��� �����
����
��� �
����
���������� ����� 9,$ 7hfkqror j lhv �������� � �� �����
��
� � ��
�
��������� � �������������
�
��������� �
���
���
����������
��
� ��� !� � "�
��#$$�%�#���&'(�)�
�
�������*�� �
��+���
�� ���,�
�-�� "�
���. /0����� �1� ��*����2������&�-
�,��
�
�
����� �*��
�
���� � ���%� � $$��+3�&�4���&� � ����-����,�3�2���
��$5 � 6�
7���89�#$$$� � �1���:�'�6;6.1:�9�1��5�
��� �����
����
��� �
����
�
�,����
��
���<� &rs\uljkw � ����� ���� 9,$ 7hfkqrorjlhv ,qfrusrudwhg� 3ulqwhg lq wkh 8qlwhg 6wdwhv� $ // 5 ,*+76 5 (6(59(' � 1r sduw ri wklv grfxphqw pd\ eh uhsurgxfhg� wudqvplwwhg� wudqvfulehg� vwruhg lq d uhwulhydo v\vwhp� ru wudqvodwhg lqwr dq\ odqjxdjh� lq dq\ irup ru e\ dq\ phdqv� hohfwurqlf� phfkdqlfdo� pdjqhwlf� rswlfdo� fkhplfdo� pdqxdo ru rwkhuzlvh zlwkrxw wkh sulru zulwwhq shuplvvlrq ri 9,$ 7hfkqrorjlhv ,qfrusrudwhg� 97��&���� 97��&���%� 97��&���� 97��&���� 97��&���� 97��&���$� 97��&���%� 97��&���� 97��&���� 97��&���093� 97����� 97��&���� 97��&���� 97��&���$� 97��&���� 97��&���� 97��&���� 97��&���� 97��&���$� 97��&���� 97��&���$� 97��&���;� 97����� 97����� 97����� 97����� 97����� 97����� 0reloh 6rxwk� 6xshu 6rxwk� $sroor 93� $sroor 93;� $sroor 93�� $sroor 93�� $sroor 093�� $sroor 093�� $sroor 3�� $sroor 3ur� $sroor 3ur3oxv� $sroor 3ur���� $sroor 3ur���$� $sroor 3ur0hgl d� $sroor 3ur6dydjh� .;���� .0���� dqg .7��� pd\ rqo\ eh xvhg wr lghqwli\ surgxfwv ri 9,$ 7hfkqrorjlhv� &\ul[� ; �� ? lv d uhjlvwhuhg wudghpdun ri 9,$ 7hfkqrorjlhv� $0'� . �� ? � $0'�.� ? � $0'�.� ? dqg $wkorq 70 duh uhjlvwhuhg wudghpdunv ri $gydqfhg 0lfur 'hylfhv &hohurq ? �3hqwlxp ? � 3hqwlxp�,, ? � 3hqwlxp�,,, ? � 00; ? � dqg ,qwho ? �duh uhjlvwhuhg wudghpdunv ri ,qwho &rus� 36�� ? lv d uhjlvwhuhg wudghpdun ri ,qwhuqdwlrqdo %xvlqhvv 0dfklqhv &rus� :lqgrzv �� ? � :lqgrzv �� ? � dqg 3oxj dqg 3od\ ? duh uhjlvwhuhg wudghpdunv ri 0lfurvriw &rus� 3&, ? lv d uhjlvwhuhg wudghpdun ri wkh 3&, 6shfldo ,qwhuhvw *urxs� 9(6$ ? lv d wudghpdun ri wkh 9lghr (ohfwurqlfv 6wdqgdugv $vvrfldwlrq� $oo wudghpdunv duh wkh surshuwlhv ri wkhlu uhvshfwlyh rzqhuv� +������-����
���<� 1r olfhqvh lv judqwhg� lpsolhg ru rwkhuzlvh� xqghu dq\ sdwhqw ru sdwhqw uljkwv ri 9,$ 7hfkqrorjlhv� 9,$ 7hfkqrorjlhv pdnhv qr zduudqwlhv� lpsolhg ru rwkhuzlvh� lq uhjdug wr wklv grfxphqw dqg wr wkh surgxfwv ghvfulehg lq wklv grfxphqw� 7kh lqirupdwlrq surylghg e\ wklv grfxphqw lv eholhyhg wr eh dffxudwh dqg uholdeoh wr wkh sxeolfdwlrq gdwh ri wklv grfxphqw� +rzhyhu� 9,$ 7hfkqrorjlhv dvvxphv qr uhvsrqvlelolw\ iru dq\ huuruv lq wklv grfxphqw� )xuwkhupruh� 9,$ 7hfkqrorjlhv dvvxphv qr uhvsrqvlelolw\ iru wkh xvh ru plvxvh ri wkh lqirupdwlrq lq wklv grfxphqw dqg iru dq\ sdwhqw lqiulqjhphqwv wkdw pd\ dulvh iurp wkh xvh ri wklv grfxphqw� 7kh lqirupdwlrq dqg surgxfw vshflilfdwlrqv zlwklq wklv grfxphqw duh vxemhfw wr fkdqjh dw dq\ wlph� zlwkrxw qrwlfh dqg zlwkrxw reoljdwlrq wr qrwli\ dq\ shuvrq ri vxfk fkdqjh� 6������<� � 86$ 2iilfh� 7dlshl 2iilfh� � ���� 0lvvlrq &rxuw � wk )orru� 1r� ��� )uhprqw� &$ ����� &kxqj� &khqj 5rdg� +vlq�7lhq 86$ 7dlshl� 7dlzdq 52& 7ho� ����� �������� 7ho� ������� ��������� )d[� ����� �������� )d[� ������� ��������� 6���������2����<� +rph 3djh� http://www.via.com.tw �7dlzdq� ru� http://www.viatech.com �86$� )73 6huyhu� ftp.via.com.tw �7dlzdq� %%6� ������� ���������
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - i- revision history 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
��� �����
����
��� �
����
r evision h istory document release date revision initials 0.1 10/9/00 created from vt8363 data sheet rev 1.0 fixed typographical errors in gpipe# and grbf# pin descriptions removed fpg/edo information updated device 0 register descriptions: rx8, 54[5-4], 55[4], 56-58, 60, 63[1- 0], 67, 68[7,4-3,1-0], 69[7-6], 6c[5-4], 76[5-4], 79[7-3,0], 7b, 80[15-8], ac[6], ad[6-5], af, b0[7], b2[3], b3, b5, b6[6-5], b8, f6 updated device 1 register descriptions: rx2, 34, 44[5] removed ambient temp spec and changed case operating temp spec to 85 c created separate table for power specs fixed pin 1 orientation in mechanical diagram dh
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - ii- table of contents 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
��� �����
����
��� �
����
t able of c ontents revision history............................................................................................................... .........................................................i table of contents.............................................................................................................. .................................................... ii list of figures................................................................................................................ ..........................................................iii list of tables ................................................................................................................. ..........................................................iv kt133a amd athlon? north bridge ................................................................................................ .............................. 1 overview ....................................................................................................................... ................................................................ 4 pinouts ............................................................................................................................... ........................................................... 6 pin descriptions ............................................................................................................... ......................................................... 9 registers ...................................................................................................................... ............................................................... 17 r egister o verview ............................................................................................................................... .................................. 17 m iscellaneous i/o............................................................................................................................ ....................................... 21 c onfiguration s pace i/o ............................................................................................................................ ........................... 21 r egister d escriptions ............................................................................................................................... ............................. 22 device 0 header registers - host bridge........................................................................................ .................................... 22 device 0 configuration registers - host bridge ................................................................................. ............................... 24 host cpu control ............................................................................................................... .................................................................. 24 dram control ................................................................................................................... .................................................................. 25 pci bus control................................................................................................................ .................................................................... 30 gart / graphics aperture control ............................................................................................... ....................................................... 34 agp control .................................................................................................................... ..................................................................... 36 device 1 header registers - pci-to-pci bridge .................................................................................. .............................. 41 device 1 configuration registers - pci-to-pci bridge........................................................................... .......................... 43 agp bus control ................................................................................................................ .................................................................. 43 electrical specifications...................................................................................................... ......................................... 46 a bsolute m aximum r atings ............................................................................................................................... .................. 46 dc c haracteristics ............................................................................................................................... ................................. 46 p ower c haracteristics ............................................................................................................................... .......................... 47 ac t iming s pecifications ............................................................................................................................... ....................... 47 mechanical specifications ...................................................................................................... ....................................... 48
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - iii- list of figures 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
��� �����
����
��� �
����
l ist of f igures figure 1. kt133a system block diagram using the vt82c686a south bridge........................................ 4 figure 2. VT8363A kt133a ball diagram (top view) .............................................................................. .................. 6 figure 3. cpu / sdram / agp / pci clock connections ........................................................................... .............. 15 figure 4. graphics aperture address translation ............................................................................... .......... 34 figure 5. mechanical specifications - 552-pin ball grid array package ........................................... 48
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - iv- list of tables 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
��� �����
����
��� �
����
l ist of t ables table 1. VT8363A kt133a pin list (numerical order)............................................................................................. 7 table 2. VT8363A kt133a pin list (alphabetical order)...................................................................................... 8 table 3. VT8363A kt133a pin descriptions...................................................................................... .............................. 9 table 4. VT8363A registers .................................................................................................... ............................................ 17 table 5. system memory map.................................................................................................... ...................................... 25 table 6. memory address mapping table ......................................................................................... ...................... 25 table 7. vga/mda memory/io redirection........................................................................................ ...................... 43 table 8. ac timing min / max conditions....................................................................................... ........................... 47
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 1- features 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
��� �����
����
��� �
����
