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Interrupt List, part 5 of 18 Copyright (c) 1989-1999,2000 Ralf Brown --------X-1AB101----------------------------- INT 1A - PCI BIOS v2.0c+ - INSTALLATION CHECK AX = B101h EDI = 00000000h Return: AH = 00h if installed CF clear EDX = 20494350h (' ICP') EDI = physical address of protected-mode entry point (see #00731) AL = PCI hardware characteristics (see #00730) BH = PCI interface level major version (BCD) BL = PCI interface level minor version (BCD) CL = number of last PCI bus in system EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call some BIOSes do not change EDI, so applications looking for the protected-mode entry point should set EDI to 00000000h before calling this function SeeAlso: AX=B181h (Table 00729) Values for PCI BIOS v2.0c+ status codes: 00h successful 81h unsupported function 83h bad vendor ID 86h device not found 87h bad PCI register number Bitfields for PCI hardware characteristics: Bit(s) Description (Table 00730) 0 configuration space access mechanism 1 supported 1 configuration space access mechanism 2 supported 2-3 reserved 4 Special Cycle generation mechanism 1 supported 5 Special Cycle generation mechanism 2 supported 6-7 reserved (Table 00731) Call protected-mode entry point with: registers as for real/V86-mode INT call CS = ring 0 descriptor with access to full address space Return: as for real/V86-mode call --------X-1AB102----------------------------- INT 1A - PCI BIOS v2.0c+ - FIND PCI DEVICE AX = B102h CX = device ID (see #00735,#00742,#00743,#00873,#00875) DX = vendor ID (see #00732) SI = device index (0-n) Return: CF clear if successful CF set on error AH = status (00h,83h,86h) (see #00729) 00h successful BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 func) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call device ID FFFFh may be reserved as a wildcard in future implementations the meanings of BL and BH on return were exchanged between the initial drafts of the specification and final implementation all devices sharing a single vendor ID and device ID may be enumerated by incrementing SI from 0 until error 86h is returned SeeAlso: AX=B182h (Table 00732) Values for PCI vendor ID: 001Ah Ascend Communications, Inc. 003Dh Martin-Marietta Corporation 0E11h Compaq (see #00733) 1000h Symbios Logic Inc (formerly NCR) (see #00734) 1002h ATI (see #00735) 1003h ULSI Systems (see #00736) 1004h VLSI Technologies (see #00737) 1005h Avance Logics (ADL) (see #00738) 1006h Reply Group 1007h Netframe Systems Inc. 1008h Epson 100Ah Phoenix Technologies 100Bh National Semiconductor (see #00739) 100Ch Tseng Labs (see #00740) (also ID 10BEh) 100Dh AST Research 100Eh Weitek (see #00741) 1010h Video Logic Ltd 1011h DEC (see #00742) 1012h Micronics Computers 1013h Cirrus Logic (see #00743,#00029) 1014h IBM (see #00744) 1015h LSI Logic Corp. of Canada 1016h ICL Personal Systems 1017h SPEA Software AG 1018h Unisys 1019h EliteGroup Computer Sys 101Ah NCR/AT&T GIS 101Bh Vitesse Semiconductor 101Ch Western Digital (see #00745) 101Eh AMI (see #00746) 101Fh Picturetel 1020h Hitachi Computer Electronics 1021h Oki Electric Industry 1022h Advanced Micro Devices (see #00747) 1023h Trident Microsystems (see #00748) 1024h Zenith Data Systems 1025h Acer 1028h Dell Computer Corporation 1029h Siemens Nixdorf 102Ah LSI Logic, Headland Division (see #00749) 102Bh Matrox (see #00750) 102Ch Chips & Technologies (see #00751) 102Dh Wyse Technologies 102Eh Olivetti Advanced Technology 102Fh Toshiba America (see #00752) 1030h TMC Research 1031h Miro Computer Products AG (see #00753) 1032h Compaq 1033h NEC Corporation (see #00754) 1034h Burndy Corporation 1035h Computers and Communications Research Lab 1036h Future Domain (see #00755) 1037h Hitachi Micro Systems 1038h AMP Incorporated 1039h Silicon Integrated System (SIS) (see #00756) 103Ah Seiko Epson Corporation 103Bh Tatung Corp. of America 103Ch Hewlett-Packard (see #00757) 103Eh Solliday 103Fh Logic Modeling 1040h Kubota Pacific 1041h Computrend 1042h PC Technology (see #00758,#00928) (see also PORT 03F0h"PCTech") 1043h Asustek 1044h Distributed Processing Technology (DPT) (see #00759) 1045h OPTi (see #00760) 1046h IPC Corporation, Ltd. 1047h Genoa Systems Corp. 1048h Elsa GmbH 1049h Fountain Technology 104Ah SGS Thomson Microelectric (see #00761) 104Bh BusLogic (see #00762) 104Ch Texas Instruments (see #00763) 104Dh Sony Corporation 104Eh Oak Technology (see #00764) 104Fh Co-Time Computer Ltd. 1050h Winbond (see #00765) 1051h Anigma Corp. 1052h Young Micro Systems 1054h Hitachi, Ltd. (see #00766) 1055h EFAR Microsystems (see #00767) 1056h ICL 1057h Motorola (see #00768) 1058h Electronics and Telecommunications Research 1059h Teknor Microsystems 105Ah Promise Technology (see #00769) 105Bh Foxconn International 105Ch Wipro Infotech Ltd. 105Dh Number 9 Computer Company (see #00770) 105Eh VTech Engineering Canada, Ltd. 105Fh Infotronic America, Inc. 1060h United Microelectronics (UMC) (see #00771) 1061h 8x8 (X Tech) (see #00772) 1062h Maspar Computer Copr. 1063h Ocean Office Automation 1064h Alcatel Cit 1065h Texas Microsystems 1066h PicoPower Technology (see #00773) 1067h Mitsubishi Electronics 1068h Diversified Technology 1069h Mylex Corporation (see #00774) 106Ah Aten Research 106Bh Apple Computer 106Ch Hyundai Electronics America 106Dh Sequent 106Eh DFI Inc. 106Fh City Gate Development, Ltd. 1070h Daewoo Telecom Ltd. 1071h Mitac 1072h GIT Co., Ltd. 1073h Yamaha Corporation (see #00775) 1074h NexGen Microsystems (see #00776) 1075h Advanced Integration Research 1076h Chaintech Computer Co. Ltd. 1077h Q Logic (see #00777) 1078h Cyrix Corporation 1079h I-Bus 107Ah Networth 107Bh Gateway 2000 107Ch Goldstar Co. Ltd. 107Dh Leadtek Research (see #00778) 107Eh Interphase Corporation (see #00779) 107Fh Data Technology Corporation (DTC) (see #00780) 1080h Contaq Microsystems (see #00781) 1081h Supermac Technology 1082h EFA Corporation of America 1083h Forex Computer Corporation (see #00782) 1084h Parador 1085h Tulip Computers Int'l BV 1086h J. Bond Computer Systems 1087h Cache Computer 1088h Microcomputer Systems (M) Son 1089h Data General Corporation 108Ah Bit3 Computer (see #00783) 108Ch Elonex PLC (Oakleigh Systems, Inc) 108Dh Olicom (see #00784) 108Eh Sun Microsystems 108Fh Systemsoft Corporation 1090h Encore Computer Corporation 1091h Intergraph Corporation (see #00785) 1092h Diamond Computer Systems 1093h National Instruments (see #00786) 1094h First International Computers (FIC) 1095h CMD Technology, Inc. (see #00787) 1096h Alacron 1097h Appian Technology (see #00788) 1098h Vision / Quantum Designs Ltd (see #00789) 1099h Samsung Electronics Co. Ltd. 109Ah Packard Bell 109Bh Gemlight Computer Ltd. 109Ch Megachips Corporation 109Dh Zida Technologies 109Eh Brooktree Corporation (see #00790) 109Fh Trigem Computer Inc. 10A0h Meidensha Corporation 10A1h Juko Electronics Inc. Ltd. 10A2h Quantum Corporation 10A3h Everex Systems Inc. 10A4h Globe Manufacturing Sales 10A5h Racal Interlan 10A6h Informtech Industrial Ltd. 10A7h Benchmarq Microelectronics 10A8h Sierra Semiconductor (see #00791) 10A9h Silicon Graphics 10AAh ACC Microelectronics (see #00792) 10ABh Digicom 10ACh Honeywell IASD 10ADh Symphony Labs (see #00793) 10AEh Cornerstone Technology 10AFh Microcomputer Systems 10B0h CardExpert Technology 10B1h Cabletron Systems, Inc. 10B2h Raytheon Company 10B3h Databook Inc 10B4h STB Systems 10B5h PLX Technology (see #00794) 10B6h Madge Networks (see #00795) 10B7h 3com Corporation (see #00796) 10B8h Standard Microsystems Corporation (SMC) (see #00797) 10B9h Acer Labs Inc. (see #00798) 10BAh Mitsubishi Electronics Corp. 10BBh Dapha Electronics Corporation 10BCh Advanced Logic Research Inc. (ALR) 10BDh Surecom Technology (see #00799) 10BEh Tseng Labs International Corp. (see #00740) 10BFh Most Inc. 10C0h Boca Research Inc. 10C1h ICM Corp. Ltd. 10C2h Auspex Systems Inc. 10C3h Samsung Semiconductors 10C4h Award Software International Inc. 10C5h Xerox Corporation 10C6h Rambus Inc. 10C7h Media Vision 10C8h Neomagic Corporation (see #00800) 10C9h DataExpert Corporation 10CAh Fujitsu 10CBh Omron Corporation 10CCh Mentor Arc Inc. 10CDh Advanced System Products (see #00801) 10CEh Radius Inc. 10CFh Citicorp TTI (see #00802) 10D0h Fujitsu Limited 10D1h Future+ Systems 10D2h Molex Incorporated 10D3h Jabil Circuit Inc. 10D4h Hualon Microelectronics 10D5h Autologic Inc. 10D6h Cetia 10D7h BCM Advanced Research 10D8h Advanced Peripherals Labs 10D9h Macronix International Co. Ltd 10DAh Thomas-Conrad Corporation 10DBh Rohm Research 10DCh CERN/ECP/EDU (see #00803) 10DDh Evans & Sutherland (see #00804) 10DEh NVIDIA Corporation 10DFh Emulex Corporation (see #00805) 10E0h Integrated Micro Solutions (IMS) (see #00806) 10E1h TekRAM Technology Corporation Ltd. (see #00807) 10E2h Aptix Corporation 10E3h Newbridge Microsystems (see #00808) 10E4h Tandem Computers 10E5h Micro Industries 10E6h Gainbery Computer Products Inc. 10E7h Vadem 10E8h Applied Micro Circuits Corp. (see #00809) 10E9h Alps Electronic Corp. Ltd. 10EAh Integraphics Systems (see #00810) 10EBh Artist Graphics (see #00811) 10ECh Realtek Semiconductor (see #00812) 10EDh ASCII Corporation (see #00813) 10EEh Xilinx Corporation 10EFh Racore Computer Products 10F0h Peritek Corporation 10F1h Tyan Computer 10F2h Achme Computer Inc. 10F3h Alaris Inc. 10F4h S-MOS Systems 10F5h NKK Corporation (see #00814) 10F6h Creative Electronic Systems SA 10F7h Matsushita Electric Industrial Corp. Ltd. 10F8h Altos India Ltd. 10F9h PC Direct 10FAh Truevision (see #00815) 10FBh Thesys Ges. f�r Microelektronik mbH 10FCh I/O Data Device Inc. 10FDh Soyo Technology Corp. Ltd. 10FEh Fast Electronic GmbH 10FFh N-Cube 1100h Jazz Multimedia 1101h Initio Corporation (see #00816) 1102h Creative Labs 1103h Triones Technologies Inc. 1104h Rasterops 1105h Sigma Designs, Inc. 1106h VIA Technologies (see #00817) 1107h Stratus Computer 1108h Proteon Inc. (see #00818) 1109h Cogent Data Technologies (see #00819) 110Ah Siemens AG / Siemens Nixdorf AG (see #00820) 110Bh Xenon Microsystems / Chromatic Research, Inc. 110Ch Mini-Max Technology Inc. 110Dh ZNyX Corporation 110Eh CPU Technology 110Fh Ross Technology 1110h Powerhouse Systems 1111h Santa Cruz Operation (SCO) 1112h Rockwell / RNS division of Meret Communications Inc. (see #00821) 1113h Accton Technology Corporation 1114h Atmel Corporation 1115h DuPont Pixel Systems 1116h Data Translation / Media 100, Inc. 1117h Datacube Inc. (see #00822) 1118h Berg Electronics 1119h Vortex Computersysteme GmbH (see #00823) 111Ah Efficient Networks, Inc. (see #00824) 111Bh Teledyne Electronic Systems 111Ch Tricord Systems, Inc. 111Dh Integrated Device Technology 111Eh Eldec Corporation 111Fh Precision Digital Images 1120h EMC Corporation 1121h Zilog 1122h Multi-tech Systems, Inc. 1123h Excellent Design, Inc. 1124h Leutron Vision AG 1125h Eurocore 1126h Vigra 1127h FORE Systems (see #00825) 1128h ??? 1129h Firmworks 112Ah Hermes Electronics Co. 112Bh Linotype - Hell AG 112Dh Ravicad 112Eh Infomedia MicroElectronics Inc (see #00826) 112Fh Imaging Technology (see #00827) 1130h Computervision 1131h Philips Semiconductors 1132h Mitel Corp 1133h Eicon Technology Corporation 1134h Mercury Computer Systems Inc (see #00828) 1135h Fuji Xerox Co Ltd (see #00829) 1136h Momentum Data Systems 1137h Cisco Systems Inc 1138h Ziatech Corporation (see #00830) 1139h Dynamic Pictures Inc (see #00831) 113Ah FWB Inc 113Ch Cyclone Microsystems (PLX) (see #00832) 113Dh Leading Edge Products Inc 113Eh Sanyo Electric Co. - Computer Engineering Dept. 113Fh Equinox Systems 1140h Intervoice Inc 1141h Crest Microsystem Inc (see #00833) 1142h Alliance Semiconductor Corp (see #00834) 1143h Netpower, Inc. 1144h Cincinnati Milacron / Vickers Inc. Electronic Systems (see #00835) 1145h Workbit Corp 1146h Force Computers 1147h Interface Corp. 1148h Schneider & Koch Co. / Syskonnect (see #00836) 1149h Win System Corporation 114Ah VMIC (see #00837) 114Bh Canopus Co. 114Ch Annabooks 114Dh IC Corporation 114Eh Nikon Systems Inc 114Fh Digi International / Stargate (see #00838) 1150h Thinking Machines Corp. 1151h JAE Electronics Inc. 1152h Megatek 1153h Land Win Electronic Corp. 1154h Melco Inc. 1155h Pine Technology Ltd. 1156h Periscope Engineering 1157h Avsys Corporation 1158h Voarx R&D Inc. (see #00839) 1159h MuTech (see #00840) 115Ah Harleguin Ltd. 115Bh Parallax Graphics 115Ch Photron, Ltd. 115Dh Xircom 115Eh Peer Protocols Inc. 115Fh ??? 1160h Megasoft Inc. 1161h PFU Ltd. (see #00841) 1162h OA Laboratory Co Ltd. 1163h Creative Labs / Rendition (see #00842) 1164h Advanced Peripherals Tech 1165h Imagraph Corporation (see #00843) 1166h Pequr Technology Inc. / Relience Computer 1167h Mutoh Industries, Inc. 1168h Thine Electronics Inc 1169h Centre for Development of Advanced Computing 116Ah Polaris Communications 116Bh Connectware Inc 116Ch ??? 116Dh ??? 116Eh ??? 116Fh Workstation Technology 1170h Inventec Corporation 1171h Loughborough Sound Images 1172h Altera Corporation 1173h Adobe Systems 1174h Bridgeport Machines 1175h Mitron Computer Inc. 1176h SBE 1177h Silicon Engineering 1178h Alfa Inc (see #00844) 1179h Toshiba America Info Systems 117Ah A-Trend Technology 117Bh LG Electronics Inc. 117Ch Atto Technology 117Dh ??? 117Eh T/R Systems 117Fh ??? 1180h Ricoh Co Ltd 1181h Telmatics International 1182h ??? 1183h Fujikura Ltd 1184h Forks Inc 1185h Dataworld 1186h D-Link System Inc 1187h Advanced Technology Laboratories 1188h Shima Seiki Manufacturing Ltd. 1189h Matsushita Electronics (see #00845) 118Ah Hilevel Technology 118Bh ??? 118Ch Corollary Inc (see #00846) 118Dh BitFlow Inc (see #00847) 118Eh Hermstedt GmbH 118Fh ??? 1190h ??? 1191h Artop Electric / Acard Technology Corp. (see #00848) 1192h Densan Co. Ltd 1193h Zeitnet Inc. (see #00849) 1194h Toucan Technology 1195h Ratoc System Inc 1196h Hytec Electronics Ltd 1197h Gage Applied Sciences Inc. 1198h Lambda Systems Inc 1199h Digital Communications Associates Inc, 119Ah Mind Share Inc. 119Bh Omega Micro Inc. 119Ch Information Technology Inst. 119Dh Bug Sapporo Japan 119Eh Fujitsu 119Fh Bull Hn Information Systems 11A0h Convex Computer Corporation 11A1h Hamamatsu Photonics K.K. 11A2h Sierra Research and Technology 11A3h Deuretzbacher GmbH & Co. Eng. KG 11A4h Barco 11A5h MicroUnity Systems Engineering, Inc. 11A6h Pure Data 11A7h Power Computing Corp. 11A9h InnoSys Inc. (see #00850) 11AAh Actel 11ABh Galileo Technology Ltd. (see #00851) 11ACh Canon Information Systems 11ADh Lite-On Communications Inc 11AEh Scitex Corporation Ltd 11AFh Pro-Log Corporation / Avid Technology Corp. 11B0h V3 Semiconductor Inc. (see #00852) 11B1h Apricot Computers 11B2h Eastman Kodak 11B3h Barr Systems Inc. 11B4h Leitch Technology International 11B5h Radstone Technology Plc 11B6h United Video Corp 11B7h Motorola 11B8h Xpoint Technologies Inc 11B9h Pathlight Technology Inc. (see #00853) 11BAh Videotron Corp 11BBh Pyramid Technology 11BCh Network Peripherals Inc 11BDh Pinnacle Systems Inc. 11BEh International Microcircuits Inc 11BFh Astrodesign, Inc. 11C3h NEC Corporation 11C4h Document Technologies Ind. 11C5h Shiva Corporatin 11C6h Dainippon Screen Mfg. Co., Ltd. 11C7h D.C.M. Data Systems 11C8h Dolphin Interconnect Solutions (see #00854) 11C9h MAGMA 11CAh LSI Systems Inc 11CBh Specialix International, Ltd. (see #00855) 11CCh Michels & Kleberhoff Computer GmbH 11CDh HAL Computer Systems Inc. 11CEh Netaccess 11D0h Lockheed Martin Federal Systems-Manassas 11D2h Intercom, Inc. 11D4h Analog Devices 11D5h Ikon Corp. 11D9h TEC Corp. 11DAh Novell 11DBh Sega Enterprises, Ltd. 11DEh Zoran Corporation 11DFh New Wave PDG 11E0h ??? 11E1h GEC Plessey Semi Inc. 11E2h Samsung Information Systems Americ 11E3h Quicklogic Corporation 11E4h Second Wave Inc. 11E5h IIX Consulting 11E6h Mitsui-Zosen System Research 11E7h ??? 11E8h Digital Processing Systems Inc. 11E9h ??? 11EAh Elsag Bailey 11EBh Formation Inc. 11ECh Coreco Inc. 11EDh Mediamatics 11EEh Dome Imaging Systems Inc. 11EFh Nicolet Technologies B.V. 11F0h Compu-Shack GmbH 11F1h Symbios Logic Inc. 11F2h Picture Tel Japan K.K. 11F3h Keithley Metrabyte 11F4h Kinetic Systems Corporation 11F5h Computing Devices International 11F6h Powermatic Data Systems Ltd. 11F6h Compex USA, Inc. (see #00856) 11F7h Scientific Atlanta 11F8h PMC-Sierra Inc. (see #00857) 11F9h I-Cube, Inc. 11FEh RP ??? (see #00858) 1201h Vista Controls Corp. 1203h Bayer Corp., AGFA division 1204h Lattice Semiconductor Corp. 1205h Array Corp. 1206h Amdahl Corp. 120Eh Cyclades (see #00859) 1216h PURUP Eskofot A/S 1217h O2Micro, Inc. 121Ah 3DFX Interactive, Inc. 121Bh Advanced Telecomm Modules 1220h Ariel Corporation (see #00860) 1221h Contec Co., Ltd. 1222h Ancor Communications, Inc. 1223h Heurikon/Computer Products 1224h Interactive Images 1225h Power I/O, Inc. 1226h ??? 1227h Tech-Source 1228h Norsk Elektro Optikk A/S 1229h Data Kinesis Inc. 122Ah Integrated Telecom 122Bh LG Industrial Systems Co. Ltd. 122Ch Sican GmbH 122Dh Aztech Systems Ltd 122Eh Xyratex 122Fh Andrew Corporation 1230h Fishcamp Engineering 1231h Woodward McCoach, Inc. 1232h GPT Limited 1233h Bus-Tech, Inc. 1234h Technical Corp. 1235h Risq Modular Systems, Inc. / Smart Modular Technologies, Inc. 1236h Sigma Designs Corporation 1237h Alta Technology Corporation 1238h Adtran 1239h The 3DO Company 123Ah Visicom Laboratories, Inc. 123Bh Seeq Technology, Inc. 123Ch Century Systems, Inc. 123Dh Engineering Design Team, Inc. 123Eh Sumutech, Inc. 123Fh C-Cube Microsystems 1240h Marathon Technologies Corp. 1241h DSC Communications 1242h (unknown vendor) 1243h Delphax 1244h AVM Audiovisuelles Mktg & Computer GmbH 1245h A.P.D., S.A. 1246h Dipix Technologies, Inc. 1247h Xylon Research, Inc. 1248h Central Data Corporation 1249h Samsung Electronics Co., Ltd. 124Ah AEG Electrocom GmbH 124Bh SBS/Greenspring Modular I/O 124Ch Solitron Technologies, Inc. 124Dh Stallion Technologies 124Eh Cylink 124Fh Infortrend Technology, Inc. 1250h Hitachi Microcomputer System, Ltd. 1251h VLSI Solution Oy 1252h ??? 1253h Guzik Technical Enterprises 1254h Linear Systems Ltd. 1255h Optibase Ltd. 1256h Perceptive Solutions, Inc. 1257h Vertex Networks, Inc. 1258h Gilbarco, Inc. 1259h Allied telesyn International 125Ah ABB Power Systems 125Bh Asix Electronics Corporation 125Ch Aurora Technologies, Inc. 125Dh ESS Technology 125Eh SpecialVideo Engineering SRL 125Fh Concurrent Technologies, Inc. 1260h Harris Semiconductor (see #00861) 1261h Matsushita-Kotobuki Electronics Industries 1262h ES Computer Company, Ltd. 1263h Sonic Solutions 1264h Aval Nagasaki Corporation 1265h Casio Computer Co., Ltd. 1266h Microdyne Corporation 1267h S.A. Telecommunications 1268h Tektronix 1269h Thomson-CSF/TTM 126Ah Lexmark International, Inc. 126Bh Adax, Inc. 126Ch Northern Telecom 126Dh Splash Technology, Inc. 126Eh Sumitomo Metal Industries, Ltd. 126Fh Silicon Motion, Inc. 1270h Olympus Optical Co., Ltd. 1271h GW Instruments 1272h Telematics International 1273h Hughes Network Systems 1274h Ensoniq (see #00862) 1275h Network Appliance Corporation 1276h Switched Network Tecnologies, Inc. 1277h Comstream 1278h Transtech Parallel Systems Ltd. 1279h Transmeta Corporation 127Ah Rockwell Semiconductor Systems 127Bh Pixera Corporation 127Ch Crosspoint Solutions, Inc. 127Dh Vela Research 127Eh Winnov, L.P. 127Fh Fujifilm 1280h Photoscript Group Ltd. 1281h Yokogawa Electric Corporation 1282h Davicom Semiconductor, Inc. 1283h Integrated Technology Express, Inc. 1284h Sahara Networks, Inc. 1285h Platform Technologies, Inc. 1286h Mazet GmbH 1287h M-Pact, Inc. / Luxsonor, Inc. 1288h Timestep Corporation 1289h AVC Technology, Inc. 128Ah Asante Technologies, Inc. 128Bh Transwitch Corporation 128Ch Retix Corporation / Sonoma Systems, Inc. 128Dh G2 Networks, Inc. 128Ch Retix Corp 128Dh ??? 128Eh Samho Multi Tech Ltd. / Hoon Tech Co., Ltd. 128Fh Tateno Dennou, Inc. 1290h Sord Computer Corporation 1291h NCS Computer Italia 1292h Tritech Microelectronics, Inc. 1293h Media Reality Technology 1294h Rhetorex, Inc. 1295h Imagenation Corporation 1296h Kofax Image Products 1297h Holco Ent Co, Ltd / Shuttle Computer 1298h Spellcaster Telecommunications Inc. 1299h Knowledge Technology Lab. 129Ah VMetro, Inc. 129Bh Image Access 129Ch Jaycor / Xantel Corporation 129Dh Compcore Multimedia, Inc. 129Eh Victor Company of Japan, Ltd. 129Fh OEC Medical Systems, Inc. 12A0h Allen-Bradley Company 12A1h Simpact Associates, Inc. 12A2h Newgen Systems Corporation 12A3h Lucent Technologies 12A4h NTT Electronics Technology Company 12A5h Vision Dynamics Ltd. 12A6h Scalable Networks, Inc. 12A7h AMO GmbH 12A8h News Datacom 12A9h Xiotech Corporation 12AAh SDL Communications, Inc. 12ABh Yuan Yuan Enterprise Co., Ltd. 12ACh MeasureX Corporation 12ADh Multidata GmbH 12AEh Alteon Networks, inc. 12AFh TDK USA Corporation 12B0h Jorge Scientific Corporation 12B1h GammaLink 12B2h General Signal Networks 12B3h Inter-Face Co. Ltd. 12B4h FutureTel Inc. 12B5h Granite Systems Inc. 12B6h Natural Microsystems 12B7h Acumen 12B8h Korg 12B9h US Robotics / 3com Corporation 12BAh PMC Sierra 12BBh Nippon Unisoft Corporation 12BCh Array Microsystems 12BDh Computerm Corp. 12BEh Anchor Chips 12BFh Fujifilm Microdevices 12C0h InfiMed 12C1h GMM Research Corp. 12C2h Mentec Limited 12C3h Holtek Microelectronics Inc. 12C4h Connect Tech Inc. 12C5h Picture Elements, Inc. (see #00863) 12C6h Mitani Corporation 12C7h Dialogic Corporation 12C8h G Force Co, Ltd. 12C9h Gigi Operations 12CAh Integrated Computing Engines 12CBh Antex Electronics Corporation 12CCh Pluto Technologies International 12CDh Aims Lab 12CEh Netspeed, Inc. 12CFh Prophet Systems, Inc. 12D0h GDE Systems, Inc. 12D1h Psitech 12D2h NVIDIA / SGS Thomson 12D3h Vingmed Sound A/S 12D4h DGM&S 12D5h Equator Technologies 12D6h Analogic Corporation 12D7h Biotronic SRL 12D8h Pericom Semiconductor 12D9h Aculab PLC 12DAh True Time 12DBh Annapolis Micro Systems, Inc. 12DCh Symicron Computer Communication Ltd. 12DDh Management Graphics 12DEh Rainbow Technologies 12DFh SBS Technologies Inc. 12E0h Chase Research 12E1h Nintendo Co, Ltd. 12E2h Datum Inc, Bancomm-Timing Division 12E3h Imation Corp - Medical Imaging Systems 12E4h Brooktrout Technology Inc. 12E5h Apex Inc / XCD Inc. 12E6h Cirel Systems 12E7h Sunsgroup Corporation / Sebring Systems 12E8h CRISC Corporation 12E9h GE Spacenet 12EAh Zuken / Real Vision, Inc. 12EBh Aureal Semiconductor 12ECh 3A International, Inc. 12EDh Optivision Inc. 12EEh Orange Micro 12EFh Vienna Systems 12F0h Pentek 12F1h Sorenson Vision Inc. 12F2h GammaGraphx, Inc. 12F3h XING, Inc. 12F4h Megatel 12F5h Forks 12F6h Dawson France 12F7h Cognex 12F8h Electronic-Design GmbH 12F9h FourFold Technologies 12FBh Spectrum Signal Processing 12FCh Capital Equipment Corp. 12FDh i2S 12FEh ESD Electronic System Design GmbH 12FFh Lexicon 1300h Harman International Industries, Inc. 1302h Computer Sciences Corp. 1303h Innovative Integration 1304h Juniper Networks 1305h NetPhone, Inc. 1306h Duet Technologies 1307h Computer Boards 1308h Jato Technologies, Inc. 1309h AB Semicon, Ltd. 130Ah Mitsubishi Electric MicroComputer 130Bh Colorgraphic Communications Corp. 130Ch AMBEX Technologies, Inc. 130Dh Accelerix, Inc. 130Eh Yamatake-Honeywell Co., Ltd. 130Fh Advanet, Inc. 1310h GESPAC 1311h VideoServer, Inc. 1312h Acuity Imaging, Inc. 1313h Yaskawa Electric Co. 1316h Teradyne, Inc. 1317h Bridgecom, Inc. 1318h Packet Engines, Inc. 1319h ForteMedia, Inc. 131Ah Finisar Corp. 131Ch Nippon Electro-Sensory Devices Corp. 131Dh Sysmic, Inc. 131Eh Xinex Networks, Inc. 131Fh SIIG, Inc. 1320h Crypto AG 1321h Arcobel Graphics BV 1322h MTT Co., Ltd. 1323h DOME, Inc. 1324h Sphere Communications 1325h Salix Technologies, Inc. 1326h SeaChange International 1327h Voss Scientific 1328h Quadrant International 1329h Productivity Enhancement 132Ah Microcom, Inc. 132Bh BroadBand Technologies 132Ch Micrel, Inc. 132Dh Integrated Silicon Solution, Inc. 1330h MMC Networks 1331h RadiSys Corporation 1332h Micro Memory 1333h ??? 1334h Redcreek Communications, Inc. 1335h Videomail, Inc. 1336h ??? 1337h Third Planet Publishing 1338h BT Electronics 133Ah VTEL Corp. 133Bh Softcom Microsystems 133Ch Holontech Corp. 133Dh S S Technologies 133Eh Virtual Computer Corp. 133Fh SCM Microsystems 1340h Atalla Corp. 1341h Kyoto Microcomputer Co. 1342h Promax Systems Inc. 1343h Phylon Communications, Inc. 1344h Crucial Technology 1345h Arescom, Inc. 1346h ??? 1347h Odetics 1348h ??? 1349h Sumitomo Electric Industries, Ltd. 134Ah DTC Technology Corp. 134Bh Ark Research Corp. 134Ch Chori Joho System Co., Ltd. 134Dh Pctel, Inc. 134Eh CSTI 134Fh Algo System Co., Ltd. 1350h Systec Co., Ltd. 1351h Sonix, Inc. 1353h Dassault A.T. 1354h dWave System, Inc. 1355h Kratos Analytical, Ltd. 1356h The Logical Co. 1359h Prisa Networks 135Ah Brain Boxes 135Bh Giganet, Inc. 135Ch Quatech, Inc. 135Dh ABB Network Partner AB 135Eh Sealevel Systems, Inc. 135Fh I-Data International A-S 1360h Meinberg Funkuhren 1361h Soliton Systems K.K. 1362h Fujifacom Corp. 1363h Phoenix Technology, Ltd. 1364h ATM Communications, Inc. 1365h Hypercope Corp. 1366h Teijin Seiki Co., Ltd. 1367h Hitachi Zosen Corp. 1368h Skyware Corp. 1369h Digigram 136Ah High Soft Tech 136Bh Kawasaki Steel Corp. 136Ch Adtek System Science Co., Ltd. 136Dh Gigalabs, Ltd. 136Fh Applied Magic, Inc. 1370h ATL Products 1371h CNET Technology, Inc. 1373h Silicon Vision, Inc. 1374h Silicom, Ltd. 1375h Argosystems, Inc. 1376h LMC 1377h Electronic Equipment Production 1378h Telemann Co., Ltd. 1379h Asahi Kasei Microsystems Co., Ltd. 137Ah Mark Of The Unicorn, Inc. 137Bh PPT Vision 137Ch Iwatsu Electric Co., Ltd. 137Dh Dynachip Corp. 137Eh Patriot Scientific Corp. 137Fh Japan Satellite Systems, Inc. 1380h Sanritz Automation Co., Ltd. 1381h Brains Co., Ltd. 1382h Marian - Electronic & Software 1383h Controlnet, Inc. 1384h Reality Simulation Systems, Inc. 1385h Netgear 1386h Video Domain Technologies 1387h Systran Corp. 1388h Hitachi Information Technology Co., Ltd. 1389h Applicom International 138Ah Fusion Micromedia Corp. 138Bh Tokimec, Inc. 138Ch Silicon Reality 138Dh Future Techno Designs Pte., Ltd. 138Eh Basler GmbH 138Fh Patapsco Designs, Inc. 1390h Concept Development, Inc. 1391h Development Concepts, Inc. 1392h Medialight, Inc. 1394h Level One Communications 1395h Ambicom, Inc. 1396h Cipher Systems, Inc. 1397h Cologne Chip Designs GmbH 1398h Clarion Co., Ltd. 1399h Rios Systems Co., Ltd. 139Ah Alacritech, Inc. 139Bh Mediasonic Multimedia Systems, Ltd. 139Ch Quantum 3D, Inc. 139Dh EPL, Ltd. 139Eh Media4 139Fh Aethra S.R.L. 13A0h Crystal Group, Inc. 13A1h Kawasaki Heavy Industries, Ltd. 13A2h Ositech Communications, Inc. 13A3h HI-FN 13A4h Rascom, Inc. 13A5h Audio Digital Imaging, Inc. 13A6h Videonics, Inc. 13A7h Teles AG 13A8h Exar Corp. 13A9h Ultrasound Group 13AAh Broadband Networks, Inc. 13ABh Arcom Control Systems, Ltd. 13ACh Motion Media Technology, Ltd. 13ADh Nexus, Inc. 13AEh ALD Technology, Ltd. 13AFh T.Sqware 13B0h Maxspeed Corp. 13B1h Tamura Corp. 13B2h Techno Chips Co., Ltd. 13B3h Lanart Corp. 13B4h Wellbean Co, Inc. 13B5h ARM 13B6h DLoG GmbH 13B7h LOGIC Devices, Inc. 13B8h Nokia Telecommunications Oy 13B9h Elecom Co., Ltd. 13BAh Oxford Instruments 13BBh Sanyo Technosound Co., Ltd. 13BCh Bitran Corp. 13BDh Sharp Corp. 13BEh Miroku Jyoho Service Co., Ltd. 13BFh Sharewave., Inc. 13C0h Microgate Corp. 13C1h 3ware Inc. 13C2h Technotrend Systemtechnik GmbH 13C3h Janz Computer AG 13C4h Phase Metrics 13C5h Alphi Technology Corp. 13C6h Condor Engineering, Inc. 13C7h Blue Chip Technology, Ltd. 13C8h Apptech, Inc. 13C9h Eaton Corp. 13CAh IOMEGA Corp. 13CBh Yano Electric Co., Ltd. 13CCh Metheus Corp. 13CDh Compatible Systems Corp. 13CEh Cocom A/S 13CFh Studio Audio & Video, Ltd. 13D0h Techsan Electronics Co., Ltd. 13D1h Abocom Systems, Inc. 13D2h Shark Multimedia, Inc. 13D3h IMC Networks 13D4h Graphics Microsystems, Inc. 13D5h Media 100, Inc. 13D6h K.I. Technology Co., Inc. 13D7h Toshiba Engineering Corp. 13D8h Phobos Corp. 13D9h Apex PC Solutions, Inc. 13DAh Intresource Systems Pte., Ltd. 13DBh Janich & Klass Computertechnik GmbH 13DCh Netboost Corp. 13DDh Multimedia Bundle, Inc. 13DEh ABB Robotics Products AB 13DFh E-Tech, Inc. 13E0h GVC Corp. 13E1h Silicom Multimedia Systems, Inc. 13E2h Dynamics Research Corp. 13E3h Nest, Inc. 13E4h Calculex, Inc. 13E5h Telesoft Design, Ltd. 13E6h Argosy Research, Inc. 13E7h NAC, Inc. 13E8h Chip Express Corp. 13E9h Intraserver Technology, Inc. 13EAh Dallas Semiconductor 13EBh Hauppauge Computer Works, Inc. 13ECh Zydacron, Inc. 13EDh Raytheion E-Systems 13EEh Hayes Microcomputer Products, Inc. 13F0h Sundance Technology, Inc. 13F1h Oce' - Technologies B.V. 13F2h Ford Microelectronics, Inc. 13F3h McData Corp. 13F4h Troika Design, Inc. 13F5h Kansai Electric Co., Ltd. 13F6h C-Media Electronics, Inc. 13F7h Wildfire Communications 13F8h Ad Lib Multimedia, Inc. 13F9h NTT Advanced Technology Corp. 13FAh Pentland Systems, Ltd. 13FBh Aydin Corp. 13FCh Computer Peripherals International 13FDh Micro Science, Inc. 13FEh Advantech Co., Ltd. 13FFh Silicon Spice, Inc. 1400h ARTX, Inc. 1401h CR-Systems A/S 1402h Meilhaus Electronic GmbH 1403h Ascor, Inc. 1404h Fundamental Software, Inc. 1405h Excalibur Systems, Inc. 1406h Oce' Printing Systems GmbH 1407h Lava Computer Mfg., Inc. 1408h Aloka Co., Ltd. 1409h Timedia Technology Co., Ltd. 140Ah DSP Research, Inc. 140Bh Ramix, Inc. 140Ch Elmic Systems, Inc. 140Dh Matsushita Electrics Works, Ltd. 140Eh Goepel Electronic GmbH 140Fh Salient Systems Corp. 1410h Midas Lab, Inc. 1411h Ikos Systems, Inc. 1412h IC Ensemble, Inc. 1413h Addonics 1414h Microsoft 1415h Oxford Semiconductor, Ltd. 1416h Multiwave Innovation Pte, Ltd. 1417h Convergenet Technologies, Inc. 1418h Kyushu Electronics Systems, Inc. 1419h Excel Switching Corp. 141Ah Apache Micro Peripherals, Inc. 141Bh Zoom Telephonics, Inc. 141Dh Digitan Systems, Inc. 141Eh Fanuc, Ltd. 141Fh Visiontech, Ltd. 1420h Psion Dacom PLC 1421h ADS Technologies, Inc. 1422h Ygrec Systems Co., Ltd. 1423h Custom Technology Corp. 1424h Vidoeserver Connections 1425h ASIC Designers, Inc. 1426h Storage Technology Corp. 1427h Better On-line Solutions 1428h EDEC Co., Ltd. 1429h UNEX Technology Corp. 142Ah Kingmax Technology, Inc. 142Bh RadioLAN 142Ch Minton Optic Industry Co., Ltd. 142Dh Pix Stream, Inc. 142Eh Vitec Multimedia 142Fh Radicom Research, Inc. 1430h ITT Aerospace/Communications Division 1431h Gilat Satellite Networks 1432h Edimax Computer Co. 1433h Eltec Elektronik GmbH 1435h Real Time Devices US, Inc. 1436h CIS Technology, Inc. 1437h Nissin Co Inc 1438h Atmel-Dream 1439h Outsource Engineering & Mfg. Inc 143Ah Stargate Solutions Inc 143Bh Canon Research Center, America 143Ch Amlogic Inc 143Dh Tamarack Microelectronics Inc 143Fh Lightwell Co Ltd - Zax Division 1440h Algol Corp 1441h AGIE LTD 1442h Phoenix Contact Co GmbH 1443h Unibrain S.A. 1444h TRW 1445h Logical do Ltd 1447h AIM GmbH 1448h Alesis Studio 1449h TUT Systems Inc 144Ah Adlink Technology 144Bh Loronix Information Systems Inc 144Ch Catalina Research Inc 144Eh Olitec 144Fh Askey Computer Corp 1450h Nexus Systems Inc 1451h SP3D Chip Design GmbH 1453h Mycom Inc 1454h Altiga Networks 1455h Logic Plus Plus Inc 1456h Advanced Hardware 1457h Nuera Communications Inc 1458h Giga-Byte Technology 1459h Dooin Electronics 145Ah Escalate Networks Inc 145Bh Praim SRL 145Ch Cryptek 145Dh Gallant Computer Inc 145Eh Aashima Technology B.V. 145Fh Baldor Electric Company 1460h Dynarc Inc 1461h Avermedia Technologies Inc 1462h Micro-Star International Co Ltd 1463h Fast Corp 1464h Interactive Circuits & Systems Ltd 1465h GN Nettest Telecom Div. 1466h Designpro Inc 1467h Digicom SPA 1468h Ambit microsystem Corp 1469h Cleveland Motion Controls 146Ah IFR Ltd 146Bh Parascan Technologies Ltd 146Ch Ruby Tech Corp 146Dh Tachyon Inc 146Eh Williams Electronic Games Inc 146Fh Multi Dimensional Consulting Inc 1470h Bay Networks 1471h Integrated Telecom Express Inc 1472h Daikin Indistries Ltd 1473h Zapex Technologies Inc 1474h Doug Carson & Associates 1475h Picazo Communications 1476h Mortara Instrument Inc 1477h Net Insight 1478h Diatrend Corp 1479h Toray Industries Inc 147Ah Formosa Industrial Computing 147Bh Abit Computer Corp 147Ch Aware Inc 147Dh Interworks Computer Products 147Eh Matsushita Graphic Communication Systems Inc 147Fh Nihon Unisys Ltd 1480h SCII Telecom 1481h Biopac Systems Inc 1482h ISYTEC 1483h Labway Corp 1668h Action Tec Electronics, Inc. 1A08h Sierra Semiconductor 1B13h Jaton Corp. 1C1Ch Symphony (see #00864) 1D44h DPT 1DE1h TekRAM (see #00865) 21C3h 21st Century Computer Corp. 2348h Racore 270Bh Xantel Corp. 270Fh Chaintech Computer Co., Ltd. 3000h Hansol Electronics Inc. 3142h Post Impression Systems 3388h Hint Corp. 3D3Dh 3DLabs (see #00866) 4005h Avance Logic, Inc. (see #00867) 4444h Internext Compression, Inc. 4468h BRIDGEPORT MACHINES 4594h Cogetec Informatique Inc. 4680h UMAX Computer Corp. 4843h Hercules Computer Technology, Inc. 4942h ??? 4943h Growth Networks 4978h Axil Computer, Inc. 4A14h NetVin 4B10h Buslogic Inc. (see #00869) 4C48h Lung Hwa Electronics 4D51h Mediaq Inc 4DDCh ILC data Device Corp. 5053h Voyetra Technologies 5143h Qualcomm, Inc. 5333h S3 (see also #00870) 5455h Technische Universit�t Berlin 5519h Cnet Technologies, Inc. 5555h Genroco Inc 5700h Netpower 6356h UltraStor 6374h c't Magazin fuer Computertechnik (see #00871) 6409h Logitec Corp 6666h Decision Computer International Co. 7604h O.N. Electric Co Ltd 8008h Quancom Electronic GmbH (see #00872) 8086h Intel (see also #00873) 8800h Trigem Computer (see #00874) 8866h T-Square Design Inc 8888h Silicon Magic 8E0Eh Computone Corporation 8E2Eh KTI 9004h Adaptec (see #00875) 9005h Adaptec 907Fh Atronics (see #00876) 9412h Holtek A200h NEC Corp. (see #00754) A259h Hewlett Packard (see #00757) A25Bh Hewlett Packard GmbH PL24-MKT (see #00757) A304h Sony A727h 3com Corp. (see #00796) AA42h Scitex Digital Video B1B3h Shiva Europe, Ltd. C001h TSI Telsys C0A9h Micron/Crucial Technology C0DEh Motorola (see #00768) C0FEh Motion Engineering, Inc. CAFEh Chrysalis-ITS D4D4h DY4 Systems Inc. E159h Tiger Jet Network Inc. E000h Winbond E159h Tiger Jet Network Inc. ECC0h Echo Corp. EDD8h Ark Logic Inc (see #00877) FEDAh Epigram Inc Note: this list, as well as the following per-vendor tables, tends to be rather out-of-date. The current version of the listing can be found in PCICFG.DAT, part of the PCICFG program distributed in RBPCIxxx.ZIP (available at http://www.pobox.com/~ralf/files.html). SeeAlso: #00878 (Table 00733) Values for Compaq PCI device code: 0001h EISA Bridge 0002h ISA Bridge 1000h Triflex/PCI CPU Bridge 2000h Triflex/PCI CPU Bridge 3032h QVision 3033h QVision 1280/p 3034h QVision 1280 4000h Triflex/PCI CPU Bridge AE32h Netelligent 10/100 TX AE34h Netelligent 10 T AE35h Integrated NetFlex 3/P AE40h Dual-port Netelligent 10/100 TX AE43h ProLiant Integrated Netelligent 10/100 B011h Dual-port Netelligent 10/100 TX F130h ThunderLAN F150h NetFlex 3/P with BNC SeeAlso: #00732 (Table 00734) Values for Symbios Logic (formerly NCR) PCI device code: 0001h PCI revision ID: 00-0Fh 53C810 (fast SCSI) 10-1Fh 53C810A (fast SCSI) 20-2Fh 53C810ALV (fast SCSI) 0002h 53C820 (fast wide SCSI) 0003h PCI revision ID: 00-0Fh 53C825 (fast wide SCSI) 10-1Fh 53C825A (Ultra wide SCSI) 0004h 53C815 (fast SCSI) 0005h 53C810AP (fast SCSI) 0006h PCI revision ID: 00-0Fh 53C860 (Ultra SCSI) 10-1Fh 53C860LV (Ultra SCSI) 000Fh 53C875 (Ultra wide SCSI) 1000h 63c815 Fast-SCSI SeeAlso: #00732 (Table 00735) Values for ATI PCI device code: 4158h 68800AX (Mach32) 4354h 215CT222 4358h 210888CX 4758h 210888GX (Mach64) 5654h 215VT222 Video Expression SeeAlso: #00732 (Table 00736) Values for ULSI Systems PCI device code: 0201h US201 Graphics Controller SeeAlso: #00732 (Table 00737) Values for VLSI Technologies PCI device code: 0005h 82C592 CPU Bridge 0006h 82C593 ISA Bridge 0007h 82C594 Wildcat System Ctrlr 0008h VL82C597 Wildcat ISA Bridge 0009h 82C597 000Ch 82C541 000Dh 82C543 0101h 82C532 0102h 82C534 0104h 82C535 0105h 82C147 0200h 82C975 RISC GUI Accelerator 0280h 82C925 RISC GUI Accelerator SeeAlso: #00732 (Table 00738) Values for Avance Logic, Inc. (Avance Logics) PCI device code: 2301h ALG2301 GUI accelerator 2302h ALG2302 GUI accelerator SeeAlso: #00732,INT 10/AX=4F70h (Table 00739) Values for National Semiconductor PCI device code: 0001h DP83810 Ethernet 0002h PC87415 IDE DMA-Master Mode controller (see #00922) D001h NS87410 EIDE controller (see #00921) SeeAlso: #00732,#00773 (Table 00740) Values for Tseng Labs PCI device code: 3202h ET4000/W32p-2 3205h ET4000/W32p-B 3206h ET4000/W32p-C 3207h ET4000/W32p-D 3208h ET6000 SeeAlso: #00732 (Table 00741) Values for Weitek PCI device code: 9000h Power9000??? 9001h Power9001 9100h Power9100 SeeAlso: #00732 (Table 00742) Values for DEC PCI device code: 0001h DC21050 DEC BRD PCI-PCI bridge 0002h DC21040 Tulip 0004h DecChip 21030 0009h DC21140 Tulip Fast (see #00923) 000Ah 21230 Video Codec 000Fh DEFPA FDDI 0014h DC21041 Tulip Plus (see #00923) 0016h DGLPB ATM 0019h DC21143 PCI/Cardbus Ethernet 0021h 21052 PCI-PCI Bridge (see #00924) 0022h 21150 PCI-PCI Bridge 0024h 21152 PCI-PCI Bridge 0025h 21153 PCI-PCI Bridge 0026h 21154 PCI-PCI Bridge 0045h 21553 PCI-PCI Bridge 0046h 21554 PCI-PCI Bridge 1050h??? 21340 Managed Port Switch SeeAlso: #00732 (Table 00743) Values for Cirrus Logic PCI device code: 0038h CL-GD7548 Video Controller 004Ch CL-GD7556 64-bit Video/Graphics LCD/CRT Ctrlr 00A0h Cirrus 5430 00A4h Cirrus 5434-4 00A8h Cirrus 5434-8 00ACh Cirrus 5436 00B8h Cirrus GD5446 00BCh CL-GD5480 64-bit SGRAM GUI accelerator 1100h Cirrus 6729 PCMCIA Controller 1110h Cirrus 6832 PCMCIA/CardBus Ctrlr 1200h Cirrus 7542 1202h Cirrus 7543 1204h Cirrus 7541 6001h CS4610/4611 CrystalClear SoundFusion Audio Accelerator SeeAlso: #00732 (Table 00744) Values for IBM PCI device code: 0002h MCA Bridge 0005h Alta Lite CPU Bridge 0007h Alta MP CPU Bridge 000Ah ISA Bridge 0017h CPU Bridge 0018h Auto LANStreamer 001Bh GXT-150P Graphics Adapter 001Dh 82G2675 0020h MCA Bridge 0022h PCI-PCI Bridge 002Eh ??? RAID SCSI 0036h Miami/PCI 32-bit LocalBus Bridge 0047h ??? 0048h ??? 004Ah ??? 004Bh ??? 004Ch ??? 004Dh ??? 004Eh ??? 004Fh ??? 0050h ??? 0051h ??? 0052h ??? 0053h ??? 25 MBit ATM controller 0055h ??? 0059h ??? 005Ah ??? 005Bh ??? SeeAlso: #00732 (Table 00745) Values for Western Digital PCI device code: 0193h WD33C193A 8-bit SCSI 0196h SCSI Bridge 0197h WD33C197A 16-bit SCSI 0296h WD33C296A 16-bit SCSI 3193h WD7193 Fast SCSI-II 3197h WD7197 Fast-Wide SCSI-II 3296h WD7197 4296h WD33C296 Wide Fast-20 Bridge C24Ah 90C? SeeAlso: #00732 (Table 00746) Values for AMI PCI device code: 9010h MegaRAID 9030h ??? IDE Controller 9031h ??? IDE Controller 9032h ??? IDE/SCSI Controller 9033h ??? SCSI Controller 9040h ??? Multimedia card SeeAlso: #00732 (Table 00747) Values for Advanced Micro Devices (AMD) PCI device code: 2000h Am79C970 (Lance) Am79C970A (PCnet-PCI II, PCI revision ID is 1xh) Am79C971 (PCnet-FAST, PCI revision ID is 2xh) 2020h Am53c974 SCSI (see #00925) 2040h Am79C974 Ethernet/SCSI SeeAlso: #00732 (Table 00748) Values for Trident PCI device code: 9320h ??? 