each signal
except TCK, TMS, TRST#, TDI ± 2 µA 0 ≤ VIN ≤ VCC (4)
ILI2 Input Leakage Curr ent for TCK, TMS,
TRST#, TDI -140 -250 µA VIN = 0.45 V (1, 4)
ICC33 Active
(Power Supply) Power Suppl y Current - PCI-X interfaces
Both at 66 MHz
Both at 100 MHz
Both at 133 MHz
1.33
1.20
1.04
A(1, 2)
ICC25 Active
(Power Supply) Power Supply Current - DDR 0.580 A (1, 2)
ICC18 Active
(Power Supply) Power Supply Current - DDR-II 0.487 A (1, 2)
ICC15 Active
(Power Supply) Power Supply Current - IOP/Bridge core 3.2 A (1, 2)
ICC13 Active
(Power Supply) Power Suppl y Current - Intel XScale®
core 800 MHz
667 MHz
500 MHz
0.453
0.411
0.358 A
(1, 2)
ICC33 Active
(Thermal) Th ermal Curr ent - PCI-X interf aces
Both at 66 MHz
Both at 100 MHz
Both at 133 MHz
1.08
1.00
0.914 A
(1, 3)
ICC25 Active
(Thermal) Thermal Current - DDR 0.295 A (1, 3)
ICC18 Active
(Thermal) T hermal Current - DDR-II 0.255 A (1, 3)
ICC15 Active
(Thermal) T hermal Current - IOP/Bridge co re 2.5 A (1, 3)
ICC13 Active
(Thermal) Th erma l Current - In tel XScale® cor e
800 MHz
667 MHz
500 MHz
0.430
0.390
0.340 A
(1, 3)
NOTES:
1. Measured with device operating and outputs loaded to the test condition in Figure 14 “AC Test Load for All
Signals Except PCI and DDR SDRAM” on page 67.
2. ICC Active (Power Supply) value is provided for selecting the system power supply. This is based on the
worst case data patterns and skew material at the following worst case voltages: VCC33 = 3.63 V, VCC25 =
2.7 V, Vcc18 = 1.9v, VCC15 = 1.575 V, VCC13 = 1.41 V.
3. ICC Active (Thermal) value is provided for selecting the system thermal design power (TDP). This is based
on the foll owing ty pical voltages: VCC33 = 3.3 V, VCC25 = 2.5 V, Vcc18 = 1.8v, VCC15 = 1.5 V, VCC13 = 1.35 V .
4. Input leakage currents include hi-Z output leakage for all bi-directional buffers with tri-state outputs.
Intel® 80331 I/O Processor Datasheet
Electrical Speci fications
56 Novemb er 2004 Docu men t Number: 273943-002
4.4 Targeted AC Specifications
4.4.1 Clock Signal Timings
Table 23. PCI Clock Timings
Symbol Parameter PCI-X 133 PCI-X 100 PCI-X 66 PCI 66 PCI 33 Units Notes
Min. Max Min. Max Min. Max Min. Max Min. Max
TF1 PCI clock Frequency 100 133 66 100 50 66 33 66 16 33 MHz 1
TC1 PCI clock Cycle Time 7.5101015152015303060 ns 1, 3
TCH1 PCI clock High Time 3 3 6 6 11 ns
TCL1 PCI clock Low Time 3 3 6 6 11 ns
TSR1 PCI clock Sle w Rate 1.5 4 1.5 4 1.5 4 1.5 4 1 4 V/ns 2
PCI Spread Spectrum Requirements
fmod PCI clock modulation
frequency 30 33 30 33 30 33 30 33 KHz
fspread PCI clock f requency spread -1 0 -1 0 -1 0 -1 0 %
NOTES:
1. Clock frequency may not change beyond spread-spectrum limit s except while is asserted.
2. This slew rate must be met across the minimum peak-to-peak portion of the clock waveform.
3. The minimum clock period mus t not be vio lated for any singl e clock cycle, i.e., acc ounting for all syst em jitte r.