via VT8363A kt133a amd a thlon ? n orth b ridge single-chip north bridge for socket-a (socket-462) based athlon cpus with 200 / 266 mhz front side bus for desktop pc systems with agp 4x and pci plus advanced memory controller supporting pc133 / pc100 sdram and vcm ? high performance and high integration athlon agp 4x / pc133 chipset with advanced system power management ? kt133a chipset: VT8363A system controller and vt82c686a pci to isa bridge ? single chip athlon system controller with 64-bit socket-a athlon cpu, 64-bit system memory, 32-bit pci and 32- bit agp interfaces ? pci-to-isa bridge chip includes ultradma-33/66 eide, 4 usb ports, integrated super-i/o, ac97 / mc97 link (for audio and modem support), hardware monitoring, power management, and keyboard / ps2-mouse interfaces plus rtc / cmos on chip ? supports separately powered 3.3v (5v tolerant) interface to system memory, agp, and pci bus ? modular power management and clock control for advanced system power management ? high performance athlon cpu interface ? supports socket-a (socket-462) amd athlon processors with 200 and 266 mhz front side bus ? hstl-like 1.5v high-speed transceiver logic signal levels ? independent address, data, and snoop interfaces ? 100 and 133 mhz ddr (double data rate) transfer on athlon cpu address and data buses ? built-in pll (phase lock loop) circuitry for optimal skew control within and between clocking regions ? four-entry command queue to accommodate maximum cpu throughput ? four-entry probe queue to stores probes from the system to the processor ? twenty four-entry processor system data and control queue to store system data control commands in two separate read and write buffers for data movement in and out of processor interface ? supports wc (write combining) cycles ? sleep mode support ? system management interrupt, memory remap and stpclk mechanism
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 2- features 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
��� �����
����
��� �
����
? full featured accelerated graphics port (agp) controller ? synchronous and pseudo-synchronous with the host cpu bus with optimal skew control pci agp cpu mode 33 mhz 66 mhz 100 mhz ddr 3x synchronous ? agp v2.0 compliant ? supports sideband addressing (sba) mode (non-multiplexed address / data) ? supports 66 mhz 1x, 2x and 4x modes for ad and sba signaling ? pipelined split-transaction long-burst transfers up to 1gb/sec ? thirty-two level read request queue ? four level posted-write request queue ? thirty-two level (quadwords) read data fifo (256 bytes) ? sixteen level (quadwords) write data fifo (128 bytes) ? intelligent request reordering for maximum agp bus utilization ? supports flush/fence commands ? graphics address relocation table (gart) ? one level tlb structure ? sixteen entry fully associative page table ? lru replacement scheme ? windows 95 osr-2 vxd and integrated windows 98 / windows 2000 miniport driver support ? concurrent pci bus controller ? pci buses are synchronous / pseudo-synchronous to host cpu bus ? 33 mhz operation on the primary pci bus ? 66 mhz pci operation on the agp bus ? pci-to-pci bridge configuration on the 66mhz pci bus ? supports up to five pci masters ? peer concurrency ? concurrent multiple pci master transactions; i.e., allow pci masters from both pci buses active at the same time ? zero wait state pci master and slave burst transfer rate ? pci to system memory data streaming up to 132mbyte/sec ? two lines (32 double-words) of cpu to pci posted write buffers ? byte merging in the write buffers to reduce the number of pci cycles and to create further pci bursting possibilities ? enhanced pci command optimization (mrl, mrm, mwi, etc.) ? thirty-two levels (double-words) of post write buffers from pci masters to dram (two cache lines / 16 double-words for pci bus, two cache lines / 16 double-words for athlon processor interface) ? sixteen levels (double-words) of prefetch buffers from dram for access by pci masters ? delay transaction from pci master accessing dram ? read caching for pci master reading dram ? transaction timer for fair arbitration between pci masters (granularity of two pci clocks) ? symmetric arbitration between host/pci bus for optimized system performance ? complete steerable pci interrupts ? pci-2.2 compliant, 32 bit 3.3v pci interface with 5v tolerant inputs
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 3- features 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
��� �����
����
��� �
����
? advanced high-performance dram controller ? supports pc133 and pc100 sdram and virtual channel memory (vcm) sdram up to 3 dimms ? concurrent cpu, agp, and pci access ? different dram types may be used in mixed combinations ? different dram timing for each bank ? dynamic clock enable (cke) control for sdram power reduction in high speed systems ? mixed 1m / 2m / 4m / 8m / 16m / 32mxn drams ? support up to 1.5 gb memory space (256mb dram technology) ? flexible row and column addresses ? 64-bit data width and 3.3v dram interface ? programmable i/o drive capability for ma, command, and md signals ? two-bank interleaving for 16mbit sdram support ? two-bank and four bank interleaving for 64mbit sdram support ? supports maximum 16-bank interleave (i.e., 16 pages open simultaneously); banks are allocated based on lru ? independent sdram control for each bank ? seamless dram command scheduling for maximum dram bus utilization (e.g., precharge other banks while accessing the current bank) ? four cache lines (32 quadwords) of cpu to dram write buffers ? four cache lines (32 quadwords) of cpu to dram read prefetch buffers ? read around write capability for non-stalled cpu read ? burst read and write operation ? bios shadow at 16kb increment ? decoupled and burst dram refresh with staggered ras timing ? cas before ras or self refresh ? advanced system power management support ? dynamic power down of sdram (cke) ? pci and agp bus clock run and clock generator control ? vtt suspend power plane preserves memory data ? suspend-to-dram and self-refresh operation ? sdram self-refresh power down ? 8 bytes of bios scratch registers ? low-leakage i/o pads ? built-in nand-tree pin scan test capability ? 3.3v, 0.35um, high speed / low power cmos process ? 35 x 35 mm, 552 pin bga package
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 4- overview 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
��� �����
����
��� �
����
o verview the kt133a chipset (VT8363A north bridge and vt82c686a south bridge) is a high performance, cost-effective and energy efficient system controller for the implementation of agp / pci / isa desktop personal computer systems based on 64-bit socket- a (amd athlon) processors. the VT8363A supports fsb speeds of 200 and 266 mhz. rtc crystal cfwdrst midi / game ports floppy drive interface parallel port serial ports 1 and 2 keyboard / ps2 mouse hardware monitoring inputs pckrun# pclk mclk hclk athlon host cpu cke memory bus smbus isa bus kt133a VT8363A north bridge 552 bga sdram 3d graphics controller agp bus pcistp# power plane & peripheral control ata 33 / 66 gckrun# pci bus bios rom usb ports 0-3 gpio and acpi events super south vt82c686a south bridge 352 bga ac97 link cpustp# clock generator sysclk, sysclk# gclk pclk intr, nmi, smi#, stpclk#, ignne#, ferr#, a20m#, pwrok, init#, reset# susclk, susst1# clock buffer ac97 audio codec mc97 modem codec data address out in connect procrdy figure 1. kt133a system block diagram using the vt82c686a south bridge the kt133a chip set consists of the VT8363A system controller (552 pin bga) and the vt82c686a pci to isa bridge (352 pin bga). the system controller provides superior performance between the cpu, dram, agp bus, and pci bus with pipelined, burst, and concurrent operation. the VT8363A supports eight banks of drams up to 1.5 gb. the dram controller supports standard synchronous dram (sdram) and virtual channel sdram (vc sdram), in a flexible mix / match manner. the synchronous dram interface allows zero wait state bursting between the dram and the data buffers at 66/100/133 mhz. the six banks of dram can be composed of an arbitrary mixture of 1m / 2m / 4m / 8m / 16m / 32mxn drams. the VT8363A system controller also supports full agp v2.0 capability for maximum bus utilization including 1x, 2x and 4x mode transfers, sba (sideband addressing), flush/fence commands, and pipelined grants. an eight level request queue plus a four level post-write request queue with thirty-two and sixteen quadwords of read and write data fifo's respectively are included fo r deep pipelined and split agp transactions. a single-level gart tlb with 16 full associative entries and flexible cpu / agp / pci remapping control is also provided for operation under protected mode operating environments. both windows-95 vxd and windows-98 / windows 2000 miniport drivers are supported for interoperability with major agp-based 3d and dvd-capable multimedia accelerators. the VT8363A supports two 32-bit 3.3 / 5v system buses (one agp and one pci) that are synchronous / pseudo-synchronous to the cpu bus. the chip also contains a built-in bus-to-bus bridge to allow simultaneous concurrent operations on each bus. five le vels (doublewords) of post write buffers are included to allow for concurrent cpu and pci operation. for pci master operation, fort y- eight levels (doublewords) of post write buffers and sixteen levels (doublewords) of prefetch buffers are included for concurre nt pci bus and dram/cache accesses. the chip also supports enhanced pci bus commands such as memory-read-line, memory-
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 5- overview 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
��� �����
����
��� �
����
read-multiple and memory-write-invalid commands to minimize snoop overhead. in addition, advanced features are supported such as snoop ahead, snoop filtering, l1/l2 write-back forward to pci master, and l1/l2 write-back merged with pci post write buffers to minimize pci master read latency and dram utilization. delay transaction and read caching mechanisms are also implemented for further improvement of overall system performance. the 352-pin ball grid array vt82c686a pci to isa bridge supports four levels (doublewords) of line buffers, type f dma transfers and delay transaction to allow efficient pci bus utilization and (pci-2.1 compliant). the vt82c686a also includes an integrated keyboard controller with ps2 mouse support, integrated ds12885 style real time clock with extended 256 byte cmos ram, integrated master mode enhanced ide controller with full scatter / gather capability and extension to ultradma-33/66 for 33/66 mb/sec transfer rate, integrated usb interface with root hub and four function ports with built-in physical layer transce ivers, distributed dma support, and onnow / acpi compliant advanced configuration and power management interface. the vt82c686a also includes an ac97 / mc97 link for interface to external audio and modem codecs, and all ?super-i/o? functions (serial ports, parallel port, and floppy drive interface and game port). for sophisticated power management, kt133a provides independent clock stop control for the cpu / sdram, pci, and agp buses and dynamic cke control for powering down of the sdram. a separate suspend-well plane is implemented for the sdram control signals for suspend-to-dram operation. the vt82c686a also includes a complete hardware monitoring subsystem for monitoring and control of internal and external (motherboard and system) conditions including voltages, temperatures, fan speeds, switch open/close states, etc. coupled with the vt82c686a south bridge chip, a complete power conscious pc main board can be implemented with no external ttls. the kt133a chipset is ideal for high performance, high quality, high energy efficient and high integration desktop agp / pci / isa computer systems.
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 6- pinouts 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