32-bit GUI accelerator 9350h ??? 32-bit GUI accelerator 9360h ??? Flat-Panel controller 9420h Trident 9420 9440h Trident 9440 9460h Trident 9460 9660h Trident 9660 9682h ??? Multimedia accelerator SeeAlso: #00732 (Table 00749) Values for LSI Logic PCI device code: 0000h Hydra (Pentium chipset) 0010h Aspen (486 chipset) SeeAlso: #00732 (Table 00750) Values for Matrox PCI device code: 0518h MGA-II (Ultima) 0519h Millenium (2064W) 0D10h MGA-I (Impression) SeeAlso: #00732 (Table 00751) Values for Chips & Technologies PCI device code: 00B8h 64310 GUI Accelerator 00D0h 65545 Flat Panel/CRT VGA 00D8h F65545 00DCh F65548 00E0h 65550 Flat Panel/CRT GUI Accelerator 00E4h 65554 display 00E5h 65555 HiQVPro LCD/CRT GUI Controller 00F4h 68554 HiQVision LCD/CRT GUI Controller SeeAlso: #00732 (Table 00752) Values for Toshiba America PCI device code: 0009h r4x00 Bridge SeeAlso: #00732 (Table 00753) Values for Miro Computer Products AG PCI device code: 5601h 36050 5607h video in/out w/ MPEG SeeAlso: #00732 (Table 00754) Values for NEC Corporation PCI device code: 0001h PCI-to-486 Bridge 0002h PCI-to-VL98 Bridge 0003h ATM LAN controller 0004h r4000PCI Bridge 0005h PCI-to-486 Bridge 0006h GUI Accelerator 0007h PCI-to-UXbus Bridge 0008h GUI Accelerator 0009h PC-98 Graphics Controller SeeAlso: #00732 (Table 00755) Values for Future Domain PCI device code: 0000h TMC-36C70 / TMC-18C30 (fast SCSI) SeeAlso: #00732 (Table 00756) Values for Silicon Integrated System (SIS) PCI device code: 0001h SiS6201 0002h SiS6202 0006h SI 85C501/2 0008h SI 85C503/5513 0205h SiS6205 0406h SiS501 0496h SiS496 0596h Pentium chipset 0601h SiS601 3602h IDE controller 5401h 486 chipset 5511h SiS5511 Pentium chipset 5513h SiS5513 EIDE controller 5581h Pentium chipset 5582h ISA Bridge 5596h Pentium chipset 6204h video decoder/MPEG 6205h PCI VGA controller SeeAlso: #00732 (Table 00757) Values for Hewlett-Packard PCI device code: 1030h J2585A DeskDirect 10/100 PCI NIC 1040h J2973A DeskDirect 10BaseT PCI NIC 1041h J2585B DeskDirect 10/100 PCI NIC 1042h J2970A DeskDirect 10BaseT/2 PCI NIC 2910h E2910A PCI-bus exerciser 2925h E2925A PCI-bus exerciser SeeAlso: #00732 (Table 00758) Values for PC Technology PCI device code: 1000h RZ1000 1001h RZ1001 SeeAlso: #00732 (Table 00759) Values for Distributed Processing Technology (DPT) PCI device code: A400h 2124A/9X EATA SmartCache/RAID SCSI SeeAlso: #00732 (Table 00760) Values for OPTi PCI device code: A0F8h 82C750 (Vendetta) USB controller C557h 82C557 C558h 82C558 C567h 82C750 (Vendetta, device 0) C568h 82C750 (Vendetta, device 1) C621h 82C621 IDE controller / 82C750 Vendetta IDE controller C822h 82C822 C824h 82C824 FireFox PC-Card controller C825h 82C825 FireBridge II C861h 82C861/82C871 FireLink/FireBlast PCI-to-USB Bridge (see #00965) D568h 82C750 Vendetta IDE controller D768h 82C750 Vendetta IDE controller (ultra DMA) SeeAlso: #00732 (Table 00761) Values for SGS Thomson Microelectronics PCI device code: 0008h SGS 2000 0009h SGS 1764 SeeAlso: #00732 (Table 00762) Values for BusLogic PCI device code: 0140h MultiMaster NC 1040h MultiMaster 8130h FlashPoint SeeAlso: #00732 (Table 00763) Values for Texas Instruments PCI device code: 0500h 100 Mbit LAN controller 0508h tms380c2x 1000h TI PCI Eagle i/f 3D04h TVP4010 3D Graphics Processor !!!ti\slas155.pdf p.26 A001h TDC1570 64-bit ATM sar A100h TDC1561 32-bit ATM sar AC10h PCI1050 PCCard controller AC11h PCI1053 PCCard controller AC12h PCI1130 PCCard controller SeeAlso: #00732 (Table 00764) Values for Oak Technology PCI device code: 0107h OTI-0107 (Spitfire) SeeAlso: #00732 (Table 00765) Values for Winbond PCI device code: 0000h ??? Ethernet controller 0001h 83769 0105h 82C105 SeeAlso: #00732 (Table 00766) Values for Hitachi Ltd. PCI device code: 0001h PCI Bridge 0002h PCI-bus controller SeeAlso: #00732 (Table 00767) Values for EFAR Microsystems PCI device code: 0810h 486 Bridge 0922h Pentium/P54C Bridge 0926h ISA Bridge SeeAlso: #00732 (Table 00768) Values for Motorola PCI device code: 0001h MPC105 PowerPC chipset SeeAlso: #00732 (Table 00769) Values for Promise Technology PCI device code: 5300h Promise 5300 SeeAlso: #00732 (Table 00770) Values for Number 9 Computer Company PCI device code: 2309h Imagine 128 2339h Imagine 128-2 SeeAlso: #00732 (Table 00771) Values for United Microelectronics (UMC) PCI device code: 0001h UM82C881 (486 chipset) 0002h UM82C776 (ISA Bridge) 0101h UM8673F 0881h UM8881 (486 chipset) 0886h UM8886F (ISA Bridge) 0891h UM8891A 1001h UM886A (dual IDE controller) 673Ah UM8886BF 8710h UM8710 VGA controller 886Ah UM8886A 8881h UM8881F 8886h UM8886F 8891h UM8891 (Pentium chipset) 9017h UM9017F E881h UM8881 (486 chipset) E886h UM8886N E891h UM8891N SeeAlso: #00732 (Table 00772) Values for 8x8 (X Tech) PCI device code: 0001h AGX-016 0002h IIT3204/3501 MPEG decoder SeeAlso: #00732 (Table 00773) Values for PicoPower PCI device code: 0000h PT80C826 VL Bridge 0001h Vesuvius V1-LS System Controller (see PORT 0024h"V1-LS") Revision ID field: 03h = Rev. AA, 04h = Rev. BB, 05h = Rev. CC 0002h Vesuvius V3-LS ISA Bridge (see #00971,PORT 0024h"V3-LS") 0005h National Semiconductor PC87550 PCI System Controller 8002h Vesuvius V3-LS ISA Bridge (secondary; Rev. BB and higher only) SeeAlso: #00732,#00739 (Table 00774) Values for Mylex Corporation PCI device code: 0001h DAC960P Wide SCSI + RAID SeeAlso: #00732 (Table 00775) Values for Yamaha Corporation PCI device code: 0001h ?? 3D graphics controller 0002h YGV615 RPA3 3D graphics controller SeeAlso: #00732 (Table 00776) Values for NexGen Microsystems PCI device code: 4E78h NexGen 82C501 SeeAlso: #00732 (Table 00777) Values for Q Logic PCI device code: 1020h ISP1020 Fast-Wide SCSI 1022h ISP1022 Fast-Wide SCSI SeeAlso: #00732 (Table 00778) Values for Leadtek Research PCI device code: 0000h LeadTek 805 SeeAlso: #00732 (Table 00779) Values for Interphase PCI device code: 0001h ATM interface 0002h 100 vg amylan controller SeeAlso: #00732 (Table 00780) Values for Data Technology Corporation (DTC) PCI device code: 0802h SL82C105 EIDE Controller SeeAlso: #00732 (Table 00781) Values for Contaq Microsystems PCI device code: 0600h Contaq 82C599 SeeAlso: #00732 (Table 00782) Values for Forex Computer Corporation PCI device code: 0001h FR710 EIDE Controller 0613h ??? Host Bridge SeeAlso: #00732 (Table 00783) Values for Bit3 Computer PCI device code: 0001h Model 617 PCI-VME Bus Adapter SeeAlso: #00732 (Table 00784) Values for Olicom PCI device code: 0001h ??? Ethernet Controller SeeAlso: #00732 (Table 00785) Values for Intergraph Corporation PCI device code: 0020h 3D graphics processor 0021h 3D graphics processor w/texture 0040h 3D graphics frame buffer 0041h 3D graphics frame buffer 0060h proprietary bus bridge 0720h Motion JPEG codec SeeAlso: #00732 (Table 00786) Values for National Instruments PCI device code: C801h PCI-GPIB SeeAlso: #00732 (Table 00787) Values for CMD Technology, Inc. PCI device code: 0640h CMD 640 0642h IDE controller with RAID-1 0646h CMD 646 EIDE 0650h PBC0650A Fast SCSI-II SeeAlso: #00732 (Table 00788) Values for Appian Technology: 0038h ??? EIDE Controller SeeAlso: #00732 (Table 00789) Values for Vision / Quantum Designs Ltd. PCI device code: 0001h QD8500 0002h QD8580 SeeAlso: #00732 (Table 00790) Values for Brooktree Corporation PCI device code: 0350h BT848 TV/PCI with DMA Push 2115h BtV 2115 Mediastream Controller 2125h BtV 2125 Mediastream Controller 8230h Bt8230 ATM Segment/Reassembly Ctrlr (SRC) (see #00981) SeeAlso: #00732 (Table 00791) Values for Sierra Semiconductor PCI device code: 0000h STB 64-bit GUI accelerator SeeAlso: #00732 (Table 00792) Values for ACC Microelectronics PCI device code: 0000h ACC 2056 SeeAlso: #00732 (Table 00793) Values for Symphony Labs PCI device code: 0001h 83769 0103h sl82c103 PCI-IDE Controller 0105h 82C105 bus-master PCI-IDE controller SeeAlso: #00732 (Table 00794) Values for PLX Technology PCI device code: 9036h PCI9036 interface chip 9060h PCI9060xx interface chip SeeAlso: #00732 (Table 00795) Values for Madge Networks PCI device code: 0001h Smart 16/4 Ringnode 1000h Collage 25 ATM adapter 1001h Collage 155 ATM adapter SeeAlso: #00732 (Table 00796) Values for 3com Corporation PCI device code: 5900h 3C590 5950h 3C595TX 5951h 3C595T4 5952h 3C595MII 8811h token ring 9000h 3C900-TPO Fast Etherlink 9001h 3C900-COMBO Fast Etherlink 9050h 3C905-TX Fast Etherlink 10/100 SeeAlso: #00732 (Table 00797) Values for Standard Microsystems Corporation (SMC) PCI device code: 1000h 37C665 floppy disk controller 1001h 37C922 floppy disk controller SeeAlso: #00732 (Table 00798) Values for Acer Labs Inc. PCI device code: 1435h M1435 VL Bridge 1445h ALI M1445 VL bridge + EIDE 1449h ALI M1449 ISA bridge 1451h ALI M1451 Pentium chipset 1461h ALI M1461 P54C chipset 1489h ALI M1489 1511h ALI M1511 1513h ALI M1513 3141h M3141 GUI accelerator VRAM 3143h M3143 GUI accelerator VRAM/DAC 3145h M3145 GUI accelerator VRAM 3147h M3147 GUI accelerator VRAM/DAC 3149h M3149 GUI accelerator VRAM 3151h M3151 GUI accelerator VRAM 5212h M4803 5215h ALI MS4803 EIDE controller 5217h m5217 I/O 5219h m5219 I/O 5235h m5225 I/O SeeAlso: #00732 (Table 00799) Values for Surecom Technology PCI device code: 5240h IDE Controller 5241h PCMCIA Bridge 5242h general-purpose controller 5243h Bus controller 5244h Floppy-disk controller SeeAlso: #00732 (Table 00800) Values for Neomagic Corporation: 0000h graphics controller SeeAlso: #00732 (Table 00801) Values for Advanced System Products PCI device code: 1100h ABP940 revision A??? SCSI 1200h ABP940 revision B??? Fast SCSI-2 1300h Fast-Wide SCSI controller SeeAlso: #00732 (Table 00802) Values for Citicorp TTI PCI device code: 2001h mb86605 Wide SCSI-2 SeeAlso: #00732 (Table 00803) Values for CENR/ECP/EDU PCI device code: 0001h SPSB PMC 0002h SPSB PCI 10DCh ATT 2C15-3 FPGA SeeAlso: #00732 (Table 00804) Values for Evans & Sutherland PCI device code: 0001h 3D graphics processor SeeAlso: #00732 (Table 00805) Values for Emulex Corporation PCI device code: 1AE5h Fibre Channel Host Adapter SeeAlso: #00732 (Table 00806) Values for Integrated Micro Solutions PCI device code: 5026h IMS5026/27/28 VL Bridge 5028h ISA Bridge 8849h IMS 8849 8853h ATM network card 9128h IMS9129 GUI accelerator SeeAlso: #00732 (Table 00807) Values for TekRAM Technology Corporation Ltd. PCI device code: 690Ch TekRAM 690c SeeAlso: #00732 (Table 00808) Values for Newbridge Microsystems PCI device code: 0000h CA91C042 VMEbus Bridge SeeAlso: #00732 (Table 00809) Values for Applied Micro Circuits Corp. PCI device code: 4750h S5933 PCI controller 8043h MyriNet SeeAlso: #00732 (Table 00810) Values for Integraphics Systems PCI device code: 1680h 1680 SeeAlso: #00732 (Table 00811) Values for Artist Graphics PCI device code: 0101h 3GA 64-bit graphics processor SeeAlso: #00732 (Table 00812) Values for Realtek Semiconductor PCI device code: 8029h Realtek 8029 SeeAlso: #00732 (Table 00813) Values for ASCII Corporation PCI device code: 7310h V7310 VGA Video Overlay SeeAlso: #00732 (Table 00814) Values for NKK Corporation PCI device code: A001h NDR4000 NR4600 Bridge SeeAlso: #00732 (Table 00815) Values for Truevision PCI device code: 0000h ??? GUI Accelerator 0001h ??? GUI Accelerator 0002h ??? GUI Accelerator 0003h ??? GUI Accelerator 0004h ??? GUI Accelerator 0005h ??? GUI Accelerator 0006h ??? GUI Accelerator 0007h ??? GUI Accelerator 0008h ??? GUI Accelerator 0009h ??? GUI Accelerator 0010h ??? GUI Accelerator 0011h ??? GUI Accelerator 0012h ??? GUI Accelerator 0013h ??? GUI Accelerator 0014h ??? GUI Accelerator 0015h ??? GUI Accelerator SeeAlso: #00732 (Table 00816) Values for Initio Corporation PCI device code: 9100h 320P 9400h Fast-Wide SCSI 9700h Fast-Wide SCSI SeeAlso: #00732 (Table 00817) Values for VIA Technologies PCI device code: 0505h VIA 82C505 0561h VIA 82C561 0571h AMD-645 Peripheral Bus Controller, function 1 (see #01034) VT82C586A/B PCI Integrated Peripheral Controller, function 1 0576h VIA 82C576 0585h VT82C585VPX Host Bus-PCI bridge (see #00982) 0586h AMD-645 Peripheral Bus Controller, function 0 (see #01011) VT82C586A/B PCI Integrated Peripheral Controller, function 0 0595h AMD-640 System Controller (see #00983) VT82C595 0597h VT82C597 / VT82C597AT 1000h 82C570MV P54 Controller 1106h 82C570MV ISA Bridge + IDE 1571h VIA 82C416 3038h AMD-645 Peripheral Bus Controller, function 2 (see #01046) VT82C586A/B PCI Integrated Peripheral Controller, function 2 3040h AMD-645 Peripheral Bus Controller, function 3 (see #01049) VT82C586B PCI Integrated Peripheral Controller, function 3 SeeAlso: #00732 (Table 00818) Values for Proteon Inc. PCI device code: 0100h p1690plus-AA Token Ring 0101h p1690plus-AB 2-port Token Ring SeeAlso: #00732 (Table 00819) Values for Cogent Data Technologies PCI device code: 1400h EM110TX PCI Fast Ethernet SeeAlso: #00732 (Table 00820) Values for Siemens Nixdorf PCI device code: 6120h SZB6120 Multimedia Adapter SeeAlso: #00732 (Table 00821) Values for Rockwell PCI device code: 2200h FDDI adapter 2300h Fast Ethernet adapter 2340h four-port Fast Ethernet 2400h ATM adapter SeeAlso: #00732 (Table 00822) Values for Datacube Inc. PCI device code: 9500h MAX-LC SuperVGA 9501h MAX-LC image processing SeeAlso: #00732 (Table 00823) Values for Vortex Computersysteme GmbH PCI device code: 0000h GDT60x0 SCSI RAID 0001h GDT6000B SCSI RAID 0002h GDT6x10 SCSI RAID 0003h GDT6x20 two-channel SCSI RAID 0004h GDT6530 three-channel SCSI RAID 0005h GDT6550 five-channel SCSI RAID 0006h GDT6x17 0007h GDT6x27 0008h GDT6537 0009h GDT6557 000Ah GDT6x15 000Bh GDT6x25 000Ch GDT6535 000Dh GDT6555 SeeAlso: #00732 (Table 00824) Values for Efficient Networks, Inc. PCI device code: 0000h 155P-MF1 ATM FPGA 0002h ATM ASIC SeeAlso: #00732 (Table 00825) Values for FORE Systems PCI device code: 0210h PCA200PC 0300h PCA200E SeeAlso: #00732 (Table 00826) Values for Infomedia MicroElectronics PCI device code: 0000h EIDE/HD and IDE/CD-ROM controller 000Bh EIDE/HD and IDE/CD-ROM controller SeeAlso: #00732 (Table 00827) Values for Imaging Technology PCI device code: 0000h ICPCI 0001h video frame grabber/processor SeeAlso: #00732 (Table 00828) Values for Mercury Computer Systems PCI device code: 0001h Raceway Bridge SeeAlso: #00732 (Table 00829) Values for Fuji Xerox Co Ltd. PCI device code: 0001h Printer Controller SeeAlso: #00732 (Table 00830) Values for Ziatech Corporation PCI device code: 8905h 8905 STD-32 Bridge SeeAlso: #00732 (Table 00831) Values for Dynamic Pictures Inc. PCI device code: 0001h VGA-compatible 3D graphics SeeAlso: #00732 (Table 00832) Values for Cyclone Microsystems (PLX Technology???) PCI device code: 0001h PLX 9060 0911h PCI 911 i960Jx Intelligent I/O 0912h PCI 912 i960Cx Intelligent I/O 0913h PCI 913 i960Hx Intelligent I/O SeeAlso: #00732 (Table 00833) Values for Crest Microsystem PCI device code: 0001h EIDE/ATAPI super adapter SeeAlso: #00732 (Table 00834) Values for Alliance Semiconductor Corp. PCI device code: 3210h Pro Motion 3210 6410h GUI Accelerator 6412h GUI Accelerator 6420h GUI Accelerator 6422h Pro Video 6424h GUI Accelerator 6426h GUI Accelerator SeeAlso: #00732 (Table 00835) Values for Cincinnati Milacron PCI device code: 0001h Noservo Controller SeeAlso: #00732 (Table 00836) Values for Schneider & Koch Co. PCI device code: 4000h FDDI adapter SeeAlso: #00732 (Table 00837) Values for VMIC PCI device code: 7587h VME SeeAlso: #00732 (Table 00838) Values for Digi International / Stargate PCI device code: 0003h RightSwitch SeeAlso: #00732 (Table 00839) Values for Voarx R&D Inc. PCI device code: 3011h Tokenet/vg 1001/10m anylan 9050h Lanfleet/Truevalue SeeAlso: #00732 (Table 00840) Values for MuTech PCI device code: 0001h MV1000 SeeAlso: #00732 (Table 00841) Values for PFU Ltd. PCI device code: 0001h Host Bridge SeeAlso: #00732 (Table 00842) Values for Creative Labs (vendor ID 1163h) PCI device code: 0001h 3D Blaster SeeAlso: #00732 (Table 00843) Values for Imagraph Corporation PCI device code: 0001h Motion JPEG record/play w/ audio SeeAlso: #00732 (Table 00844) Values for Alfa Inc. PCI device code: AFA1h Fast Ethernet SeeAlso: #00732 (Table 00845) Values for Matsushita Electronics PCI device code: 1592h ??? SeeAlso: #00732 (Table 00846) Values for Corollary Inc. PCI device code: 0014h PCIB C-bus II to PCI bridge chip SeeAlso: #00732 (Table 00847) Values for BitFlow Inc. PCI device code: 0001h Raptor-PCI frame grabber SeeAlso: #00732 (Table 00848) Values for Artop Electric PCI device code: 0001h IDE controller 0002h IDE controller 0003h SCSI-2 cache controller 0004h ATP8400 ASIC cache accelerator 8001h SCSI-2 cache controller 8002h SCSI-2 controller SeeAlso: #00732 (Table 00849) Values for Zeitnet Inc. PCI device code: 0001h Zeitnet 1221 0002h Zeitnet 1225 SeeAlso: #00732 (Table 00850) Values for InnoSys Inc. PCI device code: 4240h AMCC S5933Q Intelligent Serial Card SeeAlso: #00732 (Table 00851) Values for Galileo Technology PCI device code: 0146h GT-64010 System Controller for R46xx CPU 4801h GT-48001 8-port switched Ethernet ctrlr SeeAlso: #00732 (Table 00852) Values for V3 Semiconductor Inc. PCI device code: 0292h V292PBC Am29030/40 Bridge 0960h V96xPBC i960 Bridge C960h V96DPC i960 dual PCI Bridge SeeAlso: #00732 (Table 00853) Values for Pathlight Technology PCI device code: C0EDh SSA Controller SeeAlso: #00732 (Table 00854) Values for Dolphin Interconnect Solutions PCI device code: 0658h PSB PCI-SCI Bridge SeeAlso: #00732 (Table 00855) Values for Specialix Research Ltd. PCI device code: 2000h PCI-9050 Target Interface 4000h Specialix XIO (SUPI-1 Target Interface) 8000h Specialix RIO (T255 Bridge) SeeAlso: #00732 (Table 00856) Values for Compex USA, Inc. PCI device code: 1401h ReadyLINK RL2000 10MBit NIC SeeAlso: #00732 (Table 00857) Values for PMC-Sierra Inc. PCI device code: 7375h PM7375 LASAR-155 ATM SAR SeeAlso: #00732 (Table 00858) Values for RP PCI device code: 0001h RP8OCTA 0002h RP8INTF 0003h RP16INTF 0004h RP32INTF SeeAlso: #00732 (Table 00859) Values for Cyclades PCI device code: 0100h Cyclom Y Lo multiport serial card 0101h Cyclom Y Hi 0200h Cyclom Z Lo multiport serial card 0201h Cyclom Z Hi SeeAlso: #00732 (Table 00860) Values for Ariel Corporation PCI device code: 1220h AMCC 5933 TMS320C80 DSP/Imaging Board SeeAlso: #00732 (Table 00861) Values for Harris Semiconductor PCI device code: 8130h HMP8130 NTSC/PAL Video Decoder 8131h HMP8131 NTSC/PAL Video Decoder SeeAlso: #00732 (Table 00862) Values for Ensoniq PCI device code: 1371h AudioPCI-97 ES1371 5000h AudioPCI ES1370 SeeAlso: #00732 (Table 00863) Values for Picture Elements PCI device code: 0081h PCIVST PCI Thresholding Engine SeeAlso: #00732 (Table 00864) Values for Symphony PCI device code: 0001h Symphony 82C101 IDE controller SeeAlso: #00732 (Table 00865) Values for TekRAM PCI device code: DC29h DC290 / DC290M EIDE controller SeeAlso: #00732 (Table 00866) Values for 3DLabs PCI device code: 0004h 3C0SX GUI Accelerator SeeAlso: #00732 (Table 00867) Values for Avance Logic, Inc. PCI device code: 2301h AVL2301 GUI Accelerator 2303h AVG2302 GUI Accelerator SeeAlso: #00732 (Table 00868) Values for 4942h PCI device code: 4C4Ch ??? (Ensoniq AudioPCI ES1370 subsystem) SeeAlso: #00732 (Table 00869) Values for BusLogic Inc. PCI device code: 3080h ??? SCSI-ti 4010h ??? Fast-Wide SCSI-2 SeeAlso: #00732 (Table 00870) Values for S3 PCI device code: 5631h 86C325 ViRGE 3D GUI Accelerator 8800h Vision 866 8801h Vision 964 8810h S3 Trio32 8811h S3 Trio64, or Trio64V+ 8812h S3 Trio64UV+ 8813h S3 Trio64? v3 883Dh S3 ViRGE/VX 888xh S3 868 88Bxh S3 928 88C0h S3 864-1 88C1h S3 864-2 88C2h S3 864-3 88C3h S3 864-4 88D0h S3 964-1 88D1h S3 964-2 88D2h S3 964-3 88D3h S3 964-4 88F0h S3 968 88F1h S3 968-2 88F2h S3 968-3 88F3h S3 968-3 8900h S3 Trio64 V2/DX GUI Accelerator 8901h S3 775 Trio64V2 8902h S3 PLATO/PX 8A01h S3 ViRGE/DX or ViRGE/GX 8A10h ??? 8C00h ??? 8C01h ??? SeeAlso: #00732,#00873 (Table 00871) Values for c't Magazin f�r Computer PCI device code: 6773h GPPCI PCI interface SeeAlso: #00732 (Table 00872) Values for Quancom Electronic PCI device code: 0010h PCI-WDOG1 Watchdog 0011h PWDOG2 Watchdog2/PCI SeeAlso: #00732 (Table 00873) Values for Intel PCI device code: 0482h 82375EB/SB PCI-EISA Bridge (see #01054) 0483h 82424 Cache Controller (see #01063) 0484h 82378/82379 Bus Interface (Mercury/Saturn/Neptune chipsets) (see #01064) 0486h 82425EX/82430 04A3h 82434 LX (Mercury) / NX (Neptune) (see #01055) 0960h i960 RP Microprocessor/Bridge 1221h 82092AA PCMCIA Bridge 1222h 82092AA IDE Controller 1223h Intel SAA7116 1226h 82596 1227h 82865 1228h EtherExpress Pro/100 Smart 1229h 82557 Fast Ethernet (see #01227) 122Dh 82437FX (Triton) 122Eh 82371FB ISA Bridge (Triton) 1230h 82338 IDE controller / 82371FB IDE function (Triton) 1234h 82371MX (see #01168) 1235h 82437MX 1237h 82441FX (see #01229) 1239h 82371FB IDE Interface (Triton) 123Ch 82380AB Mobile PCI-to-ISA Bridge (see #01090) 124Bh 82380FB Mobile PCI-to-PCI Bridge (see #04069) 1250h 82439HX (430HX chipset) (see #01098) 1960h 80960RP i960RP Microprocessor 7000h 82371SB ISA Bridge (see #01167) 7010h 82371SB IDE controller (see #01214) 7020h 82371SB (see #01215) 7030h 82437VX (430VX chipset) (see #01108) 7100h 82439TX (430TX chipset) (see #01099) 7110h 82371AB PIIX4 ISA Bridge (see #01100) 7111h 82371AB PIIX4 Ultra DMA IDE Controller (see #01103) 7112h 82371AB PIIX4 USB Controller (see #01104) 7113h 82371AB PIIX4 Power Management Controller (see #01105) 7180h 82443LX/EX 440LX/EX Host-PCI Bridge (see #01129) 7181h 82443LX/EX 440LX/EX AGP device (see #01130) 7190h 82443BX 440BX PCI-Host Bridge (AGP Enabled) (see #01142) 7191h 82443BX 440BX PCI-PCI Bridge (see #01143) 7192h 82443BX 440BX PCI-Host Bridge (AGP Disabled) (see #01142) 71A0h 82443GX Host Bridge/Controller (AGP enabled) 71A1h 82443GX AGP Controller 71A2h 82443GX Host Bridge/Controller (AGP disabled) 84C4h 82450KX/GX PCI Bridge (Orion) (see #01240) 84C5h 82450KX/GX Memory Ctrlr (Orion) 84CAh 82451NX (450NX) Memory & I/O Controller (MIOC) 84CBh 82454NX (450NX) PCI Expansion Bridge (PXB) SeeAlso: #00732,#00870 (Table 00874) Values for Trigem Computer PCI device code: 2008h video assistant SeeAlso: #00732 (Table 00875) Values for Adaptec PCI device code: 1078h AIC-7810C RAID Coprocessor 5078h x940 Fast-Wide SCSI-II Ctrlr 5578h AHA-2830P SCSI Controller 7078h AHA-294x/AIC-7870P Fast-Wide SCSI-II 7178h AHA-2940 Fast-Wide SCSI-II 7278h x940 two-channel Fast-Wide SCSI 7378h AHA-3985 4-channel RAID SCSI 7478h AHA-2944 SCSI 7810h AIC-7810 memory control IC 7850h AIC-7850 SCSI IC (see #01241) 7855h AHA-2930 SCSI 7870h AIC-7870 SCSI IC 7871h AHA-2940 7872h AHA-3940 7873h AHA-3980 7874h AHA-2944 Differential SCSI 7880h AIC-7880 Fast-20 SCSI 8078h Adaptec 7880 8178h Adaptec 2940UW 8278h AHA-3940U/UW 8378h Adaptec 7883 8478h Adaptec 7884 SeeAlso: #00732 (Table 00876) Values for Atronics PCI device code: 2015h Atronics 2015 SeeAlso: #00732 (Table 00877) Values for Ark Logic Inc. PCI device code: A091h ARK 1000PV ??? Stingray A099h ARK 2000PV ??? Stingray A0A1h ark2000mt 64-bit GUI Accel w/DCI SeeAlso: #00732 --------X-1AB103----------------------------- INT 1A - PCI BIOS v2.0c+ - FIND PCI CLASS CODE AX = B103h ECX = class code (see also #F0085,#00878) bits 31-24 unused bits 23-16 class bits 15-8 subclass bits 7-0 programming interface SI = device index (0-n) Return: CF clear if successful CF set on error AH = status (00h,86h) (see #00729) 00h successful BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 func) 86h device not found EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on return were exchanged between the initial drafts of the specification and final implementation all devices sharing the same Class Code may be enumerated by incrementing SI from 0 until error 86h is returned SeeAlso: AX=B183h --------X-1AB106----------------------------- INT 1A - PCI BIOS v2.0c+ - PCI BUS-SPECIFIC OPERATIONS AX = B106h BL = bus number EDX = Special Cycle data Return: CF clear if successful CF set on error AH = status (00h,81h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Note: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call SeeAlso: AX=B186h,INT 2F/AX=1684h/BX=304Ch --------X-1AB108----------------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION BYTE AX = B108h BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) (see #00878) Return: CF clear if successful CL = byte read CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation BUG: the Award BIOS 4.51PG (dated 05/24/96) incorrectly returns FFh for register 00h if the PCI function number is nonzero SeeAlso: AX=B109h,AX=B10Ah,AX=B188h,INT 2F/AX=1684h/BX=304Ch --------X-1AB109----------------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION WORD AX = B109h BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh, must be multiple of 2) (see #00878) Return: CF clear if successful CX = word read CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation BUG: the Award BIOS 4.51PG (dated 05/24/96) incorrectly returns FFFFh for register 00h if the PCI function number is nonzero SeeAlso: AX=B108h,AX=B10Ah,AX=B189h,INT 2F/AX=1684h/BX=304Ch --------X-1AB10A----------------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION DWORD AX = B10Ah BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh, must be multiple of 4) (see #00878) Return: CF clear if successful ECX = dword read CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation BUG: the Award BIOS 4.51PG (dated 05/24/96) incorrectly returns FFFFFFFFh for register 00h if the PCI function number is nonzero SeeAlso: AX=B108h,AX=B109h,AX=B10Ah/SF=8086h,AX=B18Ah,INT 2F/AX=1684h/BX=304Ch Format of PCI Configuration Data: Offset Size Description (Table 00878) 00h WORD vendor ID (read-only) (see #00732 at AX=B102h) FFFFh returned if requested device non-existent 02h WORD device ID (read-only) 04h WORD command register (see #00879) 06h WORD status register (see #00880) 08h BYTE revision ID 09h 3 BYTEs class code bits 7-0: programming interface bits 15-8: sub-class bits 23-16: class code (see also #F0085) 0Ch BYTE cache line size 0Dh BYTE latency timer 0Eh BYTE header type bits 6-0: header format 00h other 01h PCI-to-PCI bridge 02h PCI-to-CardBus bridge bit 7: multi-function device 0Fh BYTE Built-In Self-Test result (see #00881) ---header type 00h--- 10h DWORD base address 0 (see #00882) (OpenHCI) base address of host controller registers (see #00902) 14h DWORD base address 1 18h DWORD base address 2 1Ch DWORD base address 3 20h DWORD base address 4 24h DWORD base address 5 28h DWORD CardBus CIS pointer (read-only) (see #00889) 2Ch WORD subsystem vendor ID or 0000h 2Eh WORD subsystem ID or 0000h 30h DWORD expansion ROM base address (see #00883) 34h BYTE offset of capabilities list within configuration space (R/O) (only valid if status register bit 4 set) (see #00884) 35h 3 BYTEs reserved 38h DWORD reserved 3Ch BYTE interrupt line 00h = none, 01h = IRQ1 to 0Fh = IRQ15 3Dh BYTE interrupt pin (read-only) (00h = none, else indicates INTA# to INTD#) 3Eh BYTE minimum time bus master needs PCI bus ownership, in 250ns units (read-only) 3Fh BYTE maximum latency, in 250ns units (bus masters only) (read-only) 40h 48 DWORDs varies by device (see #00919,#00920,#01055,#01083) ---header type 01h--- 10h DWORD base address 0 (see #00882) 14h DWORD base address 1 18h BYTE primary bus number (for bus closer to host processor) 19h BYTE secondary bus number (for bus further from host processor) 1Ah BYTE subordinate bus number 1Bh BYTE secondary latency timer 1Ch BYTE I/O base (see #00899) 1Dh BYTE I/O limit (see #00899) 1Eh WORD secondary status 20h WORD memory base (see #00900) 22h WORD memory limit 24h WORD prefetchable memory base 26h WORD prefetchable memory limit 28h DWORD prefetchable base, upper 32 bits 2Ch DWORD prefetchable limit, upper 32 bits 30h WORD I/O base, upper 16 bits 32h WORD I/O limit, upper 16 bits 34h DWORD reserved 38h DWORD expansion ROM base address 3Ch BYTE interrupt line 3Dh BYTE interrupt pin (read-only) 3Eh WORD bridge control (see #00901) 40h 48 DWORDs varies by device (see #00919,#00920,#01055,#01083) ---header type 02h--- 10h DWORD CardBus Socket/ExCa base address (see #00890) bits 31-12: start address of socket interface register block in 4K blocks bits 11-0: reserved (0) 14h BYTE offset of capabilities list within configuration space (R/O) (only valid if status register bit 4 set) (see #00884) 15h BYTE reserved 16h WORD secondary status 18h BYTE PCI bus number 19h BYTE CardBus bus number 1Ah BYTE subordinate bus number 1Bh BYTE CardBus latency timer 1Ch DWORD memory base address 0 20h DWORD memory limit 0 24h DWORD memory base address 1 28h DWORD memory limit 1 2Ch WORD I/O base address 0 2Eh WORD I/O base address 0 high word (optional) 30h WORD I/O limit 0 32h WORD I/O limit 0 high word (optional) 34h WORD I/O base address 1 36h WORD I/O base address 1 high word (optional) 38h WORD I/O limit 1 3Ah WORD I/O limit 1 high word (optional) 3Ch BYTE interrupt line 3Dh BYTE interrupt pin (read-only) (no interrupt used if 00h) 3Eh WORD bridge control 40h WORD subsystem vendor ID 42h WORD subsystem device ID 44h DWORD 16-bit PC Card legacy mode base address (for accessing ExCa registers) 48h 14 DWORDs reserved 80h 32 DWORDs varies by device (see #00919,#00920,#01055,#01083) Bitfields for PCI Configuration Command Register: Bit(s) Description (Table 00879) 0 I/O access enabled 1 memory access enabled 2 bus master enable 3 special cycle recognition enabled 4 memory write and invalidate enabled 5 VGA palette snoop enabled 6 parity error response enabled 7 wait cycles enabled 8 system error (SERR# line) enabled 9 fast back-to-back transactions enabled 15-10 reserved SeeAlso: #00878,#00880 Format of PCI Configuration Status Register: Bit(s) Description (Table 00880) 3-0 reserved (0) 4 new capabilities list is present (first entry pointed at by byte at 34h or 14h) 5 capable of running at 66 MHz 6 UDF supported 7 capable of fast back-to-back transactions 8 data parity error reported 10-9 device select timing 00 fast 01 medium 10 slow 11 reserved 11 signaled target abort 12 received target abort 13 received master abort 14 signaled system error (device is asserting SERR# line) 15 detected parity error (set even if parity error reporting is disabled) Note: bits 12, 13 and 15 are cleared by writing a 1 into the corresponding bit SeeAlso: #00878,#00879 Bitfields for PCI Configuration Built-In Self-Test register: Bit(s) Description (Table 00881) 3-0 completion code (0000 = successful) 5-4 reserved 6 start BIST (set to one to start, cleared automatically on completion) 7 BIST-capable Notes: this register is hardwired to 00h if no BIST capability software should timeout the BIST after two seconds SeeAlso: #00878 Bitfields for PCI Configuration Base Address: Bit(s) Description (Table 00882) 0 address type (0 = memory space, 1 = I/O space) ---memory address--- 2-1 address type 00 anywhere in first 4GB 01 below 1MB 10 anywhere in 64-bit address space 11 reserved 3 prefetchable 31-4 bits 31-4 of base memory address if addressable in first 1MB or 4GB 63-4 bits 63-4 of base memory address if addressable in 64-bit memory (bits 63-32 are stored in the following base address DWORD) ---I/O address--- 1 reserved 31-2 bits 31-2 of base I/O port SeeAlso: #00878,#00902 Bitfields for PCI Configuration Expansion ROM Address: Bit(s) Description (Table 00883) 0 address decode enable (ROM address is valid) 10-1 reserved 31-11 bits 31-11 of ROM's starting physical address SeeAlso: #00878 Format of PCI Capabilities List: Offset Size Description (Table 00884) 00h BYTE capability identifier 01h PCI Power Managment 01h BYTE offset of next item (within configuration space) or 00h N BYTEs varies by capability type ---PCI Power Management--- 02h WORD power managment capabilities (see #00885) (read-only) 04h WORD power managment capabilities status register (see #00886) 06h BYTE PMCSR bridge support extensions (see #00887) 07h BYTE (optional) read-only data register (see #00888) Note: this information is from the v0.93 draft of the specification and is subject to change SeeAlso: #00878,#00880 Bitfields for PCI Power Management Capabilities: Bit(s) Description (Table 00885) 15 reserved (0) 14-12 PME# support bit 12: PME# can be asserted from power state D0 bit 13: PME# can be asserted from power state D1 bit 14: PME# can be asserted from power state D2 11 reserved (0) 10 D2 power state supported 9 D1 power state supported 8 full-speed clock is required in state D0 for proper operation (if clear, device may be run at reduced clock except when actually being accessed) 7-6 dynamic clock control support 00 not bridge, no dynamic clock control, or secondary bus' clock is is tied to primary bus' clock 01 bridge is capable of dynamic clock control 10 reserved 11 secondary bus has independent clock, but dynamic clock not supported 5 device-specific initialization is required 4 auxiliary power required for PME# generation 3 PCI clock required for PME# generation 2-0 specification version 001 = v1.0; four bytes of power management registers Note: this information is from the v0.93 draft of the specification and is subject to change SeeAlso: #00884,#00886,#00887 Bitfields for PCI Power Management Capabilities Status Register: Bit(s) Description (Table 00886) 15 PME status: if set, PME# is (or would be) asserted writing a 1 to this bit clears it 14-13 (read-only) scale factor to apply to contents of Data register 00 unknown (or unimplemented data) 01 x0.1 10 x0.01 11 x0.001 12-9 (read-write) data select (see #00888) 8 (read-write) enable PME# assertion 7-5 reserved (0) 4 (read-write) enable dynamic data reporting when set, PME# is asserted whenever the value in the Data register changes significantly 3-2 reserved (0) 1-0 (read-write) current power state 00 = D0 ... 11 = D3 Note: this information is from the v0.93 draft of the specification and is subject to change SeeAlso: #00884,#00885,#00887 Bitfields for PCI Power Management PMCSR bridge support extension: Bit(s) Description (Table 00887) 7 (read-only) Bus Power Control Enable 6 (read-only) Bus Power State B3 supported 5 (read-only) Bus Power State B2 supported 4 dynamic clock control enable 3-0 reserved (0) Note: this information is from the v0.93 draft of the specification and is subject to change SeeAlso: #00884,#00885,#00886 (Table 00888) Values for PCI Power Management Data Select: 00h D0-state power consumed in watts (+20%/-10%) 01h D1-state power consumed in watts (+20%/-10%) 02h D2-state power consumed in watts (+20%/-10%) 03h D3-state power consumed in watts (+20%/-10%) 04h D0-state power dissipated into chassis in watts 05h D1-state power dissipated into chassis in watts 06h D2-state power dissipated into chassis in watts 07h D3-state power dissipated into chassis in watts 08h-0Fh reserved SeeAlso: #00886 Bitfields for PCI Configuration CardBus CIS Pointer: Bit(s) Description (Table 00889) 2-0 address space 000 in device's device-specific configuration space 001 in memory pointed to by base address register 0 ... 