Table 24. DDR Clock T imi ngs
Symbol Parameter DDR-II 400 DDR333 Units Notes
Minimum Maximum Minimum Maximum
TF2 DDR SDRAM cl oc k Frequency 200 167 MHz
TC2 DDR SDRAM clock Cycle Ti me 5.0 6.0/7.5(1) ns
TCH2 DDR SDRAM clock High Tim e 2.15 2.7/3.3 7(1) ns
TCL2 DDR SDRAM clock LowTime 2.15 2.7/3.37(1) ns
TCS2 DDR SDRAM clock Period Stability 3 50 350 ps
Tskew2 DDR SDRAM clock skew for any differential
clock pair (M_CK[2:0] - M_CK[2:0]#)100 100 ps
Tskew3 DDR S DRA M cl ock skew for any clock pair and
any system memory strobe (M_CK - DQS). -285 285 -285 285 ps
NOTES:
1. CL = 2.5/2. 0.
Intel® 80331 I/O Processor Datasheet
Electrical Specifications
Docume nt Num ber: 273943-002 Novemb er 2004 57
4.4.2 DDR/DDR-II SDRAM Interface Signal Timings
Table 25. DDR SDRAM Signal Timings
Symbol Parameter Minimum Max. Units Notes
TVB1 D Q , CB and DM write output v alid time before DQS. 2.68 ns (4)
TVA1 DQ, CB and DM w rite output v alid time after DQS. 2.68 ns (4)
TVB3 Address and Command write output valid before M_CK rising
edge. 2.62 ns (4,8)
TVA3 Address and Command write output valid after M_CK rising
edge. 2.62 ns (4,8)
TVB4 DQ, CB and DM read input valid time before DQS rising or
f all in g ed ges. 0.35 ns (5)
TVA4 DQ, CB and DM read input valid time after DQS rising or
f all in g ed ges. 0.35 ns (5)
TVB5 CS[1:0]# control valid before M_CK rising edge. 2.62 ns (4)
TVA5 CS[1:0]# control valid after M_CK rising edge. 2.62 ns (4)
TVB6 D Q S wri te preamble duration. 4.50
(nominal) ns (6)
TVA6 DQS write postambl e durati on. 3.00
(nominal) ns (6)
NOTES:
1. See F igure 7 “Outpu t Timing Measuremen t Wavef orm s” on page 63.
2. See Figure 8 “Input Timing Measurement Waveforms” on page 64.
3. Clock to output valid times are specified with a 0 pF loading.
4. See Figure 11 “DDR SDRA M Write Timings” on page 65.
5. See Figure 12 “DDR SDRAM Read T imings” on page 65.
6. See Figure 13 “Write PreAmble/PostAmble Durations” on page 66.
7. See F igure 15 “AC Test L oad fo r DDR SDRAM Signals” on p age 67.
8. Address/Command pin group; RAS#, CAS#, WE#, MA[12:0], BA[1:0].
Intel® 80331 I/O Processor Datasheet
Electrical Speci fications
58 Novemb er 2004 Docu men t Number: 273943-002
Table 26. DDR-II SDRAM Signal Timings
Symbol Parameter Mini Max Units Notes
TVB1 DQ , CB and DM write output valid time befor e DQS crossing . 2.12 ns 4
TVA1 DQ, CB and D M write output valid time after DQS crossing. 2.12 ns 4
TVB3 A ddress and Command write out put valid before M_CK rising
edge 2.12 ns 4
TVA3 Ad dres s and Command write outp ut val id after M_CK rising
edge 2.12 ns 4,8
TVB4 DQ, CB and DM read in put valid time before DQS rising or
falling edge s 0.35 ns 6
TVA4 DQ, CB and DM read input valid time after DQS rising or falling
edges 0.35 ns 6
TVB5 CS[1:0]# control valid before M_CK rising edge. 2.12 ns 4
TVA5 CS[1:0]# control valid after M_CK rising edge. 2.12 ns 4
TVB6 DQS write preamble duration. 3.75
(nom) ns 9
TVA6 DQS write postamble duration. 2.50
(nom) ns 9
NOTES:
1. See Figure 7 “Output Timing Measurement Waveforms” on page 63.
2. See Figure 8 “Input Timing M easurement Waveforms” on page 64.
3. Cl oc k t o ou tp ut va li d tim es a re sp ec ifie d wit h a 0 p F loa d ing.
4. See Figure 11 “DDR SDRA M Wr ite Timings” on page 65.
5. See Figure 13 “DQS falling edge output access time to M_CK rising edge.
6. See Figure 12 “DDR SDRAM Read Timings” on page 65. Data to strobe read setup and data from strobe
read hold minimum requirements specified are determined with the DQS delay programmed for a 90
degree phase shift.
7. See Figure 15 “AC Te st Load for DDR SDRAM Signals” on page 67.
8. Address/Command pin group: RAS#, CAS#, WE#, MA[1 2:0], BA[1:0], OD T[1:0].
9. See Figure 13 “Write PreAmble/PostAmble Durations” on page 66.
Intel® 80331 I/O Processor Datasheet
Electrical Specifications
Docume nt Num ber: 273943-002 Novemb er 2004 59
4.4.3 Peripheral Bus Interface Signal Timings
Table 27. Peripheral Bus Signal Timings
Symbol Parameter Min Max Units Notes
TOV1 Output Valid Delay from M_CK 1 5 ns (1, 3)
TOF Output Float Delay from M_CK 1 5 ns (1, 3)
TIS1 Input Setup to M_CK 4.5 ns (2)
TIH1 Input Hold from M _ CK 2 ns (2)
TAH1 ALE High time 15 ns
TAV1 ALE high to address Valid 0 ns
TAH2 ALE low to address invalid 15 ns
TAS1 A d dres s va lid to ALE lo w 15 ns
TAO1 ALE low to POE# low 0 ns
TAW1 ALE low to PWE# low 15 ns
TAH3 PWE# high to Data Invalid 15 ns
TAS2 Data valid to PWE# high 60 ns
TAC1 ALE low to PCE[1:0]# low 15 ns
NOTES:
1. See F igure 7 “Ou tpu t Timing Measurement Waveforms” on pa ge 63.
2. See Figure 8 “Input Timing Measurement Waveforms” on page 64.
3. See Figure 14 “AC Test Load for All Signals Except PCI and DDR SDRAM” on page 67.
4. See Table 32, AC Me asurement Con dit ions.
5. All timing referenced to M_CK is for functional testing, for the cases where M_CK * N = IBCLK.
6. PBI Clock is internal only; 66 MHz with 266 MHz internal bus.
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60 Novemb er 2004 Docu men t Number: 273943-002
Table 28. PCI Sign al Timing s
Symbol Parameter PCI-X 133
PCI-X 100 PC I-X 66 PCI 66 PCI 33 Units Notes
Min. Max Min. Max Min. Max Min. Max
TOV1 Clock to Output Valid
Delay for bu sed
signals
0.7 3.8 0.7 3.8 1 6 2 11 ns (1,2,3)
TOV2 Clock to Output Valid
Delay for point to point
signals
0.7 3.8 0.7 3.8 2 6 2 12 ns (1,2,3)
TOF Clock to Output Float
Delay 7 7 14 28 ns (1,7)
TIS1 Input Setup to clock
for bu sed si gn al s 1.2 1.7 3 7 ns (3,4,8)
TIS2 Input Setup to clock
for point to point
signals
1.2 1.7 5 10,
12 ns (3,4)
TIH1 Input Hold time from
clock 0.5 0.5 0 0 ns (4)
TRST Reset Active Time 1 1 1 1 ms
TRF Reset Active to ou tp ut
float de la y 40 40 40 40 ns (5,6)
TIS3 REQ64# to Reset
setup time 10 10 10 10 clocks
TIH2 Re se t to REQ64# hold
time 050050050050 ns
TIS4 PCI-X in itial izati on
pattern to Reset setup
time
10 10 clocks
TIH3 Reset to PCI-X
initialization pattern
hold t im e
050050 ns
NOTES:
1. See the timing measurement conditions in; Figure 7 “Output Timing Measurement Waveforms” on page 63.
2. See Figure 16 “PCI/PCI-X TOV(m ax) Rising Edge AC Test Load” on page 67, Figure 17 “PCI/PCI-X
TO V(max) Falling Edge AC Test Loa d” on page 68, and Figure 18 “PCI/PCI-X TOV(min) AC Tes t Load” on
page 68.
3. Setup time for point-to-point signals applies to REQ# an d GNT# only. Al l ot her s igna ls are bused.
4. See the timing measurement conditio ns in Figure 8 “Input Timing Measurement Waveforms” on page 64.
5. RST# is asserted and deasserted asynchronously with respect to CLK.
6. All output drivers must be flo ated when RST# is active.
7. For purposes of Active /Float timin g measurements, the HI-Z or ‘off’ stat e is defined to be when the total
current delive red through the component pin is less t han or equ al to the le akage current specification.
8. Setup time applies only when the device is not driving the pin. Devices cannot drive and receive signals at
the same time.
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Electrical Specifications
Docume nt Num ber: 273943-002 Novemb er 2004 61
4.4.4 I2C Interface Signal Timings
4.4.5 UART Interface Signal Timings
Table 29. I2C Sign a l Timi ng s
Symbol Parameter Std. Mode Fast Mode Units Notes
Min. Max Min. Max
FSCL SCL Clock Frequ ency 0 100 0 400 KHz
TBUF Bus Free Time Between STOP and ST ART
Condition 4.7 1.3 µs (1)
THDSTA Hold Time (repeated) START Condition 4 0.6 µs (1, 3)
TLOW SCL Clock Low Time 4.7 1.3 µs (1, 2)
THIGH SCL Clock High Time 4 0.6 µs (1, 2)
TSUSTA Setup Time for a Repeated STA RT C ondition 4.7 0.6 µs (1)
THDDAT Data Hold Time 0 3.45 0 0.9 µs (1)
TSUDAT Data Setup Time 250 100 ns (1)
TSR SCL and SDA Rise Time 1000 20+0.1Cb300 ns (1, 4)
TSF SCL and SDA Fall Time 300 20+0.1Cb300 ns (1, 4)
TSUSTO Setup Time for STOP Condition 4 0.6 µs (1)
NOTES:
1. See Figure 9 “I2C/SMBus Interface Signal Timings” on page 64.
2. Not teste d.
3. After this period, the first clock pulse is generated.
4. Cb = the total capacitance of one bus line, in pF.I2C
Table 30. UART Sig n al T imings
Symbol Parameter Std. Mode Units Notes
Min. Max
TXD1 Ux_TXD output delay from M_CK rising edge 60 ns 1
TRXS1 U x_RXD data setup time (to M_CK rising edg e). 50 ns
TRXH1 Ux _RXD dat a hold time (to M _CK rising edge). 50 ns
TCTS1 Ux_CTS setup time (to M_CK rising edge). 60 ns
TCTH1 Ux_CTS hold time (to M_CK rising edge). 60 ns
TRTS1 Ux_R TS setup time (to M_CK rising e dge). 60 ns
TRTH1 Ux_RTS hold time (to M_CK rising edge). 60 ns
1. See Figure 10 “UART T ransmitter Receiver Timing” on page 64.
Intel® 80331 I/O Processor Datasheet
Electrical Speci fications
62 Novemb er 2004 Document Number: 273943-002
4.4.6 Boundary Scan Test Signal Timings
Table 31. Bou ndary Sca n Test Signal Timings
Symbol Parameter Min. Max Units Notes
TBSF TCK Frequency 0 0.5TFMHz
TBSCH TCK High Ti me 15 n s Measured at 1.5 V (1).