p inouts figure 2. VT8363A kt133a ball diagram (top view) ke y 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 a nc gnd ain 14# ain clk# ain 9# ain 3# ain 11# d11# d0# diclk 0# d5# d7# d18# d20# d22# d40# d43# d44# d47# d56# d59# d62# diclk 3# d49# doclk 3# aout 3# b nc nc ain 12# gnd ain 13# ain 2# gnd d9# d3# gnd d4# d6# gnd d19# doclk 1# gnd d42# diclk 2# gnd d39# d60# gnd d63# d53# gnd aout 2# c nc nc nc proc rdy ain 10# ain 4# ain 5# d14# d13# d2# d25# d16# d17# d21# d23# d41# d34# d45# d38# d57# d58# d52# d55# aout 4# aout 6# aout 9# d nc nc nc nc con nect vtt ain 6# doclk 0# vtt d12# d15# vtt d28# d29# vtt d30# d33# vtt d37# d36# vtt d54# aout 11# aout 10# aout clk# aout 12# e nc nc nc nc ckfd rst din val# ain 8# ain 7# d10# d8# d1# d27# d26# d31# diclk 1# doclk 2# d35# d51# d46# d48# d61# s2k comp vtt aout 5# vtt aout 7# f scan in1 scan in0 nc nc scan in2 vcc3 gnd vtt gnd s2k vref vtt gnd d24# vtt d32# gnd vtt d50# gnd s2k vref s2k gnd s2k vcc clk vref aout 8# aout 13# aout 14# g nc scan in3 gnd nc nc scan out1 g7 8 9 10 11 12 13 14 15 16 17 18 19 g20 gnd hck hclk md1 md32 md0 md33 h scan in4 scan in5 scan out0 nc scan out2 vcc3 h cpu pins h gnd vcc hck test in md34 md35 md2 j scan ena scan in7 scan in6 dft in nc gnd j vcc3 vtt vcc3 vcc3 vtt vtt vcc3 vcc3 vtt vtt j vcc3 md4 md6 gnd md3 md36 k scan out4 scan out5 scan out6 nc nc scan out3 k vcc3 k10 11 12 13 14 15 16 k17 vcc3 k vcc3 md39 md7 md37 md5 md38 l p gnt# scan out7 gnd p req# nc vcc3 l vcc3 l gnd gnd gnd gnd gnd gnd l vcc3 l gnd md9 md42 md40 md8 md41 m gnt 3# req 4# gnt 4# req 3# gnt 0# gnd m vcc3 m gnd gnd gnd gnd gnd gnd m vcc3 m vcc3 md45 md10 gnd md11 md43 n req 1# gnt 1# req 2# vcc3 gnt 2# req 0# n pci vcc3 n gnd gnd gnd gnd gnd gnd n vcc3 dram n md13 md14 md46 md47 md44 md12 p ad29 ad26 ad25 ad31 ad28 vcc3 p pins vcc3 p gnd gnd gnd gnd gnd gnd p vcc3 pins p gnd mck vcc mck mclk f md15 scasa# strap cke3 scasb# r ad24 ad23 gnd ad30 ad27 gnd r vcc3 r gnd gnd gnd gnd gnd gnd r vcc3 r vcc3 mclk dqm 2 dqm 7 cke1 scasc# dqm 3 t ad20 ad22 cbe 3# ad21 frm# i rdy# t vcc3 t gnd gnd gnd gnd gnd gnd t vcc3 t gnd ma3 strap vcc3 gnd cke4 srasc# dqm 6 u ad16 ad18 ad19 ad17 cbe 2# wsc# u vcc3 u10 11 12 13 14 15 16 u17 vcc3 u ma7 strap ma5 strap ma1# strap ma0 strap srasa# strap cke5 srasb# v lock# serr# dev sel# stop# t rdy# vcc3 v vcc q vcc3 vcc q vcc q vcc3 vcc q vcc3 vcc q vcc3 vcc3 v vcc3 ma6 strap ma4 strap ma9 strap ma8 strap ma2 strap w ad15 par gnd cbe 1# ad10 gnd w agp pins w vcc3 ma14 strap ma13 strap ma12 strap ma11 strap ma10 strap y ad13 ad11 ad12 ad14 ad9 gnd y7 8 9 10 11 12 13 14 15 16 17 18 19 y20 gnd cs4# cs5# gnd cs0# cs1# aa cbe0# ad8 ad7 ad6 pclk vcc3 vcc q gnd grbf# vcc q gnd vcc q gnd vcc gck vcc q gnd vcc qq vcc q gnd vsus 3 vcc3 dqm 1 dqm 0 dqm 5 cs3# cs2# ab ad4 ad5 gnd pck run# re set# g gnt# gds1 1 st1 st2 g frm# gi rdy# g stop# g dsel# g clk gnd gck gd2 gnd qq n comp sus st# md62 md58 md16 md48 swea# strap cke0 swec# dqm 4 ac ad2 ad3 ad0 ad1 vcc q st0 gds 1# vcc q g pipe# g wbf# vcc q gt rdy# g par vcc q gclk f gd8 vcc q p comp pwr ok md59 md26 md56 md21 md17 md49 cke2 sweb# ad sba 1 sba 0 sba 3 sba 7 g req# gd30 gd26 gbe 3# gd23 gd19 gd17 gbe 1# gd12 gd11 gds0 gbe 0# gd4 gd1 md30 md28 gnd md24 md22 gnd md18 md50 ae sba 2 gnd sba 5 sba 6 gnd gd28 gd25 gnd gd21 gd18 gnd gbe 2# gd14 gnd gds0# gd6 gnd gd0 md63 md61 md27 md25 md55 md53 md19 md51 af sbs sbs# sba 4 gd31 gd29 gd27 gd24 gd22 gd20 agp vref gd16 gd15 gd13 gd10 gd9 gd7 gd5 gd3 md31 md29 md60 md57 md23 md54 md20 md52
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 7- pinouts 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
table 1. VT8363A kt133a pin list (numerical order) pin # pin name pin # pin name pin # pin name pin # pin name pin # pin names pin # pin name a01 nc d03 nc g05 nc p01 io ad29 y23 o cs5# / ras5# ac25 io md49 a02 p gnd d04 nc g06 o scanout1 p02 io ad26 y24 p gnd ac26 o cke2 / sweb# a03 o ain14# d05 o connect g 21 p g ndh c k p03 io ad25 y25 o cs0# / ras0# ad01 i sba1 a04 o ainclk# d06 p vtt g22 i hclk p04 io ad31 y26 o cs1# / ras1# ad02 i sba0 a05 o ain0 9 # d07 o ain06# g23 io md01 p05 io ad28 aa01 io cbe0# ad03 i sba3 a06 o ain03# d08 i doclk0# g24 io md32 p06 p vcc3 aa02 io ad08 ad04 i sba7 a07 o ain11# d09 p vtt g25 io md00 p21 p g ndm c k aa03 io ad07 ad05 i gre q # a08 io d11# d10 io d12# g26 io md33 p22 p vccmck aa04 io ad06 ad06 io gd30 a0 9 io d00# d11 io d15# h01 i scanin4 p23 i mclkf aa05 i pclk ad07 io gd26 a10 o diclk0# d12 p vtt h02 i scanin5 p24 io md15 aa06 p vcc3 ad08 io gbe3# a11 io d05# d13 io d28# h03 o scanout0 p25 o scasa# / stra p aa07 p vcc q ad09 io gd23 a12 io d07# d14 io d29# h04 nc p26 o cke3 / scasb# aa08 p gnd ad10 io gd19 a13 io d18# d15 p vtt h05 o scanout2 r01 io ad24 aa0 9 i grbf# ad11 io gd17 a14 io d20# d16 io d30# h06 p vcc3 r02 io ad23 aa10 p vcc q ad12 io gbe1# a15 io d22# d17 io d33# h21 p g nd r03 p g nd aa11 p g nd ad13 io gd12 a16 io d40# d18 p vtt h22 p vcchck r04 io ad30 aa12 p vcc q ad14 io gd11 a17 io d43# d19 io d37# h23 i testin r05 io ad27 aa13 p gnd ad15 io gds0 a18 io d44# d20 io d36# h24 io md34 r06 p gnd aa14 p vccgck ad16 io gbe0# a1 9 io d47# d21 p vtt h25 io md35 r21 p v cc 3 aa15 p v ccq ad17 io gd4 a20 io d56# d22 io d54# h26 io md02 r22 o mclk aa16 p gnd ad18 io gd1 a21 io d5 9 # d23 i aout11# j01 i scanena r23 o d q m2 / cas2# aa17 p v ccqq ad1 9 io md30 a22 io d62# d24 i aout10# j02 i scanin7 r24 o d q m7 / cas7# aa18 p vcc q ad20 io md28 a23 o diclk3# d25 i aoutclk# j03 i scanin6 r25 o cke1 / scasc# aa19 p gnd ad21 p gnd a24 io d49# d26 i aout12# j04 i dftin r26 o d q m3 / cas3# aa20 p vsus3 ad22 io md24 a25 i doclk3# e01 nc j05 nc t01 io ad20 aa21 p v cc 3 ad23 io md22 a26 i aout03# e02 nc j06 p gnd t02 io ad22 aa22 o d q m1 / cas1# ad24 p gnd b01 nc e03 n c j 21 p v cc 3 t03 io cbe3# aa23 o d q m0 / cas0# ad25 io md18 b02 nc e04 nc j22 io md04 t04 io ad21 aa24 o d q m5 / cas5# ad26 io md50 b03 o ain12# e05 o cfwdrst j23 io md06 t05 io frame# aa25 o cs3# / ras3# ae01 i sba2 b04 p gnd e06 o dinval# j24 p gnd t06 io irdy# aa26 o cs2# / ras2# ae02 p gnd b05 o ain13# e07 o ain08# j25 io md03 t21 p g nd ab01 io ad04 ae03 i sba5 b06 o ain02# e08 o ain07# j26 io md36 t22 o ma03 / stra p ab02 io ad05 ae04 i sba6 b07 p g nd e0 9 io d10# k01 o scanout4 t23 p v cc 3 ab03 p g nd ae05 p g nd b08 io d09# e10 io d08# k02 o scanout5 t24 p gnd ab04 io pckrun# ae06 io gd28 b09 io d03# e11 io d01# k03 o scanout6 t25 o cke4 / srasc# ab05 i reset# ae07 io gd25 b10 p gnd e12 io d27# k04 nc t26 o d q m6 / cas6# ab06 o ggnt# ae08 p gnd b11 io d04# e13 io d26# k05 nc u01 io ad16 ab07 io gds1 ae0 9 io gd21 b12 io d06# e14 io d31# k06 o scanout3 u02 io ad18 ab08 o st1 ae10 io gd18 b13 p g nd e15 o diclk1# k21 p v cc 3 u03 io ad1 9 ab0 9 o st2 ae11 p g nd b14 io d19# e16 i doclk2# k22 io md39 u04 io ad17 ab10 io gfrm# ae12 io gbe2# b15 i doclk1# e17 io d35# k23 io md07 u05 io cbe2# ab11 io girdy# ae13 io gd14 b16 p gnd e18 io d51# k24 io md37 u06 o wsc# ab12 io gstop# ae14 p gnd b17 io d42# e1 9 io d46# k25 io md05 u21 o ma07 / stra p ab13 io gdsel# ae15 io gds0# b18 o diclk2# e20 io d48# k26 io md38 u22 o ma05 / stra p ab14 o gclk ae16 io gd6 b19 p g nd e21 io d61# l01 o pgnt# u23 o ma01# / stra p ab15 p g nd gc k ae17 p g nd b20 io d39# e22 i s2kcomp l02 o scanout7 u24 o ma00 / stra p ab16 io gd2 ae18 io gd0 b21 io d60# e23 p vtt l03 p gnd u25 o srasa# / stra p ab17 p gnd qq ae19 io md63 b22 p gnd e24 i aout05# l04 i pre q # u26 o cke5 / srasb# ab18 i ncomp ae20 io md61 b23 io d63# e25 p vtt l05 nc v01 io lock# ab1 9 i susst# ae21 io md27 b24 io d53 # e26 i aout07# l06 p vcc3 v02 io serr# ab20 io md62 ae22 io md25 b25 p g nd f01 i scanin1 l21 p g nd v03 io devsel# ab21 io md58 ae23 io md55 b26 i aout02# f02 i scanin0 l22 io md09 v04 io stop# ab22 io md16 ae24 io md53 c01 nc f03 nc l23 io md42 v05 io trdy# ab23 io md48 ae25 io md1 9 c02 nc f04 nc l24 io md40 v06 p vcc3 ab24 o swea# / stra p ae26 io md51 c03 nc f05 i scanin2 l25 io md08 v21 p vcc3 ab25 o cke0 / swec# af01 i sbs c04 i procrdy f06 p vcc3 l26 io md41 v22 o ma06 / stra p ab26 o d q m4 / cas4# af02 i sbs# c05 o ain10# f07 p g nd m01 o gnt3# v23 o ma04 / stra p ac01 io ad02 af03 i sba4 c06 o ain04# f08 p vtt m02 i re q 4# v24 o ma09 / stra p ac02 io ad03 af04 io gd31 c07 o ain05# f09 p gnd m03 o gnt4# v25 o ma08 / stra p ac03 io ad00 af05 io gd29 c08 io d14# f10 p s2kvref m04 i re q 3# v26 o ma02 / stra p ac04 io ad01 af06 io gd27 c0 9 io d13# f11 p vtt m05 o gnt0# w01 io ad15 a c 05 p v ccq af07 io gd24 c10 io d02# f12 p gnd m06 p gnd w02 io par ac06 o st0 af08 io gd22 c11 io d25# f13 io d24# m21 p v cc 3 w03 p g nd ac07 io gds1# af0 9 io gd20 c12 io d16# f14 p vtt m22 io md45 w04 io cbe1# ac08 p vcc q af10 p agpvref c13 io d17# f15 io d32# m23 io md10 w05 io ad10 ac09 i gpipe# af11 io gd16 c14 io d21# f16 p gnd m24 p gnd w06 p gnd ac10 i gwbf# af12 io gd15 c15 io d23# f17 p vtt m25 io md11 w21 p v cc 3 a c 11 p v ccq af13 io gd13 c16 io d41# f18 io d50# m26 io md43 w22 o ma14 / stra p ac12 io gtrdy# af14 io gd10 c17 io d34# f19 p g nd n01 i re q 1# w23 o ma13 / stra p ac13 io gpar / af15 io gd 9 c18 io d45# f20 p s2kvref n02 o gnt1# w24 o ma12 / stra p ac14 p vcc q af16 io gd7 c19 io d38# f21 p s2kgnd n03 i re q 2# w25 o ma11 / stra p ac15 i gclkf af17 io gd5 c20 io d57# f22 p s2kvcc n04 p vcc3 w26 o ma10 / stra p ac16 io gd8 af18 io gd3 c21 io d58# f23 p c lkvref n05 o gnt2# y01 io ad13 a c 17 p v ccq af1 9 io md31 c22 io d52# f24 i aout08# n06 i re q 0# y02 io ad11 ac18 i pcomp af20 io md29 c23 io d55# f25 i aout13# n21 io md13 y03 io ad12 ac1 9 i pwrok af21 io md60 c24 i aout04# f26 i aout14# n22 io md14 y04 io ad14 ac20 io md59 af22 io md57 c25 i aout06# g01 nc n23 io md46 y05 io ad0 9 ac21 io md26 af23 io md23 c26 i aout09# g02 i scanin3 n24 io md47 y06 p gnd ac22 io md56 af24 io md54 d01 n c g 03 p g nd n25 io md44 y21 p g nd ac23 io md21 af25 io md20 d02 nc g04 nc n26 io md12 y22 o cs4# / ras4# ac24 io md17 af26 io md52 center vcc25 pins (26 pins): j9,11-12,15-16, k9,18, l9,18, m9,18, n9,18, p9,18, r9,18, t9,18, u9,18, v10,13,15,17-18 center vccq pins (5 pins): v9,11-12,14,16 center gnd pins (36 pins): l11-16, m11-16, n11-16, p11-16, r11-16, t11-16 center vtt pins (5 pins): j10, 13-14, 17-18
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 8- pinouts 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
table 2. VT8363A kt133a pin list (alphabetical order) pin # pin name pin # pin name pin # pin name pin # pin name pin # pin names pin # pin name ac03 io ad00 a09 io d00# aa24 o dqm5 / cas5# y24 p gnd ac21 io md26 ad01 i sba1 ac04 io ad01 e11 io d01# t26 o d q m6 / cas6# aa08 p gnd ae21 io md27 ae01 i sba2 ac01 io ad02 c10 io d02# r24 o d q m7 / cas7# aa11 p gnd ad20 io md28 ad03 i sba3 ac02 io ad03 b09 io d03# t05 io frame# aa13 p gnd af20 io md29 af03 i sba4 ab01 io ad04 b11 io d04# ad16 io gbe0# aa16 p gnd ad19 io md30 ae03 i sba5 ab02 io ad05 a11 io d05# ad12 io gbe1# aa19 p gnd af19 io md31 ae04 i sba6 aa04 io ad06 b12 io d06# ae12 io gbe2# ab03 p gnd g24 io md32 ad04 i sba7 aa03 io ad07 a12 io d07# ad08 io gbe3# ad21 p gnd g26 io md33 af01 i sbs aa02 io ad08 e10 io d08# ab14 o gclk ad24 p gnd h24 io md34 af02 i sbs# y05 io ad09 b08 io d09# ac15 i gclkf ae02 p gnd h25 io md35 j01 i scanena w05 io ad10 e09 io d10# ae18 io gd0 ae05 p gnd j26 io md36 f02 i scanin0 y02 io ad11 a08 io d11# ad18 io gd1 ae08 p gnd k24 io md37 f01 i scanin1 y03 io ad12 d10 io d12# ab16 io gd2 ae11 p gnd k26 io md38 f05 i scanin2 y01 io ad13 c09 io d13# af18 io gd3 ae14 p gnd k22 io md39 g02 i scanin3 y04 io ad14 c08 io d14# ad17 io gd4 ae17 p gnd l24 io md40 h01 i scanin4 w01 io ad15 d11 io d15# af17 io gd5 ab15 p gndgck l26 io md41 h02 i scanin5 u01 io ad16 c12 io d16# ae16 io gd6 g21 p gndhck l23 io md42 j03 i scanin6 u04 io ad17 c13 io d17# af16 io gd7 p21 p gndmck m26 io md43 j02 i scanin7 u02 io ad18 a13 io d18# ac16 io gd8 d02 p gndpll1 n25 io md44 h03 o scanout0 u03 io ad19 b14 io d19# af15 io gd9 d03 p gndpll2 m22 io md45 g06 o scanout1 t01 io ad20 a14 io d20# af14 io gd10 ab17 p gndqq n23 io md46 h05 o scanout2 t04 io ad21 c14 io d21# ad14 io gd11 m05 o gnt0# n24 io md47 k06 o scanout3 t02 io ad22 a15 io