110 in memory pointed to by base address register 5 111 in device's expansion ROM 27-3 offset within address space defined by bits 2-0 31-28 ROM image number (when address space is expansion ROM) SeeAlso: #00878 Format of CardBus Socket/ExCA socket interface register space: Offset Size Description (Table 00890) 00h DWORD Socket Event Register (see #00892) 04h DWORD Socket Mask Register (see #00893) 08h DWORD Socket Present State Register (see #00894) 0Ch DWORD Socket Force Event Register (see #00895) 10h DWORD Socket Control Register (see #00896) 14h 3 DWORDs reserved 20h DWORD Socket Power Management Register 90h BYTE (TI PCI1130) Retry Status Register 91h BYTE (TI PCI1130) Card Control Register (see #00897) 92h BYTE (TI PCI1130) Device Control Register (see #00898) 93h BYTE (TI PCI1130) Buffer Control Register 800h 64+ BYTEs ExCa Socket Interface Registers (see #00891) Format of ExCa memory-mapped registers: Offset Size Description (Table 00891) 00h BYTE identification and revision register 01h BYTE interface status register 02h BYTE power control register 03h BYTE interrupt and general control 04h BYTE card status change 05h BYTE card status change interrupt configuration 06h BYTE address window enable 07h BYTE I/O window control register 08h WORD I/O window 0 start address 0Ah WORD I/O window 0 end address 0Ch WORD I/O window 1 start address 0Eh WORD I/O window 1 end address 10h WORD memory window 0 start address 12h WORD memory window 0 end address 14h WORD memory window 0 offset address 16h 2 BYTEs user-defined 18h WORD memory window 1 start address 1Ah WORD memory window 1 end address 1Ch WORD memory window 1 offset address 1Eh BYTE user-defined 1Fh BYTE reserved 20h WORD memory window 2 start address 22h WORD memory window 2 end address 24h WORD memory window 2 offset address 26h 2 BYTEs user-defined 28h WORD memory window 3 start address 2Ah WORD memory window 3 end address 2Ch WORD memory window 3 offset address 2Eh 2 BYTEs user-defined 30h WORD memory window 4 start address 32h WORD memory window 4 end address 34h WORD memory window 4 offset address 36h 10 BYTEs user-defined ---optional--- 40h BYTE memory window 0 start address high byte 41h BYTE memory window 1 start address high byte 42h BYTE memory window 2 start address high byte 43h BYTE memory window 3 start address high byte 44h BYTE memory window 4 start address high byte 45h-7FFh user-defined SeeAlso: #00890 Bitfields for CardBus Socket Event Register: Bit(s) Description (Table 00892) 0 CSTSCHG pin asserted (status change) 1 CCD1# (card detect 1) changed state 2 CCD2# (card detect 2) changed state 3 interface power cycle completed 31-4 reserved (0) Note: the bits in this register are set by the bridge, and cleared by writing a one into the bits one wishes to clear SeeAlso: #00890,#00893,#00895 Bitfields for CardBus Socket Event Mask Register: Bit(s) Description (Table 00893) 0 write-protect (enable status-change interrupt on WriteProtect switch) 1 ready mask (allow status-change interrupt on Ready line change) 3-2 battery condition (allow status-change int on battery-condition change) 4 general wakeup enabled 5 binary audio mode enabled on CAUDIO pin 6 Pulse Width Modulation enabled on CAUDIO pin (CAUDIO state undefined if both bits 5 and 6 set) 13-7 reserved (0) 14 Wakeup mask (enable wakeup events via status-change pin) 15 enable card interrupts via CINT# pin and wakeup events 31-16 reserved SeeAlso: #00890,#00892,#00894 Bitfields for CardBus Socket Present State Register: Bit(s) Description (Table 00894) 0 CSTSCHG pin asserted (status change) 1 CCD1# (card detect 1) changed state 2 CCD2# (card detect 2) changed state 3 interface power cycle completed 4 16-bit PC card inserted 5 CardBus card inserted 6 card's interrupt pin asserted 7 card inserted but type can not be determined 8 data may have been lost due to abrupt card removal 9 attempted to apply Vcc voltage not supported by the card 10 card can accept Vcc = 5.0 volts 11 card can accept Vcc = 3.3 volts 12 card can accept Vcc = X.X volts 13 card can accept Vcc = Y.Y volts 27-14 reserved (0) 28 socket can accept Vcc = 5.0 volts 29 socket can accept Vcc = 3.3 volts 30 socket can accept Vcc = X.X volts 31 socket can accept Vcc = Y.Y volts Note: bits 0-3 may be cleared by writing a 1 into the respective bits SeeAlso: #00890,#00892,#00893,#00896 Bitfields for CardBus Socket Force Event Register: Bit(s) Description (Table 00895) 0 write-protect 1 ready 2 battery voltage detect 2 3 battery voltage detect 1 4 general wakeup 14-5 reserved (0) 15 enable card interrupts via CINT# pin 31-16 reserved Note: this register can simulate events by forcing the values of some of the bits in the Event Mask Register; any bit of this register which is set to 1 forces the corresponding bit in the Mask Register to 1, while bits set to 0 leave the corresponding bit unchanged SeeAlso: #00890,#00892,#00896 Bitfields for CardBus Socket Control Register: Bit(s) Description (Table 00896) 2-0 Vpp control 000 power off 001 12.0 Volts 010 5.0 Volts 011 3.3 Volts 100 reserved (X.X Volts) 101 reserved (Y.Y Volts) 110 reserved 111 reserved 3 reserved (0) 6-4 Vcc control (as for Vpp, but 12.0V not supported) 31-7 reserved (0) SeeAlso: #00890,#00893,#00895 Bitfields for TI PCI1130 Card Control Register: Bit(s) Description (Table 00897) 0 interrupt pending 1 speaker output enabled 2 reserved 3 enable status-change interrupt routing (to INTA# for socket A, INTB# for socket B) 4 function interrupt routed to corresponding PCI interrupt pin 5 PCI interrupts enabled 6 ZOOM video mode enabled 7 Ring Indicator enabled on IRQ15/RI_OUT pin SeeAlso: #00890,#00898 Bitfields for TI PCI1130 Device Control Register: Bit(s) Description (Table 00898) 0 reserved (0) 2-1 interrupt mode enable 00 no interrupt 01 ISA mode (direct IRQ routing) 10 serialized interrupt mode 11 reserved 4-3 reserved 5 3volt Socket Capable force bit 6 5volt Socket Capable force bit 7 reserved SeeAlso: #00890,#00897 Bitfields for PCI Configuration I/O base and limit: Bit(s) Description (Table 00899) 3-0 (read-only) address decoding type 0000 16-bit 0001 32-bit other reserved 7-4 bits 15-12 of I/O address range SeeAlso: #00878,#00900 Bitfields for PCI Configuration memory base and limit: Bit(s) Description (Table 00900) 3-0 address decode type 0000 32-bit address decoder 0001 64-bit address decoder other reserved 15-4 bits 31-20 of memory address range SeeAlso: #00878,#00899 Bitfields for PCI Configuration Bridge Control Register: Bit(s) Description (Table 00901) 7 enable fast back-to-back cycles on secondary bus 6 reset secondary bus 5 master abort mode on secondary bus 4 reserved 3 VGA enable (when set, forward VGA memory and I/O ranges to seconary bus) 2 ISA enable 1 reserved 0 enable parity error response SeeAlso: #00878,#01131 Format of OpenHCI Host Controller memory-mapped registers: Offset Size Description (Table 00902) 00h DWORD "HcRevision" OpenHCI revision (see #00903) 04h DWORD "HcControl" HC operating modes (see #00904) 08h DWORD "HcCommandStatus" command/status (see #00905) 0Ch DWORD "HcInterruptStatus" interrupt status (see #00906) 10h DWORD "HcInterruptEnable" enable interrupts (see #00907) 14h DWORD "HcInterruptDisable" disable interrupts (see #00907) 18h DWORD "HcHCCA" HC Communications Area (see #00908) 1Ch DWORD "HcPeriodCurrentED" Endpoint Descriptor addr (see #00909) 20h DWORD "HcControlHeadED" Control Endpoint Descriptor (see #00910) 24h DWORD "HcControlCurrentED" Control Endpoint Descriptor (see #00910) 28h DWORD "HcBulkHeadED" Bulk Endpoint Descriptor (see #00911) 2Ch DWORD "HcBulkCurrentED" Bulk Endpoint Descriptor (see #00911) 30h DWORD "HcDoneHead" last completed Xfer Descr. (see #00912) 34h DWORD "HcFmInterval" Frame bit-time interval (see #00913) 38h DWORD "HcFmRemaining" bit time remaining in Frame (see #00914) 3Ch DWORD "HcFmNumber" Frame Number (bits 15-0) 40h DWORD "HcPeriodicStart" earliest time to start periodic list (bits 13-0) 44h DWORD "HcLSThreshold" threshold for Low Speed transaction (bits 11-0) 48h DWORD "HcRhDescriptorA" Root Hub Descriptor A (see #00915) 4Ch DWORD "HcRhDescriptorB" Root Hub Descriptor B (see #00916) 50h DWORD "HcRhStatus" Root Hub status (see #00917) 54h N DWORDs "HCRhPortStatus[1-N]" Root Hub port status N (see #00918) Note: OpenHCI reserves a full 4K page of the systems address space for its memory-mapped registers SeeAlso: #00878,#00882,#F0085,#00966 Bitfields for OpenHCI "HcRevision" register: Bit(s) Description (Table 00903) 31-8 reserved 7-0 BCD OpenHCI specification number (10h = 1.0, 11h = 1.1) Note: this register is read-only SeeAlso: #00902,#00904 Bitfields for OpenHCI "HcControl" register: Bit(s) Description (Table 00904) 31-11 reserved 10 RWE enable Remote Wakeup feature 9 RWC controller supports Remote Wakeup signalling 8 IR Interrupt Routing 0 normal host bus interrupt 1 System Managment Interrupt 7-6 HCFS USB Host Controller Functional State 00 USBReset 01 USBResume 10 USBOperational 11 USBSuspend 5 BLE enable Bulk List processing in next frame 4 CLE enable Control List processing in next frame 3 IE enable Isochronous ED processing 2 PLE enable processing of Periodic List in next frame 1-0 CBSR Control Bulk Service Ratio 00 1:1 Control EDs:Bulk EDs served 01 2:1 10 3:1 11 4:1 SeeAlso: #00902,#00903,#00905 Bitfields for OpenHCI "HcCommandStatus" register: Bit(s) Description (Table 00905) 31-18 reserved 17-16 SOC scheduling-overrun count 15-4 reserved 3 OCR ownership change request is pending 2 BLF bulk list contains TDs 1 CLF control list contains TDs 0 HCR host controller software reset Note: writing a 1 bit sets the corresponding bit, while a 0 bit leaves the corresponding bit unchanged SeeAlso: #00902,#00903,#00906 Bitfields for OpenHCI "HcInterruptStatus" register: Bit(s) Description (Table 00906) 31 reserved (0) 30 OC ownership change 29-7 reserved 6 RHSC Root Hub status changed 5 FNO frame number overflowed 4 UE unrecoverable error 3 RD resume detected 2 SF start of frame 1 WDH writeback done 0 SO scheduling overrun Note: writing a 1 bit clears the corresponding bit of the register SeeAlso: #00902,#00903,#00905,#00907 Bitfields for OpenHCI "HcInterruptEnable" and "HcInterruptDisable" registers: Bit(s) Description (Table 00907) 31 MIE master interrupt enable 30 OC ownership change 29-7 reserved 6 RHSC Root Hub status change 5 FNO frame number overflow 4 UE unrecoverable error 3 RD Resume Detect 2 SF start of frame 1 WDH HcDoneHead writeback 0 SO scheduling overrun Note: writing a 1 bit to HcInterruptEnable enables the corresponding interrupt, while writing a 1 bit to HcInterruptDisable disables it; zero bits are ignored. On reading, both registers return the same value, which reflects the currently enabled interrupts SeeAlso: #00902 Bitfields for OpenHCI "HcHCCA" register: Bit(s) Description (Table 00908) 31-8 physical address of Host Controller Communications Area (bits 31-8) 7-0 reserved (0) Note: the required alignment for the HCCA may be determined by writing FFFFFFFFh to this register and determining the number of low-order zero bits SeeAlso: #00902,#00909,#00910 Bitfields for OpenHCI "HcPeriodCurrentED" register: Bit(s) Description (Table 00909) 31-4 physical address of current Isochronous/Interrupt Endpoint Descriptor (bits 31-4) 3-0 reserved (0) SeeAlso: #00902,#00908,#00910 Bitfields for OpenHCI "HcControlHeadED"/"HcControlCurrentED" register: Bit(s) Description (Table 00910) 31-4 physical address of first/current Endpoint Descriptor (bits 31-4) 3-0 reserved (0) Note: HcControlCurrentED is set to 0000000h to indicate the end of the Control list SeeAlso: #00902,#00908,#00909 Bitfields for OpenHCI "HcBulkHeadED"/"HcBulkCurrentED" register: Bit(s) Description (Table 00911) 31-4 physical address of first/current Endpoint Descriptor in the Bulk list (bits 31-4) 3-0 reserved (0) Note: HcBulkCurrentED is set to 0000000h to indicate the end of the Bulk list SeeAlso: #00902,#00908,#00910 Bitfields for OpenHCI "HcDoneHead" register: Bit(s) Description (Table 00912) 31-4 physical address of most-recently completed Transfer Descriptor added to the Done queue (bits 31-4) 3-0 reserved (0) SeeAlso: #00902,#00909,#00911 Bitfields for OpenHCI "HcFmInterval" register: Bit(s) Description (Table 00913) 31 "FIT" toggled each time a new value is loaded into bits 13-0 30-16 "FSMPS" largest data packet in bits 15-14 reserved 13-0 "FI" Frame Interval (between to consecutive SOFs) SeeAlso: #00902,#00914 Bitfields for OpenHCI "HcFmRemaining" register: Bit(s) Description (Table 00914) 31 "FRT" loaded from bit 31 of HcFmInterval whenever FR reaches 0 30-14 reserved 13-0 "FR" FrameRemaining -- bits times left in current frame SeeAlso: #00902,#00913 Bitfields for OpenHCI "HcRhDescriptorA" register: Bit(s) Description (Table 00915) 31-24 "POTPGT" power-on to power-good time in 2ms units 23-13 reserved 12 "NOCP" no over-current protection supported 11 "OCPM" over-current status reported per-port 10 "DT" device type - is root hub compound device? 9 "NPS" NoPowerSwitching -- ports are always powered up 8 "PSM" power-switching mode -- if set, each port powered individually 7-0 "NDP" number of downstream ports SeeAlso: #00902,#00916,#00917 Bitfields for OpenHCI "HcRhDescriptorB" register: Bit(s) Description (Table 00916) 31-16 "PPCM" PortPowerControlMask -- bitmask of ports NOT affected by global power control (bit 16 [port #0] is reserved) 15-0 "DR" DeviceRemovable -- bitmap of removable devices SeeAlso: #00902,#00915,#00917 Bitfields for OpenHCI "HcRhStatus" register: Bit(s) Description (Table 00917) 31 "CRWE" Clear Remote Wakeup Enable write 1 to disable remote wakeup (writes of 0 ignored) 30-18 reserved 17 "OCIC" OverCurrent Indicator Change write 1 to clear 16 R "LPSC" Local Power Status Change W Set Global Power mode (write 1; writes of 0 ignored) 15 "DRWE" Device Remote Wakeup Enable write 1 to enable (writes of 0 ignored) read to get current status 14-2 reserved 1 "OCI" OverCurrent Indicator 0 R "LPS" LocalPowerStatus (always 0 for Root Hub) W write 1 to turn off power to all ports/ports with clear PortPowerControlMask bits SeeAlso: #00902,#00915,#00916,#00918 Bitfields for OpenHCI "HcRhPortStatusN" register: Bit(s) Description (Table 00918) 31-21 reserved 20 "PRSC" Port Reset Status Change (write '1' to clear) 19 "OCIC" Port OverCurrent Indiactor Change (write '1' to clear) 18 "PSSC" Port Suspend Status Change (write '1' to clear) 17 "PESC" Port Enable Status Change (write '1' to clear) 16 "CSC" Connect Status Change (write '1' to clear) 15-10 reserved 9 R "LSDA" Low Speed Device Attached W clear port power by writing '1' 8 R "PPS" Port Power Status W set port power by writing '1' 7-5 reserved 4 R "PRS" Port Reset Status W set port reset by writing '1' 3 R "POCI" Port OverCurrent Indicator W clear suspend status by writing '1' 2 R "PSS" Port Suspend Status W set port suspend by writing '1' 1 R "PES" Port Enable Status W set port enable by writing '1' 0 R "CCS" current connect status W clear port enable by writing '1' SeeAlso: #00902,#00915,#00916,#00917 --------X-1AB10ASF1004----------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION DWORD (VLSI devices) AX = B10Ah subfn 1004h BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) (see #00878) Return: CF clear if successful ECX = dword read CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Ah,AX=B10Ah/SF=8086h Format of PCI Configuration Data for VLSI VL82C591 Host/PCI bridge: Offset Size Description (Table 00919) 00h 64 BYTEs header (see #00878) (vendor ID 1004h, device ID 0005h) 40h BYTE bus number 41h BYTE subordinate bus number 42h WORD reserved 44h 4 DWORDs reserved 54h 2 BYTEs device-specific configuration registers 56h WORD reserved 58h 2 BYTEs device-specific configuration registers 5Ah WORD reserved 5Ch 5 BYTEs device-specific configuration registers ... FFh BYTE device-specific configuration register SeeAlso: #00878,#00732,#00920 Format of PCI Configuration data for VLSI VL82C593 PCI/ISA bridge: Offset Size Description (Table 00920) 00h 64 BYTEs header (see #00878) (vendor ID 1004, device ID 0006h) 40h 4 DWORDs reserved 50h 11 BYTEs device-specific configuration registers 5Bh BYTE reserved 5Ch 25 BYTEs device-specific configuration registers 75h 138 BYTEs reserved FFh BYTE device-specific configuration register SeeAlso: #00878,#00919 --------X-1AB10ASF100B----------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION DWORD (National Semicond. device) AX = B10Ah subfn 100Bh BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) (see #00878) Return: CF clear if successful ECX = dword read CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Ah,AX=B10Ah/SF=8086h Format of National Semiconductor PC87410 EIDE Controller configuration: Offset Size Description (Table 00921) 00h 64 BYTEs header (see #00878) (vendor ID 100Bh, device ID D001h) 10h DWORD I/O base address for channel 0 control ports (def: 01F0h) 14h DWORD I/O base address for channel 0 status port (def: 03F6h) 18h DWORD I/O base address for channel 1 control ports (def: 0170h) 1Ch DWORD I/O base address for channel 1 status port (def: 0376h) 40h BYTE IDE Channel 0 timing control 41h WORD IDE Channel 0 read-ahead counter (write-only except bit 15) 43h BYTE IDE Channel 0 function 44h BYTE IDE Channel 1 timing control 45h WORD IDE Channel 1 read-ahead counter (write-only except bit 15) 47h BYTE IDE Channel 1 function 48h BYTE PCI control 49h 7 BYTEs unused 50h 176 BYTEs ??? (unused?) !!!http://www.national.com/ds/PC/PC87410.pdf p.7 SeeAlso: #00739,#00922 Format of National Semiconductor PC87415 IDE DMA-Master configuration: Offset Size Description (Table 00922) 00h 64 BYTEs header (see #00878) (vendor ID 100Bh, device ID 0002h) 40h 3 BYTEs control register 43h BYTE write buffer status (read-only) 44h BYTE Channel 1 master read timing 45h BYTE Channel 1 master write timing 48h BYTE Channel 1 slave read timing 49h BYTE Channel 1 slave write timing 4Ch BYTE Channel 2 master read timing 4Dh BYTE Channel 2 master write timing 50h BYTE Channel 2 slave read timing 51h BYTE Channel 2 slave write timing 54h BYTE command and control block timing 55h BYTE sector size !!!http://www.national.com/ds/PC/PC87415.pdf p.8 SeeAlso: #00739,#00921 --------X-1AB10ASF1011----------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION DWORD (DEC device) AX = B10Ah subfn 1011h BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) (see #00878) Return: CF clear if successful ECX = dword read CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Ah,AX=B10Ah/SF=8086h Format of DEC DC21140/DC21040/DC21041 Tulip {Fast/Plus} Ethernet: Offset Size Description (Table 00923) 00h 64 BYTEs header (see #00878) (vendor ID 1011h, device ID 0014h) 10h DWORD base I/O port for access to control/status registers 14h DWORD base memory address for access to control/status registers 40h DWORD configuration driver area bit 31: sleep mode \ only one of bits 31,30 may be set bit 30: snooze mode / bits 15-8: device driver's use !!!digital\21041hm.pdf p.34 digital\21140ahm.pdf p.35 SeeAlso: #00742 Format of DEC 21052 PCI-PCI bridge PCI configuration data: Offset Size Description (Table 00924) 00h 64 BYTEs header, type 1 (see #00878) (vendor ID 1011h, device ID 0021h) 40h BYTE chip control 41h BYTE diagnostic control 42h BYTE burst counter 43h BYTE SErr disable 44h BYTE primary target wait timer 45h BYTE secondary target wait timer 46h 2 BYTEs reserved 48h DWORD count of secondary write attempts 4Ch DWORD count of primary write attempts 50h 44 DWORDs reserved !!!digital\21052ds.pdf p.117 SeeAlso: #00742 --------X-1AB10ASF1022----------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION DWORD (AMD devices) AX = B10Ah subfn 1022h BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) (see #00878) Return: CF clear if successful ECX = dword read CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Ah,AX=B10Ah/SF=1042h,AX=B10Ah/SF=8086h Format of AMD Am53C974A PC-SCSI PCI configuration data: Offset Size Description (Table 00925) 00h 64 BYTEs header (see #00878) (vendor ID 1022h, device ID 2020h) 10h DWORD I/O base address (see PORT xxxxh"Am53C974A") 40h 16 BYTEs scratch registers (used by AMD's PC-SCSI drivers as follows: 40h/41h SCSI configuration register 0 (see #00926,#00927) ... 4Eh/4Fh SCSI configuration register 7) SeeAlso: #00747 Bitfields for AMD Am53C974A Target Device Configuration Register: Bit(s) Description (Table 00926) 15-14 reserved 13 "FSCSI" Fast SCSI drive is present 12-8 "SPD" synchronous period 7-4 synchronous offset (0 = asynchronous transfers) 3-1 SCSI bus status 0 target device is present and active if 0, all other bits must be cleared to zero for target devices SeeAlso: #00925,#00927 Bitfields for AMD Am53C974A Host Configuration Register: Bit(s) Description (Table 00927) 15-9 reserved 8 SCSI bus has been reset 7 starting BIOS number (bits 6-4) is valid 6-4 starting BIOS number (000 = BIOS drive 80h, 001 = drive 81h, etc) 3 this device is a SCSI host 2 protected-mode driver initialized 1 real-mode driver initialized 0 target device present =0 indicates that this is a host if bit 3 is set SeeAlso: #00925,#00926 --------X-1AB10ASF1042----------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION DWORD (PC Technology devices) AX = B10Ah subfn 1042h BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) (see #00878) Return: CF clear if successful ECX = dword read CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Ah,AX=B10Ah/SF=1022h,AX=B10Ah/SF=1045h,AX=B10Ah/SF=8086h Format of PCI Configuration data for PC Technology RZ-1000 EIDE controller: Offset Size Description (Table 00928) 00h 64 BYTEs header (see #00878) (vendor ID 1042h, device ID 1000h) 10h DWORD base address for controller I/O registers (set to 01F1h for primary controller, 0171h for secondary) 14h DWORD base address for controller digital I/O port (set to 03F5h for primary, 0375h for secondary) 40h DWORD ??? bits 7-1: ??? bit 13: read-ahead mode enabled (Read-Ahead is buggy on original RZ-1000, and is thus typically disabled by clearing this bit) bit 16: ??? 44h DWORD ??? 48h 8 BYTEs ??? 50h 176 BYTEs unused??? --------X-1AB10ASF1045----------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION DWORD (OPTi devices) AX = B10Ah subfn 1045h BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) (see #00878) Return: CF clear if successful ECX = dword read CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Ah,AX=B10Ah/SF=1042h,AX=B10Ah/SF=1066h Format of PCI Configuration data for OPTi 82C750 Vendetta (device 0): Offset Size Description (Table 00929) 00h 64 BYTEs header (see #00878) (vendor ID 1045h, device ID C567h) 40h DWORD memory control (see #00930) 44h 6 BYTEs data path control (see #00931) 4Ah WORD reserved 4Ch BYTE SDRAM SDRAS/SDCAS mux control (see #00932) 4Dh BYTE SDRAM select (see #00933) 4Eh BYTE ECC test / I2C control (see #00934) 4Fh BYTE ECC test data 50h DWORD ECC control (see #00935) 54h WORD SDRAM select (see #00936) 56h BYTE data path control / EDO X-2-2-2 writes (see #00937) 57h BYTE reserved 58h DWORD ECC reporting (see #00938) 5Ch 164 BYTEs reserved SeeAlso: #00878,#00939,#00965 Bitfields for OPTi 82C750 Vendetta (device 0) memory control: Bit(s) Description (Table 00930) 31-30 reserved 29 reserved (1) 28-18 reserved 17 reserved (1) 16 HA drive-back during CPU memory access enable 15-6 PCI video frame buffer write posting hole 5-4 reserved 3 PCI bus write post disable 2 video frame buffer write post (posting enabled if bit 2 = bit 3) 1 video memory write post(posting enabled if bit 1 = bit 3) 0 I/O cycle write post enable SeeAlso: #00929,#00931 Bitfields for OPTi 82C750 Vendetta (device 0) data path control: Bit(s) Description (Table 00931) 41-47 reserved 40 DTY pin suspend enable 39-38 reserved 37 SDRAM refresh 0 sized bank RAS# disable 36 SDRAM control signal stepping enable 35 reserved 34-32 SDRAM mode 000 = normal 001 = NOP enable 010 = precharge all banks 011 = mode register enable 100 = CBR cycle enable 101-111 = reserved 31 SDRAM memory read access enable 30 CPU-to-PCI FIFO clear enable 29 PCI-to-DRAM FIFO clear enable 28 CPU-to-DRAM FIFO clear enable 27 82C750 register write disable 26-15 reserved 14 PCI master/ECC generate NMI disable 13-12 reserved (1) 11 memory parity checking enable 10 reserved 9 CPU DRAM write byte merge enable 8 MD bus pull-up resistor disable 7 PCI CPU write 6DW FIFO enable 6 DRAM PCI read 24DW FIFO enable 5 DRAM PCI write 24DW FIFO enable 4 DRAM CPU write 8QW FIFO enable 3 82C750 memory read access (0 = SDRAM, 1 = reserved) 2-1 reserved 0 82C750 memory read access (0 = FP mode, 1 = EDO/SDRAM) SeeAlso: #00929 Bitfields for OPTi 82C750 Vendetta (device 0) SDRAM SDRAS/SDCAS mux control: Bit(s) Description (Table 00932) 7 MCACHE enable 6 GWE#/BWE# (1) 5 reserved (read-only) 4 reserved (1) 3 BOFF# CPU status latch enable 2 reserved (1) (SDRAS# & SDCAS#) 1 reserved (1) (BA1 & BA0) 0 pin mux 0 = RAS4# & RAS5# 1 = SDRAS# & SDCAS# SeeAlso: #00929 Bitfields for OPTi 82C750 Vendetta (device 0) SDRAM select: Bit(s) Description (Table 00933) 7-6 reserved 5 bank 5 enable 4 bank 4 enable 3-0 reserved SeeAlso: #00929 Bitfields for OPTi 82C750 Vendetta (device 0) ECC test / I2C control: Bit(s) Description (Table 00934) 7 ECC test mode enable 6 reserved 5 reserved (1 if SDRAM enabled) 4 I2C data output read-back (read-only) 3 I2C clock output read-back (read-only) 2 I2C data output (refer to file I2C.LST for more details) 1 I2C clock output 0 I2C control enable SeeAlso: #00929,I2C A0h,#00935 Bitfields for OPTi 82C750 Vendetta (device 0) ECC control: Bit(s) Description (Table 00935) 31-13 upper 19 bits of error address 12-5 syndrome byte for reported error 4 non-correctable error 3 single-bit error 2 nibble error 1 ECC error report enable 0 ECC data path enable SeeAlso: #00929,#00934 Bitfields for OPTi 82C750 Vendetta (device 0) SDRAM select: Bit(s) Description (Table 00936) 15 SDWE# stepping enable 14 reserved (1) (SDRAM) 13-12 reserved 11-6 bank 5-0 SDRAM technology 0 = 16 Mb 1 = 64 Mb 5-0 bank 5-0 SDRAM timing 0 = leadoff 7/6 1 = leadoff 8/7 SeeAlso: #00929 Bitfields for OPTi 82C750 Vendetta (device 0) data path control / EDO X-2-2-2: Bit(s) Description (Table 00937) 7 CPU-to-DRAM FIFO enable 6 1 CLK CAS enable 5-0 RAS5#-RAS0# X-2-2-2 write enable (CPU-to-DRAM FIFO, DRAM write post, and cache readaround write must be enabled) SeeAlso: #00929 Bitfields for OPTi 82C750 Vendetta (device 0) ECC reporting: Bit(s) Description (Table 00938) 31-26 reserved 25-16 single-bit error counter 15 reserved 14 delayed write enable 13-4 single-bit error limit 3 correctable error reporting (0 = NMI, 1 = SMI) 2 single-bit error counter enable (disabling resets counter) 1 error reporting method (0 = NMI, 1 = SMI) 0 NMI/SMI generate disable SeeAlso: #00929 Format of PCI Configuration data for OPTi 82C750 Vendetta (device 1): Offset Size Description (Table 00939) 00h 64 BYTEs header (see #00824) (vendor ID 1045h, device ID C568h) 40h WORD keyboard control (see #00940) 42h WORD interrupt control (see #00941) 44h BYTE pin functionality 1 (see #00942) 45h BYTE reserved 46h WORD cycle control (see #00943) 48h WORD pin functionality 2 (see #00944) 4Ah WORD ROMCS# range control (see #00945) 4Ch BYTE miscellaneous control 1 (see #00946) 4Dh BYTE reserved 4Eh BYTE miscellaneous control 2 (see #00947) 4Fh BYTE miscellaneous control 3 (see #00948) 50h WORD interrupt trigger control (see #00949) 52h WORD interrupt multiplexing control (see #00950) 54h WORD PCI master control (see #00951) 56h WORD serial interrupt source (see #00952) 58h BYTE serial interrupt mode control (see #00953) 59h BYTE pin functionality 3 (see #00954) 5Ah WORD distributed DMA master base address 5Ch BYTE distributed DMA control (see #00955) 5Dh 3 BYTEs reserved 60h BYTE USB interrupt control register (see #00956) 61h BYTE PCI reset control (see #00957) 62h BYTE emulation control (see #00958) 63h BYTE PCI retry control (see #00959) 64h 153 BYTEs reserved FDh BYTE SMI control FEh BYTE stop grant cycle control FFh BYTE host memory parity error SeeAlso: #00878,#00929,#00965 Bitfields for OPTi 82C750 Vendetta (device 1) keyboard control: Bit(s) Description (Table 00940) 15 keyboard port read (read-only) 14 keyboard port write (read-only) 13 keyboard RESET CPUINIT 0 = generate immediately 1 = wait for halt 12 keyboard emulation disable 11-9 PIRQ3# IRQ generation 000 = use interrupt trigger control register (offset 50h) 001 = IRQ5 010-101 = IRQ9-IRQ12 110-111 = IRQ14-IRQ15 8-6 PIRQ2# IRQ generation 5-3 PIRQ1# IRQ generation 2-0 PIRQ0# IRQ generation SeeAlso: #00939,#00941 Bitfields for OPTi 82C750 Vendetta (device 1) interrupt control: Bit(s) Description (Table 00941) 15 ISA IRQ14 blocking enable 14 ISA IRQ15 blocking enable 13 DMA/ISA master to preempt PCI master enable 12 PCI priority is fixed instead of rotating 11-10 back-to-back ISA I/O delay 00 = 3 ATCLKs 01 = 12 ATCLKs 10 = no delay 11 = delay all by 12 ATCLKs 9 PCI master ISA device access disable 8 ISA bus control signals for memory access >16M and I/O access >64K disable 7-6 IRQ15-IRQ14 triggering (0 = edge, 1 = level) 5-2 IRQ12-IRQ9 triggering (0 = edge, 1 = level) 1 IRQ 5 triggering (0 = edge, 1 = level) 0 pin AE16 functionality 0 = DREQ6 1 = EPMI0# SeeAlso: #00939,#00940 Bitfields for OPTi 82C750 Vendetta (device 1) pin functionality 1: Bit(s) Description (Table 00942) 7-6 pin AC15 functionality 00-01 = controlled by bits 1-0 10 = DACK7# 11 = reserved 5-4 pin AE15 functionality 00-01 = controlled by bits 1-0 10 = DACK6# 11 = reserved 3-2 pin AF15 functionality 00-01 = controlled by bits 1-0 10 = DACK5# 11 = reserved 1-0 DACK group-wise programmable pin functionalities 00 = DACK3#-DACK0# 01 = DACK7#-DACK5#, DACK3#, DACK1#, DACK0# 10 = reserved 11 = EDACK2#-EDACK0#, EDACKEN#, PIRQ3#, PIRQ2# SeeAlso: #00939 Bitfields for OPTi 82C750 Vendetta (device 1) cycle control: Bit(s) Description (Table 00943) 15 ISA bus ROM write enable 14 hidden refresh enable 13-12 ATCLK select 00 = LCLK/4 01 = LCLK/3 10 = LCLK/2 11 = LCLK 11 CPU master to PCI slave write 0 = 1 LCLK 1 = 0 LCLK 10-8 PCI master to PCI master preempt timer 000 = no preempt 001 = 260 LCLKs 010 = 132 LCLKs 011 = 68 LCLKs 100 = 36 LCLKs 101 = 20 LCLKs 110 = 12 LCLKs 111 = 5 LCLKs 7 reserved 6 XDIR achieve 0 = accessing ROM, keyboard controller, RTC 1 = accessing ROM, NVRAM 5 PERR# to SERR# conversion enable 4 address parity checking enable 3 target abort SERR# generation enable 2 fast back-to-back enable 1 sample point decoding 0 = slow 1 = subtractive 0 reserved SeeAlso: #00939 Bitfields for OPTi 82C750 Vendetta (device 1) pin functionality 2: Bit(s) Description (Table 00944) 15 pin AF18 functionality (0 = IRQ15, 1 = reserved) 14-13 pin AE19 functionality (00-01 = IRQ12, 10-11 = reserved) 12 pin AD20 functionality (0 = IRQ10, 1 = MIRQ10/12) 11 pin AE21 functionality (0 = IRQ6, 1 = reserved) 10 pin AD22 functionality (0 = IRQ4, 1 = MIRQ4/6) 9-8 pin AD16 functionality (00 = DREQ7, 01 = EPMI3#, 1x = reserved) 7-6 pin AD17 functionality 00 = DREQ3 01 = DREQ3/7 10 = DREQ7 11 = reserved 5-4 pin AD18 functionality 00 = DREQ1 01 = DREQ1/6 10 = DREQ6 11 = reserved 3-2 pin AE18 functionality 00 = DREQ0 01 = DREQ0/5 10 = DREQ5 11 = reserved 1-0 pin T23 functionality (0x = PREQ1#, 1x = reserved) SeeAlso: #00939 Bitfields for OPTi 82C750 Vendetta (device 1) ROMCS# range control: Bit(s) Description (Table 00945) 15 FFFF8000h-FFFFFFFFh ROMCS# disable 14 FFFF0000h-FFFF7FFFh ROMCS# disable 13 FFFE8000h-FFFEFFFFh ROMCS# enable 12 FFFE0000h-FFFE7FFFh ROMCS# enable 11 FFFD8000h-FFFDFFFFh ROMCS# enable 10 FFFD0000h-FFFD7FFFh ROMCS# enable 9 FFFC8000h-FFFCFFFFh ROMCS# enable 8 FFFC0000h-FFFC7FFFh ROMCS# enable 7 F8000h-FFFFFh ROMCS# disable 6 F0000h-F7FFFh ROMCS# disable 5 E8000h-EFFFFh ROMCS# enable 4 E0000h-E7FFFh ROMCS# enable 3 D8000h-DFFFFh ROMCS# enable 2 D0000h-D7FFFh ROMCS# enable 1 C8000h-CFFFFh ROMCS# enable 0 C0000h-C7FFFh ROMCS# enable SeeAlso: #00939 Bitfields for OPTi 82C750 Vendetta (device 1) miscellaneous control 1: Bit(s) Description (Table 00946) 7-5 reserved 4 game port/MPU-401 enable 3 PREQ4#/PGNT4# mux (0 = SDA2/GP3, 1 = PREQ4#/PGNT4#) 2 DACK5# 1-to-0 transition enable 1-0 reserved SeeAlso: #00939,#00947,#00948 Bitfields for OPTi 82C750 Vendetta (device 1) miscellaneous control 2: Bit(s) Description (Table 00947) 7-4 reserved 3 pipeline byte merge enable 2 EOP configuration (0 = output, 1 = input) 1 byte merge enable 0 ISA master data swap disable SeeAlso: #00939,#00946,#00948 Bitfields for OPTi 82C750 Vendetta (device 1) miscellaneous control 3: Bit(s) Description (Table 00948) 7 pin AB15 functionality 0 = DACK5# 1 = PPWRL+PPWRL2 6 IDE functionality support enable 5 reserved (read-only) 4 ISA bus AT command 1 wait state extension disable 3-2 reserved 1 pin AE14 functionality 0 = controlled by offset 44h bits 1-0 1 = GPCS2# 0 reserved SeeAlso: #00939,#00946,#00947 Bitfields for OPTi 82C750 Vendetta (device 1) interrupt trigger control: Bit(s) Description (Table 00949) 15 reserved (1) 14 reserved 13 pin AD15 functionality (0 = DACK2#, 1 = GPCS2#) 12-11 reserved 10 IRQ3 triggering (0 = edge, 1 = level) 9 IRQ4 triggering (0 = edge, 1 = level) 8 IRQ7 triggering (0 = edge, 1 = level) 7-6 IRQ generation when PIRQ3# triggered 00 = disable 01 = IRQ3 10 = IRQ4 11 = IRQ7 5-4 IRQ generation when PIRQ2# triggered 00 = disable 01 = IRQ3 10 = IRQ4 11 = IRQ7 3-2 IRQ generation when PIRQ1# triggered 00 = disable 01 = IRQ3 10 = IRQ4 11 = IRQ7 1-0 IRQ generation when PIRQ0# triggered 00 = disable 01 = IRQ3 10 = IRQ4 11 = IRQ7 SeeAlso: #00939,#00950 Bitfields for OPTi 82C750 Vendetta (device 1) interrupt multiplexing control: Bit(s) Description (Table 00950) 15 pin functionality 0 = AE22:IRQ3, AF21:IRQ5, AE21:IRQ6, AD21:IRQ7, AE20:IRQ9, AF19:IRQ11 1 = AE22:MIRQ3/5, AF21:MIRQ7/9, AE21:MIRQ11/15, AD21:EPMI1#, AE20:EPMI2#, AF19:GMIRQ 14 pin R22 functionality (0 = PREQ2#, 1 = EPMI0#) 13 IRQ1 latching enable 12 IRQ12 latching enable 11 DACKEN# status (0 = active low, 1 = active high) 10 system bus owned by external device 9 flash ROM locking enable 8 reserved 7 IRQ6 triggering (0 = edge, 1 = level) 6-3 IRQ generation when GMIRQ triggered 0000 = disabled 0001-0010 = reserved 0011-0111 = IRQ3-IRQ7 1000 = reserved 1001-1100 = IRQ9-IRQ12 1101 = reserved 1110-1111 = IRQ14-IRQ15 2 reserved (1) 1 priority scheme enable 0 concurrent refresh and IDE cycle enable SeeAlso: #00939,#00949 Bitfields for OPTi 82C750 Vendetta (device 1) PCI master control: Bit(s) Description (Table 00951) 15-12 reserved 11 interrupt request register recover enable 10 DMA address and counter (0 = current, 1 = base) 9 CPU/PCI master access ISA cycle retry enable 8 CPU-to-PCI cycle AHOLD signal use enable (used only when bit 4 = 1) 7 PCI master X-1-1-1 write enable 6 PCI master X-1-1-1 read enable 5 concurrent PCI master/IDE enable 4 new AHOLD protocol enable 3 PCI master non-contiguous byte enable 2 reserved 1 simultaneous hardware PMU and IDE function operation enable 0 ISA refresh disable SeeAlso: #00939 Bitfields for OPTi 82C750 Vendetta (device 1) serial interrupt source: Bit(s) Description (Table 00952) 15-3 IRQ15-IRQ3 interrupt resource (0 = ISA, 1 = serial interrupt) 2 SMI#, IOCHK#, PCIRQ3#-PCIRQ0# interrupt resource 0 = ISA 1 = serial interrupt 1-0 IRQ1-IRQ0 interrupt resource (0 = ISA, 1 = serial interrupt) SeeAlso: #00939,#00953 Bitfields for OPTi 82C750 Vendetta (device 1) serial interrupt mode control: Bit(s) Description (Table 00953) 7-6 serial interrupt control mode 00 = continuous 01 = idle 1x = active 5 reserved 4 data frame slot support 0 = 17 slots (IRQ15-IRQ3, IRQ1-IRQ0, SMI#, IOCHK#) 1 = 21 slots (IRQ15-IRQ3, IRQ1-IRQ0, SMI#, IOCHK#, PCIRQ3#-PCIRQ0#) 3-2 CPU access PCI priority 00 = lowest 01 = higher after 4 PCI master grants 10 = higher after 2 PCI master grants 11 = higher after 3 PCI master grants 1-0 serial interrupt start frame pulse width in continuous/active mode 00 = 4/3 CLK 01 = 6/5 CLK 10 = 8/7 CLK 11 = reserved SeeAlso: #00939,#00952 Bitfields for OPTi 82C750 Vendetta (device 1) pin functionality 3: Bit(s) Description (Table 00954) 7 PCI arbitration time-out mode enable 6 0 wait state for CPU I/O access enable 5 SMI output disable 4 CPU request for PCI bus (0 = enabled, 1 = reserved) 3 reserved 2 refresh preemption disable 1-0 reserved SeeAlso: #00939 Bitfields for OPTi 82C750 Vendetta (device 1) distributed DMA control: Bit(s) Description (Table 00955) 7-5 channel 7-5 enable 4-1 channel 3-0 enable 0 DDMA enable SeeAlso: #00939 Bitfields for OPTi 82C750 Vendetta (device 1) USB interrupt control register: Bit(s) Description (Table 00956) 7 reserved 6-5 buffered DMA control 00 = original DMA with old protocol 01 = reserved 10 = original DMA with PCI master capability 11 = buffered DMA enable 4 reserved 3-0 IRQ generation when USBIRQ triggered 0000 = disabled 0001-0010 = reserved 0011-0111 = IRQ3-IRQ7 1000 = reserved 1001-1100 = IRQ9-IRQ12 1101 = reserved 1110-1111 = IRQ14-IRQ15 SeeAlso: #00939 Bitfields for OPTi 82C750 Vendetta (device 1) PCI reset control: Bit(s) Description (Table 00957) 7 PCI soft reset generate enable 6 PCI slave demand mode buffered DMA retry fix enable 5 IORDY# PCI master delay fix enable 4 ISA command deassertion IOCHRDY delay 0 = <1 ATCLK 1 = >=1 ATCLK 3-2 buffered DMA fix (00 = disable, 11 = enable) 1 reserved 0 ISA master synchronization (1) SeeAlso: #00939 Bitfields for OPTi 82C750 Vendetta (device 1) emulation control: Bit(s) Description (Table 00958) 7 PCIRST# disable 6 SDA2 muxed with XDIR (0 = XDIR, 1 = SDA2) 5 SPKR muxed with MIDI1 (0 = MIDI1, 1 = SPKR) 4 audio mux (0 = MP7-MP0, DACK) 3 audio module enable 2 ATA-33 IDE pin mux scheme (0 = old, 1 = new) 1 REFRESH priority (0 = high, 1 = lowest) 0 port 92h emulation disable SeeAlso: #00939,PORT 0092h Bitfields for OPTi 82C750 Vendetta (device 1) PCI retry control: Bit(s) Description (Table 00959) 7-2 reserved 1 reserved (1) 0 ISA slave PCI master retry 0 = no change 1 = generate BOFF# SeeAlso: #00939 Format of PCI Configuration data for OPTi 82C750 Vendetta (IDE controller): Offset Size Description (Table 00960) 00h 64 BYTEs header (see #00824) (vendor ID 1045h, device ID C621h) 40h BYTE IDE initialization control (see #00961) 41h BYTE reserved 42h BYTE IDE enhanced feature (see #00962) 43h BYTE IDE enhanced mode (see #00963) 44h WORD ultra DMA mode select (see #00964) 46h 186 BYTEs reserved Bitfields for OPTi 82C750 Vendetta (IDE Controller) IDE initialization control: Bit(s) Description (Table 00961) 7-6 bus master IDE PCI bus request when FIFO filled with 00 = 32 bytes (early request disabled) 01 = 30 bytes 10 = 28 bytes 11 = 26 bytes 5 reserved (1) 4 reserved 3 secondary IDE disable 2 I/O addresses relocatable 1-0 IDE device default cycle time 00 = >=600ns (PIO mode 0) 01 = >=383ns (PIO mode 2) 10 = >=240ns (PIO mode 1) 11 = >=180ns (PIO mode 3) SeeAlso: #00960 Bitfields for OPTi 82C750 Vendetta (IDE Controller) IDE enhanced feature: Bit(s) Description (Table 00962) 7 reserved 6 IDE write concurrency enable 5 slave IDE FIFO to ISA bus preemption disable 4 IDE arbiter PCI/IDE concurrency support enable 3 PCI memory commands enable 2 PCI master IDE and IDE cycle concurrency enable 1 PCI master X-1-1-1 MIDE enable 0 reserved SeeAlso: #00960,#00963 Bitfields for OPTi 82C750 Vendetta (IDE Controller) IDE enhanced mode: Bit(s) Description (Table 00963) 7-6 secondary IDE drive 1 enhanced mode 00 = disabled 01 = command recovery in 1 LCLK 10 = command recovery in 0 LCLK 11 = reserved 5-4 secondary IDE drive 0 enhanced mode 00 = disabled 01 = command recovery in 1 LCLK 10 = command recovery in 0 LCLK 11 = reserved 3-2 primary IDE drive 1 enhanced mode 00 = disabled 01 = command recovery in 1 LCLK 10 = command recovery in 0 LCLK 11 = reserved 1-0 primary IDE drive 0 enhanced mode 00 = disabled 01 = command recovery in 1 LCLK 10 = command recovery in 0 LCLK 11 = reserved SeeAlso: #00960,#00963 Bitfields for OPTi 82C750 Vendetta (IDE Controller) ultra DMA mode select: Bit(s) Description (Table 00964) 15 primary IDE disable 14-12 reserved 11-10 secondary IDE drive 1 ultra DMA mode 00 = mode 0 01 = mode 1 10 = mode 2 11 = reserved 9-8 secondary IDE drive 0 ultra DMA mode (same values as bits 11-10) 7-6 primary IDE drive 1 ultra DMA mode (same values as bits 11-10) 5-4 primary IDE drive 0 ultra DMA mode (same values as bits 11-10) 3 secondary IDE drive 1 ultra DMA 33 enable 2 secondary IDE drive 0 ultra DMA 33 enable 1 primary IDE drive 1 ultra DMA 33 enable 0 primary IDE drive 0 ultra DMA 33 enable SeeAlso: #00960 Format of PCI Configuration data for OPTi 82C861/82C871 PCI-to-USB Bus Bridge: Offset Size Description (Table 00965) 00h 64 BYTEs header (see #00878) (vendor ID 1045h, device ID C861h) 40h 4 BYTEs reserved for testing 44h 10 BYTEs reserved 4Eh BYTE I2C control bits 7-5: reserved bit 4: I2C data output read-back (read-only) bit 3: I2C clock output read-back (read-only) bit 2: I2C data output bit 1: I2C clock output bit 0: I2C control enable 4Fh BYTE reserved 50h BYTE PCI host feature control bits 7-4: reserved bit 3: subsystem vendor ID register write disable bit 2: CLKRUN# enable bit 1: port 2 output disable bit 0: port 1 output disable 51h BYTE interrupt assignment bit 7: host controller type 0 = Viper-N+ (send 1 data phase on IRQ driveback) 1 = FireStar (send 2 data phases on IRQ driveback) bit 6: IRQ driveback enable bit 5: reserved bits 4-0: interrupt assignment 00000 = disabled 00001 = PCIRQ0# (default) to 00100 = PCIRQ3#, 00101 = ACPI0 to 01111 = ACPI10 10000 = IRQ0 to 11111 = IRQ15 52h 2 BYTEs reserved 54h DWORD IRQ driveback address bits 1-0: reserved to 00 (read-only) 58h 20 BYTEs reserved 6Ch DWORD reserved (test mode enable) SeeAlso: #00878,#00929,#00939 Format of OPTi FireLink/FireBlast Host Controller memory-mapped registers: Offset Size Description (Table 00966) 00h 256 BYTES standard OpenHCI registers (see #00902) 100h DWORD "HceControl" emulation control (see #00967) 104h DWORD "HceInput" legacy Input Buffer (see #00968) 108h DWORD "HceOutput" legacy Output Buffer (see #00969) 10Ch DWORD "HceStatus" legacy Status (see #00970) SeeAlso: #00902,#00965 Bitfields for OPTi FireLink/FireBlast "HceControl" register: Bit(s) Description (Table 00967) 31-9 reserved 8 A20 gate state 7 IRQ12 active (write 1 to clear) 6 IRQ1 active (write 1 to clear) 5 A20 gate sequence 1 D1h written to port 64h 0 other than D1h written to port 64h 4 external IRQ emulation enable 3 IRQ enable 2 character pending emulation enable 1 (read-only) emulation interrupt condition 0 emulation enable SeeAlso: #00902,PORT 0064h Bitfields for OPTi FireLink/FireBlast "HceInput" register: Bit(s) Description (Table 00968) 31-8 reserved 7-0 data written to port 60h or 64h SeeAlso: #00902,#00970,PORT 0060h,PORT 0064h Bitfields for OPTi FireLink/FireBlast "HceOutput" register: Bit(s) Description (Table 00969) 31-8 reserved 7-0 data to be returned on read of port 60h SeeAlso: #00902,PORT 0060h Bitfields for OPTi FireLink/FireBlast "HceStatus" register: Bit(s) Description (Table 00970) 31-8 reserved 7 parity error 6 time-out 5 aux output full enable 4 keyboard inhibit switch state 0 inhibited 1 not inhibited 3 data written to port: 0 port 60h 1 port 64h 2 warm/cold boot flag 1 input full 0 output full SeeAlso: #00902,PORT 0060h,PORT 0064h --------X-1AB10ASF1066----------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION DWORD (PicoPower devices) AX = B10Ah subfn 1066h BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) (see #00878) Return: CF clear if successful ECX = dword read CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Ah,AX=B10Ah/SF=8086h Format of PicoPower Vesuvius V3-LS ISA Bridge configuration: Offset Size Description (Table 00971) 00h 64 BYTEs header (see #00878) (vendor ID 1066h, device ID 0002h or 8002h) 40h WORD distributed DMA control register (see #00972) 42h BYTE distributed DMA status register (see #00973) 44h DWORD slave DMAC CH0 base register (see #00974) 48h DWORD slave DMAC CH1 base register (see #00974) 4Ch DWORD slave DMAC CH2 base register (see #00974) 50h DWORD slave DMAC CH3 base register (see #00974) 54h DWORD slave DMAC CH5 base register (see #00974) 58h DWORD slave DMAC CH6 base register (see #00974) 5Ch DWORD slave DMAC CH7 base register (see #00974) 90h DWORD PCI-to-ISA bridge configuration register (see #00975) 94h DWORD ISA memory address positive decode (see #00976) 98h DWORD I/O address positive decode (see #00977) 9Ch WORD I/O configuration address register (see #00978) A0h DWORD programmable ISA I/O address decoder (see #00979) A4h 6 DWORD programmable ISA range decoder registers 1-6 (see #00980) C0h 64 BYTEs reserved SeeAlso: #00773 Bitfields for PicoPower Vesuvius V3-LS distributed DMA control register: Bit(s) Description (Table 00972) 15-6 reserved 5 (revision BB & later) secondary slave floppy disk distributed access enable (if bit 1 = 0) 4 (revision BB & later) secondary slave hard disk distributed access enable (if bit 1 = 0) 3 slave floppy drive port distributed access enable (if bit 1 = 0) 2 slave hard drive port distributed access enable (if bit 1 = 0) 1 distributed DMA mode 0 = master 1 = slave 0 distributed DMA function enable SeeAlso: #00971 Bitfields for PicoPower Vesuvius V3-LS distributed DMA status register: Bit(s) Description (Table 00973) 7-1 reserved 0 DDMA status (write 1 to clear) SeeAlso: #00971 Bitfields for PicoPower Vesuvius V3-LS slave DMAC CH0-7 base register: Bit(s) Description (Table 00974) 31-16 reserved (0) 15-7 channel base address 6-4 channel base address (hardwired to channel number) 3 extended address (0) 2-1 size (00 for channel 0-3, 01 for channel 5-7) 0 channel enable SeeAlso: #00971 Bitfields for PicoPower Vesuvius V3-LS PCI-to-ISA bridge configuration: Bit(s) Description (Table 00975) 31-15 reserved 14 AD/SD/SA bus staggering enable 13 ISA bridge PCI positive decode enable 12 ISA bridge PCI subtractive decode disable 11-10 reserved 9 retry enable 8 lock input enable 7 SERR#/NMI status flag (write 1 to clear) 6 PERR#/NMI status flag (write 1 to clear) 5 SERR# triggers NMI enable 4 PERR# triggers NMI enable 3 reserved 2-0 (revision BB and later) system configuration setting SeeAlso: #00971 Bitfields for PicoPower Vesuvius V3-LS ISA memory address positive decode: Bit(s) Description (Table 00976) 31-9 reserved 8 ISA memory A0000h-AFFFFh and FFA0000h-FFFAFFFFh decode enable 7 ISA memory B0000h-BFFFFh and FFB0000h-FFFBFFFFh decode enable 6 ISA memory C0000h-C7FFFh and FFC0000h-FFFC7FFFh decode enable 5 ISA memory C8000h-CFFFFh and FFC8000h-FFFCFFFFh decode enable 4 ISA memory D0000h-D7FFFh and FFD0000h-FFFD7FFFh decode enable 3 ISA memory D8000h-DFFFFh and FFD8000h-FFFDFFFFh decode enable 2 ISA memory E0000h-E7FFFh and FFE0000h-FFFE7FFFh decode enable 1 ISA memory E8000h-EFFFFh and FFE8000h-FFFEFFFFh decode enable 0 ISA memory F0000h-FFFFFh and FFF0000h-FFFFFFFFh decode enable SeeAlso: #00971 Bitfields for PicoPower Vesuvius V3-LS I/O address positive decode: Bit(s) Description (Table 00977) 31-24 reserved 23 (revision BB and later) I/O read 377h decode enable 22 (revision BB and later) I/O read 3F7h decode enable 21 PC NET (360h-36Fh) decode enable 20 audio 5 (388h-38Bh) decode enable 19 audio 4 (250h-25Fh) decode enable 18 audio 3 (240h-24Fh) decode enable 17 audio 2 (230h-23Fh) decode enable 16 audio 1 (220h-22Fh) decode enable 15 audio 0 (201h) decode enable 14 (revision BB and later) ISA secondary floppy (370h-375h, 377h write) decode enable 13 (revision BB and later) ISA primary floppy (3F0h-3F5h, 3F7h write) decode enable 12 (revision BB and later) ISA secondary IDE (170h-177h, 376h) decode enable 11 (revision BB and later) ISA primary IDE (1F0h-1F7h, 3F6h) decode enable 10 ISA LPT3 (3BCh-3BFh, 7BCh-7BEh) decode enable 9 ISA LPT2 (278h-27Fh, 678h-67Ah) decode enable 8 ISA LPT1 (378h-37Fh, 778h-77Ah) decode enable 7 ISA COM4 (2E8h-2EFh) decode enable 6 ISA COM3 (3E8h-3EFh) decode enable 5 ISA COM2 (2F8h-2FFh) decode enable 4 ISA COM1 (3F8h-3FFh) decode enable 3 ISA system I/O (00h-FFh) decode enable 2 configuration (24h/26h) decode enable 1-0 reserved SeeAlso: #00971 Bitfields for PicoPower Vesuvius V3-LS I/O configuration address register: Bit(s) Description (Table 00978) 15-10 reserved 9-1 configuration I/O address 0 configuration address register enable SeeAlso: #00971 Bitfields for PicoPower Vesuvius V3-LS programmable ISA I/O address decoder: Bit(s) Description (Table 00979) 31-18 reserved 17 ISA range decoder 6 read enable 16 ISA range decoder 6 write enable 15 ISA range decoder 6 type 0 = memory 1 = I/O 14 ISA range decoder 5 read enable 13 ISA range decoder 5 write enable 12 ISA range decoder 5 type (same values as bit 15) 11 ISA range decoder 4 read enable 10 ISA range decoder 4 write enable 9 ISA range decoder 4 type (same values as bit 15) 8 ISA range decoder 3 read enable 7 ISA range decoder 3 write enable 6 ISA range decoder 3 type (same values as bit 15) 5 ISA range decoder 2 read enable 4 ISA range decoder 2 write enable 3 ISA range decoder 2 type (same values as bit 15) 2 ISA range decoder 1 read enable 1 ISA range decoder 1 write enable 0 ISA range decoder 1 type (same values as bit 15) SeeAlso: #00971 Bitfields for PicoPower Vesuvius V3-LS programmable ISA range decoder 1: Bit(s) Description (Table 00980) 31-16 ISA address compare 15-0 ISA device address (memory address bits 23-8, I/O address bits 15-0) SeeAlso: #00971 --------X-1AB10ASF1066----------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION DWORD (Brooktree devices) AX = B10Ah subfn 1066h BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) (see #00878) Return: CF clear if successful ECX = dword read CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Ah,AX=B10Ah/SF=8086h Format of Brooktree Bt8230 ATM controller configuration: Offset Size Description (Table 00981) 00h 64 BYTEs header (see #00878) (vendor ID 109Eh, device ID 8230h) 10h DWORD address at which to map external memory (multiple of 16M) internal registers are mapped at offsets 0000h-01FFh; Bt8222 registers are mapped at 0200h-03FFh, and T1/E1 Framer registers are mapped at 0800h-0FFFh. Only 32-bit memory accesses are used 40h BYTE maximum burst length (00h not allowed, default = 10h) 41h BYTE "SPECIAL_STATUS" bit 3: attempted to perform DMA on PCI while bus-mastering disabled in PCI command word bit 2: PCI/DMA synchronization error occurred bit 1: PCI bus master encountered fatal error bit 0: direction of transaction which encountered error =0 write (refer to offset 48h) =1 read (refer to offset 44h) Note: bits 3-1 are write-clear, bit 0 is read-only 42h 2 BYTEs unused 44h DWORD current read target address for PCI bus master (read-only) 48h DWORD current write target address for PCI bus master (read-only) 4Ch 180 BYTEs reserved SeeAlso: #00790 --------X-1AB10ASF1106----------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION DWORD (VIA Technologies devices) AX = B10Ah subfn 1106h BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) (see #00878) Return: CF clear if successful ECX = dword read CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Ah,AX=B10Ah/SF=8086h Format of Via Technologies' VT82C580VPX CPU-PCI bridge configuration: Offset Size Description (Table 00982) 00h 64 BYTEs header (see #00878) (vendor ID 1106h, device ID 0585h) 40h 16 BYTEs unused 50h BYTE cache control 1 51h BYTE cache control 2 52h BYTE non-cacheable control 53h BYTE system performance control 54h BYTE non-cacheable region 1 (high) 55h BYTE non-cacheable region 1 (low) 56h BYTE non-cacheable region 2 (high) 57h BYTE non-cacheable region 2 (low) 58h BYTE DRAM configuration 1 59h BYTE DRAM configuration 2 5Ah 6 BYTEs DRAM row N ending address (N=0-5) 60h BYTE DRAM type 61h BYTE shadow RAM control 1 62h BYTE shadow RAM control 2 63h BYTE shadow RAM control 3 64h BYTE DRAM reference timing 65h BYTE DRAM timing control 1 (see #00996) 66h BYTE DRAM timing control 2 (see #00997) 67h BYTE 32-bit DRAM width (see #00998) 68h BYTE 69h BYTE reserved ("do not program") 6Ah BYTE refresh counter 6Bh BYTE refresh control 6Ch BYTE SDRAM control 6Dh BYTE DRAM control drive strength 6Eh 2 BYTEs reserved 70h BYTE PCI buffer control 71h BYTE CPU-to-PCI flow control 1 72h BYTE CPU-to-PCI flow control 2 73h BYTE PCI master control 1 74h BYTE PCI master control 2 75h BYTE PCI arbitration 1 76h BYTE PCI arbitration 2 77h BYTE reserved for chip test 78h 136 BYTEs reserved !!!via\580vpx.pdf SeeAlso: #00817 Format of AMD-640 System Controller: Offset Size Description (Table 00983) 00h 64 BYTEs header (see #00878) (vendor ID 1106h, device ID 0595h) 0Dh BYTE latency timer (bits 7-3) 00h = 32*8 PCI clocks 01h = 1*8 PCI clocks N = N*8 PCI clocks 40h 16 BYTEs unused??? 50h BYTE cache control 1 (see #00984) 51h BYTE cache control 2 (see #00985) 52h BYTE non-cacheable control (see #00986) 53h BYTE system performance control (see #00987) 54h WORD non-cacheable region 1 (see #00988) 56h WORD non-cacheable region 2 (see #00988) 58h BYTE DRAM configuration register 1 (see #00989) 59h BYTE DRAM configuration register 2 (see #00990) 5Ah 6 BYTEs end of DRAM banks 0-5 each register specifies bits 29-22 of the bank's ending address 60h BYTE DRAM type (see #00991) 61h BYTE shadow RAM control register 1 (see #00992) 62h BYTE shadow RAM control register 2 (see #00993) 63h BYTE shadow RAM control register 3 (see #00994) 64h BYTE DRAM timing (see #00995) 65h BYTE DRAM control register 1 (see #00996) 66h BYTE DRAM control register 2 (see #00997) 67h BYTE 32-bit DRAM width control register (see #00998) 68h 2 BYTEs reserved 6Ah BYTE DRAM refresh counter (in units of 16 CPU clocks) 6Bh BYTE DRAM refresh control register (see #00999) 6Ch BYTE SDRAM control register (see #01000) 6Dh BYTE DRAM drive strength control register (see #01001) 6Eh BYTE ECC control register (see #01002) 6Fh BYTE ECC status register (see #01003) 70h BYTE PCI buffer control (see #01004) 71h BYTE CPU-to-PCI flow control 1 (see #01005) 72h BYTE CPU-to-PCI flow control 2 (see #01006) 73h BYTE PCI target control (see #01007) 74h BYTE PCI initiator control (see #01008) 75h BYTE PCI arbitration control 1 (see #01009) 76h BYTE PCI arbitration control 2 (see #01010) 77h 137 BYTEs reserved Note: the AMD-640 uses PCI configuration mechanism #1; bus/device/function are always 00h/00h/00h SeeAlso: #00817,#01011 Bitfields for AMD-640 Cache Control Register 1: Bit(s) Description (Table 00984) 7-6 cache enable 00 disabled 01 initialization (BIOS fills L2 cache to known state) 10 enabled (normal operation) 11 reserved 5 reserved (do not change) 4-3 tag configuration 00 eight tag bits, no "modify" bit 01 seven tag bits, one modify bit 10 ten tag bits, no modify bit 11 nine tag bits, one modify bit 2 reserved (0) 1-0 type of cache RAM 00 none 01 reserved 10 burst SRAM 11 pipeline burst SRAM SeeAlso: #00983,#00985 Bitfields for AMD-640 Cache Control Register 2: Bit(s) Description (Table 00985) 7-6 reserved (0) 5 backoff processor until L2 cache filled 4 reserved (0) 3 two banks of SRAM instead of one 2 reserved (0) 1-0 L2 cache size 00 = 256K 01 = 512K 10 = 1M 11 = 2M SeeAlso: #00983,#00984,#00986 Bitfields for AMD-640 Non-Cacheable Control Register: Bit(s) Description (Table 00986) 7 segment C000h-C7FFh cacheable and write-protected 6 D000h-DFFFh cacheable and write-protected 5 E000h-EFFFh cacheable and write-protected 4 F000h-FFFFh cacheable and write-protected 3 reserved (0) 2 force L2 cache fill 1 reserved (1) 0 L2 write mode (0 = writeback, 1 = write-through) SeeAlso: #00983,#00985,#00987 Bitfields for AMD-640 System Performance Control Register: Bit(s) Description (Table 00987) 7 enable read-around-write 6 enable cache read pipeline cycle 5 enable cache write pipeline cycle 4 enable DRAM pipeline cycle 3 enable PCI Peer Concurrence (PCI initiator can transfer to another PCI device without blocking memory or CPU bus) 2-0 reserved (0) SeeAlso: #00983,#00986 Bitfields for AMD-640 Non-Cacheable Region register: Bit(s) Description (Table 00988) 15-11 bits 20-16 of region's base address 10-8 size of non-cacheable area 000 disabled 001 = 64K 010 = 128K ... 110 = 2M 111 = 4M 7-0 bits 28-21 of region's base address SeeAlso: #00983,#00989 Bitfields for AMD-640 DRAM Configuration Register 1: Bit(s) Description (Table 00989) 7-5 type of address mapping for memory banks 0 and 1 ---EDO/FastPageMode--- 000 eight-bit column address 001 nine-bit column address 010 ten-bit column address 011 eleven-bit column address 100 twelve-bit column address other reserved ---SDRAM--- 0xx = 16-Mbit SDRAM (see #00991) 1xx = 64-Mbit SDRAM 4 reserved (0) 3-1 type of address mapping ofr memory banks 2 and 3 0 reserved (0) SeeAlso: #00983,#00990 Bitfields for AMD-640 DRAM Configuration Register 2: Bit(s) Description (Table 00990) 7-5 type of address mapping for memory banks 4 and 5 (see #00989) 4-3 reserved (0) 2-0 last populated memory bank 000 - 101 = Bank0 - Bank5 110,111 reserved Note: banks 2-4 are non-cacheable if tag RAM is ten bits + modified bit SeeAlso: #00983,#00989 Bitfields for AMD-640 DRAM Type register: Bit(s) Description (Table 00991) 7-6 reserved 5-4 type of DRAM in banks 4 and 5 00 fast page mode (FPM) 01 extended data out (EDO) 10 reserved 11 synchronous DRAM (SDRAM) 3-2 type of DRAM in banks 2 and 3 1-0 type of DRAM in banks 0 and 1 SeeAlso: #00983,#00989,#00990 Bitfields for AMD-640 Shadow RAM Control Register 1: Bit(s) Description (Table 00992) 7-6 segment CC00h-CFFFh shadow RAM control 00 shadowing disabled 01 write enabled 10 read enabled 11 both read and write enabled 5-4 segment C800h-CBFFh shadow RAM control 3-2 segment C400h-C7FFh shadow RAM control 1-0 segment C000h-C3FFh shadow RAM control SeeAlso: #00983,#00993,#00994 Bitfields for AMD-640 Shadow RAM Control Register 2: Bit(s) Description (Table 00993) 7-6 segment DC00h-DFFFh shadow RAM control 00 shadowing disabled 01 write enabled 10 read enabled 11 both read and write enabled 5-4 segment D800h-DBFFh shadow RAM control 3-2 segment D400h-D7FFh shadow RAM control 1-0 segment D000h-D3FFh shadow RAM control SeeAlso: #00983,#00992,#00994 Bitfields for AMD-640 Shadow RAM Control Register 3: Bit(s) Description (Table 00994) 7-6 segment E000h-EFFFh shadow RAM control 00 shadowing disabled 01 write enabled 10 read enabled 11 both read and write enabled 5-4 segment F000h-FFFFh shadow RAM control 3-2 ISA memory hole 00 none 01 = 512K-640K 10 = 15M-16M 11 = 14M-16M 1 enable SMI redirection if set: 30000h-3FFFFh redirected to B0000h, 40000h-4FFFFh to A0000h 0 redirect video RAM accesses (A0000h-BFFFFh) to system DRAM rather than PCI bus (used to initialize SMRAM at B0000h) SeeAlso: #00983,#00992,#00993 Bitfields for AMD-640 DRAM Timing register: Bit(s) Description (Table 00995) 7-6 RAS# precharge time 00 = 2T (for 50ns DRAM) [T = HCLK period] 01 = 3T (60ns) 10 = 4T (70ns) 11 = 6T 5-4 RAS# pulse width 00 = 3T (for 50ns DRAM) 01 = 4T (60ns) 10 = 5T (70ns) 11 = 6T 3-2 CAS# pulse width FPM: 00=1T, 01=2T, 10=3T, 11=4T EDO: 00=4T, 01=1T, 10=2T, 11=3T 1 write pulse width (0 = 1T, 1 = 2T) 0 delay from column address to CAS# (0 = 1T, 1 = 2T) SeeAlso: #00983,#00994 Bitfields for AMD-640 DRAM Control Register 1: Bit(s) Description (Table 00996) 7-6 page mode control 00 close page after access 01 reserved 10 keep page open until timeout or page miss 11 close page if processor has not accessed DRAM for 8 CPU cycles 5 enable fast DRAM decoding 4 reduce EDO DRAM leadoff cycle from 6T to 5T 3 delay DRAM data latch by 1/2 clock 2 (AMD-640) reserved (VT82C580VPX) Pin88 function (0 = DB32, 1 = TA9) 1 reserved (0) 0 delay DRAM read cycle by 1T whenever write buffer contains data must be set if read-around-write is enabled (see #00987) SeeAlso: #00983,#00997,#00982 Bitfields for AMD-640 DRAM Control Register 2: Bit(s) Description (Table 00997) 7 enable EDO test mode when set, EDO RAM contents will read correctly, FPM not 6 reserved (0) 5-3 (AMD-640) reserved (0) 5 (VT82C580VPX) SDRAM CAS# latency (0 = latency 2, 1 = latency 3) 4 (VT82C580VPX) reserved (0) 3 (VT82C580VPX) enable Turbo EDO mode (0 = x-2-2-2, 1 = x-1-1-1 bursts) 2 add one wait state for memory data-to-host data pop 1 reduce RAS# precharge by 1T for SDRAM 0 reduce RAS# to CAS# delay for SDRAM Note: bits 1 and 0 have no effect unless SDRAM has been selected via the DRAM type register (see #00991) SeeAlso: #00983,#00996,#00982 Bitfields for AMD-640 32-bit DRAM Width Control register: Bit(s) Description (Table 00998) 7 RAS# to Column Address delay (0 = 1T, 1 = 2T) 6 delay NA# by 1T 5-0 widths of banks 5 - 0 AMD-640 documentation clains that all bits should be cleared for VT82C580VPX, settings are 0 = 64-bit, 1 = 32-bit (only applicable when two banks of PBSRAM are installed) SeeAlso: #00983,#00982,#00997,#00999 Bitfields for AMD-640 DRAM Refresh Control register: Bit(s) Description (Table 00999) 7 enable CAS#-before-RAS# refresh 6 enable burst refresh (four rows every 60 us, not one every 15 us) 5-0 reserved (0) SeeAlso: #00983,#00998 Bitfields for AMD-640 SDRAM Control Register: Bit(s) Description (Table 01000) 7 enable 4-bank interleave for 64-Mbit SDRAMs (when bit 5 set) 6 enable SDRAM burst write 5 enable SDRAM bank interleave (when set, reduces 3-line burst from 8-1-1-1-3-1-1-1-3-1-1-1 to 8-1...) 4 reserved (0) 3 SDRAM CAS# latency (0 = latency 2, 1 = latency 3) 2-0 SDRAM Operation Mode 000 normal SDRAM 001 enable NOP command 010 convert CPU-to-DRAM cycles into All Banks Precharge command 011 convert CPU-to-DRAM cycles into commands on MA[11:0] 100 enable CAS#-before-RAS# cycles other reserved SeeAlso: #00983,#00999 Bitfields for AMD-640 DRAM Drive Strength Control register: Bit(s) Description (Table 01001) 7 bank decoding test (1="for production test only. DO NOT SET.") 6 strength of MA[1:0] drive (0 = 12ma, 1 = 24ma) 5 function of N17 and M17 pins 0 N17 is RAS5#, M17 is RAS4# 1 N17 is MA1, M17 is MA0 4 force SMM mode (when set, act as if SMIACT# is asserted) 3 strength of SDRAM command lines (0 = 12ma, 1 = 24ma) 2 strength of MA[13:2] and WEx# drive (0 = 12ma, 1 = 24ma) 1 strength of CAS# drive (0 = 12ma, 1 = 24ma) 0 strength of RAS# drive (0 = 12ma, 1 = 24ma) SeeAlso: #00983,#00999 Bitfields for AMD-640 ECC Control Register: Bit(s) Description (Table 01002) 7 ECC mode select (0 = parity, 1 = ECC) 6 reserved (0) 5 assert SERR# for ECC multibit errors 4 assert SERR# for ECC single-bit errors 3 add 1T for SDRAM read cycles with ECC (required when ECC mode enabled) 2 enable ECC for banks 5 and 4 1 enable ECC for banks 3 and 2 0 enable ECC for banks 1 and 0 SeeAlso: #00983,#01003 Bitfields for AMD-640 ECC Status Register: Bit(s) Description (Table 01003) 7 multi-bit error detected (write-clear) 6-4 number of DRAM bank containing multi-bit error (write-clear) 3 single-bit error detected (write-clear) 2-0 number of DRAM bank containing single-bit error (write-clear) SeeAlso: #00983,#01002 Bitfields for AMD-640 PCI Buffer Control register: Bit(s) Description (Table 01004) 7 enable CPU-to-PCI posted writes 6 enable PCI-to-DRAM posted writes 5 enable PCI-to-DRAM prefetch 4-2 reserved (0) 1 disable PCI retry for processor QuadWord access 0 CPU-to-PCI buffer flushing 0 flushing has priority over bus grants 1 bus-grant to another PCI initiator has priority over flushing SeeAlso: #00983 Bitfields for AMD-640 CPU-to-PCI Flow Control 1 register: Bit(s) Description (Table 01005) 7,3 PCI burst control 00 no bursts, every write goes to write buffer 01 burst writes placed in write buffer, non-burst writes sent to PCI bus immediately after write buffers flushed 1x all writes go to write buffer; bursting performed for burstable transactions 6 enable byte merge 5 reserved (1) 4 enable posted PCI I/O cycle writes 2 eanble fast back-to-back PCI writes 1 enable quick frame generation (FRAME# asserted one clock early) 0 add one wait state to IRDY# SeeAlso: #00983,#01006 Bitfields for AMD-640 CPU-to-PCI Flow Control 2 register: Bit(s) Description (Table 01006) 7 unsuccessful retry (16 or 64 times) has occurred (write-clear) 6 retry timeout action 0 retry continuously, recording status 1 flush buffer; if reading, return FFFFFFFFh 5-4 retry count and backoff 00 retry twice, backoff processor 01 retry 16 times, set bit 7 on failure 10 retry four times, backoff processor 11 retry 64 times, set bit 7 on failure 3 discard failed data from write buffer when retry fails 2 backoff processor if PCI read retry fails 1 assert FRAME# one cycle earlier than indicated by offset 71h bit 1 0 reduce TRDY#-to-BRDY# by one HCLK on processor reads of PCI target SeeAlso: #00983,#01005,#01007 Bitfields for AMD-640 PCI Target Control register: Bit(s) Description (Table 01007) 7 slow memory decoding (must be set if fast back-to-back cycles enabled) 6 add one wait state to TRDY# response on reads 5 add one wait state to TRDY# response on writes 4 reserved (0) 3 assert STOP# after write timeout 2 assert STOP# after read timeout 1 enable sampling of PCI LOCK# pin 0 force AMD-640 to initiate PCI arbitration if FRAM# not asserted within 16 PCI clocks of last GNT# SeeAlso: #00983,#01006,#01008 Bitfields for AMD-640 PCI Initiator Control register: Bit(s) Description (Table 01008) 7 enable enhanced PCI commands (Memory Read Line, Memory Read Multiple, and Memory Write and Invalidate) 6 enable single-write byte merging 5-0 reserved (0) SeeAlso: #00983,#01007,#01008 Bitfields for AMD-640 PCI Arbitration Control 1 register: Bit(s) Description (Table 01009) 7 arbitration priority 0 = fixed (high-to-low is REQ1#, REQ2#, REQ3#, REQ4#, PREQ#, and CPU) 1 = fair (round-robin) arbitration 6 arbitration mode 0 arbitrate at end of REQ# 1 arbitrate at end of each FRAME# (allows pre-emption by a higher-priority initiator) 5-4 reserved (0) 3-0 number of idle time periods of 32 PCI clocks before arbitration is forced (0000 disables timeout) SeeAlso: #00983,#01008,#01010 Bitfields for AMD-640 PCI Arbitration Control 2 register: Bit(s) Description (Table 01010) 7 enable initiator priority rotation =0 use arbitration priority as set by offset 75h bit 7 (see #01009) 6 reserved (0) 5-4 initiator priority rotation control 00 disabled (use offset 75h bit 7 setting) 01 grant to processor after every PCI initiator grant 10 grant to processor after every other PCI initiator grant 11 grant to processor after every three PCI initiator grants 3-0 reserved (0) SeeAlso: #00983,#01009 Format of AMD-645 Peripheral Bus Controller, function 0 (PCI-ISA bridge) data: Offset Size Description (Table 01011) 00h 64 BYTEs header (see #00878) (vendor ID 1106h, device ID 0586h) 40h BYTE ISA bus control (see #01012) 41h BYTE ISA Test Mode (see #01013) 42h BYTE ISA clock control (see #01014) 43h BYTE ROM Decode Control (see #01015) 44h BYTE keyboard controller control (see #01016) 45h BYTE Type F DMA control (see #01017) 46h BYTE Miscellaneous control 1 (see #01018) 47h BYTE Miscellaneous control 2 (see #01019) 48h BYTE Miscellaneous control 3 (see #01020) 49h BYTE reserved 4Ah BYTE IDE interrupt routing (see #01021) 4Bh BYTE reserved 4Ch BYTE PCI memory hole bottom, bits 23-16 4Dh BYTE PCI memory hole top, bits 23-16 (if top is <= bottom, hole is disabled) 4Eh WORD DMA/Master memory access control 3 (see #01022) 50h BYTE PnP DRQ Routing (see #01023) 51h 3 BYTEs reserved 54h BYTE PCI IRQ Edge/Level selection (see #01024) 55h BYTE PnP Routing for external MIRQ0/1 (see #01025) 56h BYTE PnP Routing for PCI INTB/INTA (see #01027) 57h BYTE PnP Routing for PCI INTD/INTC (see #01028) 58h BYTE PnP Routing for external MIRQ2 (see #01029) 59h BYTE MIRQ pin configuration (see #01030) 5Ah BYTE XD Power-On Strap Options (see #01031) 5Bh BYTE internal RTC test mode (see #01032) 5Ch 4 BYTEs reserved 60h WORD distributed DMA, channel 0 base address/enable (see #01033) 62h WORD distributed DMA, channel 1 base address/enable (see #01033) 64h WORD distributed DMA, channel 2 base address/enable (see #01033) 66h WORD distributed DMA, channel 3 base address/enable (see #01033) 68h WORD reserved 6Ah WORD distributed DMA, channel 5 base address/enable (see #01033) 6Ch WORD distributed DMA, channel 6 base address/enable (see #01033) 6Eh WORD distributed DMA, channel 7 base address/enable (see #01033) 70h 144 BYTEs reserved SeeAlso: #00817,#00983,#01034,#01046 Bitfields for AMD-645 ISA Bus Control register: Bit(s) Description (Table 01012) 7 extra delay on ISA commands (default is disabled) 6 enable extended ISA bus ready (default is disabled) 5 ISA slave wait states (0=4 wait states [default], 1=5 wait states) 4 chipset I/O wait states (0=2 wait states [default], 1=4 wait states) 3 I/O recovery time enabled 2 enable extended ALE 1 no ROM wait states (default is clear, 1 wait state) 0 enable ROM writes SeeAlso: #01011 Bitfields for AMD-645 ISA Test Mode register: Bit(s) Description (Table 01013) 7-6 reserved (0) 5 enable fast reset via PORT 0092h 4 reserved (0) 3 double DMA clock (=0 DMA at 1/2 ISA clock, =1 DMA at full ISA clock) 2-0 reserved (0) SeeAlso: #01011,#01012,#01014 Bitfields for AMD-645 ISA Clock Control register: Bit(s) Description (Table 01014) 7 disable "Latch IO16#" 6-4 reserved (0) 3 enable ISA Bus clock select via bits 2-0 (=0 use PCLK/4) 2-0 ISA Bus clock select 000 PCLK/3 (default) 001 PCLK/2 010 PCLK/4 011 PCLK/6 100 PCLK/5 101 PCLK/10 110 PCLK/12 111 OSC/2 Note: in order to safely change the ISA clock, bit 3 must first be cleared, then bits 2-0 may be changed, and finally bit 3 can be set again SeeAlso: #01011,#01013 Bitfields for AMD-645 ROM Decode Control register: Bit(s) Description (Table 01015) 7 enable 64K ROM at FFFE00000h-FFFEFFFFh 6 enable 384K ROM at FFF80000h-FFFDFFFFh 5 enable 32K ROM at E8000h-EFFFFh 4 enable 32K ROM at E0000h-E7FFFh 3 enable 32K ROM at D8000h-D8FFFh 2 enable 32K ROM at D0000h-D7FFFh 1 enable 32K ROM at C8000h-CFFFFh 0 enable 32K ROM at C0000h-C7FFFh SeeAlso: #01011 Bitfields for AMD-645 Keyboard Controller Control register: Bit(s) Description (Table 01016) 7-4 reserved (0) 3 enable Mouse Lock 2-0 reserved (0) SeeAlso: #01011 Bitfields for AMD-645 Type-F DMA Control register: Bit(s) Description (Table 01017) 7 enable line buffer from ISA Master/DMA to PCI 6-4 enable Type F timing on DMA Channels 7, 6, 5 3-0 enable Type F timing on DMA Channels 3-0 SeeAlso: #01011 Bitfields for AMD-645 Miscellaneous Control 1 register: Bit(s) Description (Table 01018) 7-5 reserved (0) 4 enable command register test mode (when set, PCI offset 04h bits 0-1 become writable and bit 3 read-only) 3-2 reserved (0) 1 disallow interruptions of PCI burst reads 0 enable posted memory writes SeeAlso: #01011,#01019,#01020 Bitfields for AMD-645 Miscellaneous Control 2 register: Bit(s) Description (Table 01019) 7 use INIT as CPU reset signal instead of CPURST 6 enable PCI transaction delay 5 enable ports 04D0h-04D1h (per EISA spec) 4 enable interrupt controller shadow register 3 reserved (0) 2 enable write delay transaction time-out timer 1 enable read delay transaction time-out timer 0 software PCI reset -- set to cause a PCI reset via PCIRST pin SeeAlso: #01011,#01018,#01020,PORT 04D0h Bitfields for AMD-645 Miscellaneous Control 3 register: Bit(s) Description (Table 01020) 7-4 reserved (0) 3 disable RTC PORT 0074h and PORT 0075h 2 disable integrated USB controller 1 disable integrated IDE controller 0 add 512K to offset 4Eh bits 15-12 at top of PCI memory SeeAlso: #01011,#01018,#01019,PORT 0074h"AMD-645" Bitfields for AMD-645 IDE Interrupt Routing register: Bit(s) Description (Table 01021) 7 wait for PGNT before Grant to ISA Master/DMA 6 port 00xxh bus select (0=access via SD bus, 1=access via XD bus) 5-4 reserved (0) 3-2 secondary IDE channel IRQ (same encoding as primary) 1-0 primary IDE channel IRQ 00 IRQ14 (default for primary) 01 IRQ15 (default for secondary) 10 IRQ10 11 IRQ11 SeeAlso: #01011 Bitfields for AMD-645 DMA/Master Memory Access Control 3 register: Bit(s) Description (Table 01022) 15-12 top of PCI memory for ISA DMA/Master access, bits 23-20, less 1 11 accesses to E0000h-EFFFFh forwarded to PCI 10 accesses to A0000h-BFFFFh forwarded to PCI 9 accesses to 80000h-9FFFFh forwarded to PCI 8 accesses to 00000h-7FFFFh forwarded to PCI 7 accesses to DC000h-DFFFFh forwarded to PCI 6 accesses to D8000h-DBFFFh forwarded to PCI 5 accesses to D4000h-D7FFFh forwarded to PCI 4 accesses to D0000h-D3FFFh forwarded to PCI 3 accesses to CC000h-CFFFFh forwarded to PCI 2 accesses to C8000h-CBFFFh forwarded to PCI 1 accesses to C4000h-C7FFFh forwarded to PCI 0 accesses to C0000h-C3FFFh forwarded to PCI SeeAlso: #01011 Bitfields for AMD-645 PnP DRQ Routing register: Bit(s) Description (Table 01023) 7-0 reserved (always read 04h) SeeAlso: #01011,#01024 Bitfields for AMD-645 PCI IRQ Edge/Level Select register: Bit(s) Description (Table 01024) 7-4 reserved 3 PIRQA# is edge-sensitive rather than level-sensitive 2 PIRQB# is edge-sensitive 1 PIRQC# is edge-sensitive 0 PIRQD# is edge-sensitive SeeAlso: #01011,#01023,#01025 Bitfields for AMD-645 PnP IRQ Routing 1 register: Bit(s) Description (Table 01025) 7-4 routing for MIRQ1 (see #01026) 3-0 routing for MIRQ0 (see #01026) SeeAlso: #01011,#01024 (Table 01026) Values for AMD-645 IRQ routing: 0000 disabled 0001 IRQ1 0010 reserved 0011 IRQ3 ... 0111 IRQ7 1000 reserved 1001 IRQ9 ... 1100 IRQ12 1101 reserved 1110 IRQ14 1111 IRQ15 SeeAlso: #01025,#01027,#01028,#01029 Bitfields for AMD-645 PnP IRQ Routing 2 register: Bit(s) Description (Table 01027) 7-4 routing for PIRQB# (see #01026) 3-0 routing for PIRQA# (see #01026) SeeAlso: #01025,#01028,#01029 Bitfields for AMD-645 PnP IRQ Routing 3 register: Bit(s) Description (Table 01028) 7-4 routing for PIRQD# (see #01026) 3-0 routing for PIRQC# (see #01026) SeeAlso: #01025,#01027,#01029 Bitfields for AMD-645 PnP IRQ Routing 4 register: Bit(s) Description (Table 01029) 7-4 reserved 3-0 routing for MIRQ2# (see #01026) SeeAlso: #01025,#01027,#01028 Bitfields for AMD-645 MIRQ Pin Configuration register: Bit(s) Description (Table 01030) 7-3 reserved (0) 2 select MASTER# instead of MIRQ2 1 select KEYLOCK instead of MIRQ1 0 select APICCS# instead of MIRQ0 SeeAlso: #01011,#01029 Bitfields for AMD-645 XD Power-Up Strap Options register: Bit(s) Description (Table 01031) 7-4 Keyboard RP16-RP13 3 reserved (0) 2 enable internal RTC 1 enable internal PS/2 mouse 0 enable internal keyboard controller Note: the default value of this register is latched from external pins at power-up SeeAlso: #01011 Bitfields for AMD-645 Internal RTC Test Mode register: Bit(s) Description (Table 01032) 7-2 reserved (0) 1 enable access to internal RTC's RAM when RTC is disabled (see PORT 0074h"AMD-645") 0 reserved (0) SeeAlso: #01011 Bitfields for AMD-645 Distributed DMA Base/Enable register: Bit(s) Description (Table 01033) 15-4 base address bits 15-4 for Channel N 3 enable DMA channel 2-0 reserved (0) SeeAlso: #01011 Format of AMD-645 Peripheral Bus Controller, function 1 (IDE Control) data: Offset Size Description (Table 01034) 00h 64 BYTEs header (see #00878) (vendor ID 1106h [VIA Technologies], device ID 0571h) 09h BYTE programming interface bit 7: Master IDE capability bits 6-4: reserved (0) bit 3: secondary channel supports operating mode selection bit 2: use native PCI mode, not compatibility mode for sec. ch. bit 1: primary channel supports operating mode selection bit 0: use native PCI mode, not compatibility mode for pri. ch. 10h DWORD primary data/command base address 14h DWORD primary control/status base address 18h DWORD secondary data/command base address 1Ch DWORD secondary control/status base address 20h DWORD bus master control base address (default 0000CC01h) 40h BYTE chip enable (see #01035) 41h BYTE IDE configuration (see #01036) 42h BYTE reserved ("do not program") 43h BYTE FIFO configuration (see #01037) 44h BYTE miscellaneous control 1 (see #01038) 45h BYTE miscellaneous control 2 (see #01039) 46h BYTE miscellaneous control 3 (see #01040) 47h BYTE unused??? 48h DWORD drive timing control (see #01041) 4Ch BYTE address setup time (see #01042) 4Dh BYTE reserved ("do not program") 4Eh BYTE secondary non-01F0h port access timing (see #01043) 4Fh BYTE primary non-01F0h port access timing (see #01043) 50h BYTE UltraDMA/33 extended timing control, Sec. Drive 1 (see #01044) 51h BYTE UltraDMA/33 extended timing control, Sec. Drive 0 (see #01044) 52h BYTE UltraDMA/33 extended timing control, Pri. Drive 1 (see #01044) 53h BYTE UltraDMA/33 extended timing control, Pri. Drive 0 (see #01044) 54h 4 BYTEs reserved 58h DWORD "reserved" (appears to be an additional set of drive timing controls) 5Ch 4 BYTEs ??? 60h WORD primary sector size (see #01045) 62h 6 BYTEs reserved 68h WORD secondary sector size (see #01045) 6Ah 150 BYTEs reserved Note: the AMD-645 IDE controller is compatible with the SFF 8038i v1.0 spec SeeAlso: #00817,#01011,#01046 Bitfields for AMD-645 IDE Chip Enable register: Bit(s) Description (Table 01035) 7-2 reserved (00001) 1 enable primary IDE channel 0 enable secondary IDE channel SeeAlso: #01034,#01036 Bitfields for AMD-645 IDE Configuration register : Bit(s) Description (Table 01036) 7 enable primary IDE read-prefetch buffer 6 enable primary IDE post write buffer 5 enable secondary IDE read-prefetch buffer 4 enable secondary IDE post write buffer 3-0 reserved (0110) SeeAlso: #01034,#01035,3813 Bitfields for AMD-645 IDE FIFO Configuration register: Bit(s) Description (Table 01037) 7 reserved (0) 6-5 FIFO configuration 00 primary channel = 16, secondary channel = 0 01/10 primary channel = 8, secondary channel = 8 11 primary channel = 0, secondary channel = 16 4 reserved (1) 3-2 primary channel FIFO threshold 00 = completely full 01 = 3/4 full 10 = 1/2 full 11 = 1/4 full 1-0 secondary channel FIFO threshold (same settings as bits 3-2) SeeAlso: #01034,#01036 Bitfields for AMD-645 IDE Miscellaneous Control 1 register: Bit(s) Description (Table 01038) 7 reserved (0) 6 number of wait states on Master Read Cycle IRDY# 5 number of wait states on Master Write Cycle IRDY# 4 enable 1/2 clock advance on FIFO output 3 enable bus-master IDE status register read retry 2-0 reserved (0) SeeAlso: #01034,#01039,#01040 Bitfields for AMD-645 IDE Miscellaneous Control 2 register: Bit(s) Description (Table 01039) 7 reserved (0) 6 swap interrupts between the two IDE channels 5-0 reserved (0) SeeAlso: #01034,#01038,#01040 Bitfields for AMD-645 IDE Miscellaneous Control 3 register: Bit(s) Description (Table 01040) 7 enable FIFO flush for read DMA on primary channel interrupt 6 enable FIFO flush for read DMA on secondary channel interrupt 5 enable FIFO flush for each sector on primary channel 4 enable FIFO flush for each sector on secondary channel 3-2 reserved 1-0 maximum DRDY# pulse width 00 unlimited 01 64 PCI clocks 10 128 PCI clocks 11 192 PCI clocks SeeAlso: #01034,#01038,#01039 Bitfields for AMD-645 IDE Drive Timing Control register: Bit(s) Description (Table 01041) 31-28 primary drive 0 active DIOR#/DIOW# pulse width 27-24 primary drive 0 DIOR#/DIOW# recovery time (PCI clocks, less 1) 23-20 primary drive 1 active pulse width (PCI clocks, less 1) 19-16 primary drive 1 recovery time 15-12 secondary drive 0 active pulse width 11-8 secondary drive 0 recovery time 7-4 secondary drive 1 active pulse width 3-0 secondary drive 1 recover time (PCI clocks, less 1) SeeAlso: #01034,#01042 Bitfields for AMD-645 IDE Address Setup Time register: Bit(s) Description (Table 01042) 7-6 primary drive 0 address setup time 00 = 1T 01 = 2T 10 = 3T 11 = 4T 5-4 primary drive 1 address setup time (same values as above) 3-2 secondary drive 0 address setup time 1-0 secondary drive 1 address setup time SeeAlso: #01034,#01041 Bitfields for AMD-645 Non-01F0h Port Access Timing register: Bit(s) Description (Table 01043) 7-4 width of DIOR#/DIOW# active pulse in PCI clocks (less 1) 3-0 DIOR#/DIOW# recovery time in PCI clocks (less 1) SeeAlso: #01011 Bitfields for AMD-645 UltraDMA/33 Extended Timing Control register: Bit(s) Description (Table 01044) 7 method for enabling UltraDMA mode on drive 0 using "Set Feature" command 1 using bit 6 of this register 6 enable UltraDMA mode for drive 5 UltraDMA transfer mode 0 UltraDMA DMA mode 1 UltraDMA PIO mode 4-2 reserved (0) 1-0 drive cycle time 00 = 2T ... 11 = 5T SeeAlso: #01011 Bitfields for AMD-645 Sector Size register: Bit(s) Description (Table 01045) 15-12 reserved 11-0 sector size in bytes (default 200h) SeeAlso: #01011 Format of AMD-645 Peripheral Bus Controller, function 2 (USB Controller) data: Offset Size Description (Table 01046) 00h 64 BYTEs header (see #00878) (vendor ID 1106h, device ID 3038h) 20h DWORD base address of USB I/O ports (see PORT xxxxh"AMD-645 - USB" 40h BYTE miscellaneous control 1 (see #01047) 41h BYTE miscellaneous control 2 (see #01048) 42h 2 BYTEs reserved 44h 3 BYTEs reserved ("do not program") 47h BYTE reserved 48h 24 BYTEs reserved 60h BYTE USB release number (read-only, 10h) 61h 95 BYTEs reserved C0h WORD USB legacy support (read-only, 2000h) C2h 62 BYTEs reserved SeeAlso: #00817,#00983,#01011,#01034,#01049 Bitfields for AMD-645 USB Miscellaneous Control 1 register: Bit(s) Description (Table 01047) 7 PCI memory commands 0 support memory-read-line, memory-read-multiple, and memory-write-and-invalidate 1 memory read and memory write commands only 6 do not disable port on EOF babble 5 eanble PCI parity checking and PERR# generation 4 reserved (0) 3 USB data length 0 allow TD length up to 1280 bytes 1 limit to 1023 2 enable USB power management 1 DMA limited to 8-DW burst instead of 16-DW 0 insert one PCI wait state SeeAlso: #01046,#01048 Bitfields for AMD-645 USB Miscellaneous Control 2 register: Bit(s) Description (Table 01048) 7-3 reserved (0) 2 only trap port 60h/64h bits when trap-enable bits are set 1 do not pass A20GATE command sequence (from UHCI) through I/O port 64h 0 reserved (0) SeeAlso: #01046,#01047,PORT 0064h Format of AMD-645 Peripheral Bus Controller, function 3 (Power Mgmt) data: Offset Size Description (Table 01049) 00h 64 BYTEs header (see #00878) (vendor ID 1106h, device ID 3040h) 20h DWORD base address for I/O ports (see PORT xxxxh"AMD-645") 40h BYTE pin configuration (see #01050) 41h BYTE general configuration (see #01051) 42h BYTE SCI interrupt configuration (see #01052) 43h BYTE reserved 44h WORD primary interrupt channel bit 2 is reserved; setting any other bit N makes IRQN the primary interrupt channel 46h WORD secondary interrupt channel bit 2 is reserved; setting any other bit N makes IRQN the secondary interrupt channel 48h 8 BYTEs unused??? 