TBSCL TCK Low T ime 15 ns Measured at 1.5 V (1).
TBSCR TCK Rise Time 5 ns 0.8 V to 2.0 V (1)
TBSCF TCK Fall Time 5 ns 2.0 V to 0.8 V (1)
TBSIS1 Input Setup to TCK — TDI,
TMS 3ns(4)
TBSIH1 Input Hold from TCK — TDI,
TMS 5ns(4)
TBSOV1 TDO Vali d Delay 5 15 ns Relative to fall ing edge of TCK (2, 3).
TOF1 TDO Float Delay 5 15 ns Relative to falling edge of TCK (2, 5).
NOTES:
1. Not test ed.
2. O u tputs pre c harge d to VCC5.
3. See Figure 7 “Output Timing M easurement Waveforms” on p age 63.
4. See Figure 8 “Input Timing Measurement Waveforms” on page 64.
5. A float condition occurs when the output current becomes less than ILO. Float delay is not tested. See
Figure 7 “Output Timing Measurement Waveforms” on page 63.
Intel® 80331 I/O Processor Datasheet
Electrical Specifications
Docume nt Num ber: 273943-002 Novemb er 2004 63
4.5 AC Ti ming Wavef orms
Figure 6. Cl ock Timing Measu rement Waveforms
Figure 7. Output Timi ng Measu rem en t Waveforms
T
CF
T
CR
T
CH
T
CL
T
C
V
tch
V
ih(min)
V
il(max)
V
test
V
tcl
Vtest
CLK
OUTPUT
FLOAT
Vtrise
OUTPUT
DELAY RISE
OUTPUT
DELAY FALL
Vtfall
TOV
TOV
TOF
Vtl
Vth
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64 Novemb er 2004 Document Number: 273943-002
Figure 8. Input Timing Measurem en t Wave forms
Figu re 9. I2C/SM Bus Interface Signal Timings
Figure 10. UART Transmitter Receive r Timing
CLK
INPUT Valid Vtest
Vtest
Vtest
TIS
TIH
Vtl
Vth
Vth
Vtl
Vmax
SDA
SCL
TBUF
Stop Start
TLOW
THDSTA THIGH
TSR
THDDAT
TSF
TSUDAT TSUSTA
Repeated
THDSTA TSP
Stop
TSUSTO
Start
M_CK
Ux_TXD
T
XD1
Ux_RXD
TRXH1
T
RXS1
Intel® 80331 I/O Processor Datasheet
Electrical Specifications
Docume nt Num ber: 273943-002 Novemb er 2004 67
4.6 AC Test Conditions
Ta bl e 32 . AC Measurement C on di t io ns
Symbol PCI-X PCI DDR DDR-II PBI Units
Vth 0.6 VCC33 0.6 VCC33 2.0 1.15 2.0 V
Vtl 0.25 VCC33 0.2 VCC33 0.5 0.2 0.8 V
Vtest 0.4 VCC33 0.4 VCC33 1.25 0.90 1.5 V
Vtrise 0.285 VCC33 0.28 5 VCC33 1.25 0.90 1.5 V
Vtfall 0.615 VCC33 0. 615 V CC33 1.25 0.90 1.5 V
Vmax 0. 4 VCC33 0.4 VCC33 1.5 0.97 1.2 V
Slew Rate
(1) 1.5 1.5 1.0 1.0 1.0 V/nS
1. Input signal slew rate is measured betw een Vil and Vih.
Figure 14. AC Test Load for All Signals Except PCI and DDR SDRAM
Figure 15. AC Test Load for DDR SDRAM Signals
Figure 16. PCI/PCI-X TOV(max) Rising Edge AC Test Load
Output
50pF
Test
Poin
t
25Ω
30pF
25Ω
1.25V
Output
Test
Point
Output
Test
Point
10pF
25Ω