d22# ad13 io gd12 n02 o gnt1# ab23 io md48 k01 o scanout4 r02 io ad23 c15 io d23# af13 io gd13 n05 o gnt2# ac25 io md49 k02 o scanout5 r01 io ad24 f13 io d24# ae13 io gd14 m01 o gnt3# ad26 io md50 k03 o scanout6 p03 io ad25 c11 io d25# af12 io gd15 m03 o gnt4# ae26 io md51 l02 o scanout7 p02 io ad26 e13 io d26# af11 io gd16 ac13 io gpar / gckrun# af26 io md52 p25 o scasa#/strap r05 io ad27 e12 io d27# ad11 io gd17 ac09 i gpipe# ae24 io md53 v02 io serr# p05 io ad28 d13 io d28# ae10 io gd18 k05 o gpout af24 io md54 u25 o srasa#/strap p01 io ad29 d14 io d29# ad10 io gd19 aa09 i grbf# ae23 io md55 ac06 o st0 r04 io ad30 d16 io d30# af09 io gd20 ad05 i gre q # ac22 io md56 ab08 o st1 p04 io ad31 e14 io d31# ae09 io gd21 ab12 io gstop# af22 io md57 ab09 o st2 af10 p agpvref f15 io d32# af08 io gd22 ac12 io gtrdy# ab21 io md58 v04 io stop# b06 o ain02# d17 io d33# ad09 io gd23 ac10 i gwbf# ac20 io md59 ab19 i susst# a06 o ain03# c17 io d34# af07 io gd24 g22 i hclk af21 io md60 ab24 o swea#/strap c06 o ain04# e17 io d35# ae07 io gd25 t06 io irdy# ae20 io md61 h23 i testin c07 o ain05# d20 io d36# ad07 io gd26 v01 io lock# ab20 io md62 v05 io trdy# d07 o ain06# d19 io d37# af06 io gd27 u24 o ma00 / strap ae19 io md63 f06 p vcc3 e08 o ain07# c19 io d38# ae06 io gd28 u23 o ma01# / strap a01 nc h06 p vcc3 e07 o ain08# b20 io d39# af05 io gd29 v26 o ma02 / stra p b01 nc j21 p vcc3 a05 o ain09# a16 io d40# ad06 io gd30 t22 o ma03 / stra p b02 nc k21 p vcc3 c05 o ain10# c16 io d41# af04 io gd31 v23 o ma04 / stra p c01 nc l06 p vcc3 a07 o ain11# b17 io d42# ad15 io gds0 u22 o ma05 / strap c02 nc m21 p vcc3 b03 o ain12# a17 io d43# ae15 io gds0# v22 o ma06 / stra p c03 nc n04 p vcc3 b05 o ain13# a18 io d44# ab07 io gds1 u21 o ma07 / strap d01 nc p06 p vcc3 a03 o ain14# c18 io d45# ac07 io gds1# v25 o ma08 / stra p d04 nc r21 p vcc3 a04 o ainclk# e19 io d46# ab13 io gdsel# v24 o ma09 / strap e01 nc t23 p vcc3 b26 i aout02# a19 io d47# ab10 io gfrm# w26 o ma10 / strap e02 nc v06 p vcc3 a26 i aout03# e20 io d48# ab06 o ggnt# w25 o ma11 / stra p e03 nc v21 p vcc3 c24 i aout04# a24 io d49# ab11 io girdy# w24 o ma12 / stra p e04 nc w21 p vcc3 e24 i aout05# f18 io d50# a02 p gnd w23 o ma13 / strap f03 nc aa06 p vcc3 c25 i aout06# e18 io d51# b04 p gnd w22 o ma14 / stra p f04 nc aa21 p vcc3 e26 i aout07# c22 io d52# b07 p gnd p23 i mclkf g01 nc aa14 p vccgck f24 i aout08# b24 io d53 # b10 p gnd r22 o mclk g04 nc h22 p vcchck c26 i aout09# d22 io d54# b13 p gnd g25 io md00 g05 nc p22 p vccmck d24 i aout10# c23 io d55# b16 p gnd g23 io md01 h04 nc aa07 p vccq d23 i aout11# a20 io d56# b19 p gnd h26 io md02 j05 nc aa10 p vcc q d26 i aout12# c20 io d57# b22 p gnd j25 io md03 k04 nc aa12 p vcc q f25 i aout13# c21 io d58# b25 p gnd j22 io md04 l05 nc aa15 p vcc q f26 i aout14# a21 io d59# f07 p gnd k25 io md05 ab18 i ncomp aa18 p vccq d25 i aoutclk# b21 io d60# f09 p gnd j23 io md06 w02 io par ac05 p vccq aa01 io cbe0# e21 io d61# f12 p gnd k23 io md07 ab04 io pckrun# ac08 p vccq w04 io cbe1# a22 io d62# f16 p gnd l25 io md08 aa05 i pclk ac11 p vcc q u05 io cbe2# b23 io d63# f19 p gnd l22 io md09 ac18 i pcomp ac14 p vccq t03 io cbe3# v03 io devsel# g03 p gnd m23 io md10 l01 o pgnt# ac17 p vccq e05 o cfwdrst j04 i dftin h21 p gnd m25 io md11 l04 i preq# aa17 p vccqq ab25 o cke0 / swec# a10 o diclk0# j06 p gnd n26 io md12 c04 i procrdy aa20 p vsus3 r25 o cke1 / scasc# e15 o diclk1# j24 p gnd n21 io md13 ac19 i pwrok d06 p vtt ac26 o cke2 / sweb# b18 o diclk2# l03 p gnd n22 io md14 n06 i req0# d09 p vtt p26 o cke3 / scasb# a23 o diclk3# l21 p gnd p24 io md15 n01 i re q 1# d12 p vtt t25 o cke4 / srasc# e06 o dinval# m06 p gnd ab22 io md16 n03 i req2# d15 p vtt u26 o cke5 / srasb# d08 i doclk0# m24 p gnd ac24 io md17 m04 i req3# d18 p vtt f23 p clkvref b15 i doclk1# r03 p gnd ad25 io md18 m02 i req4# d21 p vtt d05 o connect e16 i doclk2# r06 p gnd ae25 io md19 ab05 i reset# e23 p vtt y25 o cs0# / ras0# a25 i doclk3# t21 p gnd af25 io md20 e22 i s2kcomp e25 p vtt y26 o cs1# / ras1# aa23 o dqm0 / cas0# t24 p gnd ac23 io md21 f21 p s2kgnd f08 p vtt aa26 o cs2# / ras2# aa22 o dqm1 / cas1# w03 p gnd ad23 io md22 f22 p s2kvcc f11 p vtt aa25 o cs3# / ras3# r23 o dqm2 / cas2# w06 p gnd af23 io md23 f10 p s2kvref f14 p vtt y22 o cs4# / ras4# r26 o d q m3 / cas3# y06 p gnd ad22 io md24 f20 p s2kvref f17 p vtt y23 o cs5# / ras5# ab26 o dqm4 / cas4# y21 p gnd ae22 io md25 ad02 i sba0 u06 o wsc# center vcc25 pins (26 pins): j9,11-12,15-16, k9,18, l9,18, m9,18, n9,18, p9,18, r9,18, t9,18, u9,18, v10,13,15,17-18 center vccq pins (5 pins): v9,11-12,14,16 center gnd pins (36 pins): l11-16, m11-16, n11-16, p11-16, r11-16, t11-16 center vtt pins (5 pins): j10, 13-14, 17-18
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 9- pin descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
p in d escriptions table 3. VT8363A kt133a pin descriptions cpu interface signal name pin # i/o signal description cfwdrst e5 o clk forward reset. reset the clk forward circuitry for the athlon ? interface. connect d5 o connect. used for power management and clk-forward initialization at reset. procrdy c4 i processor ready. used for power management and clk-forward initialization at reset. ain[14-2]# (see pin list) o host cpu address / command output. unidirectional system address / command interface to the processor from the system controller. it is used to transfer probes or data movement commands into the processor during pci-to-dram cycles to snoop the cpu internal cache. ain[14:2]# is skew-aligned with the forward clock, ainclk# ainclk# a4 o host cpu address output clock. single-ended forwarded clock for the ain[14:2]# bus that is driven by the system controller. both rising and falling edges are used to transfer addresses or commands to the processor. aout[14-2]# (see pin list) i host cpu address input. unidirectional system address / command interface from the processor to the system controller. it is used to transfer processor commands or probes responses to the system controller. aout[14:2]# is skew-aligned with the forward clock, aoutclk# aoutclk# d25 i host cpu address input clock. single-ended forwarded clock for the aout[14:2]# bus that is driven by the processor. both rising and falling edges are used to transfer commands or probe responses. d[63-0]# (see pin list) io host cpu data. bi-directional interface between the processor and the system controller for data movement. d[63:0]# bus is skew-aligned with either the diclk[3:0]# or doclk[3:0]# forward clocks. diclk[3-0]# a23, b18, e15, a10 o host cpu data input clock. single-ended forwarded clocks for the d[63:0]# bus, driven by the system controller to the processor. each 16-bit data word is skew-aligned with one of these clocks. both rising and falling edges are used to transfer data to the pocessor. doclk[3-0]# a25, e16, b15, d8 i host cpu data output clock. single-ended forwarded clocks for the d[63:0]# bus, driven by the processor to the system controller. each 16-bit data word is skew-aligned with one of these clocks. both rising and falling edges are used to transfer data to the system controller. dinval# e6 o host cpu data read in valid. driven by the system controller to control the flow of data into the processor. dinval# can be used to introduce an arbitrary number of cycles between octawords into the processor.
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 10- pin descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
the pinouts were defined assuming the atx pcb layout model shown below (and general pin layout shown) as a guide for pcb component placement. other pcb layouts (at, lpx, and nlx) were also considered and can typically follow the same general component placement. 1, 2, or 3 dram modules ide connectors up to five pci slots agp slot vt8231 south bridge power supply nc cpu dram agp nc vt 8363 a ? af 1 26 pci socket-462 athlon cpu
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 11- pin descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
dram interface signal name pin # i/o signal description md[63:0] (see pinout tables) io memory data. these signals are connected to the dram data bus. ma14 / strap, ma13 / strap, ma12 / strap, ma11 / strap, ma10 / strap, ma9 / strap, ma8 / strap, ma7 / strap, ma6 / strap, ma5 / strap, ma4 / strap, ma3 / strap, ma2 / strap, ma1 / strap, ma0 / strap w22 w23 w24 w25 w26 v24 v25 u21 v22 u22 v23 t22 v26 u23 u24 o / i memory address. dram address lines strap register description settings ma14 rx68[0] cpu clock frequency 0=100, 1=66 ma13-12 rxb4[5-4] internal pullup strength 11=auto, ~11=strap ma11 rxb6[7] s2k edge/central dq 1=edge ma10-9 rxb4[1-0] output drive strength 0=auto, ~0=strap ma8-4 rxb6[4-0] s2k strobe delay 0=auto, ~0=strap ma3-0 rxb3[7-4] cpu clock divide 0=11, 1=11.5, 2=12, 3=12.5, 4=5, 5=5.5, 6=6,7=6.5,8=7,9=7.5, 10=8, 11=8.5, 12=9, 13=9.5,14=10,15=10.5 srasa# rxb2[5] s2k slew rate control 1=disable scasa# rxb3[1] fast command 1=enable swea# rxb6[5] cpu edge/center dq 1=center strap option default values are all 0 (internally pulled down) cs[5:0]# y23, y22, aa25, aa26, y26, y25 o chip select. chip select of each bank. dqm[7:0] r24, t26, aa24, ab26, r26, r23, aa22, aa23 o data mask. data mask of each byte lane srasa# / strap u25 o row address command indicator. (see device 0 rxb2[5]) scasa# / strap p25 o column address command indicator. (see device 0 rxb3[1]) swea# / strap ab24 o write enable command indicator. (see device 0 rxb6[5]) cke0 / swec#, cke1 / scasc#, cke2 / sweb#, cke3 / scasb#, cke4 / srasc#, cke5 / srasb# ab25 r25 ac26 p26 t25 u26 o clock enables. clock enables for each dram bank for powering down the sdram or clock control for reducing power usage and for reducing heat / temperature in high-speed memory systems.
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 12- pin descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
pci bus interface signal name pin # i/o signal description ad[31:0] (see pinout tables) io address/data bus. the standard pci address and data lines. the address is driven with frame# assertion and data is driven or received in following cycles. cbe[3:0]# t3, u5, w4, aa1 io command/byte enable. commands are driven with frame# assertion. byte enables corresponding to supplied or requested data are driven on following clocks. frame# t5 io frame. assertion indicates the address phase of a pci transfer. negation indicates that one more data transfer is desired by the cycle initiator. irdy# t6 io initiator ready. asserted when the initiator is ready for data transfer. trdy# v5 io target ready. asserted when the target is ready for data transfer. stop# v4 io stop. asserted by the target to request the master to stop the current transaction. devsel# v3 io device select. this signal is driven by the VT8363A when a pci initiator is attempting to access main memory. it is an input when the VT8363A is acting as a pci initiator. par w2 io parity. a single parity bit is provided over ad[31:0] and c/be[3:0]. serr# v2 io system error. the VT8363A will pulse this signal when it detects a system error condition. lock# v1 io lock. used to establish, maintain, and release resource lock. preq# l4 i south bridge request. this signal comes from the south bridge. preq# is the south bridge request for the pci bus. pgnt# l1 o south bridge grant. this signal driven by the VT8363A to grant pci access to the south bridge. req[4:0]# m2, m4, n3, n1, n6 i pci master request. pci master requests for pci. gnt[4:0]# m3, m1, n5, n2, m5 o pci master grant. permission is given to the master to use pci. pclk aa5 i pci clock. from external clock generator. pckrun# ab4 io pci clock run. may be used to stop pci clock. wsc# u6 o write snoop complete. sideband pci signal (used on the planar only in multiprocessor configurations) asserted to indicate that all snoop activity on the cpu bus initiated by the last pci-to-dram write is complete and that it is safe to send an apic interrupt message. basically this signal is always active except when pci master write data is not flushed.