50h DWORD GP timer control (see #01053) 54h 13 BYTEs reserved 61h BYTE programming interface read value (value to be returned by configuration register 09h) (write-only) 62h BYTE subclass read value (value to be returned by configuration register 0Ah) (write-only) 63h BYTE base class read value (value to be returned by configuration register 0Bh) (write-only) 64h 156 BYTEs reserved SeeAlso: #00817,#00983,#01011,#01034,#01046,#01049 Bitfields for AMD-645 PM Pin Configuration register: Bit(s) Description (Table 01050) 7 GPIO4 configuration (0 = Pin136 is GPO_WE, 1 = Pin136 is GPIO4) 6 GPIO3 configuration (0 = Pin92 is GPI_RE#, 1 = Pin92 is GPIO3) 5-0 reserved (0) SeeAlso: #01049,#01051 Bitfields for AMD-645 PM General Configuration register: Bit(s) Description (Table 01051) 7 enable debounce of PWRBTN# input 6 enable ACPI timer reset 5-4 reserved ("do not program") 3 select ACPI timer size (0 = 24 bits, 1 = 32 bits) 2 enable PCI Frame Activation as Resume Event im power state C2 1 clock-throttling cycle time 0 = 32 usec clock, 512 usec cycle time (default) 1 = 1 msec clock 16 msec cycle time 0 reserved ("do not program") SeeAlso: #01049,#01050,MEM xxxxh:xxx0h"ACPI" Bitfields for AMD-645 PM SCI Interrupt Configuration register: Bit(s) Description (Table 01052) 7-4 reserved (0) 3-0 interrupt assignment 0000 disabled else IRQ number (except IRQ2 is reserved) SeeAlso: #01049 Bitfields for AMD-645 PM GP Timer Control register: Bit(s) Description (Table 01053) 31-30 power-conservation mode timer 00 = 1/16 sec 01 = 1/8 sec 10 = 1 sec 11 = 1 minute 29 (read) set when system is in power-conservation mode 28 enable power-conservation mode 27-26 secondary event timer 00 = 2 msec 01 = 64 msec 10 = 1/2 sec 11 = 0.25 msec after EOI 25 secondary event occurred, secondary event timer is counting down 24 enable secondary event timer 23-16 GP1 Timer count (see bits 5-4) 15-8 GP0 Timer count (see bits 1-0) 7 start GP1 timer 6 automatically reload GP1 timer after counting down to 0 5-4 time base for GP1 timer 00 disabled 01 = 32 microseconds 10 = 1 second 11 = 1 minute 3 start GP0 timer 2 automatically reload GP0 timer after counting down to 0 1-0 time base for GP0 timer 00 disabled 01 = 1/16 second 10 = 1 second 11 = 1 minute SeeAlso: #01049 --------X-1AB10ASF8086----------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION DWORD (Intel devices) AX = B10Ah subfn 8086h BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) (see #00878) Return: CF clear if successful ECX = dword read CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Ah,AX=B10Ah/SF=1106h,AX=B10Dh Format of PCI Configuration data for Intel 82375 EISA Bridge: Offset Size Description (Table 01054) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 0482h) (revision numbers: 03h = 82375EB, 04h = 82375SB) 40h BYTE PCI Control !!!intel\29047704.pdf pg. 32 41h BYTE PCI Arbiter Control 42h BYTE PCI Arbiter Priority Control 43h BYTE PCI Arbiter Priority Control Extension 44h BYTE MEMCS# Control 45h BYTE MEMCS# Bottom of Hole 46h BYTE MEMCS# Top of Hole 47h BYTE MEMCS# Top of Memory 48h WORD EISA Address Decode Control 1 4Ah 2 BYTEs reserved 4Ch BYTE ISA I/O Recovery Time Control 4Dh 7 BYTEs reserved 54h BYTE MEMCS# Attribute Register #1 55h BYTE MEMCS# Attribute Register #2 56h BYTE MEMCS# Attribute Register #3 57h BYTE reserved 58h BYTE PCI Decode Control 59h BYTE reserved 5Ah BYTE EISA Address Decode Control 2 5Bh BYTE reserved 5Ch BYTE EISA-to-PCI Memory Region Attributes 5Dh 3 BYTEs reserved 60h 4 DWORDs EISA-to-PCI Memory Region Address registers 1-4 70h 4 DWORDs EISA-to-PCI I/O Region Address registers 1-4 80h WORD BIOS Timer base address 82h 2 BYTEs reserved 84h BYTE EISA Latency Timer Control Register 85h 3 BYTEs reserved 88h DWORD PCEB Test Control Register ("DO NOT WRITE") 8Ch 116 BYTEs reserved SeeAlso: #00878,#01055 Format of PCI Configuration data for Intel 82434LX/NX Cache/DRAM Controller: Offset Size Description (Table 01055) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 04A3h) (revision numbers: 01h/03h are 82434LX, 1xh are 82434NX) (command register only supports bits 8,6,2,1,0) 40h 16 BYTEs unused (hard-wired to 00h) 44h BYTE ??? (AMI BIOS writes 00h) 45h BYTE ??? (AMI BIOS writes 00h) 50h BYTE Host CPU Selection (see #01056) 51h BYTE deturbo frequency control register when deturbo mode is selected (see PORT 0CF9h), the chipset places a hold on the memory bus for a fraction of the time inversely proportional to the value in this register by comparing it against a free-running 8-bit counter counting at 1/8 the CPU clock speed (i.e. C0h = 1/4, 80h = 1/2, 40h = 3/4, 20h = 7/8, etc.) (only bits 7-6 writable, bits 5-0 hardwired to 0) 52h BYTE Secondary Cache Control (see #01057) 53h BYTE Host Read/Write Buffer Control (see #01058) 54h BYTE PCI Read/Write Buffer Control bits 7-3: reserved bit 2: LBXs connected to TRDY# bit 1: enable PCI burst writes bit 0: enable PCI-to-memory posted writes 55h 2 BYTEs reserved 57h BYTE DRAM Control (see #01059) 58h BYTE DRAM Timing (see also #01117) bits 7-2: reserved bit 1: (NX only) RAS# Wait State bit 0: CAS# Wait State (one extra wait state before CAS# within burst cycle) 59h 7 BYTEs Programmable Attribute Map registers 0-6 (see #01118) 60h 8 BYTEs DRAM Row Boundary registers 0-7 (chip revisions numbered < 10h [LX] only support six rows of DRAM) each register N indicates the amount of cumulative amount of memory in SIMM banks 0-N, in multiples of 1M; offset 67h (65h on 82434LX's) contains the total amount of memory installed in the system; on the 82434NX, two additional bits are concatenated to each row boundary from the DRAM Row Boundary Extension registers to allow up to 1024M of memory to be specified (though only 512M are supported) 68h 4 BYTEs (NX only) DRAM Row Boundary Extension registers each nybble is concatenated with the corresponding DRAM Row Boundary register to form a 12-bit boundary value (of which only the low 10 bits are actually used) 6Ch DWORD reserved (hardwired to 00000000h) 70h BYTE Error Command (see #01060) 71h BYTE Error Status (see #01061) 72h BYTE System Management RAM control (see also #01123) bits 7-6: reserved bit 5: map SMM-mode memory (64K) into address space when bits 2-0 = 010 (default 3000h:0000h; can be changed by first SMM event) bit 4: close SMRAM space (allows data accesses to be forwarded to PCI bus while execuding SMM code) bit 3: lock SMRAM space (can't be cleared by software) bits 2-0: SMRAM memory address (010 = Axxxxh, 011 = Bxxxxh) 73h 5 BYTEs reserved 78h WORD Memory Space Gap bit 15: enable ISA hole bits 14-12: size of ISA hole in MB (less 1); must be power of 2 bits 11-8: reserved bits 7-4: bottom of ISA memory hole in MB (must be multiple of gap size) bits 3-0: reserved 7Ah 2 BYTEs reserved 7Ch DWORD Frame Buffer Range (see #01062) 80h 128 BYTEs reserved Note: the 82434NX is part of the Intel Neptune chipset SeeAlso: #01064,#01083 Bitfields for Intel 82434LX/NX Host CPU Selection: Bit(s) Description (Table 01056) 7-5 host CPU type LX: hardwired to 100 (Pentium) NX: "reserved" (101 on RB's system) 4-3 reserved 2 enable L1 cache 1-0 Host Operating Frequency (set according to external bus speed) 00: reserved 01: 50 MHz 10: 60 MHz 11: 66 MHz (LX: bit 1 reserved, only 60/66 MHz supported) SeeAlso: #01055,#01057 Bitfields for Intel 82434LX/NX Secondary Cache Control: Bit(s) Description (Table 01057) 7-6 secondary cache size 00 none 01 reserved 10 256K 11 512K 5 SRAM type 0 standard SRAMs 1 burst SRAMs 4 secondary cache allocation 0 cache only CPU reads of memory with CACHE# asserted 1 cache all CPU reads of cacheable memory 3 Cache Byte Control 0 use single write enable and per-byte select lines 1 use per-byte write enables on the cache 2 (NX only) SRAM connectivity 0 disable CCS[1:0]# / CCS1# functionality 1 enable CCS[1:0]# functionality to de-select async SRAMs, placing them in a low-power standby mode 1 enable CCS1# functionality for burst SRAMs, indicating the lack of an external address latch 1 (LX only) Secondary Cache Write Policy 0 write-through 1 write-back (NX is always in write-back mode) 0 Secondary Cache Enable SeeAlso: #01055,#01058 Bitfields for Intel 82434LX/NX Host Read/Write Buffer Control: Bit(s) Description (Table 01058) 7-4 reserved 3 enable read-around-write 2 reserved 1 enable CPU-to-PCI posted writes 0 (LX only) enable CPU-to-memory posted writes (NX always posts memory writes) SeeAlso: #01055,#01057 Bitfields for Intel 82434LX/NX DRAM Control: Bit(s) Description (Table 01059) 7-6 (NX only) DRAM burst timing 00 X-4-4-4 read/write (default) 01 X-4-4-4 read, X-3-3-3 write 10 reserved 11 X-3-3-3 read/write 5 parity error mask 4 0-Active RAS# mode 3 SMRAM enable (must be set to enable reg 72h) 2 Burst-of-Four Refresh 1 Refresh Type =0 RAS#-only =1 CAS#-before-RAS# 0 DRAM Refresh Enable SeeAlso: #01055 Bitfields for Intel 82434LX/NX Error Command register: Bit(s) Description (Table 01060) 7 assert SERR# on receiving target abort 6 assert SERR# on PCI data-write parity error 5 (NX only) assert SERR# on PCI data-read parity error 4 (NX only) assert SERR# on PCI address parity error 3 (NX only) assert PERR# on data parity error 2 enable L2 cache parity 1 enable SERR# on DRAM/L2 cache data parity error 0 assert PEN# on data reads; allow CPU to signal parity error via PCHK# Notes: PCI command register bit 6 is master enable for bit 3; PCI cmd bits 6 and 8 are the master enable for bits 7-4 and 1 bits 1-0 = 10 is not permitted SeeAlso: #01055,#01061 Bitfields for Intel 82434LX/NX Error Status register: Bit(s) Description (Table 01061) 7 reserved 6 PCI-write detected parity error 5 (NX only) PCI-read detected parity error 4 (NX only) PCI address parity error detected 3 main memory data parity error 2 L2 cache data parity error 1 reserved 0 Shutdown cycle detected Note: clear status bits by writing a 'one' bit to each bit to be cleared SeeAlso: #01060,#01055 Bitfields for Intel 82434LX/NX Frame Buffer Range register: Bit(s) Description (Table 01062) 31-20 buffer offset (in 1MB increments; must be multiple of buffer set set by bits 3-0) 19-14 reserved 13 enable byte merging 12 128K VGA-range Attribute Enable when set, bits 13,9,7 also apply to VGA memory range (Axxxx-Bxxxx) 11-10 reserved 9 no lock requests 8 reserved 7 enable transparent bufer writes 6-4 reserved 3-0 buffer size in MB (less 1); must be power of 2 Note: if bits 31-20=0, the frame buffer feature is disabled SeeAlso: #01055 Format of PCI Configuration data for Intel 82424 Cache Controller: Offset Size Description (Table 01063) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 0483h) 40h BYTE bus number 41h BYTE subordinate bus number 42h BYTE disconnect timer 50h BYTE host CPU selection 51h BYTE deturbo frequency control when deturbo mode is selected (see PORT 0CF9h), the chipset places a hold on the memory bus for a fraction of the time inversely proportional to the value in this register (i.e. C0h = 1/4, 80h = 1/2, 40h = 3/4, 20h = 7/8, etc.) 52h BYTE secondary cache control 53h BYTE write buffer control 54h BYTE PCI features control 55h BYTE DRAM Operation Mode Select 56h BYTE System Exception Handling 57h BYTE SMM Control Register 58h BYTE reserved 59h 7 BYTEs Programmable Attribute Map registers 0-6 (see also #01118) 60h 4 BYTEs DRAM Row Boundary registers 0-3 each register N indicates amount of memory in rows 0-N (each row is 64 bits wide) boundary register 3 (offset 63h) contains the total system memory, which may not exceed 128M 64h 4 BYTEs unused??? 68h WORD Memory Hole-0 6Ah WORD Memory Hole-1 Note: the above field names are those given by EduWARE's PCI Configuration Manager v1.2 SeeAlso: #01055,#01083,#01108 Format of PCI Configuration data for Intel 82378 and 82379 ISA Bridges: Offset Size Description (Table 01064) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 0484h) (revision ID: bits 7-4: reserved bits 3-0: revision 0011 82378ZB A0-step 1000 82379AB A0-step) 40h BYTE PCI Control (see #01065) 41h BYTE PCI Arbiter Control (see #01066) 42h BYTE PCI Arbiter Priority Control (see #01067) 43h BYTE (82378ZB) PCI Arbiter Priority Control Extension Register bit 0: bank 3 fixed priority mode select (see also #01067) =0 REQ2# has higher priority =1 REQ3# has higher priority 44h BYTE MEMCS# Control (see #01068) 45h BYTE MEMCS# Bottom of Hole (address bits 23-16) 46h BYTE MEMCS# Top of Hole (address bits 23-16) 47h BYTE MEMCS# Top of Memory (address bits 28-21 == size in 2M increments, less 1) 48h BYTE ISA Address Decoder Control (see #01069) 49h BYTE ISA Address Decoder ROM Block Enable (see #01070) 4Ah BYTE ISA Address Decoder Bottom of Hole (address bits 23-16) 4Bh BYTE ISA Address Decoder Top of Hole (address bits 23-16) 4Ch BYTE ISA Controller Recovery Time (see #01087) 4Dh BYTE ISA Clock Divisor (see #01071) 4Eh BYTE Utility Bus Chip Select Enable A (see #01072) 4Fh BYTE Utility Bus Chip Select Enable B (see #01073) 50h 4 BYTEs reserved 54h BYTE MEMCS# Attribute Register #1 (see #01074) attributes for 16K blocks from C0000h-CFFFFh 55h BYTE MEMCS# Attribute Register #2 (see #01074) attributes for 16K blocks from D0000h-DFFFFh 56h BYTE MEMCS# Attribute Register #3 (see #01074) attributes for 16K blocks from E0000h-EFFFFh 57h BYTE (82378) Scatter/Gather Relocation Base Adress (see #01075) (82379AB) reserved 58h 8 BYTEs reserved 60h BYTE (82378ZB) IRQ0# Route Control (see #01076) 61h BYTE (82378ZB) IRQ1# Route Control (see #01076) 62h BYTE (82378ZB) IRQ2# Route Control (see #01076) 63h BYTE (82378ZB) IRQ3# Route Control (see #01076) 64h 12 BYTEs reserved 70h BYTE (82378) reserved (82379AB, write-only) PIC/APIC Configuration Control (see #01077) 71h BYTE (82378) reserved (82379AB, write-only) APIC Base Address Relocation (see #01078,MEM FEC00000h) 72h 14 BYTEs reserved 80h WORD BIOS timer base address (see PORT 0078h) bits 15-2 are bits 15-2 of BIOS timer port address bit 1: reserved (0) bit 0: timer enabled (if disabled, other bits ignored) 82h 30 BYTEs unused??? A0h BYTE SMI Control (see #01079) A1h BYTE reserved A2h WORD SMI Enable (see #01080) A4h DWORD System Event Enable (SEE) (see #01081) A8h BYTE Fast-Off Timer (in minutes) A9h BYTE reserved AAh WORD active SMI Requests (see #01082) ACh BYTE (82378ZB) Clock Throttle STPCLK# Low Timer duration of STPCLK# low period in 32 microsecond units ADh BYTE reserved AEh BYTE (82378ZB) Clock Throttle STPCLK# High Timer duration of STPCLK# high period in 32 microsecond units AFh 81 BYTEs reserved SeeAlso: #01055,#01167,PORT 040Ah"82378ZB" Bitfields for Intel 82378/82379 PCI Control: Bit(s) Description (Table 01065) 7 reserved (0) 6 DMA Reserved Page Register Aliasing Control =0 alias PORT 80h-8Fh to PORT 90h-9Fh 5 Interrupt Acknowledge Enable =0 ignore INTA cycles on the PCI bus, but still allow 8259 register access and poll-mode functions 4-3 Subtractive Decoding Sample Point 00 slow sample point 01 typical 10 fast sample point 11 reserved 2 PCI Posted Write Buffer Enable 1 ISA Master Line Buffer Configuration =0 single-transaction mode =1 eight-byte mode for ISA bus master transfers 0 DMA Line Buffer Configuration =0 single-transaction mode =1 eight-byte mode SeeAlso: #01064,#01066 Bitfields for Intel 82378/82379 PCI Arbiter Control: Bit(s) Description (Table 01066) 7-5 reserveed (0) 4-3 Master Retry Timer 00 disabled (retries never masked) 01 retries unmasked after 16 PCICLKs 10 retries unmasked after 32 PCICLKs 11 retries unmasked after 64 PCICLKs 2 Bus Park =1 park CPUREQ# on PCI bus when 82378 detects PCI bus idle 1 Bus Lock =0 resource lock =1 Bus lock 0 Guaranteed Access Time =1 ISA bus masters are guaranteed 2.5 microsecond CHRDY time-out SeeAlso: #01064,#01065 Bitfields for Intel 82378/82379 PCI Arbiter Priority Control: Bit(s) Description (Table 01067) 7 bank 3 rotate control 6 bank 2 rotate control 5 bank 1 rotate control 4 bank 0 rotate control 3 bank 2 fixed priority mode select B 2 bank 2 fixed priority mode select A 1 bank 1 fixed priority mode select 0 bank 0 fixed priority mode select Note: if both 'rotate' and 'fixed' bits are set for a given bank, that bank will be in rotating-priority mode SeeAlso: #01064,#01066 Bitfields for Intel 82378/82379 MEMCS# Control Register: Bit(s) Description (Table 01068) 7-5 reserved (0) 4 MEMCS# Master Enable 3 write enable for 0F0000h-0FFFFFh 2 read enable for 0F0000h-0FFFFFh 1 write enable for 080000h-09FFFFh 0 read enable for 080000h-09FFFFh SeeAlso: #01064 Bitfields for Intel 82378/82379 ISA Address Decoder Control Register: Bit(s) Description (Table 01069) 7-4 ISA memory cycle forwarding to PCI 0000-1111 = 1M-16M top of ISA memory; any accesses above programmed limit are forwarded to PCI bus 3-0 ISA/DMA memory cycle to PCI bus enables bit 3: 896K-960K (E000h-EFFFh) bit 2: 640K-768K (A000h-BFFFh) bit 1: 512K-640K (8000h-9FFFh) bit 0: 0K-512K (0000h-7FFFh) SeeAlso: #01064,#01070 Bitfields for Intel 82378/82379 ISA Address Decoder ROM Block Enable: Bit(s) Description (Table 01070) 7 enable 880K-896K (EC00h-EFFFh) 6 enable 864K-880K (E800h-EBFFh) 5 enable 848K-864K (E400h-E7FFh) 4 enable 832K-848K (E000h-E3FFh) 3 enable 816K-832K (DC00h-DFFFh) 2 enabel 800K-816K (D800h-DBFFh) 1 enable 784K-800K (D400h-D7FFh) 0 enable 768K-784K (D000h-D3FFh) Note: ISA accesses within any enabled ranges are forwarded to the PCI bus SeeAlso: #01064,#01069 Bitfields for Intel 82378/82379 ISA Clock Divisor Register: Bit(s) Description (Table 01071) 7 reserved (0) 6 enable positive decode of upper 64K BIOS at 000F0000h-000FFFFFh, FFEF0000h-FFEFFFFFh, and FFFF0000h-FFFFFFFFh 5 coprocessor error enable =1 FERR# is driven onto IRQ13 4 IRQ12/Mouse Function Enable =0 standard IRQ12 =1 mouse 3 RSTDRV enable =1 assert RSTDRV until this bit cleared (for use in changing ISA bus speed) 2-0 PCICLK-to-ISA SYSCLK divisor 000 4 001 3 other reserved SeeAlso: #01064,#01069 Bitfields for Intel 82378/82379 Utility Bus Chip Select A Register: Bit(s) Description (Table 01072) 7 extended BIOS enable (decode accesses to FFF80000h-FFFDFFFFh) 6 lower BIOS enable (decode accesses to E0000h-EFFFFh, FFEE0000h-FFEEFFFFh, and FFFE0000h-FFFEFFFFh) 5 (82378ZB) floppy disk primary/secondary address select =1 use secondary address range 4 (82378ZB) IDE Decode enable 3,2 floppy disk address locations enable 1 keyboard controller address location enable enables I/O addresses 60h,62h,64h,66h (82378ZB) or 60h/64h (82379AB) 0 RTC address location enabled =1 enable decode of I/O ports 70h-77h SeeAlso: #01064,#01089,#01073 Bitfields for Intel 82378ZB/82379 Utility Bus Chip Select B Register: Bit(s) Description (Table 01073) 7 configuration RAM decode enable =1 permit write accesses to I/O port 0C00h and r/w to ports 08xxh 6 enable PORT 0092h 5-4 parallel port enable 00 LPT1 (ports 03BCh-03BFh) 01 LPT2 (ports 0378h-037Fh) 10 LPT3 (ports 0278h-027Fh) 11 disabled 3-2 serial port B enable 00 COM1 (03F8h-03FFh) 01 COM2 (02F8h-02FFh) 10 reserved 11 port B disabled 1-0 serial port A enable 00 COM1 (03F8h-03FFh) 01 COM2 (02F8h-02FFh) 10 reserved 11 port A disabled Note: if both serial ports are set to the same address, port B is disabled SeeAlso: #01064,#01072,PORT 0092h Bitfields for Intel 82378/82379 MEMCS# Attribute Register 1/2/3: Bit(s) Description (Table 01074) 7 write-enable xC000h-xFFFFh expansion ROM 6 read-enable xC000h-xFFFFh expansion ROM 5 write-enable x8000h-xBFFFh expansion ROM 4 read-enable x8000h-xBFFFh expansion ROM 3 write-enable x4000h-x7FFFh expansion ROM 2 read-enable x4000h-x7FFFh expansion ROM 1 write-enable x0000h-x3FFFh expansion ROM 0 read-enable x0000h-x3FFFh expansion ROM Note: x = C/D/E depending on the attribute register SeeAlso: #01064 Bitfields for Intel 82378ZB Scatter Gather Relocation Base Address: Bit(s) Description (Table 01075) 7-0 bits 15-8 of base address for scatter/gather I/O ports (default 04h; low 8 bits of address are always 10h-3Fh) SeeAlso: #01064,#01074,#01076,PORT 040Ah"82378ZB",#P0039 Bitfields for Intel 82371/82378/82379 PCI IRQ Route Control Register: Bit(s) Description (Table 01076) 7 disable IRQ routing 6-4 reserved (0) 3-0 ISA IRQ number to which to route the PCI IRQ Note: IRQs 0-2, 8, and 13 are reserved SeeAlso: #01064,#01167,#01100 Bitfields for Intel 82379AB PIC/APIC Configuration Control Register: Bit(s) Description (Table 01077) 7-2 reserved 1 SMI Routing Control =1 SMI via APIC =0 SMI via SMI# signal 0 INT Routing Control =1 INT disabled (requires that APIC be enabled) =0 INT enabled SeeAlso: #01064,#01078 Bitfields for Intel 82379AB/82371 APIC Base Address Relocation: Bit(s) Description (Table 01078) 7 reserved 6 (82379AB) reserved 6 (82371) A12 mask =1 ignore address bit 12 in APIC address 5-0 bits 15-10 of APIC memory address (ORed with FEC00000h to form base address) SeeAlso: #01064,#01167,#01077,MEM FEC00000h Bitfields for Intel 82378/82379 SMI Control Register: Bit(s) Description (Table 01079) 7 reserved 6 (82378) reserved (82379) require Stop Grant bus cycle before asserting STPCLK# 5-4 reserved 3 Fast-Off Timer freeze 2 STPCLK# scaling enable =1 enable Clock Throttle bytes in PCI configuration space 1 STPCLK# signal enable =1 assert STPCLK# on read from PORT 00B2h 0 SMI# Gate =1 enable SMI# on system management interrupt Notes: bit 1 is cleared either with an explicit write of 0 here, or by any write to PORT 00B2h bit 0 does not affect the recording of SMI events, so a pending SMI will cause an immediate SMI# when the bit is set SeeAlso: #01064,#01080,#01081,#01222,PORT 00B2h Bitfields for Intel 82371/82378/82379 SMI Enable Register: Bit(s) Description (Table 01080) 15-9 reserved 8 (82371SB only) Legacy USB SMI enable 7 APMC Write SMI enable =1 generate SMI on write to PORT 00B2h 6 EXTSMI# SMI enable 5 Fast-Off Timer SMI enable 4 IRQ12 (PS/2 mouse) SMI enable 3 IRQ8 (RTC alarm) SMI enable 2 IRQ4 (COM1/COM3) SMI enable 1 IRQ3 (COM2/COM4) SMI enable 0 IRQ1 (keyboard) SMI enable SeeAlso: #01064,#01079,#01081,#01167,PORT 00B2h Bitfields for Intel 82371/82378/82379 System Event Enable Register: Bit(s) Description (Table 01081) 31 Fast-Off SMI enable (system and break events) 30 (82379 only) Fast-Off Interrupt Enable (break events only) 30 (82371 only) INTR enable (break events only) 29 Fast-Off NMI enable (system and break events) 28 (82371SB only) Fast-Off APIC enable (break events only) 27 (82379 only) Fast-Off COM enable (system events only) 26 (82379 only) Fast-Off LPT enable (system events only) 25 (82379 only) Fast-Off Drive enable (system events only) 24 (82379 only) Fast-Off DMA enable (system events only) 23-16 reserved 15-3 Fast-Off IRQ (15-3) enable (system and break events) 2 reserved 1-0 Fast-Off IRQ (1-0) enable (system and break events) Note: any enabled system event restarts the Fast-Off Timer, thus preventing a Fast-Off powerdown; any enabled break event awakens the system from powerdown SeeAlso: #01064,#01079,#01080,#01082,#01167 Bitfields for Intel 82371/82378/82379 SMI Request Register: Bit(s) Description (Table 01082) 15-9 reserved 8 (82371SB only) Legacy USB SMI status 7 APM SMI Status (write to PORT 00B2h triggered SMI) 6 EXTSMI# SMI Status (EXTSMI# line triggered SMI) 5 Fast-Off Timer expired 4 IRQ12 triggered SMI 3 IRQ8 triggered SMI 2 IRQ4 triggered SMI 1 IRQ3 triggered SMI 0 IRQ1 triggered SMI Note: software must explicitly reset the appropriate bits SeeAlso: #01064,#01081,#01167 Format of PCI Configuration data for Intel 82425EX PSC: Offset Size Description (Table 01083) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 0486h) 40h BYTE PCI control register (see #01084) 41h 3 BYTEs ??? 44h BYTE host device control register (see #01085) 45h 3 BYTEs ??? 48h WORD PCI local-bus IDE control register (see #01086) 4Ah 2 BYTEs ??? 4Ch BYTE ISA I/O recovery timer register (see #01087) 4Dh BYTE part revision register (see #01088) 4Eh BYTE X-bus Chip Select A register (see #01089) 4Fh BYTE X-bus Chip Select B register??? (see also #01102) 50h BYTE host select register 51h BYTE deturbo frequency control register when deturbo mode is selected (see PORT 0CF9h), the chipset places a hold on the memory bus for a fraction of the time inversely proportional to the value in this register (i.e. C0h = 1/4, 80h = 1/2, 40h = 3/4, 20h = 7/8, etc.) 52h WORD secondary (L2) cache control register 54h 2 BYTEs ??? 56h WORD DRAM control register 58h BYTE ??? 59h 7 BYTEs Programmable Attribute Map (PAM) registers 0-6 (see also #01118) 60h 5 BYTEs DRAM row boundary registers 0-4 each register N indicates amount of memory in rows 0-N (each row is 64 bits wide); the fifth row of memory (if implemented) must contain either 8M or 16M, depending on system configuration boundary register 4 (offset 64h) contains the total system memory, which may not exceed 128M 65h BYTE ??? 66h BYTE PIRQ route control register 0 67h BYTE PIRQ route control register 1 68h BYTE DRAM memory hole register 69h BYTE top of memory 6Ah 6 BYTEs ??? 70h BYTE SMRAM control register 71h 47 BYTEs unused??? A0h BYTE SMI control register A1h BYTE ??? A2h WORD SMI enable register A4h DWORD system event enable A8h BYTE fast off timer register A9h BYTE ??? AAh WORD SMI request register ACh BYTE clock throttle STPCLK# low timer ADh BYTE unused??? AEh BYTE clock throttle STPCLK# high timer AFh BYTE ??? B0h 80 BYTEs unused??? SeeAlso: #00878,#01063,#01055,#01108,#01167 Bitfields for Intel 82425EX PCI control register: Bit(s) Description (Table 01084) 0 CPU-to-PCI byte merging 1 CPU-to-PCI bursting enable 2 PCI posted-write buffer enable 4-3 subtractive decode sampling point 00 slow 01 typical 10 fast 11 reserved 5 DRAM parity error enable 6 target abort error enable 7 reserved SeeAlso: #01083,#01085,#01086,#01087 Bitfields for Intel 82425EX host device control register: Bit(s) Description (Table 01085) 0 HRDY# maximum signal sampling point 0 slow timing 1 fast timing 1 HDEV# signal sampling point 0 slow timing 1 fast timing 2 host device present 7-3 reserved SeeAlso: #01083,#01084 Bitfields for Intel 82425EX local-bus IDE control register: Bit(s) Description (Table 01086) 1-0 primary/secondary PCI IDE enable 00 IDE disabled 01 primary (ports 01F0h-01F7h,03F6,03F7h) 10 secondary (ports 0170h-017Fh,0376h,0377h) 11 reserved 3-2 fast timing bank drive select 1 bit 2 = drive 0 enabled bit 3 = drive 1 enabled 5-4 IORDY sample point Enable Drive Select bit 4 = drive 0 enabled bit 5 = drive 1 enabled 7-6 reserved 9-8 IORDY sample point 00 6 clocks 01 5 clocks 10 4 clocks 11 3 clocks 12-10 recover time (000 = 8 PCI clocks, 001 = 7, ..., 101 = 3, 110/111 = 3) 15-13 reserved SeeAlso: #01083,#01084 Bitfields for Intel chipset ISA I/O recovery timer register: Bit(s) Description (Table 01087) 7 (82425EX/82371) DMA reserved page register aliasing disable =0 ports 0090h-009Fh alias ports 0080h-008Fh =1 ports 0090h-009Fh forwarded to ISA bus 6 8-bit I/O recovery enable 5-3 8-bit I/O recovery time 000 = 8 SYSCLKs 001-110 = 1-7 SYSCLKs 2 16-bit I/O recovery enable 1-0 16-bit I/O recovery time 00 = 4 SYSCLKs 01-11 = 1-3 SYSCLKs SeeAlso: #01064,#01083,#01084,#01167,#01170 Bitfields for Intel 82425EX part revision register: Bit(s) Description (Table 01088) 7-5 fabrication house identifier (read-only) 4 E0000h-EFFFFh ISA-to-main-memory forwarding enabled 3-0 revision ID (read-only) SeeAlso: #01083,#01089 Bitfields for Intel 82425EX/82371 X-bus Chip Select A register: Bit(s) Description (Table 01089) 7 extended BIOS enabled at FFF80000h-FFFDFFFFh 6 lower (E000h) BIOS enabled 5 trigger IRQ13 on FERR# 4 IRQ12 mouse function enabled 3 (82371AB only) alias accesses to PORTs 63h/65h/67h to 61h (else) reserved (0) 2 BIOS memory write protect 1 keyboard controller addresses (60h,62h,64h,66h) enabled 0 RTC addresses (70h-77h) enabled SeeAlso: #01083,#01167,#01088,#01102 Format of PCI Configuration Data for Intel 82380AB PCI-ISA Bridge: Offset Size Description (Table 01090) 00h 64 BYTEs header (see #00878) (vender ID 8086h, device ID 123Ch) 40h BYTE I/O Recovery Register (see #01091) 41h BYTE reserved 42h BYTE MISA Error Status (see #01092) 43h 189 BYTEs reserved SeeAlso: #00873,#01093 Bitfields for Intel 82380AB I/O Recovery Register: Bit(s) Description (Table 01091) 7 SYSCLK select 0 SYSCLK = PCICLK/4 1 SYSCLK = PCICLK/3 6 enable 8-bit I/O recovery 5-3 additional recovery time for 8-bit I/O cycles, in SYSCLKs 2 enable 16-bit I/O recovery 1-0 additional recovery time for 16-bit I/O cycles, in SYSCLKs SeeAlso: #01090 Bitfields for Intel 82380AB MISA error status: Bit(s) Description (Table 01092) 7-3 reserved 2 IOCHK# asserted 1 reserved 0 illegal byte lane combination for PCI I/O detected SeeAlso: #01090 Format of PCI Configuration data for Intel 82380FB PCI-PCI Bridge (MPCI2): Offset Size Description (Table 01093) 00h 64 BYTEs header type 1 [bridge] (see #00878) (vendor ID 8086h, device ID 124Bh) 40h BYTE Connector Control (see #01094) 41h BYTE Connector Event (see #01095) 42h 2 BYTEs reserved 44h WORD Serial Bus Interface/Burst Enable (see #01096) 46h BYTE MPCI2 Miscellaneous Status (see #01097) 47h 5 BYTEs reserved 4Ch WORD Special Message Encode encoded message portion of Special Cycle forwarded by MPCI2 4Eh 178 BYTEs reserved SeeAlso: #00873,#01090 Bitfields for Intel 82380FB Connector Control register: Bit(s) Description (Table 01094) 7-4 reserved 3 QEN2 output signal 2 QEN1 output signal 1-0 reserved SeeAlso: #01093 Bitfields for Intel 82380FB Connector Event register: Bit(s) Description (Table 01095) 7 reserved (1) 6 activate power-no suspend 5 (read-only) inverted state of MISAEN pin 4 (read-only) inverted state of DSTYP pin 3 undocking permit software should set this bit for at least 32 microseconds; when this bit is then cleared, the MPCI2 pulses the OPENACK signal for 256 us to tell external hardware to "eject" the notebook 2 reserved (1) 1 system is docked 0 open requested SeeAlso: #01093 Bitfields for Intel 82380FB Serial Interface/Burst Enable register: Bit(s) Description (Table 01096) 15-13 reserved 12 enable SERR# on discarding of posted write data 11 reserved 10 SDATA signal direction (0 = output, 1 = input) 9 enable write posting 8 enable read bursting 7 enable upstream blind prefetching 6 reserved 5 SDATA signal state (read when bit 10 set, write when bit 10 clear) 4 SDIN signal state 3 do not pulse P_SERR# when S_PERR# is asserted 2 cascade/frame determination delay (0 = 20 P_CLKs, 1 = 10 P_CLKs) 1 serial EEPROM chip select 0 serial EEPROM clock SeeAlso: #01093 Bitfields for Intel 82380FB MPCI2 Miscellaneous Status register: Bit(s) Description (Table 01097) 7-1 reserved 0 (write-clear) P_SERR# was asserted due to invalidation of posted write SeeAlso: #01093 Format of PCI Configuration Data for Intel 82439HX: Offset Size Description (Table 01098) 00h 64 BYTEs header (see #00878) (vender ID 8086h, device ID 1250h) (revision ID 00h = A0 stepping) 40h 16 BYTEs reserved 50h BYTE PCI Control (see #01110) 51h BYTE reserved 52h BYTE cache control (see #01112) 53h 3 BYTEs reserved 56h BYTE DRAM extended control (see #01115) 57h BYTE DRAM control (see #01116) 58h BYTE DRAM timing (see #01117) 59h 7 BYTEs Programmable Attribute Map registers 0-6 (see #01118) 60h 8 BYTEs DRAM Row Boundary registers 0-7 each register N indicates cumulative amount of memory in rows 0-N (each 64 bits wide), in 4M units 68h BYTE DRAM Row Type (see #01119) bits 0-7 indicate whether each row 0-7 contains EDO DRAM instead of page-mode DRAM 69h BYTE ??? 6Ah 8 BYTEs reserved 72h BYTE System Management RAM control (see #01123) 73h 29 BYTEs reserved 90h BYTE Error Command (see #01126) 91h BYTE Error Status (see #01127) (read-only) 92h BYTE Error Syndrome (read-only) latest non-zero ECC error syndrome 93h 109 BYTEs reserved SeeAlso: #01108,#01229 Format of PCI Configuration Data for Intel 82439TX "MTXC": Offset Size Description (Table 01099) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 7100h) (revision ID 00h = A0 stepping) 40h 15 BYTEs reserved 4Fh BYTE Arbitration Control register (see #01109) 50h BYTE PCI Control register (see #01110) 51h BYTE reserved 52h BYTE Cache Control register (see #01112) 53h BYTE Extended Cache Control register (see #01113) 54h WORD SDRAM Control Register (see #01114) 56h BYTE DRAM Extended Control register (see #01115) 57h BYTE DRAM Control register (see #01116) 58h BYTE DRAM Timing register (see #01117) 59h 7 BYTEs Programmable Attribute Map registers 0-6 (see #01118) 60h 6 BYTEs DRAM Row Boundary registers 0-5 each register N indicates cumulative amount of memory in rows 0-N (each 64 bits wide), in 4M units 66h BYTE reserved 67h BYTE DRAM Row Type High register (see #01213) 68h BYTE DRAM Row Type Low register (see #01119) 69h 7 BYTEs reserved 70h BYTE Multi-Transaction Timer register number of PCLKs guaranteed to the current agent before the 82439TX will grant the bus to another PCI agent on request 71h BYTE Extended System Management RAM Control register (see #01149) 72h BYTE System Management RAM Control register (see #01123) 73h 6 BYTEs reserved 79h BYTE Miscellaneous Control register (see #01128) 7Ah 134 BYTEs reserved Note: The Intel 82439TX chipset uses PCI configuration mechanism #1 SeeAlso: #00873,PORT 0CF8h Format of PCI Configuration Data for Intel 82371AB (PIIX4), ISA Bridge: Offset Size Description (Table 01100) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 7110h) 40h 12 BYTEs reserved 4Ch BYTE ISA I/O recovery timer (see #01101) 4Dh BYTE reserved 4Eh WORD X-Bus Chip Select (see #01089,#01102) 50h 16 BYTEs reserved 60h BYTE PIRQA route control (see #01076) 61h BYTE PIRQB route control (see #01076) 62h BYTE PIRQC route control (see #01076) 63h BYTE PIRQD route control (see #01076) !!!intel\29056201.pdf p.59 64h BYTE serial IRQ control 65h 4 BYTEs reserved??? 69h BYTE top of memory 6Ah WORD miscellaneous status 6Ch 10 BYTEs reserved??? 76h BYTE motherboard device DMA control 0 77h BYTE motherboard device DMA control 1 78h 9 BYTEs reserved??? 80h BYTE APIC base address relocation 81h BYTE reserved??? 82h BYTE deterministic latency control 83h 13 BYTEs reserved??? 90h WORD PCI DMA configuration 92h WORD distributed DMA (channels 0-3) slave base pointer 94h WORD distributed DMA (channels 5-7) slave base pointer 96h 26 BYTEs reserved??? B0h DWORD general configuration B4h 23 BYTEs reserved??? CBh BYTE real-time clock configuration CCh 52 BYTEs reserved SeeAlso: #00873,#01103,#01104,#01105 Bitfields for Intel PIIX4 ISA I/O recovery timer: Bit(s) Description (Table 01101) 7 disable aliasing PORTs 90h-9Fh into 80h-8Fh (except PORT 0092h) 6 enable 8-bit I/O recover timer in bits 5-3 5-3 additional 8-bit I/O recovery time (added to 3.5 SYSCLK minimum) 000 = 8 SYSCLKs, else N SYSCLKs 2 enable 16-bit I/O recovery timer in bits 1-0 1-0 additional 16-bit I/O recovery time (added to 3.5 SYSCLK minimum) 00 = 3 SYSCLKs 01 = 1 SYSCLK 10 = 2 SYSCLKs 11 = 4 SYSCLKs SeeAlso: #01100 Bitfields for Intel 82371 X-Bus Chip Select Enable (high byte): Bit(s) Description (Table 01102) 7-3 reserved 2 (82371AB) enable positive PCI decode for Micro Controller at PORTs 62h and 66h 1 (82371AB) enable one-megabyte extended BIOS (FFF00000h-FFF7FFFFh are forwarded to ISA bus, aliased to top of 16M region) 0 enable I/O APIC SeeAlso: #01089 Format of PCI Configuration Data for Intel 82371AB (PIIX4), IDE Controller: Offset Size Description (Table 01103) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 7111h) 20h DWORD I/O base address (for 16 contiguous PORTs) !!!intel\29056201.pdf p.89 40h WORD primary channel timing register 42h WORD secondary channel timing register 44h BYTE slave IDE timing 45h 3 BYTEs reserved??? 48h BYTE Ultra DMA/33 control 49h BYTE reserved??? 4Ah WORD Ultra DMA/33 timing 4Ch 180 BYTEs reserved SeeAlso: #00873,#01100,#01104,#01105 Format of PCI Configuration Data for Intel 82371AB (PIIX4), USB Controller: Offset Size Description (Table 01104) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 7112h) 20h DWORD I/O base address (for 32 contiguous PORTs) !!!intel\29056201.pdf p.102 40h 32 BYTEs reserved 60h BYTE USB specification release number 00h pre-release 1.0 10h release 1.0 61h 95 BYTEs reserved C0h WORD legacy support C2h 61 BYTEs reserved FFh BYTE miscellaneous support SeeAlso: #00873,#01100,#01103,#01105 Format of PCI Configuration Data for Intel 82371AB (PIIX4), Power Management: Offset Size Description (Table 01105) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 7113h) 40h DWORD base address of power-management I/O ports (same format as PCI base addresses; low bit hardwired to 1) 44h DWORD initial counts of device 0-11 idle timers 48h DWORD !!!intel\29056201.pdf p.117 4Ch DWORD general-purpose input control 50h 3 BYTEs "device resource D" 53h BYTE unused??? 54h DWORD device activity event selection A 58h DWORD device activity event selection B 5Ch DWORD "device resource A" 60h DWORD "device resource B" 64h DWORD "device resource C" 68h 3 BYTEs "device resource E" 6Bh 5 BYTEs unused??? 70h 3 BYTEs "device resource G" 73h BYTE unused??? 74h DWORD "device resource H" 78h DWORD "device resource I" 7Ch DWORD "device resource J" 80h BYTE miscellaneous power management 81h 15 BYTEs unused??? 