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 13- pin descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
agp bus interface signal name pin # i/o signal description gd[31:0] (see pinout tables) io address/data bus. the standard agp/pci address and data lines. the address is driven with gds0# and gds1# assertion for agp transfers and is driven with gfrm# assertion for pci transfers. gds0 ad15 io bus strobe 0 (agp transactions only). provides timing for 2x data transfer mode on ad[15:0]. the agent that is providing the data drives this signal. gds0# ae15 io bus strobe 0 complement and bus strobe 0 (agp transactions only). provides timing for 4x data transfer mode on ad[15:0]. the agent that is providing the data drives this signal. gds1 ab7 io bus strobe 1 (agp transactions only). provides timing for 2x data transfer mode on ad[31:16]. the agent that is providing the data drives this signal. gds1# ac7 io bus strobe 1 complement and bus strobe 1 (agp transactions only). provides timing for 4x data transfer mode on ad[31:16]. the agent that is providing the data drives this signal. gbe[3:0]# ad8, ae12, ad12, ad16 io command/byte enable. agp: these pins provide command information (different commands than for pci) driven by the master (graphics controller) when requests are being enqueued using pipe#. these pins provide valid byte information during agp write transactions and are driven by the master. the target (this chip) drives these lines to ? 0000 ? during the return of agp read data, but the state of these pins is ignored by the agp master. pci: commands are driven with gfrm# assertion. byte enables corresponding to supplied or requested data are driven on following clocks. gfrm# ab10 io frame (pci transactions only). assertion indicates the address phase of a pci transfer. negation indicates that one more data transfer is desired by the cycle initiator. girdy# ab11 io initiator ready agp: for write operations, the assertion of this pin indicates that the master is ready to provide all write data for the current transaction. once this pin is asserted, the master is not allowed to insert wait states. for read operations, the assertion of this pin indicates that the master is ready to transfer a subsequent block of read data. the master is never allowed to insert a wait state during the initial block of a read transaction. however, it may insert wait states after each block transfers. pci: asserted when the initiator is ready for data transfer. gtrdy# ac12 io target ready: agp: indicates that the target is ready to provide read data for the entire transaction (when the transaction can complete within four clocks) or is ready to transfer a (initial or subsequent) block of data when the transfer requires more than four clocks to complete. the target is allowed to insert wait states after each block transfers on both read and write transactions. pci: asserted when the target is ready for data transfer. gstop# ab12 io stop (pci transactions only). asserted by the target to request the master to stop the current transaction. gdsel# ab13 io device select (pci transactions only). this signal is driven by the VT8363A when a pci initiator is attempting to access main memory. it is an input when the VT8363A is acting as pci initiator. not used for agp cycles. note: clocking of the agp interface is performed with gclk; see the clock pin group for descriptions of the clock pins. note: pcb layout guidelines (reference from agp specification) 1. total motherboard trace length 10 ? max, trace impedance = 65 ohms 15 ohms, minimize signal crosstalk 2. trace lengths within groups matched to within 2 inches or better groups are: a. gds0#, gds0, gd15-0, gbe1-0# b. gds1#, gds1, gd31-16, gbe3-2# c. sbs#, sbs, sba7-0 3. ground isolation should be provided around gds0#, gds0, gds1# and gds1 to prevent crosstalk with gd[31:0]. ideally ground traces should be provided adjacent to gdsn# on the same signal layer, but at a minimum wider spaces should be provided on either side (e.g., 16 mil spaces on either side of gdsn# if gdsn# signal traces are 8 mil).
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 14- pin descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
agp bus interface (continued) signal name pin # io signal description gpipe# ac9 i pipelined request. asserted by the master (graphics controller) to indicate that a full- width request is to be enqueued by the target VT8363A. the master enqueues one request each rising edge of gclk while gpipe# is asserted. when gpipe# is deasserted no new requests are enqueued across the ad bus. grbf# aa9 i read buffer full. indicates if the master (graphics controller) is ready to accept previously requested low priority read data. when grbf# is asserted, the VT8363A will not return low priority read data to the master. gwbf# ac10 i write buffer full. sba[7:0] ad4, ae4, ae3, af3, ad3, ae1, ad1, ad2 i sideband address. provides an additional bus to pass address and command information from the master (graphics controller) to the target (the VT8363A). these pins are ignored until enabled. sbs af1 i sideband strobe. provides timing for sba[7:0] (driven by the master) sbs# af2 i sideband strobe complement and sbs . provides timing for sba[7:0] (driven by the master) when 4x timing is supported. st[2:0] ab9, ab8, ac6 o status (agp only). provides information from the arbiter to a master to indicate what it may do. only valid while ggnt# is asserted. 000 indicates that previously requested low priority read or flush data is being returned to the master (graphics controller). 001 indicates that previously requested high priority read data is being returned to the master. 010 indicates that the master is to provide low priority write data for a previously enqueued write command. 011 indicates that the master is to provide high priority write data for a previously enqueued write command. 100 reserved. (arbiter must not issue, may be defined in the future). 101 reserved. (arbiter must not issue, may be defined in the future). 110 reserved. (arbiter must not issue, may be defined in the future). 111 indicates that the master (graphics controller) has been given permission to start a bus transaction. the master may enqueue agp requests by asserting pipe# or start a pci transaction by asserting gfrm#. st[2:0] are always outputs from the VT8363A and inputs to the master. greq# ad5 i request. master request for agp. ggnt# ab6 o grant. permission is given to the master to use agp. gpar / gckrun# ac13 io rx78[1]=0: agp parity. a single parity bit is provided over gd[31:0] and gbe[3:0]. rx78[1]=1: agp clock run. used to stop the agp bus clock to reduce bus power usage. gclk ab14 o agp clock. generated by on-chip clock logic. gclkf ac15 i agp clock feedback. connect to gclk. note: for pci operation on the agp bus, the following pins are not required: - perr# (parity and error reporting not required on transient data devices such as graphics controllers) - lock# (no lock requirement on agp) - idsel (internally connected to ad16 on agp-compliant masters) note: separate system interrupts are not provided for agp. the agp connector provides interrupts via pci bus inta-b#. note: the agp bus supports only one master directly (req[3:0]# and gnt[3:0]# are not provided). external logic is required to implement additional master capability. note that the arbitration mechanism on the agp bus is different from the pci bus. note: a separate reset is not required for the agp bus (reset# resets both pci and agp buses) note: two mechanisms are provided by the agp bus to enqueue master requests: gpipe# (to send addresses multiplexed on the ad l ines) and the sba port (to send addresses unmultiplexed). agp masters implement one or the other or select one at initialization time (t hey are not allowed to change during runtime). therefore only one of the two will be used and the signals associated with the other will n ot be used. therefore the VT8363A has an internal pullup on grbf# to maintain it in the de-asserted state in case it is not implemented on the master device.
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 15- pin descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
test functions signal name pin # i/o signal description testin h23 i pll test input. normally connected to vcc3. clock / reset control signal name pin # i/o signal description hclk g22 i host clock. this pin receives the host cpu clock (66 / 100 / 133 mhz). this clock is used by all VT8363A logic that is in the host cpu domain. the memory interface logic will also use this clock if selected (memory system timing can alternately be selected to use the agp bus clock). the cpu clock must lead the agp clock by 0.2 0.5 nsec. pclk aa5 i pci clock. this pin receives a buffered host clock divided-by-6 to create 33 mhz. this clock is used by all of the VT8363A logic that is in the pci clock domain. this clock input must be 33 mhz maximum to comply with pci specification requirements and must be synchronous with the host cpu clock, hclk. the host cpu clock must lead the pci clock by 1.5 0.5 nsec. gclk ab14 o agp clock. this pin drives the agp bus clock (66 mhz). this clock is used by all VT8363A logic that is in the agp clock domain. the agp clock is synchronous to the 200 mhz host cpu clock. gclkf ac15 i agp clock feedback. connect to gclk. mclk r22 o dram clock. output from internal clock generator to the external clock buffer. mclkf p23 i dram clock feedback. input from mclk via the external clock buffer. reset# ab5 i reset. input from south bridge chip. when asserted, this signal resets the VT8363A and sets all register bits to the default value. the rising edge of this signal is used to sample all power-up strap options pwrok ac19 i power ok. susst# ab19 i suspend status. for implementation of the suspend-to-dram feature. connect to an external pullup to disable. figure 3. cpu / sdram / agp / pci clock connections ? zero delay ? clock buffer VT8363A north bridge agp slot mclko mclkf gclkf gclko to sdrams athlon cpu clock generator pci slots hclk pclk
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 16- pin descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
power, ground, and test signal name pin # i/o signal description vcc3 (see pin list) p power for internal logic and i/o interface logic (3.3v 5%). vsus3 aa20 p suspend power (3.3v 5%). vtt d6, d9, d12, d15, d18, d21, e23, e25, f8, f11, f14, f17, j10, j13, j14, j17, j18 p cpu interface termination voltage (x.xv 0.xv). gnd (see pin list) p ground s2kvref f10, f20 p s2k voltage reference. s2kcomp e22 i s2k compensation. s2kvcc f22 p s2k power. s2kgnd f21 p s2k ground. clkvref f23 p clock voltage reference. vcchck h22 p host cpu clock power (3.3v 5%). for host cpu clock logic. gndhck g21 p host cpu clock ground. connect to main ground plane. vccmck p22 p dram clock power (3.3v 5%). for dram clock deskew logic. gndmck p21 p dram clock ground. connect to main ground plane. vccgck aa14 p agp clock power (3.3v 5%). for agp clock deskew logic gndgck ab15 p agp clock ground. connect to main ground plane. vccq v9, v11, v12, v14, v16, aa7, aa10, aa12, aa15, aa18, ac5, ac8, ac11, ac14, ac17 p agp 1.5v power. vccqq aa17 p agp quiet power. gndqq ab17 p agp quiet ground. agpvref af10 p agp voltage reference. 0.39 vcc3 to 0.41 vcc3. typical value is 1.32v (0.40 times 3.3v). this can be provided with a resistive divider on vcc3 using 270 ohm and 180 ohm (2%) resistors. ncomp ab18 i agp n compensation. connect to vccq through a 60 ohm resistor. pcomp ac18 i agp p compensation. connect to gnd through a 60 ohm resistor. dftin j4 i dft in. scanena j1 i scan enable. scanin[7-0] j2, j3, h2, h1, g2, f5, f1, f2 i scan in. scanout[7-0] l2, k3-k1, k6, h5, g6, h3 o scan out.