90h DWORD base address for SMBus I/O ports (same format as PCI base addresses; low bit hardwired to 1) 94h ... D2h BYTE SMBus host configuration D3h BYTE SMBus slave command D4h BYTE SMBus slave shadow port 1 address D5h BYTE SMBus slave shadow port 2 address D6h BYTE SMBus revision D7h SeeAlso: #00873,#01100,#01103,#01104 Format of PCI Configuration Data for Intel 82437MX: Offset Size Description (Table 01106) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 1235h) 40h 16 BYTEs reserved 50h BYTE PCI Control (see #01111) 51h BYTE reserved 52h BYTE cache control (see #01112) 53h 4 BYTEs reserved 57h BYTE DRAM Control (see #01116) 58h BYTE DRAM timing (see #01117) 59h 7 BYTEs Programmable Attribute Map registers 0-6 (see #01118) 60h 4 BYTEs DRAM Row Boundary Registers 0-3 each register N indicates cumulative amount of memory in rows 0-N, in 4M units (each row is 64 bits wide) 64h 4 BYTEs reserved 68h BYTE DRAM Row Type (see #01121) 69h 9 BYTEs reserved 72h BYTE System Management RAM control (see #01123) 73h 141 BYTEs reserved SeeAlso: #01108,#01107 Format of PCI Configuration Data for Intel 82437FX: Offset Size Description (Table 01107) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 122Dh) (see #00873) 40h 16 BYTEs reserved 50h BYTE PCI Control (see #01111) 51h BYTE reserved 52h BYTE cache control (see #01112) 53h 4 BYTEs reserved 57h BYTE DRAM Control (see #01116) 58h BYTE DRAM timing (see #01117) 59h 7 BYTEs Programmable Attribute Map registers 0-6 (see #01118) 60h 5 BYTEs DRAM Row Boundary Registers 0-4 each register N indicates cumulative amount of memory in rows 0-N, in 4M units (each row is 64 bits wide) 65h 3 BYTEs reserved 68h BYTE DRAM Row Type (see #01121) 69h 9 BYTEs reserved 72h BYTE System Management RAM control (see #01123) 73h 141 BYTEs reserved SeeAlso: #01106,#01108 Format of PCI Configuration Data for Intel 82437VX: Offset Size Description (Table 01108) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 7030h) (revision ID 00h = A0 stepping) 40h 15 BYTEs reserved 4Fh BYTE arbitration control (see #01109) 50h BYTE PCI Control (see #01110) 51h BYTE reserved 52h BYTE cache control (see #01112) 53h BYTE cache control extensions (see #01113) 54h WORD SDRAM control (see #01114) 55h BYTE reserved 56h BYTE DRAM extended control (see #01115) 57h BYTE DRAM control (see #01116) 58h BYTE DRAM timing (see #01117) 59h 7 BYTEs Programmable Attribute Map registers 0-6 (see #01118) 60h 5 BYTEs DRAM Row Boundary registers 0-4 each register N indicates amount of memory in rows 0-N in 4M units (each row is 64 bits wide); the fifth row of memory (if implemented) must contain either 8M or 16M, depending on system configuration boundary register 4 (offset 64h) contains the total system memory, which may not exceed 128M 65h 2 BYTEs reserved 67h BYTE DRAM Row Type (high) defines memory type in DRAM row 4 in bits 4,0 (see #01119) 68h BYTE DRAM Row Type (low) (see #01119) 69h BYTE PCI TRDY timer (see #01122) 6Ah 6 BYTEs reserved 70h BYTE Multi-Transaction Timer number of PCLKs guaranteed to the current agent before the 82437 will grant the bus to another PCI agent on request 71h BYTE reserved 72h BYTE System Management RAM control (see #01123) 73h BYTE shared memory buffer control (see #01124) 74h BYTE shared memory buffer start address, in 0.5MB units end address is top-of-memory at offset 64h or start of an enabled PCI memory hole when top-of-memory is 16M 76h 2 BYTEs reserved 78h BYTE graphics controller latency timers (see #01125) 79h 135 BYTEs reserved SeeAlso: #00873,#01063,#01083,#01098,#01106 Bitfields for Intel 82437VX,82439TX Arbitration Control register: Bit(s) Description (Table 01109) 7 extended CPU-to-PIIX PHLDA# signalling enabled 6-0 (82439TX) reserved 6-4 reserved 3 (82437VX) CPU priority enable =1 CPU gets PCI bus after two PCI slots =0 CPU gets PCI bus after three PCI slots 2-0 reserved SeeAlso: #01099,#01108,#01110 Bitfields for Intel 82437VX,82439HX/TX PCI Control register: Bit(s) Description (Table 01110) 7-4 reserved (82437VX,82439TX) 7 DRAM ECC/Parity Select (82439HX) =1 ECC =0 parity 6 ECC TEST enable (82439HX) 5 shutdown to port 92h (82439HX) =1 send 01h to PORT 0092h on Shutdown special cycle on host bus 4 dual-processor NA# enable (82439HX) 3 PCI Concurrency Enable =1 CPU can access DRAM/L2 during non-PIIX PCI master cycles =0 CPU kept off PCI bus during all PCI bus-master cycles 2-0 reserved (82437VX,82439TX) 2 SERR# Output Type (82439HX only) =1 SERR# is actively driven high when negated =0 SERR# is PCI-compatible open-drain output 1 reserved 0 Global TXC Enable (82439HX only) =1 enable new 82439HX features SeeAlso: #01099,#01108,#01098,#01112,#01111 Bitfields for Intel 82437FX/82437MX PCI Control register: Bit(s) Description (Table 01111) 7-5 CPU inactivity timer (in PCI Clocks less 1) 4 reserved 3 enable PCI Peer Concurrency =1 CPU can access DRAM/L2 during non-PIIX PCI master cycles =0 CPU kept off PCI bus during all PCI bus-master cycles 2 disable PCI Bursting 1 disable PCI Streaming 0 disable Bus Concurrency SeeAlso: #01106,#01107,#01110 Bitfields for Intel 82437,82439HX/TX cache control register: Bit(s) Description (Table 01112) 7-6 secondary cache size 00 none 01 256K 10 512K 11 reserved 5-4 L2 RAM type 00 pipelined burst SRAM/DRAM 01 reserved 10 asynchronous SRAM (82437FX/MX/VX,82439TX only) 11 two banks of pipelined burst cache 3 NA disable =1 never assert NA# pin 2 reserved (82437FX/MX/VX,82439TX) 2 Extended Cacheability Enable (82439HX) =1 cache up to 512M =0 cache only first 64M 1 Secondary Cache Force Miss or Invalidate =1 force all memory accesses to bypass L2 cache 0 First Level Cache Enable =1 all memory accesses made non-cacheable by CPU L1 cache SeeAlso: #01099,#01108,#01098,#01110,#01113,#01114,#01106 Bitfields for Intel 82437VX,82439TX cache control extensions register: Bit(s) Description (Table 01113) 7-6 reserved 5 DRAM cache detected (read-only) 4-0 DRAM cache refresh timer number of HCLKs 82437VX,82439TX remains idle during DRAM cache refresh SeeAlso: #01099,#01108,#01112 Bitfields for Intel 82437VX,82439TX SDRAM control register: Bit(s) Description (Table 01114) 15-9 reserved 8-6 Special SDRAM Mode Select 000 normal mode (default) 001 enable NOP command 010 enable All Banks Precharge command 011 enable Mode Register Command 100 enable CBR Cycle 101 reserved 11x reserved 5 (82437VX) reserved 5 (82439TX) RAS# to CAS# Override =1 and CAS# latency=0, RAS# to CAS# is delayed 2 HCLKs =0 RAS# to CAS# delay determined solely by CAS# latency setting 4 CAS# latency =1 latency is 2 for all SDRAM cycles =0 latency is 3 3 RAS# precharge and refresh timing =0 slower =1 faster 2 reserved 1 (82437VX) reserved 1 (82439TX) 64-Mbit Technology Enable =1 supports 64M-bit SDRAM devices =0 supports 64M-bit EDO/FPM devices only 0 reserved SeeAlso: #01099,#01108,#01112 Bitfields for Intel 82437VX,82439HX/TX DRAM extended control register: Bit(s) Description (Table 01115) 7 reserved 6 (VX/TX) refresh RAS# assertion length (0=4 clocks, 1=5 clocks) 5 (VX/TX) Fast EDO Path Select 4 Speculative Leadoff Disable 3 (82439HX) Turn-Around Insertion Enable =1 insert one extra clock of turnaround time after asserting MWE# 2-1 Memory Address Drive Strength 82437VX: 82439HX: 82439TX: 00 reserved 00 8mA 00 10mA/10mA (MA/MWE#) 01 10mA (default) 01 8mA/12mA (MAA/MWE#) 01 10mA/16mA (MA/MWE#) 10 16mA 10 12mA/8mA (MAA/MWE#) 10 16mA/10mA (MA/MWE#) 11 reserved 11 12mA 11 16mA/16mA (MA/MWE#) 0 (82437VX) DRAM Symmetry Detect Mode (used to force some memory address lines to fixed value for detecting DRAM symmetry row-by-row) 0 (82439HX) 64MBit Mode Enable =1 enable support for 64M SIMMs 0 (82439TX) reserved SeeAlso: #01099,#01108,#01098,#01116 Bitfields for Intel 82437,82439HX/TX DRAM control register: Bit(s) Description (Table 01116) 7-6 DRAM Hole Enable 00 none 01 512K-640K 10 15M-16M (82437FX/MX/VX only) 11 14M-16M (82437VX,82439TX only) 5 reserved 4 (82437MX only) refresh type during Suspend =1 self-refreshing DRAMs in system =0 CAS-before-RAS refresh (82439TX only) Enhanced Paging disabled 3 EDO Detect Mode enable (used to detect whether memory is EDO bank-by-bank) 2-0 DRAM refresh rate FX/VX/HX MX TX 000 disabled 15.6 us disabled 001 50 MHz 31.2 us 15.6 us 010 60 MHz 62.4 us 31.2 us 011 66 MHz 125 us 64.4 us 100 reserved 250 us 125 us 101 reserved reserved 256 us 1xx reserved reserved reserved SeeAlso: #01099,#01108,#01098,#01115,#01106 Bitfields for Intel 82437FX/MX/VX,82439HX/TX DRAM timing register: Bit(s) Description (Table 01117) 7 (82437FX,82439TX) reserved 7 (82437MX) MA[11:2] buffer strength =0 8mA =1 12mA 7 (82437VX) MA-to-RAS# Delay =1 one clock =0 two clocks 7 (82439HX) Turbo Read Leadoff =1 bypass first register in DRAM data pipeline, saving one clock (may only be set in a cacheless configuration) 6-5 DRAM Read Burst Timing 00 x444 (EDO and Standard Page Mode) 01 x333 (EDO), x444 (SPM) 10 x222 (EDO), x333 (SPM) 11 x322 (EDO), x333 (SPM) (82437VX only) 11 reserved (other) 4-3 DRAM Write Burst Timing 00 x444 01 x333 10 x222 11 reserved 2 (82439TX) reserved 2 RAS-to-CAS Delay =1 two clocks =0 three clocks 1-0 DRAM Leadoff Timing 82437FX/MX Read Leadoff Write Leadoff RAS# Precharge 00 8 6 3 01 7 5 3 10 8 6 4 11 7 5 4 82437VX,82439TX Read Write Leadoff RAS# Precharge 00 11 7 3 01 10 6 3 10 11 7 4 11 10 6 4 82439HX Read Leadoff Write Leadoff RAS# Precharge 00 7 6 3 01 6 5 3 10 7 6 4 11 6 5 4 SeeAlso: #01099,#01108,#01116,#01106,#01107 Bitfields for Intel 8243x/8244x Programmable Attribute Map Register: Bit(s) Description (Table 01118) 7 reserved 6 cache enable (region 1) 5 write enable (region 1) 4 read enable (region 1) 3 reserved 2 cache enable (region 0) 1 write enable (region 0) 0 read enable (region 0) Notes: each programmable attribute map register controls two memory regions at the top of the first megabyte of memory for the Intel 82441FX and 82443BX/LX, bits 6 and 2 are reserved, as cacheability is set using the Pentium Pro/II/Celeron's MTRR registers (see MSR 000000FEh) Intel 82434,82437FX/MX/VX,82439HX,82441FX,82443EX/LX PAM registers/regions: PAM0 low: reserved [*] PAM0 hi: segment F000-FFFF PAM1 low: segment C000-C3FF PAM1 hi: segment C400-C7FF PAM2 low: segment C800-CBFF PAM2 hi: segment CC00-CFFF PAM3 low: segment D000-D3FF PAM3 hi: segment D400-D7FF PAM4 low: segment D800-DBFF PAM4 hi: segment DC00-DFFF PAM5 low: segment E000-E3FF PAM5 hi: segment E400-E7FF PAM6 low: segment E800-EBFF PAM6 hi: segment EC00-EFFF [*] on the 82434 (and possibly other Intel chipsets), the low nybble of PAM0 controls segment 8000-9FFF SeeAlso: #01055,#01108,#01098,#01099,#01229,#01106,#01107,#01142,#01129 Bitfields for Intel 82437VX,82439TX DRAM Row Type register: Bit(s) Description (Table 01119) 7,3 row 3 type 6,2 row 2 type 5,1 row 1 type 4,0 row 0 type 00 SPM DRAM 01 EDO DRAM 10 SDRAM 11 reserved SeeAlso: #01099,#01108,#01118,#01213 Bitfields for Intel 82439TX DRAM Row Type high register: Bit(s) Description (Table 01213) 7 Host Frequency detection =1 66MHz Bus =0 60MHz bus 5,1 DRAM Row 5 type 4,0 DRAM ROW 4 type 00 SPM 01 EDO 10 SDRAM 11 reserved 6,3 reserved 2 Memory Address select Enabled SeeAlso: #01099,#01119 Bitfields for Intel 82437FX/82437MX DRAM Row Type register: Bit(s) Description (Table 01121) 7-4 reserved 3-0 DRAM Row N is EDO instead of page-mode DRAM SeeAlso: #01106,#01107 Bitfields for Intel 82437VX PCI TRDY timer: Bit(s) Description (Table 01122) 7-3 reserved 2-0 TRDY timeout value 000 2 PCICLKs 001 4 PCICLKs 010 6 PCICLKs 011 8 PCICLKs 1xx reserved SeeAlso: #01108,#01123 Bitfields for Intel 82437,82439HX/TX,82443BX/EX/LX SMRAM control register: Bit(s) Description (Table 01123) 7 reserved 6 SMM Space Open =1 make SMM DRAM visible even when not in SMM if bit 4 =0 5 SMM Space Closed =1 no data references permitted to SMM DRAM even in SMM 4 SMM Space Locked =1 force bits 4 and 6 to become read-only; and clear bit 6 3 SMRAM Enable =1 128K DRAM are accessible for use at A000 while in SMM 2-0 SMM Space Base Segment 010 segment A000-BFFF 100 segment C000-CFFF (82437MX,82443EX only) other reserved Note: bits 5 and 6 must never both be set at the same time SeeAlso: #01099,#01108,#01098,#01124,#01106,#01107,#01142,#01129 Bitfields for Intel 82437VX Shared Memory Buffer control register: Bit(s) Description (Table 01124) 7-2 reserved 1 enable shared memory buffer 0 redirect shared memory buffer access =0 treat SMB area as a hole in system DRAM SeeAlso: #01108,#01123,#01125 Bitfields for Intel 82437VX Graphics Controller Latency Timer: Bit(s) Description (Table 01125) 7-6 reserved 5-3 GC latency for PCI reads (in 4 HCLK multiples) (default=100) 2-0 GC latency for CPU and PCI writes (in 4 HCLK multiples) (default=011) SeeAlso: #01108,#01124 Bitfields for Intel 82439HX Error Command register: Bit(s) Description (Table 01126) 7 SERR# duration =0 one PCI clock =1 until error flags are cleared 6-3 reserved 2 force bad parity on multiple-bit uncorrectable error 1 assert SERR# on multiple-bit uncorrectable error 0 assert SERR# on single-bit correctable error SeeAlso: #01098,#01127 Bitfields for Intel 82439HX Error Status register: Bit(s) Description (Table 01127) 7-5 DRAM row associated with multi-bit error 4 multi-bit uncorrectable error occurred (write 1 bit to clear) 3-1 DRAM row associated with single-bit correctable error 0 single-bit correctable error occurred (write 1 bit to clear) SeeAlso: #01098,#01126 Bitfields for Intel 82439TX miscellaneous control register: Bit(s) Description (Table 01128) 7 reserved 6 ACPI control register enable 5 Suspend refresh type (EDO/FPM DRAM only) =1 Self refresh (Always for SDRAM) =0 CBR refresh 4 Normal refresh enable When set to 1, 82439TX switches from suspend refresh to normal refresh 3 reserved 2 Internal clock control disable =1 disable =0 enable Disables 82439TX internal clocks during suspend, reducing power consumption. 1-0 reserved SeeAlso: #01099 Format of PCI configuration for Intel 82443EX/LX Device 0 (Host-PCI): Offset Size Description (Table 01129) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 7180h) chipset is 82443EX if revision >= 03h 40h 16 BYTEs reserved 50h WORD PAC Configuration register (See #01131) 52h BYTE reserved 53h BYTE Data Buffer Control register (see #01132) 54h BYTE reserved 55h WORD DRAM Row Type register (see #01133) 57h BYTE DRAM Control register (see #01134) 58h BYTE DRAM Timing register (see #01135) 59h 7 BYTEs PAM Configuration registers 0-6 (See #01118) 60h 8 BYTEs DRAM Row Boundary registers 0-7 each register indicates top of memory for a particular row, in 8MB units; DIMMs use two rows each, with single-sided DIMMs leaving the odd-numbered rows unpopulated 68h BYTE Fixed DRAM Hole Control register (see #01147) 69h BYTE reserved 6Ah WORD DRAM Extended Mode Select register (see #01136) 6Ch DWORD Memory Buffer Strength Control register (see #01137) 70h BYTE Multi-Transaction Timer register (see #01140) 71h BYTE reserved 72h BYTE System Management RAM Control register (see #01123) 73h 29 BYTEs reserved 90h BYTE Error Command register (see #01156) 91h BYTE Error Status 0 register (see #01138) 92h BYTE Error Status 1 register (see #01139) 93h BYTE Reset Control Register (see #01239) 94h 12 BYTEs reserved A0h DWORD AGP Capability register (see #01158) A4h DWORD AGP Status register (see #01159) A8h DWORD AGP Command register (see #01160) ACh 4 BYTEs reserved B0h DWORD AGP Control register (see #01161) B4h BYTE Arpeture Size Control register (see #01162) B5h 3 BYTEs reserved B8h DWORD Arpeture Translation Table Base register (see #01163) BCh BYTE AGP MTT Control register (see #01140) BDh BYTE AGP Low Priority Transaction timer register (see #01141) BCh 67 BYTEs reserved Notes: The 82443EX is virtually identical to the 82443LX, except that it does not support ECC type DRAM. The Intel 82443EX/LX chipsets use PCI configuration mechanism #1 SeeAlso: #01130,#01142,PORT 0CF8h Format of PCI configuration for Intel 82443EX/LX Device 1 (PCI-PCI): Offset Size Description (Table 01130) 00h 64 BYTEs header, type 1 [bridge] (see #00878) (vendor ID 8086h, device ID 7181h) chipset is 82443EX if revision >= 03h 40h 192 BYTEs reserved Note: The Intel 82443LX chipset uses PCI configuration mechanism #1 SeeAlso: #01129,#01143,PORT 0CF8h Bitfields for Intel 82443EX/LX (Device 0) PAC Configuration register: Bit(s) Description (Table 01131) 15 WSC# Handshake Disable 14 (82443LX) Host Frequency (read-only) =1 60MHz =0 66MHz 14 (82443EX) reserved 13-12 reserved 11 ??? (Not documented by Intel!) 10 PCI Agent to Arperture Access Disable 9 Aperture Access Global Enable 8-6 (82443EX) reserved 8-7 (82443LX) DRAM Data Integrety Mode 00 Non-ECC (no check, no correct) 01 EC-only (do check, no correct) 10 reserved 11 ECC (do check, do correct) 6 (82443LX) ECC-Test Diagnostic Mode Enabled 5 MDA Present Note: Controls routing of Monochrome Display Adaptor I/O and memory range accesses. Works in conjunction with the VGA-bit in Bridge Control register of device 1 (see #00901): VGA MDA 0 0 MDA and VGA routed to PCI bus 0 1 reserved 1 0 MDA and VGA routed to AGP bus 1 1 VGA routed to AGP bus, MDA routed to PCI bus 4-0 reserved SeeAlso: #00901,#01129 Bitfields for Intel 82443EX/LX (Device 0) Data Buffer Control register: Bit(s) Description (Table 01132) 7 reserved 6 CPU-to-PCI posting enabled 5 Write post during I/O Bridge access enabled 4-0 reserved SeeAlso: #01129 Bitfields for Intel 82443EX/LX (Device 0) DRAM Row Type register: Bit(s) Description (Table 01133) 15-14 row 7 type 0 0 EDO (Same values for each row) 0 1 reserved 1 0 SDRAM 1 1 empty row 13-12 row 6 type 11-10 row 5 type 9-8 row 4 type 7-6 row 3 type 5-4 row 2 type 3-2 row 1 type 1-0 row 0 type SeeAlso: #01129,#01134 Bitfields for Intel 82443EX/LX (Device 0) DRAM Control register: Bit(s) Description (Table 01134) 7-6 reserved 5 DRAM EDO Auto-Detect mode enabled 4 SDRAM power management enabled 3 reserved 2-0 DRAM Refresh rate 000 = Refresh disabled 001 = Normal (Based on PAC Configuration bit 14) 010-111 = reserved SeeAlso: #01129,#01133,#01135 Bitfields for Intel 82443EX/LX (Device 0) DRAM Timing register: Bit(s) Description (Table 01135) 7 SDRAM RAS to CAS Delay (1 = 2 clocks, 0 = 3 clocks) 6 SDRAM CAS Latency (1 = 2 clocks, 0 = 3 clocks) 5 SDRAM RAS Precharge Time (1 = 2 clocks, 0 = 3 clocks) 4 EDO DRAM Read Burst timing =1 Read rate is x222 =0 Read rate is x333 3 EDO DRAM Write Burst timing =1 Write rate is x222 =0 write rate is x333 2 EDO RAS Precharge Time (1 = 3 clocks, 0 = 4 clocks) 1 EDO RAS to CAS Delay (1 = 2 clocks, 0 = 3 clocks) 0 MA Wait State =1 Fast (0 wait states for SDRAM, clocks run normally for EDO) =0 Slow (1 wait state for SDRAM, add one clock to all EDO timings) SeeAlso: #01129,#01134 Bitfields for Intel 82443EX/LX DRAM Extended Mode Select register: Bit(s) Description (Table 01136) 15-8 reserved 7-5 Operating Mode 000 Normal operating mode 001 NOP command enabled 010 All banks precharge enable 011 Mode register set command enable 100 CBR cycle enable 101-11x reserved 4 reserved 3-2 Page timeout select 00 16 clocks 01-11 reserved 1-0 Close both banks control 00 close both banks on page misses 01-11 reserved SeeAlso: #01129 Bitfields for Intel 82443EX/LX Memory Buffer Strength Control register: Bit(s) Description (Table 01137) 31-30 MAA[1-0] buffer strength 00 48mA (same values for bits 25-12,5-0) 01 42mA 10 22mA 11 reserved 29-28 (82443LX only) MECC[7-0] buffer strength 00 42mA (same values for bits 27-26,11-6) 01 38mA 10 33mA 11 reserved 27-26 MD[63-0] buffer strength 25-24 RCSA[0]# & RCSB[0]#/MAB[6] buffer strength 23-22 (82443LX only) MAB[1-0] buffer strength 21-20 MAA[13:2] buffer strength 19-18 RCSA[1]# & RCSB[1]#/MAB[7] buffer strength 17-16 RCSA[2]# & RCSB[2]#/MAB[8] buffer strength 15-14 RCSA[3]# & RCSB[3]#/MAB[9] buffer strength 13-12 (82443LX only) RCSA[4]# & RCSB[4]#/MAB[10] buffer strength 11-10 (82443LX only) CQDB[5,1]# buffer strength 9-8 CQDA[5,1]# buffer strength 7-6 CQDA[7-6,4-2,0]# buffer strength ---82443LX--- 5-4 RCSA[5]# & RCSB[5]#/MAB[11] buffer strength 3-2 RCSA[6]#/MAB[2] & RCSB[6]#/MAB[12] buffer strength 1-0 RCSA[7]#/MAB[3] & RCSB[7]#/MAB[13] buffer strength ---82443EX--- 5-0 reserved SeeAlso: #01129 Bitfields for Intel 82443EX/LX Error Status 0 register: Bit(s) Description (Table 01138) ---82443LX--- 7-5 Multi-bit first error (read-only) Indicates which DRAM row had the multi-bit error 4 Multiple-bit ECC Error occurred flag 3-1 Single-bit first row error (read-only) Indicates which DRAM row had the single-bit error 0 Single-bit ECC error occurred flag ---82443EX--- 7-0 reserved Note: Write a 1 to bits 4 & 0 to clear the flags SeeAlso: #01129,#01139 Bitfields for Intel 82443EX/LX Error Status 1 register: Bit(s) Description (Table 01139) 7-3 reserved 2 AGP non-snoopable access outside of graphics arperture 1 AGP non-snoopable access outside of main DRAM ranges and arperture 0 access to invalid graphics arperture translation table entry Note: Write a 1 to these bit(s) to clear SeeAlso: #01129,#01138 Bitfields for Intel 82443EX/LX Multi-Transaction Timer register: Bit(s) Description (Table 01140) 7-3 Multi-transaction timer count value 2-0 reserved SeeAlso: #01129,#01141 Bitfields for Intel 82443EX/LX Low Priority Transaction Timer register: Bit(s) Description (Table 01141) 7-3 Low priority transaction timer count value 2-0 reserved SeeAlso: #01129,#01140 Format of PCI Configuration for Intel 82443BX Device 0 (Host-PCI): Offset Size Description (Table 01142) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 7190h/7192h) 10h DWORD graphics aperture base address 2Ch WORD subsystem vendor identification (write-once) 2Eh WORD subsystem device identification (write-once) 40h 16 BYTEs reserved (0) 50h DWORD 440BX Configuration (see #01144) 54h 3 BYTEs reserved (0) 57h BYTE DRAM Control (see #01145) 58h BYTE DRAM Timing (see #01146) 59h 7 BYTEs Programmable Attribute Map register 0-6 (see #01118) 60h 8 BYTEs DRAM Row Boundary registers 0-7 each register indicates top of memory for a particular row, in 8MB units; DIMMs use two rows each, with single-sided DIMMs leaving the odd-numbered rows unpopulated 68h BYTE Fixed DRAM Hole Control (see #01147) 69h 6 BYTEs Memory Buffer Strength Control (see #01148) 6Fh 2 BYTEs reserved (0) 71h BYTE Intel Reserved (1Fh) 72h BYTE SMRAM Control (see #01123) 73h BYTE Extended SMRAM Control (see #01149) 74h WORD SDRAM Row Page Size (see #01150) 76h WORD SDRAM Control Register (see #01151) 78h WORD Paging Policy Register (see #01152) 7Ah BYTE Power Management Control (see #01153) 7Bh WORD Suspend CBR Refresh Rate Register (see #01154) 7Dh 3 BYTEs reserved (0) 80h DWORD Error Address Pointer (see #01155) 84h 12 BYTEs reserved (0) 90h BYTE Error Command Register (see #01156) 91h WORD Error Status Register (see #01157) 93h BYTE reserved (0) 94h DWORD Intel Reserved (00006104h) 98h WORD Intel Reserved (0500h) 9Ah BYTE Intel Reserved (0) 9Bh 5 BYTEs reserved (0) A0h DWORD AGP Capability Identifier (see #01158) A4h DWORD AGP Status Register (read-only) (see #01159) A8h DWORD AGP Command Register (see #01160) ACh 4 BYTEs reserved (0) B0h DWORD AGP Control Register (see #01161) B4h BYTE Aperture Size Control (see #01162) B5h 3 BYTEs reserved (0) B8h DWORD Aperture Translation Table (see #01163) BCh 2 BYTEs reserved BEh WORD reserved (0) C0h DWORD Intel Reserved (0) C4h DWORD Intel Reserved (0) C8h BYTE Intel Reserved (18h) C9h BYTE Intel Reserved (0Ch) CAh 3 BYTEs Memory Buffer Frequency Select (see #01164) CDh 3 BYTEs reserved (0) D0h 8 BYTEs BIOS scratch pad (read-write, init to 0 on reset) D8h 8 BYTEs Intel Reserved (0) E0h 2 DWORDs DRAM Write Thermal Throttling Control (see #01165) E8h 8 BYTEs DRAM Read Therman Throttling Control (see #01165) F0h WORD Buffer Control Register (see #01166) F2h 2 BYTEs Intel Reserved (0000h) F4h DWORD Intel Reserved (0000F800h) bits 30-29 are "Abort Disable Test Mode" configuration bits and should always be set (according to Intel Specification Update) F8h DWORD Intel Reserved (00000F20h) FCh DWORD Intel Reserved (0) SeeAlso: #00873,#01143,PORT 0022h"82443BX" !!!intel\29063301.pdf p.34 Format of PCI Configuration for Intel 82443BX Device 1 (PCI-AGP): Offset Size Description (Table 01143) 00h 64 BYTEs header, type 1 [bridge] (see #00878) (vendor ID 8086h, device ID 7191h) 40h 192 BYTEs reserved SeeAlso: #00873,#01142,#01130 !!!intel\29063301.pdf p.80 Bitfields for Intel 82443BX (Device 0) NBX Configuration Register: Bit(s) Description (Table 01144) 31-24 SDRAM rows without ECC; each set bit indicates a row in the SDRAM array with does NOT have error correction (bit 24 = row 0; note that double- sided DIMMs use two rows, one for the front and one for the back) 23-19 reserved 18 DRAM data asserted on host bus on the same clock on which the snoop result is sampled, instead of one clock later 17 ECC signals are always driven for EDO memory 16 IDSEL redirection =0 allocate IDSEL1/AD12 to bridge, never assert external AD12 =1 allocate IDSEL7/AD18 to bridge, never assert external AD18; PCI configuration cycles for Bus0/Device7 are redirected to Bus0/Device1 15 disable WSC# handshake (uni-processor mode) 14 Intel Reserved 13:12 Host/DRAM frequency 00 100 MHz 01 reserved 10 66 MHz 11 reserved 11 enable AGP-to-PCI access (note: AGP-to-PCI traffic is not allowed to target ISA-bus devices) 10 disable PCI agent access to graphis aperture (ignored if bit 9 clear) 9 global enable graphics aperture access 8:7 DRAM Data Integrity Mode 00 non-ECC 01 error checking only (e.g. parity) 10 ECC mode 11 ECC mdoe with hardware scrubbing 6 enable ECC diagnostics mode (when set, ECC lines are forced to zero on writes and compared to internally-generated ECC on reads) 5 monochrome video adapter present on PCI/ISA bus (with primary adapter on AGP bus) if register 3Eh bit 3 is clear, all VGA cycles are sent to PCI regardless of this bit otherwise: if clear, all VGA cycles are sent to AGP; if set, all VGA cycles except MDA ranges (memory B0000h-B7FFFh and ports 03B4h,03B5h, 03B8h,03B9h,03BAh,03BFh) are sent to AGP 4 reserved 3 enable posting of host USWC (U??? Speculative Write Combine) writes to PCI memory 2 In-Order Queue Depth =1 maximum (PPro supports up to 8, but 82443BX only supports depth 4) =0 depth forced to 1 (no pipelining on processor bus) 1:0 reserved SeeAlso: #01142 Bitfields for 82443BX DRAM Control: Bit(s) Description (Table 01145) 7-6 reserved 5 module mode configuration (read-only) =0 self-refresh entry is staggered; if "SDRAMPWR" (offset 76h bit 4) is set, 3 DIMMs are supported, CKE[5:0] is driven, and dynamic SDRAM power-down is available; if "SDRAMPWR" is clear, 4 DIMMs are supported but power-down is not available =1 self-refresh entry is not staggered; 3 DIMMs are supported, only CKE0 is driven, and dynamic power-down is not available 4:3 DRAM type 00 EDO 01 SDRAM 10 registered SDRAM 11 reserved 2:0 DRAM refresh rate 000 disabled 001 15.6 microseconds 010 31.2 microseconds 011 62.4 100 124.8 101 249.6 else reserved SeeAlso: #01142 Bitfields for Intel 82443BX DRAM Timing: Bit(s) Description (Table 01146) 7-2 reserved 1 add one EDO RASx# wait state for row misses (two tASR instead of one) 0 add one wait state to first EDO CASx# assertion for page hits (2 Tasc instead of 1 Tasc) SeeAlso: #01142 Bitfields for Intel 82443BX/EX/LX Fixed DRAM Hole Control: Bit(s) Description (Table 01147) 7-6 Hole Enable 00 none 01 512K-640K 10 15M-16M 11 reserved 5-0 reserved (0) SeeAlso: #01142,#01129 Bitfields for Intel 82443BX Memory Buffer Strength Control: Bit(s) Description (Table 01148) 47-40 reserved (0) 39-38 strengths of MAA[13:0], WEA#, SRASA#, SCASA# (settings same as below) 37-36 strengths of MAB[12:11,9:0], MAB[13,10], WEB#, SRASB#, SCASB# 00 = 1x (at both 66 and 100 MHz) 01 reserved 10 = 2x (at both 66 and 100 MHz) 11 = 3x (at both 66 and 100 MHz) 35-34 MD[63:0] buffer strength control 2 4 DIMM FET config: strength for MD[63:0] path connected to DIMMs 2&3 3/4 DIMM non-FET config: program to same value as buffer str. ctrl 1 33-32 MD[63:0] buffer strength control 1 4 DIMM FET config: strength for MD[63:0] path connected to DIMMs 0&1 3/4 DIMM non-FET config: programmable based on total load detected on all DIMM connectors 00 = 1x (at both 66 and 100 MHz) 01 reserved 10 = 2x (at both 66 and 100 MHz) 11 = 3x (at 100 MHz only) 31-30 MECC[7:0] buffer strength control 2 4 DIMM FET config: strength for MECC[7:0] path connected to DIMMs 2&3 3/4 DIMM non-FET config: program to same value as buffer str. ctrl 1 29-28 MECC[7:0] buffer strength control 1 4 DIMM FET config: strength for MD[63:0] path connected to DIMMs 0&1 3/4 DIMM non-FET config: programmable based on total load detected on all DIMM connectors (values same as for MD[63:0] buffer strength) 27-26 CSB7#/CKE5 buffer strength (same values as bits 37-36) 25-24 CSA7#/CKE3 buffer strength (same values as bits 37-36) 23-22 CSB6#/CKE4 buffer strength (same values as bits 37-36) 21-20 CSA6#/CKE2 buffer strength (same values as bits 37-36) 19 CSA5#/RASA5#, CSB5#/RASB5# buffer strength 0 = 1x (at both 66 and 100 MHz) 1 = 2x (at both 66 and 100 MHz) 18 CSA4#/RASA4#, CSB4#/RASB4# buffer strength (same values as bit 19) 17 CSA3#/RASA3#, CSB3#/RASB3# buffer strength (same values as bit 19) 16 CSA2#/RASA2#, CSB2#/RASB2# buffer strength (same values as bit 19) 15 CSA1#/RASA1#, CSB1#/RASB1# buffer strength (same values as bit 19) 14 CSA0#/RASA0#, CSB0#/RASB0# buffer strength (same values as bit 19) 13-12 DQMA5/CASA5# buffer strength 00 = 1x (at both 66 and 100 MHz) 01 reserved 10 = 2x (at both 66 and 100 MHz) 11 = 3x (at 66 MHz only) 11-10 DQMA1/CASA1# buffer strength (same values as bits 37-36) 9-8 DQMB5/CASB5# buffer strength (same values as bits 13-12) 7-6 DQMB1/CASB1# buffer strength (same values as bits 13-12) 5-4 DQMA[7:6,4:2,0]/CASA[7:6,4:2,0]# buffer strength (as for bits 37-36) 3-2 CKE1/GCKE buffer strength (same values as bits 37-36) 1-0 CKE0/FENA buffer strength (same values as bits 37-36) SeeAlso: #01142 Bitfields for Intel 82439TX/82443BX Extended SMRAM Control register: Bit(s) Description (Table 01149) 7 SMRAM location =0 compatible SMRAM space at segment A000h =1 high SMRAM space at addreses 100A0000h to 100FFFFFh (accessing physical DRAM addresses A0000h to FFFFFh) 6 (write-clear) access to extended SMRAM memory range when SMRAM space is not open and not in SMM 5 enable write-through caching of SMRAM (forced to 1 by 82443BX, to 0 by 82439TX) 4 enable L1 caching of SMRAM (forced to 1 by 82443BX) 3 enable L2 caching of SMRAM (forced to 1 by 82443BX) 2-1 TSEG size (read-only once SMRAM locked) (see #01123) 00 128K 01 256K 10 512K 11 1M 0 enable TSEG (read-only once SMRAM locked) (see #01123) when both SMRAM and TSEG are enabled, the top N kilobytes of physical DRAM are no longer claimed by the memory controller, and instead appear as extended SMRAM at an address 256M higher than the physical address SeeAlso: #01142,#01123,#01099 Bitfields for Intel 82443BX SDRAM Row Page Size: Bit(s) Description (Table 01150) 15-14 page size for row 7 (back of DIMM4) 00 two KB 01 four KB 10 eight KB 11 reserved 13-12 page size for row 6 (front of DIMM4) ... 3-2 page size for row 1 (back of DIMM1) 1-0 page size for row 0 (front of DIMM1) SeeAlso: #01142 Bitfields for Intel 82443BX SDRAM Control Register: Bit(s) Description (Table 01151) 15-10 reserved (0) 9-8 add one-clock delay to idle/pipeline DRAM leadoff when =01 (all other values are illegal) 7-5 SDRAM mode select 000 normal operation 001 issue NOP command on all CPU-to-SDRAM cycles 010 issue All-Banks-Precharge command on all CPU-to-SDRAM cycles 011 issue mode register set command on CPU-to-SDRAM cycles (command is driven on memory address lines, so the proper address must be calculated for each row of memory to drive the correct command; MAx[2:0] must be driven to 010 for burst-of-4 mode, MAx3 to 1 for interleave wrap type, MAx4 to the value of the CAS# latency bit, MAx[6:5] to 01, and MAx[12:7] to 0000000 100 issue CBR cycles on all CPU-to-SDRAM cycles else reserved 4 "SDRAMPWR" specifies how CKE signals are driven for various DRAM configurations; refer to #01145 bit 5 3 Leadoff Command Timing =0 four CS# clocks (100 MHz or 66 MHz desktop if MAA/MAB load > 9) =1 three CS# clocks (66 MHz mobile platforms, or desktop w/ load <= 9) 2 CAS# latency =0 three DCLKs =1 two DCLKs 1 SDRAM RAS# to CAS# delay =0 three clocks =1 two clocks 0 SDRAM RAS# precharge =0 three clocks =1 two clocks SeeAlso: #01142 Bitfields for Intel 82443BX Paging Policy Register: Bit(s) Description (Table 01152) 15-8 banks per row (bit 7 is row 0, bit 15 is row 7) =0 two banks =1 four banks 7-5 reserved 4 Intel Reserved 3-0 DRAM Idle Timer ("DIT") number of clocks in idle state before all pages are precharged 0000 no clocks 0001 2 clocks 0010 4 clocks 0011 8 clocks 0100 10 clocks 0101 12 clocks 0110 16 clocks 0111 32 clocks 1xxx never (pages are not closed on idle) SeeAlso: #01142 Bitfields for Intel 82443BX Power Management Control Register: Bit(s) Description (Table 01153) 7 enable SDRAM power-down for idle rows 6 enable ACPI control register at PORT 0022h 5 suspend refresh type =0 self-refresh =1 CBR mode 4 enable normal refresh (must be set before accessing RAM after a reset) 3 quick-start mode enabled (read-only) 2 enable dynamic clock gating on AGPset "IDLE" condition (all buses in idle state) 1 AGP disabled (read-only) 0 enable CPU reset without PCIRST enable SeeAlso: #01142 Bitfields for Intel 82443BX Suspend CBR Refresh Rate: Bit(s) Description (Table 01154) 15-13 reserved (0) 12 enable automatic Suspend CBR Refresh Rate adjustment (based on number of OSCCLKs in a given time); if clear, the below field must be programmed to guarantee minimum refresh rates in the worst case 11-0 Suspend CBR Refresh Rate (number of OSCCLKs between refresh requests) SeeAlso: #01142 Bitfields for Intel 82443BX Error Address Pointer: Bit(s) Description (Table 01155) 31-12 (read-only) bits 31-12 of address in which first parity/ECC error occurred 11-2 reserved 1 (write-clear) multi-bit error occurred 0 (write-clear) single-bit error occurred SeeAlso: #01156,#01142 Bitfields for Intel 82443BX/EX/LX Error Command Register: Bit(s) Description (Table 01156) 7 enable SERR# on AGP non-snoopable access outside graphics aperture 6 enable SERR# on invalid AGP DRAM access (82443BX) enable SERR# on AGP Non-snoopable access to location outside main DRAM and arpeture rangles (82443EX/LX) 5 enable SERR# on access to invalid Graphics Aperture Translation Table 4 enable SERR# on receiving Target Abort 3 enable SERR# when Thermal DRAM Throttling detected (82443BX) enable SERR# on PCI Parity Error (82443EX/LX) ---82443BX--- 2 SERR# mode =0 asserted for one PCI clock =1 level mode signal (for systems that connect SERR# to EXTSMI#) 1 enable SERR# on receiving multi-bit Parity/ECC error 0 enable SERR# on receiving single-bit (corrected) ECC error ---82443EX/LX--- 2-0 reserved Note: bits 1 and 0 must be clear on systems not supporting ECC SeeAlso: #01155,#01157,#01142,#01129 Bitfields for Intel 82443BX Error Status Register: Bit(s) Description (Table 01157) 15-13 reserved (0) 12 (write-clear) DRAM Read thermal throttling condition occurred 11 (write-clear) DRAM Write thermal throttling condition occurred 10 (write-clear) AGP non-snoopable access outside Graphics Aperture 9 (write-clear) invalid AGP non-snoopable DRAM read access 8 (write-clear) invalid Graphics Aperture Translation Table entry 7-5 (read-only) number of DRAM row containing first multi-bit error 4 (write-clear) multi-bit (uncorrectable) error occurred 3-1 (read-only) number of DRAM row containing first single-bit error 0 (write-clear) single-bit (correctable) error occurred SeeAlso: #01156,#01142 Bitfields for Intel AGP Capability Identifier: Bit(s) Description (Table 01158) 31-24 reserved 23-20 major version of supported AGP revision 19-16 minor version of supported AGP revision 15-8 offset of next capability (0 = none) 7-0 PCI capability ID (2 = AGP, 0 = disabled) SeeAlso: #01142,#01159,#01129 Bitfields for Intel 82443BX/EX/LX AGP Status Register: Bit(s) Description (Table 01159) 31-24 maximum AGP request queue depth (read-only) 23-10 reserved 9 AGP side band addressing is supported (read-only) 8-2 reserved 1-0 supported AGP data transfer type(s) bit 0: 1x data transfer mode bit 1: 2x data transfer mode Note: bits 0 and 1 may not both be clear SeeAlso: #01160,#01142,#01158,#01129 Bitfields for Intel 82443BX/EX/LX AGP Command Register: Bit(s) Description (Table 01160) 31-10 reserved 9 enable AGP sideband addressing 8 enable AGP 7-2 reserved 1-0 selected AGP transfer rate 00 = default 01 = 1x 10 = 2x 11 illegal SeeAlso: #01159,#01142,#01161,#01129 Bitfields for Intel 82443BX/EX/LX AGP Control Register: Bit(s) Description (Table 01161) 31-16 reserved (0) 15 disable forced ordering of snoopable writes and AGP reads (82443BX) (82443EX/LX) reserved 14 reserved (0) 13 enable Graphics Aperture Write-AGP Read synchronization 12-10 reserved (0) 9-8 reserved (0) (82443BX) expedite transaction throttle timer (82443EX/LX) 00 no throttling 01 reserved 10 192 clocks on, 64 clocks off 11 reserved 7 enable Graphics Translation Lookaside Buffer (and GTLB Flush Control) 6-0 reserved (0) SeeAlso: #01160,#01142,#01129 Bitfields for Intel 82443BX/EX/LX Graphics Aperture Size Control: Bit(s) Description (Table 01162) 7-6 reserved 5-0 aperture size 000000 256M 100000 128M 110000 64M 111000 32M 111100 16M 111110 8M 111111 4M other illegal SeeAlso: #01142,#01163,#01129 Bitfields for Intel 82443BX/EX/LX Graphics Aperture Trans. Table Base Register: Bit(s) Description (Table 01163) 31-12 bits 31-12 of aperture translation table base address 11-0 reserved (0) SeeAlso: #01162,#01142,#01129 Bitfields for Intel 82443BX Memory Buffer Frequency Select: Bit(s) Description (Table 01164) 23 reserved 22 MAA[13:0], WEA#, SRASA#, SCASA# buffer select =0 66 MHz buffers =1 100 MHz buffers 21 MAB[12:11,9:0]#, MAB[13,10], WEB#, SRASB#, SCASB# buffer select (as for bit 22) 20 MD[63:0] (control 2) buffer select 19 MD[63:0] (control 1) buffer select 18 MECC[7:0] (control 2) buffer select 17 MECC[7:0] (control 1) buffer select 16 CSB7#/CKE5 buffer select 15 CSA7#/CKE3 buffer select 14 CSB6#/CKE4 buffer select 13 CSA6#/CKE2 buffer select 12 CSA5#/RASA5#, CSB5#/RASB5# buffer select 11 CSA4#/RASA4#, CSB4#/RASB4# buffer select 10 CSA3#/RASA3#, CSB3#/RASB3# buffer select 9 CSA2#/RASA2#, CSB2#/RASB2# buffer select 8 CAS1#/RASA1#, CSB1#/RASB1# buffer select 7 CSA0#/RASA0#, CSB0#/RASB0# buffer select 6 DQMA5/CASA5# buffer select 5 DQMA1/CASA1# buffer select 4 DQMB5/CASB5# buffer select 3 DQMB1/CASB1# buffer select 2 DQMA[7:6,4:2,0]/CASA[7:6,4:2,0]# buffer select 1 CKE1/GCKE buffer select 0 CKE0/FENA buffer select SeeAlso: #01142,#01166 Bitfields for Intel 82443BX DRAM Read/Write Thermal Throttling Control: Bit(s) Description (Table 01165) 63 lock all read and write throttle control register bits (exists in Write Throttling control register only) 62-46 reserved 45-38 global DRAM sampling window (in four-millisecond units) 37-26 global QWORD threshold (documented as units of 215, but may be typo and actually be units of 2^15 = 32768) thermal throttling will be invoked if the number of QWORD accesses during the sampling window exceeds the threshold count 25-20 throttle time in multiples of the sampling window 19-13 throttle monitoring window in 16 DRAM-clock units 12-3 throttle QWORD maximum count -- while throttling is enabled, at most this many QWORD accesses are permitted during each throttle monitoring window 2-0 DRAM Throttle Mode 100 normal operation else Intel Reserved SeeAlso: #01142 Bitfields for Intel 82443BX Buffer Control Register: Bit(s) Description (Table 01166) 15-10 reserved 9-6 AGP Jam Latch strength bit 9: enable strong pull-up bit 8: enable weak pull-up bit 7: enable strong pull-down bit 6: enable weak pull-down 5-0 Intel Reserved SeeAlso: #01142,#01164 Format of PCI Configuration for Intel 82371FB/82371SB Function 0 (ISA Bridge): Offset Size Description (Table 01167) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 122Eh/7000h) (revision ID 00h = 82371SB step A-1) (revision ID 01h = 82371SB step B-0) 40h 12 BYTEs reserved 4Ch BYTE ISA I/O Controller Recovery Timer (see #01087) 4Dh BYTE reserved 4Eh BYTE X-Bus Chip Select Enable (see #01089) 4Fh BYTE (82371SB) X-Bus Chip Select Enable High (see #01102) bit 0: I/O APIC enabled 