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 17- register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
r egisters register overview the following tables summarize the configuration and i/o registers of the VT8363A . these tables also document the power-on default value ( ? default ? ) and access type ( ? acc ? ) for each register. access type definitions used are rw (read/write), ro (read/only), ??? for reserved / used (essentially the same as ro), and rwc (or just wc) (read / write 1 ? s to clear individual bits). registers indicated as rw may have some read/only bits that always read back a fixed value (usually 0 if unused); registers designated as rwc or wc may have some read-only or read write bits (see individual register descriptions following these tables for details). all offset and default values are shown in hexadecimal unless otherwise indicated. table 4. VT8363A registers VT8363A i/o ports p o r t # i /o p o r t d e f au l t a cc 22 pci / agp arbiter disable 00 rw cfb - 8 configuration address 0000 0000 rw cff - c configuration data 0000 0000 rw
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 18- register summary tables 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
VT8363A device 0 registers - host bridge header registers offset configuration space header default acc 1-0 vendor id 1106 ro 3-2 device id 0305 ro 5-4 command 0006 rw 7-6 status 0210 wc 8 revision id 8n ro 9 program interface 00 ro a sub class code 00 ro b base class code 06 ro c -reserved- 00 ? d latency timer 00 rw e header type 00 ro f built in self test (bist) 00 ro 13-10 graphics aperture base 0000 0008 rw 14-2b -reserved- 00 ? 2d-2c subsystem vendor id 0000 w1 2f-2e subsystem id 0000 w1 30-33 -reserved- 00 ? 37-34 capability pointer 0000 00a0 ro 38-3f -reserved- 00 ? device-specific registers offset host cpu protocol control default acc 50 s2k timing control i 00 rw 51 s2k timing control ii 00 rw 52 s2k timing control iii 70 rw 53 biu arbitration control 00 rw 54 biu control 00 rw 55 debug (do not program) - ? device-specific registers (continued) offset dram control default acc 56-57 -reserved- 00 ? 59-58 ma map type 0040 rw 5f-5a dram row ending address: 5a bank 0 ending (ha[31:24]) 01 rw 5b bank 1 ending (ha[31:24]) 01 rw 5c bank 2 ending (ha[31:24]) 01 rw 5d bank 3 ending (ha[31:24]) 01 rw 5e bank 4 ending (ha[31:24]) 01 rw 5f bank 5 ending (ha[31:24]) 01 rw 60 dram type 00 rw 61 rom shadow control c0000-cffff 00 rw 62 rom shadow control d0000-dffff 00 rw 63 rom shadow control e0000-fffff 00 rw 64 dram timing for banks 0,1 ec rw 65 dram timing for banks 2,3 ec rw 66 dram timing for banks 4,5 ec rw 67 -reserved- 00 ? 68 dram control 00 rw 69 dram clock select 00 rw 6a dram refresh counter 00 rw 6b dram arbitration control 01 rw 6c sdram control 00 rw 6d dram control drive strength 00 rw 6e-6f -reserved- 00 ? offset pci bus control default acc 70 pci buffer control 00 rw 71 cpu to pci flow control 1 00 rw 72 cpu to pci flow control 2 00 rw 73 pci master control 1 00 rw 74 pci master control 2 00 rw 75 pci arbitration 1 00 rw 76 pci arbitration 2 00 rw 77 chip test (do not program) 00 rw 78 pmu control 00 rw 79 pmu control 00 rw 7a miscellaneous control 00 rw 7b pci master access control 00 rw 7c-7d -reserved- 00 ? 7e-7f pll test mode (do not program) 00 rw
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 19- register summary tables 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 0 device-specific registers (continued) offset gart/tlb control default acc 83-80 gart/tlb control 0000 0000 rw 84 graphics aperture size 00 rw 85-87 -reserved- 00 ? 8b-88 gr. aperture tlb base register base 0000 0000 rw 8c-9f -reserved- 00 ? offset agp control default acc a0 agp id 02 ro a1 agp next item pointer c0 ro a2 agp specification revision 20 ro a3 -reserved- 00 ? a7-a4 agp status 1f00 0203 ro ab-a8 agp command 0000 0000 rw ac agp control 00 rw ad agp latency timer 02 rw ae agp miscellaneous control 00 rw af agp strobe drive strength 00 rw b0 agp pad control / status 8x rw b1 agp drive strength 63 rw b2 agp pad drive / delay control 00 rw b3 -reserved- 00 ? offset cpu strapping/s2k compensation default acc b3 cpu strapping control strapping ro b4 s2k compensation strapping strapping ro b5 s2k compensation result 1 00 ro b6 s2k compensation result 2 00 ro b7 s2k compensation result 3 00 ro b8 s2k compensation result 4 00 ro b9-bf -reserved- 00 ? device 0 device-specific registers (continued) offset power management & misccontrol default acc c0 power management capability id 01 ro c1 power management new pointer 00 ro c2 power management capabilities i 02 ro c3 power management capabilities ii 00 ro c4 power management control / status 00 rw c5 power management status 00 ro c6 pci-to-pci bridge support extension 00 ro c7 power management data 00 ro c8-df -reserved- 00 ? e0 miscellaneous control 00 rw e1-ef -reserved- 00 ? f0 bios scratch register 0 00 rw f1 bios scratch register 1 00 rw f2 bios scratch register 2 00 rw f3 bios scratch register 3 00 rw f4 bios scratch register 4 00 rw f5 bios scratch register 5 00 rw f6 revision id backdoor 00 rw f7 foundry id foundryid rw f8 dram arbitration timer 00 rw f9-fb -reserved- 0000 rw fc back-door control 1 00 rw fd back-door control 2 00 rw ff-fe back-door device id 0000 rw
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 20- register summary tables 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
VT8363A device 1 - pci-to-pci bridge header registers offset configuration space header default acc 1-0 vendor id 1106 ro 3-2 device id 8305 ro 5-4 command 0007 rw 7-6 status 0230 wc 8 revision id nn ro 9 program interface 00 ro a sub class code 04 ro b base class code 06 ro c -reserved- 00 ? d latency timer 00 rw e header type 01 ro f built in self test (bist) 00 ro 10-17 -reserved- 00 ? 18 primary bus number 00 rw 19 secondary bus number 00 rw 1a subordinate bus number 00 rw 1b secondary latency timer 00 ro 1c i/o base f0 rw 1d i/o limit 00 rw 1f-1e secondary status 0000 ro 21-20 memory base fff0 rw 23-22 memory limit (inclusive) 0000 rw 25-24 prefetchable memory base fff0 rw 27-26 prefetchable memory limit 0000 rw 28-2b -reserved- 00 ? 2d-2c subsystem vendor id 0000 rw 2f-2e subsystem id 0000 rw 30-33 -reserved- 00 ? 34 capability pointer 00 ro 35-3d -reserved- 00 ? 3f-3e pci-to-pci bridge control 00 rw device-specific registers offset agp bus control default acc 40 cpu-to-agp flow control 1 00 rw 41 cpu-to-agp flow control 2 00 rw 42 agp master control 00 rw 43 agp master latency timer 00 rw 44 back-door register control 00 rw 45 fast write control 72 rw 47-46 pci-to-pci bridge device id 0000 rw 48-7f -reserved- 00 ? 80 capability id 01 ro 81 next pointer 00 ro 82 power management capabilities 1 02 ro 83 power management capabilities 2 00 ro 84 power management control / status 00 rw 85 power management status 00 ro 86 pci-pci bridge support extensions 00 ro 87 power management data 00 ro 88-ff -reserved- 00 ?
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 21- miscellaneous and configuration space i/o ports 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
miscellaneous i/o one i/o port is defined in the VT8363A : port 22. port 22 ? pci / agp arbiter disable ..............................rw 7-2 reserved ........................................ always reads 0 1 agp arbiter disable 0 respond to greq# signal .....................default 1 do not respond to greq# signal 0 pci arbiter disable 0 respond to all req# signals..................default 1 do not respond to any req# signals, including preq# this port can be enabled for read/write access by setting bit-7 of device 0 configuration register 78. configuration space i/o all registers in the VT8363A (listed above) are addressed via the following configuration mechanism: mechanism #1 these ports respond only to double-word accesses. byte or word accesses will be passed on unchanged. port cfb-cf8 - configuration address......................... rw 31 configuration space enable 0 disabled................................................. default 1 convert configuration data port writes to configuration cycles on the pci bus 30-24 reserved ........................................always reads 0 23-16 pci bus number used to choose a specific pci bus in the system 15-11 device number used to choose a specific device in the system (devices 0 and 1 are defined for the VT8363A) 10-8 function number used to choose a specific function if the selected device supports multiple functions (only function 0 is defined for the VT8363A). 7-2 register number (also called the "offset") used to select a specific dword in the VT8363A configuration space 1-0 fixed ........................................always reads 0 port cff-cfc - configuration data.............................. rw refer to pci bus specification version 2.1 for further details on operation of the above configuration registers.
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 22- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
register descriptions device 0 header registers - host bridge all registers are located in pci configuration space. they should be programmed using pci configuration mechanism 1 through cf8 / cfc with bus number, function number, and device number equal to zero . device 0 offset 1-0 - vendor id (1106h) ..........................ro 15-0 id code (reads 1106h to identify via technologies) device 0 offset 3-2 - device id (0305h)............................ro 15-0 id code (reads 0305h to identify the VT8363A) device 0 offset 5-4 ? command (0006h) ..........................rw 15-10 reserved ........................................ always reads 0 9 fast back-to-back cycle enable ........................ ro 0 fast back-to-back transactions only allowed to the same agent ........................................default 1 fast back-to-back transactions allowed to different agents 8 serr# enable ...................................................... ro 0 serr# driver disabled ...........................default 1 serr# driver enabled (serr# is used to report parity errors if bit-6 is set). 7 address / data stepping ...................................... ro 0 device never does stepping....................default 1 device always does stepping 6 parity error response ........................................ rw 0 ignore parity errors & continue ..............default 1 take normal action on detected parity errors 5 vga palette snoop .............................................. ro 0 treat palette accesses normally ..............default 1 don ? t respond to palette accesses on pci bus 4 memory write and invalidate command .......... ro 0 bus masters must use mem write ..........default 1 bus masters may generate mem write & inval 3 special cycle monitoring .................................... ro 0 does not monitor special cycles .............default 1 monitors special cycles 2 pci bus master .................................................... ro 0 never behaves as a bus master 1 can behave as a bus master ....................default 1 memory space ...................................................... ro 0 does not respond to memory space 1 responds to memory space ....................default 0 i/o space .......................................................... ro 0 does not respond to i/o space ...............default 1 responds to i/o space device 0 offset 7-6 ? status (0210h)............................. rwc 15 detected parity error 0 no parity error detected ......................... default 1 error detected in either address or data phase. this bit is set even if error response is disabled (command register bit-6). ......write one to clear 14 signaled system error (serr# asserted) ........................................always reads 0 13 signaled master abort 0 no abort received .................................. default 1 transaction aborted by the master ................... ....................................write one to clear 12 received target abort 0 no abort received .................................. default 1 transaction aborted by the target...................... ....................................write one to clear 11 signaled target abort ........................always reads 0 0 target abort never signaled 10-9 devsel# timing 00 fast 01 medium....................................always reads 01 10 slow 11 reserved 8 data parity error detected 0 no data parity error detected ................. default 1 error detected in data phase. set only if error response enabled via command bit-6 = 1 and VT8363A was initiator of the operation in which the error occurred. .......write one to clear 7 fast back-to-back capable ...............always reads 0 6 user definable features .....................always reads 0 5 66mhz capable ..................................always reads 0 4 supports new capability list .............always reads 1 3-0 reserved ........................................always reads 0 device 0 offset 8 - revision id (08nh) ............................. ro 7-0 chip revision code .always reads 08nh (n=rev code) device 0 offset 9 - programming interface (00h) ........... ro 7-0 interface identifier ...........................always reads 00 device 0 offset a - sub class code (00h)........................ ro 7-0 sub class code .......reads 00 to indicate host bridge device 0 offset b - base class code (06h)....................... ro 7-0 base class code .. reads 06 to indicate bridge device device 0 offset d - latency timer (00h) ........................ rw specifies the latency timer value in pci bus clocks. 7-3 guaranteed time slice for cpu ................default=0 2-0 reserved (fixed granularity of 8 clks) .. always read 0 bits 2-1 are writeable but read 0 for pci specification compatibility. the programmed value may be read back in offset 75 bits 5-4 (pci arbitration 1).
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 23- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 0 host bridge header registers (continued) device 0 offset e - header type (00h) .............................ro 7-0 header type code ............reads 00: single function device 0 offset f - built in self test (bist) (00h)..........ro 7 bist supported ......reads 0: no supported functions 6-0 reserved ........................................ always reads 0 device 0 offset 13-10 - graphics aperture base (00000008h) .......................................................................rw 31-28 upper programmable base address bits ....... def=0 27-20 lower programmable base address bits ...... def=0 these bits behave as if hardwired to 0 if the corresponding graphics aperture size register bit (device 0 offset 84h) is 0. 27 26 25 24 23 22 21 20 (this register) 7 6 5 4 3 2 1 0 (gr aper size) rw rw rw rw rw rw rw rw 1m rw rw rw rw rw rw rw 0 2m rw rw rw rw rw rw 0 0 4m rw rw rw rw rw 0 0 0 8m rw rw rw rw 0 0 0 0 16m rw rw rw 0 0 0 0 0 32m rw rw 0 0 0 0 0 0 64m rw 0 0 0 0 0 0 0 128m 0 0 0 0 0 0 0 0 256m 19-0 reserved ................................ always reads 00008 note: the locations in the address range defined by this register are prefetchable. device 0 offset 2d-2c ? subsystem vendor id (0000h)r/w1 15-0 subsystem vendor id ...............................default = 0 this register may be written once and is then read only. device 0 offset 2f-2e ? subsystem id (0000h)........... r/w1 15-0 subsystem id ............................................default = 0 this register may be written once and is then read only. device 0 offset 37-34 - capability pointer (000000a0h) ro contains an offset from the start of configuration space. 31-0 agp capability list pointer ........ always reads a0h
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 24- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 0 configuration registers - host bridge these registers are normally programmed once at system initialization time. host cpu control device 0 offset 50 ? s2k timing control i.....................rw the contents of this register are preserved during suspend. bits 5-0 have no default value. when the system is first powered up, s2k timing (sip) is determined by an internal rom. after power up, the user can change the timing (the sip) by programming sdcout, sdcin,.dinit, ainit, and muxpreld, then setting bit-7 of this register, then generating a system reset by programming sb. 7 disable rom table 0 read sdcout, sdcin, dinit, ainit, muxpreld, and wrdatadly values from internal rom .....................................................default 1 normal read of sdcout, sdcin, dinit, ainit, muxpreld, and wrdatadly values from fields of registers rx50-52 6 reserved ........................................ always reads 0 5-4 read data delay (sdcoutdelay) ............. (sdcout) 3-0 write data delay (sdcindelay) ................ (sdcin) device 0 offset 51 ? s2k timing control ii ...................rw the contents of this register are preserved during suspend. the fields in this register have no default value. 7-6 north bridge data receiver mux initial count ...... .....................................................(dinit) 5-4 north bridge address receiver mux initial count .....................................................(ainit) 3 reserved ........................................ always reads 0 2-0 cpu data / address mux preload count ................ ............................................(muxpreld) device 0 offset 52 ? s2k timing control iii..................rw the contents of this register are preserved during suspend. bits 2-0 have no default value. 7 disconnect enable when stpgnt detected 6 write to read delay ................................ default = 1 5-4 read to write delay ............................ default = 11b 3 1ns skew between even / odd clock group for data (strapped from mab3) 0 disable .................default if no strap on mab3 1 enable 2-0 write data delay from sysdc to cpu data output .......................................... (wrdatadly) device 0 offset 53 ? biu arbitration control ............... rw 7-6 max of contiguous probe sysdc before switch to other type of sysdc 5-3 max of contiguous read sysdc before switch to other type of sysdc 2-0 max of contiguous write sysdc before switch to other type of sysdc device 0 offset 54 ? biu control .................................... rw 7 sdram self-refresh when disconnected 0 disable................................................... default 1 enable 6 probe next tag state t1 when pci master read cacheing enabled 0 disable................................................... default 1 enable 5 s2k data input buffer 0 disable................................................... default 1 enable 4 s2k data output enable timing 0 1t setup / hold ..................................... default 1 1/2t setup / hold 3 dram speculative read for pci master read (before probe result is known) 0 disable................................................... default 1 enable 2 pci master pipeline request 0 disable................................................... default 1 enable 1 pci-to-cpu / cpu-to-pci (p2c / c2p) concurrency 0 disable................................................... default 1 enable 0 fast write-to-read turnaround 0 disable................................................... default 1 enable device 0 offset 55 ? debug .............................................. rw 7-0 reserved (do not program) ......................default = 0
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 25- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
dram control these registers are normally set at system initialization time and not accessed after that during normal system operation. some of these registers, however, may need to be programmed using specific sequences during power-up initialization to properly detect the type and size of installed memory (refer to the via technologies VT8363A bios porting guide for details). table 5. system memory map space start size address range comment dos 0 640k 00000000-0009ffff cacheable vga 640k 128k 000a0000-000bffff used for smm bios 768k 16k 000c0000-000c3fff shadow ctrl 1 bios 784k 16k 000c4000-000c7fff shadow ctrl 1 bios 800k 16k 000c8000-000cbfff shadow ctrl 1 bios 816k 16k 000cc000-000cffff shadow ctrl 1 bios 832k 16k 000d0000-000d3fff shadow ctrl 2 bios 848k 16k 000d4000-000d7fff shadow ctrl 2 bios 864k 16k 000d8000-000dbfff shadow ctrl 2 bios 880k 16k 000dc000-000dffff shadow ctrl 2 bios 896k 64k 000e0000-000effff shadow ctrl 3 bios 960k 64k 000f0000-000fffff shadow ctrl 3 sys 1mb ? 00100000-dram top can have hole bus d top dram top-fffeffff init 4g-64k 64k fffeffff-ffffffff 000f xxxx alias device 0 offset 59-58 - dram ma map type (0040h).rw 15-13 bank 5/4 ma map type (see below) 12 bank 5/4 virtual channel enable ................... def=0 11-8 reserved .................................................... def = 0 7-5 bank 1/0 ma map type 000 16mbit sdram.....................................default 001 -reserved- 01x -reserved- 100 64mbit / 128mbit sdram 101 256mbit x 32 sdram 110 256mbit x 16 sdram 111 256mbit x 8 or x 4 sdram 4 bank 1/0 virtual channel enable ................... def=0 3-1 bank 3/2 ma map type (see above) 0 bank 3/2 virtual channel enable ................... def=0 device 0 offset 5f-5a ? dram row ending address: offset 5a ? bank 0 ending (ha[31:24]) (01h) .......... rw offset 5b ? bank 1 ending (ha[31:24]) (01h) .......... rw offset 5c ? bank 2 ending (ha[31:24]) (01h) .......... rw offset 5d ? bank 3 ending (ha[31:24]) (01h) .......... rw offset 5e ? bank 4 ending (ha[31:24]) (01h) .......... rw offset 5f ? bank 5 ending (ha[31:24]) (01h) .......... rw note : bios is required to fill the ending address registers for all banks even if no memory is populated. the endings have to be in incremental order. device 0 offset 60 ? dram type (00h).......................... rw 7-6 dram type for bank 7/6 00 -reserved-............................................... default 01 -reserved- 10 -reserved- 11 sdram 5-4 dram type for bank 5/4 ........................default=00 3-2 dram type for bank 3/2 ........................default=00 1-0 dram type for bank 1/0 ........................default=00 table 6. memory address mapping table ma: 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 16mb (0xx) 11 11 22 pc 21 24 20 23 19 10 18 9 17 8 16 7 15 6 14 5 13 4 12 3 11x10, 11x9, 11x8 64/128mb (100) 2/4 bank 24 27/ 24 13 13 12 12 22 pc 21 26 20 25 19 10 18 9 17 8 16 7 15 6 14 5 11 4 23 3 x4: 14x10 x8: 14x9 256mb (101) 2/4b 25 24 28 13 13 12 12 22 pc 21 26 20 25 19 10 18 9 17 8 16 7 15 6 14 5 11 4 23 3 x32: 14x8 256mb (110) 2/4b 26 24 28 13 13 12 12 22 pc 21 26 20 25 19 10 18 9 17 8 16 7 15 6 14 5 11 4 23 3 x16: 14x9 256mb (111) 2/4b 27 24 28 13 13 12 12 22 pc 21 26 20 25 19 10 18 9 17 8 16 7 15 6 14 5 11 4 23 3 x8: 14x10 x4: 14x11 "pc" = "precharge control" (refer to sdram specifications)
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 26- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 0 offset 61 - shadow ram control 1 (00h) .......rw 7-6 cc000h-cffffh 00 read/write disable ..................................default 01 write enable 10 read enable 11 read/write enable 5-4 c8000h-cbfffh 00 read/write disable ..................................default 01 write enable 10 read enable 11 read/write enable 3-2 c4000h-c7fffh 00 read/write disable ..................................default 01 write enable 10 read enable 11 read/write enable 1-0 c0000h-c3fffh 00 read/write disable ..................................default 01 write enable 10 read enable 11 read/write enable device 0 offset 62 - shadow ram control 2 (00h) .......rw 7-6 dc000h-dffffh 00 read/write disable ..................................default 01 write enable 10 read enable 11 read/write enable 5-4 d8000h-dbfffh 00 read/write disable ..................................default 01 write enable 10 read enable 11 read/write enable 3-2 d4000h-d7fffh 00 read/write disable ..................................default 01 write enable 10 read enable 11 read/write enable 1-0 d0000h-d3fffh 00 read/write disable ..................................default 01 write enable 10 read enable 11 read/write enable device 0 offset 63 - shadow ram control 3 (00h)....... rw 7-6 e0000h-effffh 00 read/write disable ................................. default 01 write enable 10 read enable 11 read/write enable 5-4 f0000h-fffffh 00 read/write disable ................................. default 01 write enable 10 read enable 11 read/write enable 3-2 memory hole 00 none .................................................... default 01 512k-640k 10 15m-16m (1m) 11 14m-16m (2m) 1 a,bk direct smram access 0 enable ................................................... default 1 disable 0 a,bk dram access 0 disable................................................... default 1 enable device 0 offset 64 - dram timing for banks 0,1 (ech)rw device 0 offset 65 - dram timing for banks 2,3 (ech)rw device 0 offset 66 - dram timing for banks 4,5 (ech)rw settings for registers 67-64 7 precharge command to active command period 0 t rp = 2t 1 t rp = 3t ............................................... default 6 active command to precharge command period 0 t ras = 5t 1 t ras = 6t ............................................. default 5-4 cas latency 00 1t 01 2t 10 3t ...................................... default 11 reserved 3 dimm type 0 standard 1 registered ............................................. default 2 sdram: active command to cmd command 0 2t 1 3t .................................................... default 2 vcm sdram: prefetch read latency 0 4t 1 3t .................................................... default 1-0 bank interleave 00 no interleave ......................................... default 01 2-way 10 4-way 11 reserved
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 27- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 0 offset 68 - dram control (00h) ......................rw 7 reserved ........................................ always reads 0 6 bank page control 0 allow only pages of the same bank active.. def. 1 allow pages of different banks to be active 5-3 reserved ........................................ always reads 0 2 burst refresh 0 disable ...................................................default 1 enable (burst 4 times) 1 reserved ........................................ always reads 0 0 system frequency divider .................................. ro latched from ma14 at the rising edge of reset#. 0 cpu frequency =100 mhz (200 mhz fsb) ............................................ .....no strap default 1 cpu frequency =133 mhz (266 mhz fsb) note: see also rx69[6] note: pci and agp bus frequencies are 33 and 66 mhz respectively independent of the setting of this bit device 0 offset 69 ? dram clock select (00h) ............. rw 7 reserved ........................................always reads 0 6 dram operating frequency faster than cpu 0 dram same as or equal to cpu......... default 1 dram faster than cpu by 33 mhz rx68[0] rx69[6] cpu / dram 0 0 100 / 100 0 1 100 / 133 1 0 133 / 133 (def) 1 1 -reserved- 5 write recovery time for write with auto- precharge 0 1t .................................................... default 1 2t 4 dram controller command register output 0 disable................................................... default 1 enable 3 fast dram precharge for different bank 0 disable................................................... default 1 enable 2 dram 4k page enable (for 64mbit dram) 0 disable................................................... default 1 enable 1 dimm type 0 unbuffered............................................. default 1 registered 0 autoprecharge on cpu writeback / tlb lookup 0 disable................................................... default 1 enable
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 28- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 0 offset 6a - refresh counter (00h)....................rw 7-0 refresh counter (in units of 16 cpuclks) 00 dram refresh disabled .......................default 01 32 cpuclks 02 48 cpuclks 03 64 cpuclks 04 80 cpuclks 05 96 cpuclks ? ? the programmed value is the desired number of 16- cpuclk units minus one. device 0 offset 6b - dram arbitration control (01h) rw 7-6 arbitration parking policy 00 park at last bus owner ............................ default 01 park at cpu side 10 park at agp side 11 reserved 5 fast read to write turn-around 0 disable................................................... default 1 enable 4 reserved ........................................always reads 0 3 md bus second level strength control 0 normal slew rate control........................ default 1 more slew rate control 2 cas bus second level strength control 0 normal slew rate control........................ default 1 more slew rate control 1 agp pad slew rate control 0 disable................................................... default 1 enable 0 multi-page open 0 disable (page registers marked invalid and no page register update which causes non page- mode operation) 1 enable ................................................... default
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 29- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 0 offset 6c - sdram control (00h) ...................rw 7 ma control .............................................. default = 0 6 srasa / scasa / swea control ......... default = 0 5-4 reserved ........................................ always reads 0 3 fast tlb lookup 0 disable ...................................................default 1 enable 2-0 sdram operation mode select 000 normal sdram mode ..........................default 001 nop command enable 010 all-banks-precharge command enable (cpu-to-dram cycles are converted to all-banks-precharge commands). 011 msr enable cpu-to-dram cycles are converted to commands and the commands are driven on ma[14:0]. the bios selects an appropriate host address for each row of memory such that the right commands are generated on ma[14:0]. 100 cbr cycle enable (if this code is selected, cas-before-ras refresh is used; if it is not selected, ras-only refresh is used) 101 reserved 11x reserved device 0 offset 6d - dram drive strength (00h)......... rw 7 esdram memory type 0 disable................................................... default 1 enable 6-5 delay dram read latch 00 no delay................................................ default 01 0.5 ns 10 1.0 ns 11 1.5 ns 4 memory data drive (md, mecc) 0 6 ma .................................................... default 1 8 ma 3 sdram command drive (sras#, scas#, swe#) 0 16ma .................................................... default 1 24ma 2 memory address drive (ma, we#) 0 16ma .................................................... default 1 24ma 1 cas# drive 0 8 ma .................................................... default 1 12 ma 0 ras# drive 0 16ma .................................................... default 1 24ma
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 30- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
pci bus control these registers are normally programmed once at system initialization time. device 0 offset 70 - pci buffer control (00h)................rw 7 cpu to pci post-write 0 disable ...................................................default 1 enable 6 pci master to dram post-write 0 disable ...................................................default 1 enable 5 reserved ........................................ always reads 0 4 pci master to dram prefetch 0 disable ...................................................default 1 enable 3 enhance cpu-to-pci write 0 normal operation ...................................default 1 reduce 1 cycle when the cpu-to-pci buffer becomes available after being full (pci and agp buses) 2 pci master read caching 0 disable ...................................................default 1 enable 1 delay transaction 0 disable ...................................................default 1 enable 0 slave device stopped idle cycle reduction 0 normal operation...................................default 1 reduce 1 pci idle cycle when stopped by a slave device (pci and agp buses) device 0 offset 71 - cpu to pci flow control 1 (00h) . rw 7 dynamic burst 0 disable................................................... default 1 enable (see note under bit-3 below) 6 byte merge 0 disable................................................... default 1 enable 5 reserved ........................................always reads 0 4 pci i/o cycle post write 0 disable................................................... default 1 enable 3 pci burst 0 disable................................................... default 1 enable (bit7=1 will override this option) bit-7 bit-3 operation 0 0 every write goes into the write buffer and no pci burst operations occur. 0 1 if the write transaction is a burst transaction, the information goes into the write buffer and burst transfers are later performed on the pci bus. if the transaction is not a burst, pci write occurs immediately (after a write buffer flush). 1 x every write transaction goes to the write buffer; burstable transactions will then burst on the pci bus and non-burstable won ? t. this is the normal setting. 2 pci fast back-to-back write 0 disable................................................... default 1 enable 1 quick frame generation 0 disable................................................... default 1 enable 0 1 wait state pci cycles 0 disable................................................... default 1 enable