4Fh BYTE (82371FB) reserved 50h 16 BYTEs reserved 60h 4 BYTEs PCI IRQ Route Control (see #01076) 64h 5 BYTEs reserved 69h BYTE top of memory (see #01216) 6Ah WORD miscellaneous status (see #01217) 6Ch 4 BYTEs reserved 70h BYTE motherboard IRQ Route Control 0 (see #01218) 71h BYTE (82371FB) motherboard IRQ Route Control 1 (see #01218) 72h 4 BYTEs reserved 76h 2 BYTEs motherboard DMA control (see #01219) 78h WORD programmable chip select control (see #01220) 7Ah 6 BYTEs reserved 80h BYTE (82371SB) APIC Base Address Relocation (see #01078) 81h BYTE reserved 82h BYTE (82371SB) Deterministic Latency Control (see #01221) 83h 29 BYTEs reserved A0h BYTE SMI Control (see #01222) A1h BYTE reserved A2h WORD SMI Enable (see #01080) A4h DWORD System Event Enable (SEE) (see #01081) A8h BYTE Fast-Off Timer (in minutes, PCICLKs, or milliseconds) value is count less one; timer must be stopped before changing its value A9h BYTE reserved AAh WORD SMI Request (see #01082) ACh BYTE Clock Scale STPCLK# Low Timer STPCLK# stays low for 1+1056*(value+1) PCICLKs ADh BYTE reserved AEh BYTE Clock Scale STPCLK# High Timer STPCLK# stays high for 1+1056*(value+1) PCICLKs AFh 81 BYTEs reserved SeeAlso: #00873,#01214,#01215,#01064,#01083,#01108,#01098 Format of PCI configuration for Intel 82371MX MPIIX: Offset Size Description (Table 01168) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 1234h) 40h 9 BYTEs reserved 49h BYTE serial and parallel port enable (see #01169) 4Ah 2 BYTEs reserved 4Ch BYTE Extended I/O Controller Recovery Timer (see #01170) 4Dh BYTE reserved 4Eh BYTE BIOS enable (see #01171) 4Fh BYTE FDC enable (see #01172) 50h 16 BYTEs reserved 60h BYTE PIRQA# Route Control (see #01076) 61h BYTE PIRQB# Route Control (see #01076) 62h 8 BYTEs reserved 6Ah WORD Miscellaneous Status (see #01173) 6Ch WORD IDE timing modes (see #01223) 6Eh 2 BYTEs reserved 70h BYTE Motherboard IRQ Route Control (see #01223) 71h 5 BYTEs reserved 76h 3 BYTEs Motherboard DMA Route Control (see #01219) 79h 5 BYTEs reserved 7Eh BYTE Audio enable (see #01174) 7Fh BYTE DMA channel 5-7 address size (see #01175) 80h BYTE PCI DMA enable (see #01176) 81h 7 BYTEs reserved 88h BYTE PCI DMA/PCI DMA expansion A (see #01177) 89h BYTE PCI DMA/PCI DMA expansion B (see #01177) 8Ah WORD Programmable Memory Address Control 0 (see #01178) 8Ch WORD Programmable Memory Address Control 1 (see #01178) 8Eh WORD Programmable Memory Address Mask (see #01179) 90h BYTE Programmable Address Range Enable (see #01180) 91h BYTE reserved 92h WORD Programmable Chip Select Control (see #01181) 94h WORD Programmable Address Control 1 (see #01182) 96h WORD Programmable Address Control 2 (see #01182) 98h WORD Programmable Address Control 3 (see #01182) 9Ah BYTE Programmable Address Mask A (see #01183) 9Bh BYTE Programmable Address Mask B (see #01184) 9Ch WORD I/O configuration address (see #01185) 9Eh 2 BYTEs reserved A0h WORD Programmable Address Control 4 (see #01182) A2h WORD Programmable Address Control 5 (see #01182) A4h BYTE Programmable Address Mask C (see #01186) A5h BYTE Peripheral Access Detect Enable 0 (see #01187) A6h BYTE Peripheral Access Detect Enable 1 (see #01188) A7h BYTE Peripheral Access Detect Enable 2 (see #01189) A8h WORD Local Trap Address for Device 3 (see #01190) AAh BYTE Local Trap Mask for Device 3 (see #01191) ABh BYTE Local Trap SMI Enable (see #01192) ACh 2 BYTEs reserved AEh BYTE Local Trap SMI Status (see #01192) AFh BYTE reserved B0h BYTE Local Standby SMI Enable (see #01193) B1h BYTE Local Standby Timer Reload Enable (see #01194) B2h BYTE Local Standby SMI Status (see #01193) B3h BYTE reserved B4h BYTE Local Standby Timer IDE Idle (see #01195) B5h BYTE Local Standby Timer Audio Idle (see #01195) B6h BYTE Local Standby Timer COM Idle (see #01195) B7h BYTE reserved B8h BYTE Local Standby Timer Device 1 Idle (see #01195) B9h BYTE Local Standby Timer Device 2 Idle (see #01195) BAh BYTE Local Standby Timer Device 3 Idle (see #01195) BBh BYTE reserved BCh BYTE Software/EXTSMI# SMI Delay Timer (see #01195) BDh BYTE Suspend SMI Delay Timer (see #01195) BEh BYTE Global Standby Timer (see #01195) BFh BYTE Clock Throttle Standby Timer (see #01195) C0h BYTE System Management Control (see #01196) C1h BYTE System SMI Enable (see #01197) C2h BYTE Miscellaneous SMI Enable (see #01198) C3h BYTE Global SMI Enable (see #01200) C4h 2 BYTEs reserved C6h BYTE System SMI Status (see #01197) C7h BYTE Miscellaneous SMI Status (see #01199) C8h BYTE Global SMI Status (see #01201) C9h 3 BYTEs reserved CCh BYTE Suspend/Resume Control 1 (see #01202) CDh BYTE Suspend/Resume Control 2 (see #01203) CEh BYTE SMOUT Control (see #01204) CFh BYTE reserved D0h BYTE System Event Enable 0 (see #01207) D1h BYTE System Event Enable 1 (see #01208) D2h BYTE System Event Enable 2 (see #01209) D3h BYTE Burst Count Timer (see #01195) D4h BYTE Clock Control (see #01205) D5h BYTE reserved D6h BYTE STPCLK# Low Timer (see #01195) D7h BYTE STPCLK# High Timer (see #01195) D8h BYTE Stop Break Event Enable 0 (see #01207) D9h BYTE Stop Break Event Enable 1 (see #01208) DAh BYTE Stop Break Event Enable 2 (see #01209) DBh 5 BYTEs reserved E0h BYTE Shadow Register (see #01206) E1h 3 BYTEs reserved E4h BYTE Burst Clock Event Enable 0 (see #01207) E5h BYTE Burst Clock Event Enable 1 (see #01208) E6h BYTE Burst Clock Event Enable 2 (see #01209) E7h BYTE Burst Clock Event Enable 3 (see #01210) E8h BYTE Burst Clock Event Enable 4 (see #01211) E9h BYTE Burst Clock Event Enable 5 (see #01212) EAh BYTE Burst Clock Event Enable 6 (see #01213) EBh BYTE reserved ECH BYTE Clock Throttle Break Event Enable 0 (see #01207) EDh BYTE Clock Throttle Break Event Enable 1 (see #01208) EEh BYTE Clock Throttle Break Event Enable 2 (see #01209) EFh BYTE Clock Throttle Break Event Enable 3 (see #01210) F0h BYTE Clock Throttle Break Event Enable 4 (see #01211) F1h BYTE Clock Throttle Break Event Enable 5 (see #01212) F2h BYTE Clock Throttle Break Event Enable 6 (see #01213) F3h 13 BYTES reserved SeeAlso: #00873,#01076 Bitfields for Intel 82371MX serial and parallel port enable register: Bit(s) Description (Table 01169) 7 reserved 6 LPT3 enabled 5 LPT2 enabled 4 LPT1 enabled 3 COM4 enabled 2 COM3 enabled 1 COM2 enabled 0 COM1 enabled SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Extended I/O Controller Recovery Timer register: Bit(s) Description (Table 01170) 7 reserved 6 8-Bit I/O Recovery Enable =1 Enable value programmed into bits 5-3 5-3 8-Bit I/O Recovery Times 000 = 8 SYSCLK 001 = 1 SYSCLK (default) 010 = 2 SYSCLK 011 = 3 SYSCLK 100 = 4 SYSCLK 101 = 5 SYSCLK 110 = 6 SYSCLK 111 = 7 SYSCLK 2-0 Reserved (0) SeeAlso: #01168,#01087,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX BIOS enable register: Bit(s) Description (Table 01171) 7 Extended BIOS Enable 6 Lower BIOS Enable 1 5 Lower BIOS Enable 0 4 Lower BIOS CS# Enable 0 3 F Segment BIOS Enable 2 BIOSCS# Write Protect 1-0 reserved SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX FDC Enable register: Bit(s) Description (Table 01172) 7 Coprocessor Error fuction Enable 6 IRQ12/M Mouse Function Enable 5 System Management Output 5/Disk Output Enable 4 System Management Output 4/RTCALE Enable 3 Motherboad DMA 2 Disable 2 reserved 1 Floppy Secondary Addess Enable 0 Floppy Primary Address Enable SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Miscellaneous Status register: Bit(s) Description (Table 01173) 15-3 reserved 2-1 reserved (0) 0 ISA Clock Divisor Status =1 Divisor=3 (PCICLK=25MHz) default =0 Divisor=4 (PCICLK=33MHz) Note: This is a read-only register that reports on chipset jumper settings. SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Audio enable register: Bit(s) Description (Table 01174) 7 Audio enabled 6-4 Reserved 3-2 Audio I/O Address 00 0220h 01 0230h 10 0240h 11 0250h 1-0 reserved SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX DMA channel 5-7 address size register: Bit(s) Description (Table 01175) 7 Channel 7 16/8-Bit Count by Word/Byte =1 16-bit, count by word =0 8-bit, count by byte 6 Channel 6 16/8-Bit Count by Word/Byte (same values as bit 7) 5 Channel 5 16/8-Bit Count by Word/Byte (same values as bit 7) 4-3 reserved (0) SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX PCI DMA Enable register: Bit(s) Description (Table 01176) 7 DMA CH7 is on PCI Bus 6 DMA CH6 is on PCI Bus 5 DMA CH5 is on PCI Bus 4 reserved 3 DMA CH3 is on PCI Bus 2 DMA CH2 is on PCI Bus 1 DMA CH1 is on PCI Bus 0 DMA CH0 is on PCI Bus SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX PCI DMA/PCI DMA expansion registers: Bit(s) Description (Table 01177) 7-4 reserved 3 Expansion enabled 2-0 DMA channel Note: The PCI DMA Expansion request lines (REQ[A,B]#/GNT[A,B]#) provide PCI DMA and PCI DMA expansion support. SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Programmable Memory Address Control registers: Bit(s) Description (Table 01178) 15-0 Memory Access Control SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Programmable Memory Address Mask register: Bit(s) Description (Table 01179) 7-0 Memory Address Mask SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Programmable Address Range Enable register: Bit(s) Description (Table 01180) 7 PCS# Enabled for Programmable Address Range 2 6 PCS# Enabled for Programmable Address Range 1 5 Programmable Address range 5 Enabled 4 Programmable Address range 4 Enabled 3 Programmable Address range 5 Enabled 2 Programmable Address range 3 Enabled 1 Programmable Address range 1 Enabled 5 PCS# Address range Enabled SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Programmable Chip Select Control register: Bit(s) Description (Table 01181) 15-0 PCS# Address SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Programmable Address Control registers: Bit(s) Description (Table 01182) 15-0 Programmable Address Control Note: This register selects a 16-bit I/O address range to be forwarded to the Extended I/O Bus, if enabled in the Programmable Address Range register. SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Programmable Address Mask A register: Bit(s) Description (Table 01183) 7-4 Programmable Address Control 1 Mask 3-0 Programmable Chip Select Mask SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Programmable Address Mask B register: Bit(s) Description (Table 01184) 7-4 Programmable Address Control 3 Mask 3-0 Programmable Address Control 2 Mask SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX I/O configuration address register: Bit(s) Description (Table 01185) 15-10 reserved 9-1 I/O Configuration Address 0 I/O Configuration Address Enabled Note: This register provides an I/O address range to be forwarded to the Extended I/O Bus for accesses to the configuration space of an integrated I/O device. PCI address bits 9-1 are compared to bits 9-1 of this register. Address bits 31-10 must be 0. SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Programmable Address Mask C register: Bit(s) Description (Table 01186) 7-4 Programmable Address Control 5 Mask 3-0 Programmable Address Control 4 Mask SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Peripheral Access Detect Enable 0 register: Bit(s) Description (Table 01187) 7 Enable Audio-E 6 Enable Audio-D 5 Enable Audio-C 4 Enable Audio-B 3 Enable Audio-A 2 Enable Parallel 3 1 Enable Parallel 2 0 Enable Parallel 1 SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Peripheral Access Detect Enable 1 register: Bit(s) Description (Table 01188) 7 Enable COM4 6 Enable COM3 5 Enable COM3 4 Enable COM1 3 Enable Secondary FDC 2 Enable Primary FDC 1 Enable Secondary IDE 0 Enable Promary IDE SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Peripheral Access Detect Enable 2 register: Bit(s) Description (Table 01189) 7 Enable PMAC1 6 Enable PMAC0 5 Enable PAC5 4 Enable PAC4 3 Enable PAC3 2 Enable PAC2 1 Enable PAC1 0 Enable PCSC SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Local Trap Address for Device 3 register: Bit(s) Description (Table 01190) 15-0 Local Trap Address base for Device 3 Note: Is compared with bits 15-0 of PCI I/O Addresses. Address bits 31-16 must be 0. SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Local Trap Mask for Device 3 register: Bit(s) Description (Table 01191) 7-4 Local Trap COM Port Select =1000 COM4 02E8h-02EFh =0100 COM3 03E8h-83EFh =0010 COM2 02F8h-02FFh =0001 COM1 03F8h-03FFh Note: These bits when set cause an SMI# when access to the corresponding I/O port range is made. 3-0 Local Trap Mask Note: This field selects the range of trappable addresses (in bytes). SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Local Trap SMI Enable/Status registers: Bit(s) Description (Table 01192) 7-6 reserved 5 IDE 4 Audio 3 COM 2 DEV3 1 DEV2 0 DEV1 Note: a set bit indicates in the Enable register turns generation of SMI# on I/O accesses to the address region used by the selected device; a set bit in the Status register indicates which trap caused an SMI# interrupt. SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Local Standby SMI Enable/Status registers: Bit(s) Description (Table 01193) 7-6 reserved 5 IDE 4 Audio 3 COM 2 DEV3 1 DEV2 0 DEV1 Note: each bit in the Enable register turns on the associated SMI Timer; a set bit in the Status register indicates which local standby timer caused the SMI interrupt SeeAlso: #01168,#01194,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Local Standby Timer Reload Enable register: Bit(s) Description (Table 01194) 7 IDE 6 Audio 5 COM 4 DEV3 3 DEV2 2 DEV1 1 Audio MDAK2 0 Audio MDAK1 Note: This register enables local standby timer reloading. When the associated I/O address range is accessed, the standby timer is reloaded with it's default value. Also note the different bit-order for this register only. SeeAlso: #01168,#01193,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Count Value registers: Bit(s) Description (Table 01195) 7-0 Count value Note: This field contains the initial count value for various time-out events. 00 is an illegal programmed value. The programmed value is decremented by certain events or system clocks, and the event is triggered when the count reaches 0. SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX System Management Control register: Bit(s) Description (Table 01196) 7-3 reserved 2 Freeze (but not reset) all Power Management timers 1 =0 disable all Power Management functions 0 =0 disable SMI SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX System SMI Enable/Status registers: Bit(s) Description (Table 01197) 7 reserved 6 Write to APMC Port (software SMI) 5 EXTSMI# 4 IRQ12 3 IRQ8 2 IRQ4 1 IRQ3 0 IRQ1 Note: each set bit in the Enable register turns on SMI# generation for the associated hardware event; a set bit in the Status register indicates which event caused the SMI interrupt SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Miscellaneous SMI Enable register: Bit(s) Description (Table 01198) 7-4 reserved 3 Write to APMC Port 2 SRBTN# 1 BATLOW# 0 reserved Note: Enables SMI# generation for the above hardware events SeeAlso: #01168,#01199,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Miscellaneous SMI Status register: Bit(s) Description (Table 01199) 7-4 reserved 3 =1 indicates system is in global standby mode 2 SRBTN# caused SMI 1 BATLOW# caused SMI 0 reserved SeeAlso: #01168,#01198,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Global SMI Enable register: Bit(s) Description (Table 01200) 7 System Events Enabled 6 Software SMI#'s (generated by bit 0 of this register) Enabled 5 reserved 4 Local Traps Enabled 3 Local Standby Timers Enabled 2 Global Standby Timer Enabled 1 SRBTN# and BATLOW# Enabled Note: Enables SMI# generation for the above hardware events SeeAlso: #01168,#01201,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Global SMI Status register: Bit(s) Description (Table 01201) 7 One of the System Events caused SMI 6 Software SMI or EXTSMI# caused SMI 5 Write to APMC caused SMI 4 Access to one of the Local Traps caused SMI 3 One of the local Standby timers caused SMI 2 Global Standby Timer caused SMI 1 SRBTN# or BATLOW# caused SMI 0 reserved SeeAlso: #01168,#01200,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Suspend/Resume Control 1 register: Bit(s) Description (Table 01202) 7 BATLOW# bypasses Suspend delay timer and activates SMI# immediately 6 IRQ8 will NOT cause a resume 5 COM RI (Ring) will NOT cause a resume ("Wake on Ring" function) 4 BATLOW# will not prevent a resume 3 is set by power management software at the end of a suspend routine 2 can be set by power management software at the end of a suspend routine 1-0 Set suspend mode 00 Suspend Disabled 01 reserved 10 Suspend-to-DRAM 11 Suspend-to-Disk SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Suspend/Resume Control 2 register: Bit(s) Description (Table 01203) 7-1 reserved 0 EXTSMI# will NOT cause a resume event SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX SMOUT Control register: Bit(s) Description (Table 01204) 7-6 reserved 5-0 Writing to any bits sets the state of the 6 SMOUTx pins. SMOUT5 is not effected if it is configured for DOE# function SMOUT4 is not effected if it is configured for RTCALE function SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Clock Control register: Bit(s) Description (Table 01205) 7 Clock Throttle standy by timer frequency =1 32ms =0 4ms Note: Sets the granularity of the Clock Throttle Standby Timer 6-5 reserved 4 Enable Auto Clock Throttle 3-2 STPCLK# Mode 00 Disable STPCLK# Function 01 Enable stop grant mode 10 Enable stop clock mode 11 reserved 1 Enable clock throttling 0 Enable "PCI Clock can be stopped" SeeAlso: #01168,PORT xxxxh"Intel 82371" (Table 01206) Values for Intel 82371MX Shadow Register Value AT Port Description 00h 00h Channel 0 Base Address Register (low byte) 01h 00h Channel 0 Base Address Register (high byte) 02h 01h Channel 0 Base Word Count Register (low byte) 03h 01h Channel 0 Base Word Count Register (high byte) 04h 02h Channel 1 Base Address Register (low byte) 05h 02h Channel 1 Base Address Register (high byte) 06h 03h Channel 1 Base Word Count Register (low byte) 07h 03h Channel 1 Base Word Count Register (high byte) 08h 04h Channel 2 Base Address Register (low byte) 09h 04h Channel 2 Base Address Register (high byte) 0Ah 05h Channel 2 Base Word Count Register (low byte) 0Bh 05h Channel 2 Base Word Count Register (high byte) 0Ch 06h Channel 3 Base Address Register (low byte) 0Dh 06h Channel 3 Base Address Register (high byte) 0Eh 07h Channel 3 Base Word Count Register (low byte) 0Fh 07h Channel 3 Base Word Count Register (high byte) 10h 08h DMA1 Command Register 11h 0Bh Channel 0 Mode Register 12h 0Bh Channel 1 Mode Register 13h 0Bh Channel 2 Mode Register 14h 0Bh Channel 3 Mode Register 15h 0Fh DMA1 Mask Register 16h C4h Channel 5 Base Address Register (low byte) 17h C4h Channel 5 Base Address Register (high byte) 18h C6h Channel 5 Base Word Count Register (low byte) 19h C6h Channel 5 Base Word Count Register (high byte) 1Ah C8h Channel 6 Base Address Register (low byte) 1Bh C8h Channel 6 Base Address Register (high byte) 1Ch CAh Channel 6 Base Word Count Register (low byte) 1Dh CAh Channel 6 Base Word Count Register (high byte) 1Eh CCh Channel 7 Base Address Register (low byte) 1Fh CCh Channel 7 Base Address Register (high byte) 20h CDh Channel 7 Base Word Count Register (low byte) 21h CDh Channel 7 Base Word Count Register (high byte) 22h D0h DMA2 Command Register 23h D6h Channel 5 Mode Register 24h D6h Channel 6 Mode Register 25h D6h Channel 7 Mode Register 26h DEh DMA2 Mask Register 27h 20h PIC1 ICW1 28h 21h PIC1 ICW2 29h 21h PIC1 ICW3 2Ah 21h PIC1 ICW4 2Bh 20h PIC1 OCW2 2Ch A0h PIC2 ICW1 2Dh A1h PIC2 ICW2 2Eh A1h PIC2 ICW3 2Fh A1h PIC2 ICW4 30h A0h PIC2 OCW2 31h 70h NMI mask / RTC address 32h 03FAh COM1 FIFO Enable Register (only bits 0,3,6 & 7 valid) 33h 02FAh COM2 FIFO Enable Register (only bits 0,3,6 & 7 valid) 34h 03EAh COM3 FIFO Enable Register (only bits 0,3,6 & 7 valid) 35h 02EAh COM4 FIFO Enable Register (only bits 0,3,6 & 7 valid) 36h 40h TIMER 0 Count Register (low byte) 37h 40h TIMER 0 Count Register (high byte) 38h 20h Master PIC OCW3 Register (bits 0,2 & 5 only valid) 39h A0h Slave PIC OCW3 Register (bits 0,2 & 5 only valid) Desc: This register is used to read the current programmed value of certain AT compatable I/O ports which are traditionally write-only. Note: To read a given register, write the value from the table to the shadow register, then immediately re-read the shadow register. The returned value is the current value of the I/O port. SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Burst Clock/Clock Throttle Break Enable 0 register: Bit(s) Description (Table 01207) 7 Enable IRQ7 6 Enable IRQ6 5 Enable IRQ7 4 Enable IRQ4 3 Enable IRQ3 2 reserved 1 Enable IRQ1 0 Enable IRQ0 SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Event Enable 1 register: Bit(s) Description (Table 01208) 7 Enable IRQ15 6 Enable IRQ14 5 reserved 4 Enable IRQ12 3 Enable IRQ11 2 Enable IRQ10 1 Enable IRQ9 0 Enable IRQ8 SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Event Enable 2 register: Bit(s) Description (Table 01209) 7 (Clock Throttle Break Event,Burst Clock Event) reserved (System Event,Stop Break Event,Clock Throttle Break Event) Enable BATLOW# & SRBTN# 6 Enable EXTSMI# 5 Enable SMI# 4 (System Event,Stop Break Event,Clock Throttle Break Event) Enable NMI (Burst Clock Event) reserved 3 (System Event,Stop Break Event,Clock Throttle Break Event) Enable INTR (Burst Clock Event) reserved 2 reserved 1 Enable COMRI# 0 Enable events of selected type SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Event Enable 3 register: Bit(s) Description (Table 01210) 7-2 reserved 1 Enable EXTEVNT# 0 Enable PHLDA# SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Event Enable 4 register: Bit(s) Description (Table 01211) 7 Enable PMAC1 6 Enable PMAC0 5 Enable PAC5 4 Enable PAC4 3 Enable PAC3 2 Enable PAC2 1 Enable PAC1 0 Enable PCSC SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Event Enable 5 register: Bit(s) Description (Table 01212) 7 Enable COM4 6 Enable COM3 5 Enable COM3 4 Enable COM1 3 Enable Secondary FDC 2 Enable Primary FDC 1 Enable Secondary IDE 0 Enable Promary IDE SeeAlso: #01168,PORT xxxxh"Intel 82371" Bitfields for Intel 82371MX Event Enable 6 register: Bit(s) Description (Table 01213) 7 Enable Audio-E 6 Enable Audio-D 5 Enable Audio-C 4 Enable Audio-B 3 Enable Audio-A 2 Enable Parallel 3 1 Enable Parallel 2 0 Enable Parallel 1 SeeAlso: #01168,PORT xxxxh"Intel 82371" Format of PCI Configuration for Intel 82371FB/82371SB Function 1 (IDE): Offset Size Description (Table 01214) 00h 64 BYTEs header (see #00878) (vender ID 8086h, device ID 1230h/7010h) 20h DWORD Bus Master Interface Base Address (see PORT xxxxh"Intel 82371SB") 40h WORD IDE timing modes, primary channel (see #01223) 42h WORD IDE timing modes, secondary channel (see #01223) 44h BYTE (82371SB) slave IDE timing register (see #01224) 45h 187 BYTEs reserved SeeAlso: #01167,#01215,PORT xxxxh"Intel 82371SB" Format of PCI Configuration data for Intel 82371SB Function 2 (USB): Offset Size Description (Table 01215) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 7020h) 20h DWORD I/O space base address (see PORT xxxxh"Intel 82371SB") 40h 32 BYTEs reserved 60h BYTE Serial Bus Specification release number 00h pre-release 1.0 10h Release 1.0 61h 9 BYTEs reserved 6Ah WORD miscellaneous status (see #01225) 6Ch 84 BYTEs reserved C0h WORD legacy support (see #01226) C2h 62 BYTEs reserved SeeAlso: #01167,#01214,PORT xxxxh"Intel 82371SB" Bitfields for Intel 82371FB/82371SB top of memory register: Bit(s) Description (Table 01216) 7-4 top of ISA memory (in megabytes, less 1; i.e. 0001 = 2M) 3 ISA/DMA lower BIOS forwarding enable 2 (82371SB) enable A000/B000 segment forwarding to PCI bus 1 enable forwarding ISA/DMA 512K-640K region to PCI bus 0 reserved SeeAlso: #01167,#01217 Bitfields for Intel 82371FB/82371SB miscellaneous status register: Bit(s) Description (Table 01217) 15 (82371SB) enable SERR# on delayed transaction write 1 to clear this bit 14-8 reserved 7 (82371SB) NB Retry Enable 6 (82371SB) EXTSMI# Mode Enable allow special SERR# protocol between PCI bridge and 82371 5 reserved 4 (82371SB) enable USB disable USB's master enable and I/O decode enable prior to clearing this bit! 3 reserved 2 (82371FB) PCI Header Type Bit enable =1 report multifunction device in PCI configuration header 1 (82371FB) internal ISA DMA/external DMA Mode status (read-only) =0 normal DMA operation 0 (82371FB) ISA Clock Divisor status (read-only) (82371SB) ISA Clock Divisor (read-write) =1 SYSCLK clock divisor is 3 =0 SYSCLK clock divisor is 4 SeeAlso: #01167,#01216 Bitfields for Intel 82371FB/82371SB/82371MX motherboard IRQ Route Control: Bit(s) Description (Table 01218) 7 disable IRQ routing 6 enable MIRQx/IRQx sharing 5 (82371SB only) enable IRQ0 output 4 reserved (0) 3-0 ISA IRQ number to which to route the PCI IRQ Notes: IRQs 0-2, 8, and 13 are reserved interrupt sharing should only be enabled when the device connected to the MIRQ line and the device connected to the IRQ line both produce active high, level triggered interrupts. SeeAlso: #01167,#01168,#01216,#01219 Bitfields for Intel 82371FB/82371SB/82371MX motherboard DMA control: Bit(s) Description (Table 01219) 7 type F DMA buffer enable 6-4 reserved 3 (82371FB only) disable motherboadr DMA channel (SB/MX) reserved (0) 2-0 DMA channel number (100 = disabled [default]) (82371FB) Type F and Motherboard DMA (82371SB/MX) Type F DMA SeeAlso: #01167,#01168,#01218 Bitfields for Intel 82371FB/83271SB programmable chip select control register: Bit(s) Description (Table 01220) 15-2 I/O address which will assert PCS# signal 1-0 PCS address mask 00 four bytes 01 eight contiguous bytes 10 disabled 11 sixteen contiguous bytes SeeAlso: #01167,#01219,#01221 Bitfields for Intel 82371SB Deterministic Latency Control register: Bit(s) Description (Table 01221) 7-4 reserved 3 enable SERR# on delayed transaction timeout 2 enable USB passive release 1 enable passive release 0 enable delayed transactions SeeAlso: #01167,#01220 Bitfields for Intel 82371FB/82371SB SMI Control Register: Bit(s) Description (Table 01222) 7-5 reserved 4-3 Fast-Off Timer freeze/granularity selection 00 one minute granularity (assuming 33 MHz PCICLK) 01 disabled (frozen) 10 one PCICLK 11 one millisecond 2 STPCLK# scaling enable =1 enable Clock Scale bytes in PCI configuration space 1 STPCLK# signal enable =1 assert STPCLK# on read from PORT 00B2h 0 SMI# Gate =1 enable SMI# on system management interrupt Notes: bit 1 is cleared either with an explicit write of 0 here, or by any write to PORT 00B2h bit 0 does not affect the recording of SMI events, so a pending SMI will cause an immediate SMI# when the bit is set SeeAlso: #01167,#01079 Bitfields for Intel 82371FB/82371SB/82371MX IDE timing modes: Bit(s) Description (Table 01223) 15 IDE decode enable 14 (82371SB) slave IDE timing register enable (see #01224) (82371MX) primary/secondary address decode (=0 primary, =1 secondary) 13-12 IORDY# sample point 00 five clocks after DIOx# assertion 01 four clocks 10 three clocks 11 two clocks 11-10 reserved 9-8 recovery time between IORDY# sample point and DIOx# 00 four clocks 01 three clocks 10 two clocks 11 one clock 7 (FB/SB) DMA timing enable only, drive 1 (MX) reserved 6 prefetch and posting enable, drive 1 5 IORDY# sample point enable drive select 1 4 fast timing bank drive select 1 3 (FB/SB) DMA timing enable only, drive 0 (MX) reserved 2 prefetch and posting enable, drive 0 1 IORDY# sample point enable drive select 0 0 fast timing bank drive select 0 SeeAlso: #01214,#01168 Bitfields for Intel 82371SB slave IDE timing register: Bit(s) Description (Table 01224) 7-6 secondary drive 1 IORDY# sample point 00 five clocks after DIOx# assertion 01 four clocks 10 three clocks 11 two clocks 5-4 secondary drive 1 recovery time 00 four clocks 01 three clocks 10 two clocks 11 one clock 3-2 primary drive 1 IORDY# sample point 1-0 primary drive 1 recovery time SeeAlso: #01223 Bitfields for Intel 82371SB miscellaneous status: Bit(s) Description (Table 01225) 15-1 reserved 0 USB clock selection =1 48 MHz =0 24 MHz SeeAlso: #01215,#01226 Bitfields for Intel 82371SB legacy support register: Bit(s) Description (Table 01226) 15 A20GATE pass-through sequence ended write 1 to clear this bit 14 reserved 13 USB PIRQ enabled 12 USR IRQ status (read-only) 11 trap caused by write to PORT 0064h write 1 to clear this bit 10 trap caused by read from PORT 0064h write 1 to clear this bit 9 trap caused by write to PORT 0060h write 1 to clear this bit 8 trap caused by read from PORT 0060h write 1 to clear this bit 7 enable SMI at end of A20GATE Pass-Through 6 A20GATE pass-through sequence in progress (read-only) 5 enable A20GATE pass-through sequence (write PORT 64h,D1h; write 60h,xxh; read 64h; write 64h,FFh) 4 enable trap/SMI on USB IRQ 3 enable trap/SMI on PORT 0064h write 2 enable trap/SMI on PORT 0064h read 1 enable trap/SMI on PORT 0060h write 0 enable trap/SMI on PORT 0060h read SeeAlso: #01215,#01225 Format of PCI Configuration Data for Intel 82557: Offset Size Description (Table 01227) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 1229h) (see #00873) 10h DWORD base address of memory-mapped Control/Status Registers (4K) (see #01228) 14h DWORD base address of I/O-mapped Control/Status Registers (32 ports) 18h DWORD base address of Flash memory (1M) 40h 192 BYTEs unused SeeAlso: #01098 Format of Intel 82557 Control/Status Registers: Offset Size Description (Table 01228) 00h WORD SCB status word 02h WORD SCB command word 04h DWORD SCB general pointer 08h DWORD PORT 0Ch WORD Flash control register 0Eh WORD EEPROM control register 10h DWORD MDI control register 14h DWORD Early RCV Interrupt Rx byte count (RXBC) register Note: see www.intel.com/design/network/datashts/64434604.pdf for additional details SeeAlso: #01228 Format of PCI Configuration Data for Intel 82441FX: Offset Size Description (Table 01229) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 1237h) (see #00873) 40h 16 BYTEs reserved 50h WORD PMC Configuration (see #01230) 52h BYTE deturbo counter control when deturbo mode is selected (see PORT 0CF9h), the chipset places a hold on the memory bus for a fraction of the time inversely proportional to the value in this register (i.e. C0h = 1/4, 80h = 1/2, 40h = 3/4, 20h = 7/8, etc.) 53h BYTE DBX buffer control (see #01231) 54h BYTE auxiliary control (see #01232) 55h WORD DRAM Row Type (see #01233) 57h BYTE DRAM Control (see #01234) 58h BYTE DRAM Timing (see #01235) 59h 7 BYTEs Programmable Attribute Map registers 0-6 (see #01118) 60h 8 BYTEs DRAM Row Buondary registers 0-7 each register N indicates cumulative amount of memory in rows 0-N (each 64 bits wide), in 8M units 68h BYTE Fixed DRAM Hole Control 69h 7 BYTEs reserved 70h BYTE Multi-Transaction Timer number of PCLKs guaranteed to the current agent before the 82441 will grant the bus to another PCI agent on request 71h BYTE CPU Latency Timer (see #01236) 72h BYTE System Management RAM control (see #01123) 73h 29 BYTEs reserved 90h BYTE Error Command (see #01237) 91h BYTE Error Status (see #01238) 92h BYTE reserved 93h BYTE Turbo Reset Control (see #01239) 94h 108 BYTEs reserved SeeAlso: #01098,#01108 Bitfields for Intel 82441FX PMC Configuration Register: Bit(s) Description (Table 01230) 15 WSC Protocol Enable 14 Row Select/Extra Copy select (read-only) =1 pins on PMC configured as two additional row selects (6/7) =0 extra copy of two lowest memory address bits enabled 13-10 reserved 9-8 host frequence select 00 reserved 01 60 MHz 10 66 MHz 11 reserved 7 reserved 6 ECC/Parity TEST enable 5-4 DRAM Data Integrity Mode 00 no parity/ECC 01 parity generated and checked 10 ECC generated and checked, correction disabled 10 ECC generated and checked, correction enabled 3 reserved 2 In-Order Queue size (0=one, 1=four) 1-0 reserved SeeAlso: #01229,#01231 Bitfields for Intel 82441FX DBX buffer control register: Bit(s) Description (Table 01231) 7 enable delayed transactions 6 enable CPU-to-PCI IDE posting 5 enable USWC Write Post during I/O Bridge access 4 disable PCI Delayed Transaction timer 3 enable CPU-to-PCI Write Post 2 enable PCI-to-DRAM pipeline 1 enable PCI Burst Write Combining 0 enable Read-Around-Write SeeAlso: #01229,#01230 Bitfields for Intel 82441FX auxiliary control register: Bit(s) Description (Table 01232) 7 enable RAS precharge 6-2 reserved 1 Lower Memory Address Buffer Set A =0 8mA =1 12mA 0 reserved SeeAlso: #01229 Bitfields for Intel 82441FX DRAM Row Type register: Bit(s) Description (Table 01233) 15-14 row 7 DRAM type 13-12 row 6 DRAM type 11-10 row 5 DRAM type 9-8 row 4 DRAM type 7-6 row 3 DRAM type 5-4 row 2 DRAM type 3-2 row 1 DRAM type 1-0 row 0 DRAM type 00 fast page-mode DRAM 01 EDO DRAM 10 BEDO DRAM 11 empty row SeeAlso: #01229,#01234 Bitfields for Intel 82441FX DRAM Control register: Bit(s) Description (Table 01234) 7 reserved 6 enable DRAM Refresh Queue 5 enable DRAM EDO Auto-Detect Mode 4 DRAM Refresh Type =0 CAS before RAS =1 RAS only 3 reserved 2-0 DRAM refresh rate 000 disabled 001 normal (as set by PMCCFG register) 01x reserved 1xx reserved 111 fast refresh (every 32 host clocks) SeeAlso: #01229,#01233,#01235 Bitfields for Intel 82441FX DRAM Timing register: Bit(s) Description (Table 01235) 7 reserved 6 enable WCBR Mode 5-4 DRAM Read Burst Timing BEDO EDO FPM 00 x333 x444 x444 01 x222 x333 x444 10 x222 x222 x333 11 res. res. res. 3-2 DRAM Write Burst Timing (B)EDO FPM 00 x444 x444 01 x333 x444 10 x333 x333 11 x222 x333 1 RAS-to-CAS delay =1 one clock =0 zero clocks 0 insert one MA Wait State SeeAlso: #01229,#01234 Bitfields for Intel 82441FX CPU Latency Timer register: Bit(s) Description (Table 01236) 7-5 reserved 4-0 snoop stall count value SeeAlso: #01229 Bitfields for Intel 82441FX Error Command register: Bit(s) Description (Table 01237) 7-5 reserved 4 enable SERR# on receiving Target Abort 3 enable SERR# on PCI Parity Error (PERR#) 2 reserved 1 enable SERR# on receiving multiple-bit ECC/Parity error 0 enable SERR# on receiving single-bit ECC error SeeAlso: #01229,#01238 Bitfields for Intel 82441FX Error Status register: Bit(s) Description (Table 01238) 7-5 DRAM row causing first multi-bit error (read-only) 4 multiple-bit uncorrectable error detected write 1 to this bit to clear it 3-1 DRAM row causing first single-bit error (read-only) 0 single-bit correctable ECC error detected write 1 to this bit to clear it SeeAlso: #01229,#01237 Bitfields for Intel 82441FX,82443EX/LX Turbo Reset Control register: Bit(s) Description (Table 01239) 7-4 reserved 3 enable BIST on hard reset 2 reset CPU 1 reset mode (0 = soft reset, 1 = hard reset) 0 deturbo mode (82441FX) reserved (82443EX/LX) Note: BIST should not be enabled during a soft reset SeeAlso: #01229,#01129,PORT 0CF9h Format of PCI Configuration data for Intel 82454KX/GX: Offset Size Description (Table 01240) 00h 64 BYTEs header (see #00878) (vendor ID 8086h, device ID 84C4h) !!!intel\29052301.pdf pg. 40 40h DWORD top of system memory 44h 4 BYTEs reserved 48h BYTE PCI decode mode 49h BYTE bridge device number 4Ah BYTE PCI bus number 4Bh BYTE PCI subordinate bus number 4Ch BYTE PB configuration 4Dh 4 BYTEs reserved 51h BYTE deturbo counter control 52h BYTE reserved 53h BYTE CPU read/write control 54h WORD PCI read/write control 56h BYTE reserved 57h BYTE SMM Enable 58h BYTE video buffer area enable 59h 7 BYTEs Programmable Attribute Map registers 0-6 (see #01118) 60h 16 BYTEs reserved 70h BYTE Error Command 71h BYTE Error Status 72h 6 BYTEs reserved 78h WORD memory gap range 7Ah WORD memory gap upper address 7Ch DWORD PCI frame buffer 80h 8 BYTEs reserved 88h DWORD high memory gap start address 8Ch DWORD high memory gap end address 90h 8 BYTEs reserved 98h DWORD (GX only) I/O Space Range #1 9Ch BYTE PCI reset 9Dh 3 BYTEs reserved A0h DWORD (GX only) I/O Space Range #2 A4h DWORD I/O APIC range A8h 8 BYTEs reserved B0h WORD configuration values driven on reset B2h 2 BYTEs reserved B4h WORD captured system configuration values (read-only) B6h 2 BYTEs reserved B8h DWORD SMM range BCh BYTE high BIOS register BDh 3 BYTEs reserved C0h DWORD PB Extended Error Reporting Command C4h DWORD PB Extended Error Reporting Status C8h DWORD PB Retry Timers CCh 52 BYTEs reserved SeeAlso: #00878 --------X-1AB10ASF9004----------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION DWORD (Adaptec devices) AX = B10Ah subfn 9004h BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) (see #01241) Return: CF clear if successful ECX = dword read CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Ah,AX=B10Ah/SF=8086h Format of PCI Configuration Data for AIC-78xx PCI SCSI controllers: Offset Size Description (Table 01241) 00h 64 BYTEs header (see #00878) (vendor ID 9004h) (see #00875 for device ID) 40h WORD device configuration register (DEVCONFIG) (see #01242) SeeAlso: #00734,PORT xxxxh"Adaptec AIC-78xx" Bitfields for AIC-78xx device configuration register (DEVCONFIG): Bit(s) Description (Table 01242) 15-11 reserved 10 (AIC-787x+) multi-port mode (MPORTMODE) 9 (AIC-787x+) external SRAM present? (RAMPSM) 8 "VOLSENSE" 7 SCB RAM select (SCBRAMSEL) 6 "MRDCEN" 5 (AIC-787x+) external SCB SRAM access time (EXTSCBTIME) 4 (AIC-787x+) external SCB SRAM parity enable (EXTSCBPEN) 3 "BERREN" 2 "DACEN" 1 SCSI terminator power level (STPWLEVEL) 0 (AIC-787x+) differential active negation enable (DIFACTNEGEN) Note: clearing bit 7 allows access to the external SCB SRAM SeeAlso: #01241 --------X-1AB10B----------------------------- INT 1A - PCI BIOS v2.0c+ - WRITE CONFIGURATION BYTE AX = B10Bh BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) CL = byte to write Return: CF clear if successful CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B108h,AX=B10Ch,AX=B10Dh,AX=B18Bh,INT 2F/AX=1684h/BX=304Ch --------X-1AB10C----------------------------- INT 1A - PCI BIOS v2.0c+ - WRITE CONFIGURATION WORD AX = B10Ch BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (multiple of 2 less than 0100h) CX = word to write Return: CF clear if successful CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B109h,AX=B10Bh,AX=B10Dh,AX=B18Ch,INT 2F/AX=1684h/BX=304Ch --------X-1AB10D----------------------------- INT 1A - PCI BIOS v2.0c+ - WRITE CONFIGURATION DWORD AX = B10Dh BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (multiple of 4 less than 0100h) ECX = dword to write Return: CF clear if successful CF set on error AH = status (00h,87h) (see #00729) EAX, EBX, ECX, and EDX may be modified all other flags (except IF) may be modified Notes: this function may require up to 1024 byte of stack; it will not enable interrupts if they were disabled before making the call the meanings of BL and BH on entry were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Ah,AX=B10Bh,AX=B10Ch,AX=B18Dh,INT 2F/AX=1684h/BX=304Ch --------X-1AB10EBX0000----------------------- INT 1A - PCI BIOS v2.1+ - GET IRQ ROUTING INFORMATION AX = B10Eh BX = 0000h DS = segment/selector for PCI BIOS data (real mode: F000h; 16-bit PM: physical 000F0000h; 32-bit PM: as specified by BIOS32 services directory) ES:(E)DI -> IRQ routing table header (see #01259 at AX=B406h) Return: CF clear if successful AH = 00h BX = bit map of IRQ channels permanently dedicated to PCI WORD ES:[DI] = size of returned data CF set on error AH = error code (59h) (see #01243) WORD ES:[DI] = required size of buffer SeeAlso: AX=B10Fh,AX=B406h,INT 2F/AX=1684h/BX=304Ch --------X-1AB10F----------------------------- INT 1A - PCI BIOS v2.1+ - SET PCI IRQ AX = B10Fh BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) CH = number of IRQ to connect CL = number of interrupt pin (0Ah=INTA# to 0Dh=INTD#) to reprogram DS = segment/selector for PCI BIOS data (real mode: F000h; 16-bit PM: physical 000F0000h; 32-bit PM: as specified by BIOS32 services directory) Return: CF clear if successful AH = 00h CF set on error AH = error code (59h) (see #01243) Note: assumes that the calling application has determined the IRQ routing topology (see AX=B10Eh), has ensured that the selected IRQ will not cause a conflict, and will update the interrupt line configuration register on all devices which currently use the IRQ line SeeAlso: AX=B10Eh --------X-1AB181----------------------------- INT 1A - PCI BIOS v2.0c+ - INSTALLATION CHECK (32-bit) AX = B181h Return: as for AX=B101h SeeAlso: AX=B101h --------X-1AB182----------------------------- INT 1A - PCI BIOS v2.0c+ - FIND PCI DEVICE (32-bit) AX = B182h CX = device ID (see #00735,#00742,#00743,#00873,#00875) DX = vendor ID (see #00732 at AX=B102h) SI = device index (0-n) Return: as for AX=B102h SeeAlso: AX=B102h --------X-1AB183----------------------------- INT 1A - PCI BIOS v2.0c+ - FIND PCI CLASS CODE (32-bit) AX = B183h ECX = class code (bits 23-0) SI = device index (0-n) Return: as for AX=B103h SeeAlso: AX=B103h --------X-1AB186----------------------------- INT 1A - PCI BIOS v2.0c+ - PCI BUS-SPECIFIC OPERATIONS (32-bit) AX = B186h BH = bus number EDX = Special Cycle data Return: as for AX=B106h Note: the meanings of BL and BH on return were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B106h --------X-1AB188----------------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION BYTE (32-bit) AX = B188h BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) Return: as for AX=B108h Note: the meanings of BL and BH on return were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B108h,AX=B189h,AX=B18Ah --------X-1AB189----------------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION WORD (32-bit) AX = B189h BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) Return: as for AX=B109h Note: the meanings of BL and BH on return were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B109h,AX=B188h,AX=B18Ah --------X-1AB18A----------------------------- INT 1A - PCI BIOS v2.0c+ - READ CONFIGURATION DWORD (32-bit) AX = B18Ah BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) Return: as for AX=B10Ah Note: the meanings of BL and BH on return were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Ah,AX=B188h,AX=B189h --------X-1AB18B----------------------------- INT 1A - PCI BIOS v2.0c+ - WRITE CONFIGURATION BYTE (32-bit) AX = B18Bh BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (0000h-00FFh) CL = byte to write Return: as for AX=B10Bh Note: the meanings of BL and BH on return were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Bh,AX=B18Ch,AX=B18Dh --------X-1AB18C----------------------------- INT 1A - PCI BIOS v2.0c+ - WRITE CONFIGURATION WORD (32-bit) AX = B18Ch BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (multiple of 2 less than 0100h) CX = word to write Return: as for AX=B10Ch Note: the meanings of BL and BH on return were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Ch,AX=B18Bh,AX=B18Dh --------X-1AB18D----------------------------- INT 1A - PCI BIOS v2.0c+ - WRITE CONFIGURATION DWORD (32-bit) AX = B18Dh BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) DI = register number (multiple of 4 less than 0100h) ECX = dword to write Return: as for AX=B10Dh Note: the meanings of BL and BH on return were exchanged between the initial drafts of the specification and final implementation SeeAlso: AX=B10Dh,AX=B18Bh,AX=B18Ch --------X-1AB18EBX0000----------------------- INT 1A - PCI BIOS v2.1+ - GET IRQ ROUTING INFORMATION (32-bit) AX = B18Eh BX = 0000h DS = segment/selector for PCI BIOS data (real mode: F000h; 16-bit PM: physical 000F0000h; 32-bit PM: as specified by BIOS32 services directory) ES:(E)DI -> IRQ routing table header (see #01259 at AX=B406h) Return: CF clear if successful AH = 00h BX = bit map of IRQ channels permanently dedicated to PCI WORD ES:[DI] = size of returned data CF set on error AH = error code (59h) (see #01243) WORD ES:[DI] = required size of buffer SeeAlso: AX=B10Fh,AX=B406h,INT 2F/AX=1684h/BX=304Ch --------X-1AB18F----------------------------- INT 1A - PCI BIOS v2.1+ - SET PCI IRQ (32-bit) AX = B18Fh BH = bus number BL = device/function number (bits 7-3 device, bits 2-0 function) CH = number of IRQ to connect CL = number of interrupt pin (0Ah=INTA# to 0Dh=INTD#) to reprogram DS = segment/selector for PCI BIOS data (real mode: F000h; 16-bit PM: physical 000F0000h; 32-bit PM: as specified by BIOS32 services directory) Return: CF clear if successful AH = 00h CF set on error AH = error code (59h) (see #01243) Note: assumes that the calling application has determined the IRQ routing topology (see AX=B10Eh), has ensured that the selected IRQ will not cause a conflict, and will update the interrupt line configuration register on all devices which currently use the IRQ line SeeAlso: AX=B10Eh --------X-1AB2------------------------------- INT 1A - Reserved For PCI AH = B2h --------X-1AB3------------------------------- INT 1A - Reserved For PCI AH = B3h --------X-1AB400----------------------------- INT 1A - Intel Plug-and-Play AUTO-CONFIGURATION - INSTALLATION CHECK AX = B400h Return: CF clear if installed AX = 0000h if installed BH = ACFG major version (02h) BL = ACFG minor version (08h) CX = ??? (0002h) EDX = 47464341h ('GFCA', which is byte-swapped 'ACFG') SI = ??? (001Fh) SeeAlso: AX=B401h,AX=B402h,AX=B403h,AX=B404h,AX=B405h,AX=B406h,AX=B407h SeeAlso: @xxxxh:xxxxh"Plug-and-Play" (Table 01243) Values for Intel Plug-and-Play AUTO-CONFIGURATION error codes: 0000h successful 0001h specified action could not be completed 0051h ??? 0055h unable to read/write configuration table from/to nonvolatile storage 0056h not a valid configuration table or wrong table version 0059h buffer too small 0081h unsupported function FFFFh ??? SeeAlso: #F0081 --------X-1AB401----------------------------- INT 1A - Intel Plug-and-Play AUTO-CONFIGURATION - GET DEFAULT CONFIG TABLE AX = B401h Return: CF clear if successful AX = 0000h BX = maximum size of configuration table in bytes CX = required configuration buffer size (includes scratch space used by ACFG code) EDI = linear/physical address of ESCD table (see #01244) CF set on error AX = error code (see #01243) SeeAlso: AX=B400h,AX=B402h,@xxxxh:xxxxh"Plug-and-Play" Format of Intel Plug-and-Play Extended System Configuration Data table: Offset Size Description (Table 01244) 00h WORD total length of this table 02h 4 BYTEs signature "ACFG" 06h BYTE minor version number 07h BYTE major version number (currently 02h) 08h BYTE number of boards listed in the configuration data 09h 3 BYTEs reserved (00h) 0Ch var board data WORD checksum Notes: this table contains information about the standard devices in the system, such as serial ports, parallel ports, etc. For each device, it includes at least the I/O port address (03F8h,02F8h,0378h,etc). the sum of all words in the table, including the checksum field (with implied zero padding if the length is odd), must equal 0000h SeeAlso: #01245 Format of Extended System Configuration Data Board Header: Offset Size Description (Table 01245) 00h WORD length of this header in bytes 02h BYTE slot number 00h motherboard 01h-0Fh ISA/EISA 10h-40h PCI 03h BYTE reserved (00h) SeeAlso: #01244,#01246 Format of Extended System Configuration Data Freeform Board Header: Offset Size Description (Table 01246) 00h 4 BYTEs signature "ACFG" 04h BYTE minor version number 05h BYTE major version number (currently 02h) 06h BYTE board type 01h ISA 02h EISA 04h PCI 08h PCMCIA 10h PnPISA 20h MCA 07h BYTE reserved (00h) 08h WORD disabled functions (bit N set = function N disabled) 0Ah WORD configuration error functions 0Ch WORD reconfigurable functions (bit N set = function N reconfig'able) 0Eh 2 BYTEs reserved (00h) SeeAlso: #01249,#01250 Format of Extended System Configuration Data Freeform PCI Device Data: Offset Size Description (Table 01247) 00h BYTE PCI bus number 01h BYTE PCI device and function number 02h WORD PCI device identifier 04h WORD PCI vendor ID (see #00732 at INT 1A/AX=B102h) 06h 2 BYTEs reserved (00h) SeeAlso: #01247,#01250 Format of Extended System Configuration Data Freeform PnP ISA Board ID: Offset Size Description (Table 01248) 00h DWORD vendor ID (EISA device identifier) 04h DWORD serial number SeeAlso: #01248,#01249 Format of Extended System Configuration Data PnP ISA ECD Extension Function: Offset Size Description (Table 01249) 00h WORD 001Eh (length of this structure) 02h BYTE 01h (selection size) 03h BYTE 00h (selection data) 04h BYTE C0h (function information byte) (see #01252) 05h BYTE 18h (size of following free-format data) 06h 16 BYTEs freeform board header (see #01246) 16h 8 BYTEs Plug-and-Play board ID (see #01248) Note: ECD = Extended Configuration Data; this structure must be the last "function" for a particular ISA Plug-and-Play board SeeAlso: #01250 Format of Extended System Configuration Data PCI ECD Extension Function: Offset Size Description (Table 01250) 00h WORD length of this structure (at least 001Eh, up to 0056h) 02h BYTE 01h (selection size) 03h BYTE 00h (selection data) 04h BYTE C0h (function information byte) (see #01252) 05h BYTE size of following free-format data (at least 18h, max 50h) 06h 16 BYTEs freeform board header (see #01246) 16h 8N BYTEs PCI board ID (see #01247) for one to eight boards Notes: ECD = Extended Configuration Data; this structure must be the last "function" for a particular PCI board AMI BIOS v1.00.05.AX1 sets the length field to 001Ch for entries with a single board ID, apparently treating the field as the length of the remainder of the structure instead of the full structure's length SeeAlso: #01249 Bitfields for EISA ID and Slot Information: Bit(s) Description (Table 01251) 3-0 selector among duplicate configuration file names (0000 if no dups) 5-4 slot type 00 expansion slot 01 embedded 10 virtual slot 11 reserved 6 ID is readable 7 duplicate IDs present 8 board can be disabled 9 IOCHKERR supported 10 board or entries locked 13-11 reserved 14 board does not have or need configuration file 15 configuration not complete SeeAlso: #01252 Bitfields for EISA Function Information: Bit(s) Description (Table 01252) 0 subtype data 1 memory information (see #01253) 2 IRQ information (see #01255) 3 DMA information (see #01256) 4 port range information (see #01257) 5 port initialization data (see #01258) 6 free form data 7 function disabled SeeAlso: #01249,#01250,#01251 Format of EISA Memory Information: Offset Size Description (Table 01253) 00h WORD memory information flags (see #01254) 02h 3 BYTEs high 24 bits of memory start address (LSB first) 05h WORD memory size in K (0000h = 65536K) SeeAlso: #01252 Bitfields for EISA Memory Information Flags: Bit(s) Description (Table 01254) 0 writable (RAM rather than ROM) 1 cached 2 write-back cache rather than write-through 4-3 memory type 00 system 01 expantion 10 virtual 11 other 5 shared 6 reserved (0) 7 more entries follow 9-8 memory width 00 byte 01 word 10 dword 11 reserved 11-10 decoded address lines 00 = 20 01 = 24 10 = 32 11 reserved 15-12 reserved (0) SeeAlso: #01253 Bitfields for EISA IRQ Information: Bit(s) Description (Table 01255) 3-0 IRQ number 4 reserved (0) 5 IRQ triggering (0 = edge, 1 = level) 6 IRQ is shareable 7 more entries follow 15-8 reserved (0) SeeAlso: #01252 Bitfields for EISA DMA Information: Bit(s) Description (Table 01256) 2-0 DMA channel number 5-3 reserved (0) 6 shareable 7 more entries follow 9-8 reserved 11-10 DMA transfer size 00 byte 01 word 10 dword 11 word, but count in bytes 13-12 DMA timing 00 ISA-compatible 01 EISA type "A" 10 EISA type "B" 11 EISA type "C"/"F" (burst) 15-14 reserved (0) SeeAlso: #01252 Format of EISA Port Range Information: Offset Size Description (Table 01257) 00h BYTE port description bits 4-0: number of sequential ports bit 5 reserved (0) bit 6: shareable bit 7: more entries follow 01h WORD I/O port address SeeAlso: #01252,#01258 Format of EISA Port Initialization Data: Offset Size Description (Table 01258) 00h BYTE flags bits 1-0: port size 00 byte 01 word 10 dword 11 reserved bit 2: masked write bits 6-3 reserved (0) bit 7: more entries follow 01h ??? SeeAlso: #01252,#01257 --------X-1AB402----------------------------- INT 1A - Intel Plug-and-Play AUTO-CONFIGURATION - COPY AND VERIFY CONFIG TABLE AX = B402h DS:SI -> configuration table (see #01244) ES:DI -> buffer for copy of configuration table Return: CF clear if successful AX = 0000h CF set on error AX = error code (0055h,0056h) (see #01243) Note: the buffer pointed at by ES:DI must be at least as large as the maximum configuration table size reported by AX=B401h SeeAlso: AX=B400h,AX=B401h,AX=B403h --------X-1AB403----------------------------- INT 1A - Intel Plug-and-Play AUTO-CONFIGURATION - STORE ESCD TABLE IN NVRAM AX = B403h DS:SI -> configuration table (see #01244) Return: CF clear if successful AX = 0000h CF set on error AX = error code (0055h) (see #01243) Note: sets the configuration table's checksum field, then copies the table into nonvolatile storage (i.e. FlashROM) SeeAlso: AX=B400h,AX=B402h --------X-1AB404----------------------------- INT 1A - Intel Plug-and-Play AUTO-CONFIGURATION - GET AVAILABLE IRQs??? AX = B404h BX = bitmap of IRQs being used??? Return: CF clear if successful AX = 0000h BX = available for ISA??? (not(BXin) & A127h) CX = available for on-board I/O??? (not(BXin) & 40D8h) DX = available for PCI??? (either not(BXin) & 0E00h or 0000h) CF set on error AX = error code (0051h) (see #01243) Note: the various vector types have also been called "shareable", "unshareable", and "avoidable" SeeAlso: AX=B400h,INT 2F/AX=1684h/BX=304Ch --------X-1AB405----------------------------- INT 1A - Intel Plug-and-Play AUTO-CONFIGURATION - GET ??? AX = B405h Return: AX = ??? (0008h) SeeAlso: AX=B400h --------X-1AB406----------------------------- INT 1A - Intel Plug-and-Play AUTO-CONFIGURATION - GET PCI IRQ ROUTING TABLE AX = B406h ES:DI -> IRQ routing table header (see #01259) Return: CF clear if successful AX = 0000h WORD ES:[DI] = size of returned data CF set on error AX = error code (0059h) (see #01243) WORD ES:[DI] = required size of buffer SeeAlso: AX=B400h,AX=B404h,AX=B10Eh,INT 2F/AX=1684h/BX=304Ch Format of Intel Plug-and-Play AUTO-CONFIGURATION PCI IRQ routing header: Offset Size Description (Table 01259) 00h WORD length of IRQ routing table buffer 02h DWORD -> IRQ routing table array buffer (see #01260) Format of Intel Plug-and-Play ACFG PCI IRQ routing table entry [array]: Offset Size Description (Table 01260) 00h BYTE PCI bus number 01h BYTE PCI device number (bits 7-3) 02h BYTE link value for INTA# (if non-zero, wire-ORed together with any other PCI interrupts with same link value) 03h WORD IRQ connectivity bit map for INTA# (standard AT IRQs to which PCI interrupt can be routed) 05h BYTE link value for INTB# 06h WORD IRQ connectivity bit map for INTB# 08h BYTE link value for INTC# 09h WORD IRQ connectivity bit map for INTC# 0Bh BYTE link value for INTD# 0Ch WORD IRQ connectivity bit map for INTD# 0Eh BYTE (PCI BIOS v2.1+) device slot number (00h = motherboard) 0Fh BYTE reserved Note: each item in the routing table corresponds to a motherboard PCI device or PCI slot SeeAlso: #01259,#M0091 --------X-1AB407----------------------------- INT 1A - Intel Plug-and-Play AUTO-CONFIGURATION - ??? AX = B407h EDX = length of ??? EDI = physical address of ??? Return: CF clear if successful AX = 0000h EDX = ??? EDI = ??? CF set on error AX = error code (FFFFh) (see #01243) Notes: returns error if EDI < 000C0000h or EDI+EDX > 00100000h seems to force EDI and EDX to align to 16K boundaries SeeAlso: AX=B400h --------X-1AB4------------------------------- INT 1A - Intel Plug-and-Play AUTO-CONFIGURATION - 32-BIT API AH = B4h AL = function (80h-87h) further details not yet available Note: these functions are 32-bit versions of functions 00h-07h --------c-1AC0------------------------------- INT 1A U - Disk Spool II v2.07+ - ALTERNATE INSTALLATION CHECK AH = C0h Return: (see AH=A0h) Notes: this call is identical to AH=A0h this function is also supported by Vertisoft's Emulaser utility ELSPL, as that is a licensed version of Disk Spool II SeeAlso: AH=A0h,AH=ABh,AH=D0h --------U-1ACCCCBXCCCC----------------------- INT 1A U - DATEFIX - INSTALLATION CHECK AX = CCCCh BX = CCCCh CX = 0000h Return: CX = CCCCh if installed ES:BX -> original interrupt handler Program: DATEFIX is a public-domain TSR to correct the date on AT&T 6300 machines, where the realtime clock's calendar wraps after 1991 SeeAlso: AH=FEh,AH=FFh"AT&T" --------c-1AD0------------------------------- INT 1A U - Disk Spool II v2.07+ - FUNCTION CALLS AH = D0h AL = function code 01h enable spooler and despooler 02h enable spooler only 03h enable despooler at beginning of file 04h disable the despooler 05h disable the despooler and spooler 06h clear the spool file 08h inhibit the popup menu 09h enable the popup menu 0Ah ??? (called by Disk Spool's INT 21 handler) 0Bh disable the spooler 0Ch start despooler after last successfully printed document 0Dh start despooler at the exact point where it last left off 0Eh pop up the menu 0Fh ??? 11h start new spool file??? (called by Disk Spool's INT 21 handler when a program terminates) 14h ??? 15h delete despool file and reset ??? 16h ??? (writes something to unknown file) 17h ??? (writes something to despool file, then reads something else and ???) 18h ??? (reads something from despool file, and then ???) 19h ??? (creates/truncates spool file) 20h clear file pointed to by the despooler 21h ??? (writes something to unknown file) 22h ??? (writes something to spool file if spooler/despooler using same file) 23h ??? (opens/creates unknown file, then ???) 30h ??? 31h ??? 32h beep 33h append CRLF to spool file??? 34h ??? 35h ??? 36h ??? 37h append CRLF to spool file and start a new spool file??? 38h ??? 40h ??? (v4.05) 41h ??? (v4.05) 51h ??? (called by Disk Spool's INT 21 handler) 52h ??? (called by Disk Spool's INT 21 handler) 57h ??? 5Ah ??? (v4.05) 5Bh ??? (v4.05) 5Ch ??? (v4.05) Note: this function is also supported by Vertisoft's Emulaser utility ELSPL, as that is a licensed version of Disk Spool II SeeAlso: AH=A0h,AH=ADh --------c-1AE0------------------------------- INT 1A - Disk Spool II v4.0x - ENABLE/DISABLE AH = E0h AL = subfunction 01h enable spooler 02h disable spooler 03h enable despooler 04h disable despooler CL = printer port (01h COM1, 02h COM2, 05h LPT1, 06h LPT2) Return: AH = status 00h successful F0h printer port not managed by Disk Spool II FFH failed Note: this function is also supported by Vertisoft's Emulaser utility ELSPL, as that is a licensed version of Disk Spool II SeeAlso: AH=A0h,AH=E1h,AX=E301h,AX=E401h --------c-1AE1------------------------------- INT 1A - Disk Spool II v4.0x - GET STATUS AH = E1h CL = printer port (01h COM1, 02h COM2, 05h LPT1, 06h LPT2) Return: AH = status 00h successful CL = despooler state (00h disabled, 41h enabled) CH = spooler state (00h disabled, 41h enabled) DL = despooler activity (00h standing by, 41h printing) ES:BX -> ASCIZ name of current spool file (or next if AutoSpool or AutoDespool enabled) ES:SI -> ASCIZ name of current despool file ES:DI -> 3-byte file extension used by Disk Spool II F0h printer port not managed by Disk Spool II Note: this function is also supported by Vertisoft's Emulaser utility ELSPL, as that is a licensed version of Disk Spool II SeeAlso: AH=A0h,AH=E0h,AH=E2h --------U-1AE11B----------------------------- INT 1A - TheGrab v4.60 - ??? AX = E11Bh ??? Return: ??? (may destroy all registers) SeeAlso: AX=E11Dh --------U-1AE11D----------------------------- INT 1A - TheGrab v4.60 - INSTALLATION CHECK AX = E11Dh Return: ES:DI -> signature block (see #01261) if installed CX = length of signature block (000Fh) Program: TheGrab is a resident ANSI screen grabber bundled with TheDraw SeeAlso: AX=E11Bh Format of TheGrab signature block: Offset Size Description (Table 01261) 00h BYTE 08h 01h 8 BYTEs ASCIZ "THEGRAB" 09h 6 BYTEs ??? (zeros) --------c-1AE2------------------------------- INT 1A - Disk Spool II v4.0x - GET SPOOL FILES AH = E2h AL = which 01h first 02h next (can only call after "first") CL = printer port (01h COM1, 02h COM2, 05h LPT1, 06h LPT2) Return: AH = status 00h successful ES:BX -> ASCIZ filename F0h no (more) spool files FFh failed Note: this function is also supported by Vertisoft's Emulaser utility ELSPL, as that is a licensed version of Disk Spool II SeeAlso: AH=E0h,AH=E1h --------c-1AE301----------------------------- INT 1A - Disk Spool II v4.0x - GET SPOOL FILE STATUS AX = E301h ES:BX -> ASCIZ filename (max 32 chars) Return: AH = status 00h successful ES:SI -> spool file status record (see #01262) F0h not a spool file FFh failed Note: this function is also supported by Vertisoft's Emulaser utility ELSPL, as that is a licensed version of Disk Spool II SeeAlso: AH=E0h,AX=E302h,AX=E401h Format of Disk Spool II spool file status record: Offset Size Description (Table 01262) 00h BYTE hour of creation or last update 01h BYTE minute of creation or last update 02h BYTE year-1980 of creation or last update 03h BYTE month of creation or last update 04h BYTE day of creation or last update 05h BYTE total number of copies to print 06h BYTE number of copies already printed 07h BYTE printer port (01h COM1, 02h COM2, 05h LPT1, 06h LPT2) 08h BYTE save status (00h delete after printing, 01h save) 09h BYTE file status 01h done printing, but being saved 02h on hold 03h queued for printing 04h being spooled 05h being despooled (i.e. printed) 0Ah 16 BYTEs ASCIZ description 1Ah 2 WORDs file size in bytes (high,low) 1Eh 2 WORDs bytes left to print (high,low) --------c-1AE302----------------------------- INT 1A - Disk Spool II v4.0x - UPDATE SPOOL FILE AX = E302h ES:BX -> ASCIZ filename (max 32 chars) ES:SI -> spool file status record (see #01262) Return: AH = status 00h successful F0h not a spool file FFh failed Note: this function is also supported by Vertisoft's Emulaser utility ELSPL, as that is a licensed version of Disk Spool II SeeAlso: AH=E0h,AX=E301h,AX=E401h --------c-1AE401----------------------------- INT 1A - Disk Spool II v4.0x - SPOOL EXISTING FILE AX = E401h ES:BX -> ASCIZ filename (max 32 chars) CL = printer port (01h COM1, 02h COM2, 05h LPT1, 06h LPT2) Return: AH = status 00h successful FFh failed Note: this function is also supported by Vertisoft's Emulaser utility ELSPL, as that is a licensed version of Disk Spool II SeeAlso: AH=E1h,AX=E302h,AX=E402h --------c-1AE402----------------------------- INT 1A U - Disk Spool II v4.0x - SPOOL EXISTING FILE??? AX = E402h ES:BX -> ASCIZ filename (max 32 chars) CL = printer port (01h COM1, 02h COM2, 05h LPT1, 06h LPT2) Return: AH = status 00h successful FFh failed Note: this function is also supported by Vertisoft's Emulaser utility ELSPL, as that is a licensed version of Disk Spool II SeeAlso: AH=E1h,AX=E302h,AX=E401h --------c-1AE5------------------------------- INT 1A U - Emulaser ELSPL.COM - ??? AH = E5h ??? Return: ??? Program: ELSPL.COM is a licensed version of Disk Spool II which is distributed as part of Vertisoft's Emulaser PostScript emulator SeeAlso: AH=A0h,INT 17/AH=03h --------c-1AEE------------------------------- INT 1A U - Disk Spool II v4.05 - ??? AH = EEh AL = printer port??? ??? Return: ??? Note: this function is also supported by Vertisoft's Emulaser utility ELSPL, as that is a licensed version of Disk Spool II SeeAlso: AH=E1h --------U-1AF7------------------------------- INT 1A - RighTime v1.1 - TEMPORARILY DISABLE AH = F7h Program: RighTime is a TSR by G.T. Becker which continuously adjusts the system time to correct for clock drift Note: any AH value from F0h-F7h or F9h-FEh will perform this function in version 1.1, but F7h is the function called by transient portion SeeAlso: AH=F8h,AH=FFh"RighTime" --------U-1AF8------------------------------- INT 1A - RighTime v1.1 - ENABLE AH = F8h Program: RighTime is a TSR by G.T. Becker which continuously adjusts the system time to correct for clock drift Note: RighTime is TeSseRact-compatible (see INT 2F/AX=5453h) and modifies its TeSseRact program identifier based on its current state: "RighTime" when enabled, "RighTim"F7h when disabled. SeeAlso: AH=F7h,AH=FFh"RighTime" --------b-1AFE------------------------------- INT 1A - AT&T 6300 - READ TIME AND DATE AH = FEh Return: BX = day count (0 = Jan 1, 1984) CH = hour CL = minute DH = second DL = hundredths SeeAlso: AX=CCCCh/BX=CCCCh,AH=FFh"AT&T",INT 21/AH=2Ah,INT 21/AH=2Ch --------b-1AFF------------------------------- INT 1A - AT&T 6300 - SET TIME AND DATE AH = FFh BX = day count (0 = Jan 1, 1984) CH = hour CL = minute DH = second DL = hundredths Return: ??? SeeAlso: AX=CCCCh/BX=CCCCh,AH=FEh,INT 21/AH=2Bh"DATE",INT 21/AH=2Dh --------U-1AFF------------------------------- INT 1A - RighTime v1.1 - PERMANENTLY DISABLE AH = FFh Program: RighTime is a TSR by G.T. Becker which continuously adjusts the system time to correct for clock drift Note: upon being permanently disabled, RighTime closes the file handle referencing its executable (which is updated with time correction information every two minutes while RighTime is enabled). --------s-1AFF00----------------------------- INT 1A - SND - INSTALLATION CHECK??? AX = FF00h Return: AL = version??? (02h) AH = busy flag (00h if not in a SND call, 01h if SND currently active) Note: the SND API is also supported by IC (Internal Commands) v2.0, a shareware TSR by Geoff Friesen which extends COMMAND.COM's internal command set SeeAlso: AX=FF01h,AX=FF02h,AX=FF04h,AX=FF05h --------s-1AFF01----------------------------- INT 1A - SND - PAUSE AX = FF01h DX = number of clock ticks to delay Return: AH = status 00h successful 01h SND busy Notes: if successful, execution returns to the caller after the delay expires; if SND is busy, execution returns immediately the IC v2.0 implementation of this API makes no special allowance for time rollover at midnight, which can cause the delay to be over one hour if this function is called just before the BIOS time count rolls over and the delay extends into the next day SeeAlso: AX=FF00h,INT 15/AH=86h,INT 62/AX=0096h,INT 7F/AH=E8h,INT 80/BX=0009h SeeAlso: INT E0/CL=BDh --------s-1AFF02----------------------------- INT 1A - SND - START SOUND AX = FF02h DX = frequency in Hertz (14h-FFFFh) Return: AH = status 00h successful 01h SND busy SeeAlso: AX=FF00h,AX=FF01h,AX=FF03h --------s-1AFF03----------------------------- INT 1A - SND - STOP SOUND AX = FF03h Return: AH = status 00h successful 01h busy Note: turns off any sound currently being emitted by the PC's speaker unless SND is currently busy processing an API call (this includes background music). Use AX=FF05h to stop the sound even if an API call is in progress. SeeAlso: AX=FF00h,AX=FF02h,AX=FF05h --------s-1AFF04----------------------------- INT 1A - SND - PLAY MUSIC STRING IN BACKGROUND AX = FF04h DS:DX -> ASCIZ music string Return: AH = status 00h successful (music begins playing in background) 01h busy Note: the music string accepted by SND is not the same as that accepted by BASIC and other programs which process music strings SeeAlso: AX=FF00h,AX=FF05h,INT 80/BX=0006h --------s-1AFF05----------------------------- INT 1A - SND - UNCONDITIONALLY STOP SOUND AX = FF05h Return: AH = 00h (successful) Note: this function is the same as AX=FF03h, but will stop the sound even if SND is currently busy, such as playing background music SeeAlso: AX=FF00h,AX=FF03h,INT 80/BX=0007h --------B-1B--------------------------------- INT 1B C - KEYBOARD - CONTROL-BREAK HANDLER Desc: this interrupt is automatically called when INT 09 determines that Control-Break has been pressed Note: normally points to a short routine in DOS which sets the Ctrl-C flag, thus invoking INT 23h the next time DOS checks for Ctrl-C. SeeAlso: INT 23,MEM 0040h:0071h --------B-1C--------------------------------- INT 1C - TIME - SYSTEM TIMER TICK Desc: this interrupt is automatically called on each clock tick by the INT 08 handler Notes: this is the preferred interrupt to chain when a program needs to be invoked regularly not available on NEC 9800-series PCs SeeAlso: INT 08,INT E2"PC Cluster" --------B-1D--------------------------------- INT 1D - SYSTEM DATA - VIDEO PARAMETER TABLES Notes: the default parameter table (see #01263) is located at F000h:F0A4h for 100% compatible BIOSes Under PhysTechSoft's PTS ROM-DOS this table is fictitious. SeeAlso: INT 10/AH=00h Format of video parameters: Offset Size Description (Table 01263) 00h 16 BYTEs 6845 register values for modes 00h and 01h 10h 16 BYTEs 6845 register values for modes 02h and 03h 20h 16 BYTEs 6845 register values for modes 04h and 05h 30h 16 BYTEs 6845 register values for modes 06h and 07h 40h WORD bytes in video buffer for modes 00h and 01h (0800h) 42h WORD bytes in video buffer for modes 02h and 03h (1000h) 44h WORD bytes in video buffer for modes 04h and 05h (4000h) 46h WORD bytes in video buffer for mode 06h (4000h) 48h 8 BYTEs columns on screen for each of modes 00h through 07h 50h 8 BYTEs CRT controller mode bytes for each of modes 00h through 07h Note: QEMM v7.5 Stealth appears to copy only the first 40h bytes of this table into always-accessible memory --------B-1E--------------------------------- INT 1E - SYSTEM DATA - DISKETTE PARAMETERS Notes: the default parameter table (see #01264) is located at F000h:EFC7h for 100% compatible BIOSes if the table is changed, INT 13/AH=00h should be called to ensure that the floppy-disk controller is appropriately reprogrammed before rebooting the machine, this pointer should be restored to point to the original position of the floppy parameters in the ROM BIOS. The DOS boot sector takes care of this and in the case of a bootstrap error, resets the vector. It also passes the original pointer to the IO.SYS/IBMDOS.COM file for possible later restoration. under PhysTechSoft's PTS ROM-DOS this table is fictitious. the DR-DOS multi-OS LOADER (at least 1.04 up to including DR-DOS 7.03) does not alter the INT 1Eh vector when launching IBMBIO.COM files via its boot methods "S" or "D". Although this allows booting (uncompressed) IBMBIO.COM files bigger than 29 KB, it may occasionally cause the floppy parameters to get trashed due to a bug in the DR-DOS 7.03 IBMBIO.COM startup code. BUG: The 2nd level decompressor of the DR-DOS 7.03 IBMBIO.COM (1998/08/11 to 1999/07) start-up code erroneously assumes that the floppy parameters reside at 0000h:7C00h (normally set up there by the boot sector) instead of relying on the INT 1Eh vector to point at their location. Since the "assumed" floppy parameters get moved around and INT 1Eh gets updated to point to their new location, this may cause the contents of the floppy params to get trashed, if they weren't actually copied to 0000h:7C00h by the bootstrap loader (that is the boot sector or the LOADER utility). SeeAlso: INT 13/AH=0Fh,INT 41"HARD DISK 0",INT 4D/AH=0Ah Format of diskette parameter table: Offset Size Description (Table 01264) 00h BYTE first specify byte bits 7-4: step rate (Fh=2ms,Eh=4ms,Dh=6ms,etc.) bits 3-0: head unload time (0Fh = 240 ms) 01h BYTE second specify byte bits 7-1: head load time (01h = 4 ms) bit 0: non-DMA mode (always 0) Note: The DOS boot sector sets the head load time to 15ms, however, one should retry the operation on failure 02h BYTE delay until motor turned off (in clock ticks) 03h BYTE bytes per sector (00h = 128, 01h = 256, 02h = 512, 03h = 1024) 04h BYTE sectors per track (maximum if different for different tracks) 05h BYTE length of gap between sectors (2Ah for 5.25", 1Bh for 3.5") 06h BYTE data length (ignored if bytes-per-sector field nonzero) 07h BYTE gap length when formatting (50h for 5.25", 6Ch for 3.5") 08h BYTE format filler byte (default F6h) 09h BYTE head settle time in milliseconds 0Ah BYTE motor start time in 1/8 seconds ---IBM SurePath BIOS--- 0Bh BYTE maximum track number 0Ch BYTE data transfer rate 0Dh BYTE drive type in CMOS SeeAlso: #03226 at INT 4D/AH=09h --------B-1F--------------------------------- INT 1F - SYSTEM DATA - 8x8 GRAPHICS FONT Desc: this vector points at 1024 bytes of graphics data, 8 bytes for each character 80h-FFh Notes: graphics data for characters 00h-7Fh stored at F000h:FA6Eh in 100% compatible BIOSes Under PhysTechSoft's PTS ROM-DOS this table is fictitious. SeeAlso: INT 10/AX=5000h,INT 43 --------b-1F12------------------------------- INT 1F U - C&T "SuperState" BIOS - POWER OFF AH = 12h Return: none Note: POWER OFF --------b-1F17------------------------------- INT 1F U - C&T "SuperState" BIOS - EXECUTE FAR PROC ROUTINE ON SuperState AH = 17h ES:DI -> far procedure Return: all registers except AH,ES,DI Note: You can change the BIOS area (F000h:0000h - F000h:FFFFh) only through this function --------b-1F19------------------------------- INT 1F U - C&T "SuperState" BIOS - ENABLE AUTO WAKEUP AND SET TIME AND DATE AH = 19h AL = hour in BCD BH = minutes in BCD BL = seconds in BCD CH = year century in BCD (must be 19h) CL = year low in BCD DH = month in BCD DL = date in BCD Return: CF clear --------b-1F1C------------------------------- INT 1F U - C&T "SuperState" BIOS - SET SUSPEND TIMEOUT AH = 1Ch BX = sec until suspend starts Return: None --------b-1F1D------------------------------- INT 1F U - C&T "SuperState" BIOS - SET SLEEP TIMEOUT AH = 1Dh BX = sec until sleep starts Return: None --------J-1F90------------------------------- INT 1F - NEC PC-9801 - COPY EXTENDED MEMORY AH = 90h ES:BX -> global descriptor table (see #00499 at INT 15/AH=87h) CX = number of bytes to copy SI = 0000h DI = 0000h Return: CF clear if successful CF set on error ??? SeeAlso: INT 15/AH=87h --------b-1FF5--BLFA------------------------- INT 1F U - C&T "SuperState" BIOS - REQUEST PASSWORD INPUT AH = F5h BL = FAh Return: none Note: this function will not return until the correct password is entered SeeAlso: AH=F5h/BL=FDh,AH=F5h/BL=FEh --------b-1FF5--BLFD------------------------- INT 1F U - C&T "SuperState" BIOS - ENCRYPT PASSWORD AH = F5h BL = FDh CX:SI = input string DX:DI = encrypted string BH = length of input string Return: CF set on error SeeAlso: AH=F5h/BL=FAh,AH=F5h/BL=FEh --------b-1FF5--BLFE------------------------- INT 1F U - C&T "SuperState" BIOS - SET PASSWORD AH = F5h BL = FEh CX:SI -> input string BH = length of input string (if BH = 00h, clear password) Return: CF set on error Note: the input string must be encrypted by INT 1Fh/AH=F5h/BL=FDh SeeAlso: AH=F5h/BL=FDh,AH=F5h/BL=FFh --------b-1FF5--BLFF------------------------- INT 1F U - C&T "SuperState" BIOS - GET ENCRYPTED PASSWORD AH = F5h BL = FFh DX:DI = string buffer Return: CF set on error CF clear if successful BH = length of input string (if BH = 00h, password is not valid) DX:DI -> encrypted password string SeeAlso: AH=F5h/BL=FDh,AH=F5h/BL=FEh --------b-1FFB------------------------------- INT 1F U - C&T "SuperState" BIOS - GET/SET CPU SPEED AH = FBh BL = function 00h get CPU speed Return: AL = current CPU speed (00h = fast, 01h = slow) 01h set CPU speed AL = new CPU speed (00h = fast, 01h = slow) SeeAlso: AH=FCh/BL=00h --------b-1FFC--BL00------------------------- INT 1F U - C&T "SuperState" BIOS - GET ALARM STATUS AH = FCh BL = 00h Return: AL = current alarm state (00h = disabled, 01h = enabled) SeeAlso: AH=FCh/BL=01h,AH=FCh/BL=02h --------b-1FFC--BL01------------------------- INT 1F U - C&T "SuperState" BIOS - SET ALARM STATUS AH = FCh BL = 01h AL = new alarm state (00h = disabled, 01h = enabled) SeeAlso: AH=FCh/BL=00h,AH=FCh/BL=03h --------b-1FFC--BL02------------------------- INT 1F U - C&T "SuperState" BIOS - GET ALARM TIME AH = FCh BL = 02h Return: CH = hour by BCD CL = min by BCD DH = sec by BCD SeeAlso: AH=FCh/BL=00h,AH=FCh/BL=03h,AH=FCh/BL=04h --------b-1FFC--BL03------------------------- INT 1F U - C&T "SuperState" BIOS - SET ALARM TIME AH = FCh BL = 03h CH = hour by BCD CL = min by BCD DH = sec by BCD Return: CF set on error (incorrect time format or Alarm is not enable) SeeAlso: AH=FCh/BL=01h,AH=FCh/BL=02h,AH=FCh/BL=05h --------b-1FFC--BL04------------------------- INT 1F U - C&T "SuperState" BIOS - GET ALARM DATE AH = FCh BL = 04h Return: CH = year century by BCD CL = year low by BCD DH = month by BCD DL = date by BCD SeeAlso: AH=FCh/BL=02h,AH=FCh/BL=05h --------b-1FFC--BL05------------------------- INT 1F U - C&T "SuperState" BIOS - SET ALARM DATE AH = FCh BL = 05h CH = year century by BCD CL = year low by BCD DH = month by BCD DL = date by BCD Return: CF set on error (incorrect date format or Alarm is not enable) SeeAlso: AH=FCh/BL=03h,AH=FCh/BL=04h --------b-1FFD--BL00------------------------- INT 1F U - C&T "SuperState" BIOS - GET AUTO WAKE UP STATUS AH = FDh BL = 00h Return: AL = current wake-up state (00h = disabled, 01h = enabled) SeeAlso: AH=FDh/BL=01h,AH=FDh/BL=02h --------b-1FFD--BL01------------------------- INT 1F U - C&T "SuperState" BIOS - SET AUTO WAKE UP STATUS AH = FDh BL = 01h AL = new wake-up state (00h = disabled, 01h = enabled) SeeAlso: AH=FDh/BL=00h,AH=FDh/BL=03h --------b-1FFD--BL02------------------------- INT 1F U - C&T "SuperState" BIOS - GET AUTO WAKE UP TIME AH = FDh BL = 02h Return: CH = hour by BCD CL = min by BCD DH = sec by BCD SeeAlso: AH=FDh/BL=00h,AH=FDh/BL=03h --------b-1FFD--BL03------------------------- INT 1F U - C&T "SuperState" BIOS - SET AUTO WAKE UP TIME AH = FDh BL = 03h CH = hour by BCD CL = min by BCD DH = sec by BCD Return: CF set on error (incorrect Time format or Auto Wake up is not enable) SeeAlso: AH=FDh/BL=01h,AH=FDh/BL=02h --------b-1FFD--BL04------------------------- INT 1F U - C&T "SuperState" BIOS - GET AUTO WAKE UP DATE AH = FDh BL = 04h Return: CH = year century in BCD CL = year low in BCD DH = month in BCD DL = date in BCD SeeAlso: AH=FDh/BL=02h,AH=FDh/BL=05h --------b-1FFD--BL05------------------------- INT 1F U - C&T "SuperState" BIOS - SET AUTO WAKE UP DATE AH = FDh BL = 05h CH = year century in BCD CL = year low in BCD DH = month in BCD DL = date in BCD Return: CF set on error (incorrect date format or Auto Wake up is not enable) SeeAlso: AH=FDh/BL=03h"C&T",AH=FDh/BL=04h"C&T" --------!---Section--------------------------