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 31- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 0 offset 72 - cpu to pci flow control 2 (00h) rwc 7 retry status 0 no retry occurred ...................................default 1 retry occurred......................... write 1 to clear 6 retry timeout action 0 retry forever (record status only)..........default 1 flush buffer for write or return all 1s for read 5-4 retry limit 00 retry 2 times ..........................................default 01 retry 16 times 10 retry 4 times 11 retry 64 times 3 clear failed data and continue retry 0 flush the entire post-write buffer ...........default 1 when data is posting and master (or target) abort fails, pop the failed data if any, and keep posting 2 cpu backoff on pci read retry failure 0 disable ...................................................default 1 backoff cpu when reading data from pci and retry fails 1 reduce 1t for frame# generation 0 disable ...................................................default 1 enable 0 reduce 1t for cpu read pci slave 0 disable ..................................................default 1 enable device 0 offset 73 - pci master control 1 (00h)........... rw 7 reserved ........................................always reads 0 6 pci master 1-wait-state write 0 zero wait state trdy# response........... default 1 one wait state trdy# response 5 pci master 1-wait-state read 0 zero wait state trdy# response........... default 1 one wait state trdy# response 4 reserved ........................................always reads 0 3 assert stop# after pci master write timeout 0 disable................................................... default 1 enable 2 assert stop# after pci master read timeout 0 disable................................................... default 1 enable 1 lock# function 0 disable................................................... default 1 enable 0 pci master broken timer enable 0 disable................................................... default 1 enable. force into arbitration when there is no frame# 16 pciclk ? s after the grant. device 0 offset 74 - pci master control 2 (00h)........... rw 7 pci master read prefetch by enhance command 0 always prefetch..................................... default 1 prefetch only if enhance command 6 reserved (do not program) ....................default = 0 5 reserved ........................................always reads 0 4 dummy request ........................................default = 0 3 pci delay transaction timeout 0 disable................................................... default 1 enable 2 backoff cpu immediately on cpu-to-agp 0 disable................................................... default 1 enable 1-0 cpu/pci master latency timer control 00 agp master reloads mlt timer ............ default 01 agp master falling edge reloads mlt timer 10 agp master rising edge resets timer to 00 and agp master falling edge reloads mlt timer 11 reserved (do not program)
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 32- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 0 offset 75 - pci arbitration 1 (00h) ..................rw 7 arbitration mechanism 0 pci has priority ......................................default 1 fair arbitration between pci and cpu 6 arbitration mode 0 req-based (arbitrate at end of req#)...default 1 frame-based (arbitrate at frame# assertion) 5-4 latency timer ........... read only, reads rx0d bits 2:1 3-0 pci master bus time-out (force into arbitration after a period of time) 0000 disable ...................................................default 0001 1x32 pciclks 0010 2x32 pciclks 0011 3x32 pciclks 0100 4x32 pciclks ... ... 1111 15x32 pciclks device 0 offset 76 - pci arbitration 2 (00h).................. rw 7 pci cpu-to-pci post-write retry failed 0 continue retry attempt ........................... default 1 go to arbitration 6 cpu latency timer bit-0 ....................................ro 0 cpu has at least 1 pclk time slot when cpu has pci bus 1 cpu has no time slot 5-4 master priority rotation control 00 disable................................................... default 01 grant to cpu after every pci master grant 10 grant to cpu after every 2 pci master grants 11 grant to cpu after every 3 pci master grants with setting 01, the cpu will always be granted access after the current bus master completes, no matter how many pci masters are requesting. with setting 10, if other pci masters are requesting during the current pci master grant, the highest priority master will get the bus after the current master completes, but the cpu will be guaranteed to get the bus after that master completes. with setting 11, if other pci masters are requesting, the highest priority will get the bus next, then the next highest priority will get the bus, then the cpu will get the bus. in other words, with the above settings, even if multiple pci masters are continuously requesting the bus, the cpu is guaranteed to get access after every master grant (01), after every other master grant (10) or after every third master grant (11). 3-2 reqn# to req4# mapping 00 req4# 01 req0# 10 req1# 11 req2# 1 cpu qw or high dw read accesses to pci slave allowed to be backed off 0 disable................................................... default 1 enable 0 req4# is high priority master 0 disable................................................... default 1 enable device 0 offset 77 - chip test mode (00h)..................... rw 7-0 reserved (do not use) .................................default=0
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 33- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 0 offset 78 - pmu control i (00h).......................rw 7 i/o port 22 access 0 cpu access to i/o address 22h is passed on to the pci bus .............................................default 1 cpu access to i/o address 22h is processed internally 6 suspend refresh type 0 cbr refresh ..........................................default 1 self refresh 5 reserved ........................................ always reads 0 4 dynamic clock control 0 normal (clock is always running)...........default 1 clock to various internal functional blocks is disabled when those blocks are not being used 3 reserved ........................................ always reads 0 2 gstop# assertion 0 disable (gstop# is always high)..........default 1 enable (gstop# could be low) 1 reserved ........................................ always reads 0 0 memory clock enable (cke) function 0 cke function disable............................default 1 cke function enable device 0 offset 79 - pmu control 2 (00h) ......................rw 7-3 reserved ........................................ always reads 0 2 indicate sio request to dram controller 0 disable ...................................................default 1 enable 1 reserved ........................................ always reads 0 0 2t rate snoop write enable to invalidate read data caching support 0 disable ...................................................default 1 enable device 0 offset 7a ? miscellaneous control (00h)......... rw 7 no time-out arbitration for consecutive frame accesses 0 enable .................................................... default 1 disable 6-5 reserved ........................................always reads 0 4 invalidate pci / agp buffered (cached) read data for cpu to pci / agp accesses 0 disable................................................... default 1 enable 3 background pci-to-pci write cycle mode 0 disable................................................... default 1 enable 2-1 reserved ........................................always reads 0 0 south bridge pci master force timeout when pci master occupancy timer is up 0 disable................................................... default 1 enable device 0 offset 7b ? pci master access control (00h) rw 7-2 reserved ........................................always reads 0 1 pci master access head / tail select 0 tail .................................................... default 1 head 0 reserved ........................................always reads 0 device 0 offset 7e ? dll/pll test mode 1 (00h) ........ rw 7-0 reserved (do not use) .................................default=0 device 0 offset 7f ? dll/pll test mode 2 (00h) ........ rw 7-0 reserved (do not use) .................................default=0
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 34- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
gart / graphics aperture control the function of the graphics address relocation table (gart) is to translate virtual 32-bit addresses issued by an agp device into 4k-page based physical addresses for system memory access. in this translation, the upper 20 bits (a31- a12) are remapped, while the lower 12 address bits (a11-a0) are used unchanged. a one-level fully associative lookup scheme is used to implement the address translation. in this scheme, the upper 20 bits of the virtual address are used to point to an entry in a page table located in system memory. each page table entry contains the upper 20 bits of a physical address (a "physical page" address). for simplicity, each page table entry is 4 bytes. the total size of the page table depends on the gart range (called the "aperture size") which is programmable in the VT8363A. this scheme is shown in the figure below. 31 12 11 0 virtual page address page offset index tlb base page table 31 12 11 0 physical page address page offset figure 4. graphics aperture address translation since address translation using the above scheme requires an access to system memory, an on-chip cache (called a "translation lookaside buffer" or tlb) is utilized to enhance performance. the tlb in the VT8363A contains 16 entries. address "misses" in the tlb require an access of system memory to retrieve translation data. entries in the tlb are replaced using an lru (least recently used) algorithm. addresses are translated only for accesses within the "graphics aperture" (ga). the graphics aperture can be any power of two in size from 1mb to 256mb (i.e., 1mb, 2mb, 4mb, 8mb, etc). the base of the graphics aperture can be anywhere in the system virtual address space on an address boundary determined by the aperture size (e.g., if the aperture size is 4mb, the base must be on a 4mb address boundary). the graphics aperture base is defined in register offset 10 of device 0. the graphics aperture size and tlb table base are defined in the following register group (offsets 84 and 88 respectively) along with various control bits.
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 35- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 0 offset 83-80 - gart/tlb control (00000000h) rw 31-16 reserved ........................................ always reads 0 15 page tlb bank test data 1 (and function) ... ro 14 page tlb bank test data 0 (or function) ...... ro 13 page lru parity .................................................. ro 12 gart tlb lru parity ...................................... ro 11 gart tlb test data 1 (and function) .......... ro 10 gart tlb test data 0 (or function) ............. ro 9 page tlb test data 1 (and function) ............. ro 8 page tlb test data 0 (or function) ................ ro 7 flush page tlb 0 disable ...................................................default 1 enable 6-4 reserved (always program to 0) ........................ rw 3 pci master address translation for ga access 0 addresses generated by pci master accesses of the graphics aperture will not be translated .....................................................default 1 pci master ga addresses will be translated 2 agp master address translation for ga access 0 addresses generated by agp master accesses of the graphics aperture will not be translated .....................................................default 1 agp master ga addresses will be translated 1 cpu address translation for ga access 0 addresses generated by cpu accesses of the graphics aperture will not be translated ..... def 1 cpu ga addresses will be translated 0 agp address translation for ga access 0 addresses generated by agp accesses of the graphics aperture will not be translated ..... def 1 agp ga addresses will be translated note: for any master access to the graphics aperture range, snoop will not be performed. device 0 offset 84 - graphics aperture size (00h) ........ rw 7-0 graphics aperture size 11111111 1m 11111110 2m 11111100 4m 11111000 8m 11110000 16m 11100000 32m 11000000 64m 10000000 128m 00000000 256m offset 8b-88 - ga translation table base (00000000h) rw 31-12 graphics aperture translation table base. pointer to the base of the translation table in system memory used to map addresses in the aperture range (the pointer to the base of the "directory" table). 11-3 reserved ........................................always reads 0 2 one cycle tlb flush 0 disable................................................... default 1 enable 1 graphics aperture enable 0 disable................................................... default 1 enable note: to disable the graphics aperture, set this bit to 0 and set all bits of the graphics aperture size to 0. to enable the graphics aperture, set this bit to 1 and program the graphics aperture size to the desired aperture size. 0 reserved ........................................always reads 0
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 36- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
agp control device 0 offset a3-a0 - agp capability identifier (0020c002h) ..........................................................ro 31-24 reserved ...................................... always reads 00 23-20 major specification revision ... always reads 0010b major rev # of agp spec that device conforms to 19-16 minor specification revision ... always reads 0000b minor rev # of agp spec that device conforms to 15-8 pointer to next item ........always reads c0 (last item) 7-0 agp id .. (always reads 02 to indicate it is agp) device 0 offset a7-a4 - agp status (1f000203h) ..........ro 31-24 maximum agp requests ............ always reads 1fh ? max # of agp requests the device can manage (32) ? see also rxfc[1] and rxfd[4-0] 23-10 reserved .......................................always reads 0s 9 supports sideband addressing ........ always reads 1 8-6 reserved .......................................always reads 0s 5 4g supported ..................(can be written at rxae[5] 4 fast write supported .....(can be written at rxae[4] 3 reserved .......................................always reads 0s 2 4x rate supported ........ (can be written at rxae[2]) 1 2x rate supported ........ (can be written at rxac[3]) 0 1x rate supported ............................. always reads 1 device 0 offset ab-a8 - agp command (00000000h) . rw 31-24 request depth (reserved for target) .. always reads 0s 23-10 reserved ...................................... always reads 0s 9 sideband addressing enable 0 disable................................................... default 1 enable 8 agp enable 0 disable................................................... default 1 enable 7-6 reserved ...................................... always reads 0s 5 4g enable 0 disable................................................... default 1 enable 4 fast write enable 0 disable................................................... default 1 enable 3 reserved ...................................... always reads 0s 2 4x mode enable 0 disable................................................... default 1 enable 1 2x mode enable 0 disable................................................... default 1 enable 0 1x mode enable 0 disable................................................... default 1 enable
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 37- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 0 offset ac - agp control (00h) ........................rw 7 reserved ........................................ always reads 0 6 cpu stall on agp command fifo gart address request 0 disable ...................................................default 1 enable 5 agp read snoop dram post-write buffer 0 disable ...................................................default 1 enable 4 greq# priority becomes higher when arbiter is parked at agp master 0 disable ...................................................default 1 enable 3 2x rate supported (read also at rxa4[1]) 0 not supported ........................................default 1 supported 2 lpr in-order access ( force fence) 0 fence/flush functions not guaranteed. agp read requests (low/normal priority and high priority) may be executed before previously issued write requests...............................default 1 force all requests to be executed in order (automatically enables fence/flush functions). low (i.e., normal) priority agp read requests will never be executed before previously issued writes. high priority agp read requests may still be executed prior to previously issued write requests as required. 1 agp arbitration parking 0 disable ...................................................default 1 enable (ggnt# remains asserted until either greq# de-asserts or data phase ready) 0 agp to pci master or cpu to pci turnaround cycle 0 2t or 3t timing.....................................default 1 1t timing device 0 offset ad ? agp latency timer (02h) ........... rw 7 reserved ........................................always reads 0 6 agp data / strobe input buffer 0 disable................................................... default 1 enable 5 hold last gd output data 0 disable................................................... default 1 enable 4 choose first or last ready of dram 0 last ready chosen .................................. default 1 first ready chosen 3-0 agp data phase latency timer ......... default = 02h device 0 offset ae ? agp miscellaneous control (00h)rw 7-6 reserved ........................................always reads 0 5 greater than 4gb supported 0 disable................................................... default 1 enable 4 fast write supported 0 fast write not supported........................ default 1 fast write supported 3 reserved ........................................always reads 0 2 4x rate supported 0 4x rate not supported ............................ default 1 4x rate supported 1-0 reserved ........................................always reads 0 device 0 offset af ? agp strobe drive strength ......... rw 7-4 agp strobe output buffer drive strength n ctrl 3-0 agp strobe output buffer drive strength p ctrl
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 38- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 0 offset b0 ? agp pad control / status (8xh)....rw 7 agp strobe vref control 0 stb vref is stb# and vice versa 1 stb vref is agpref ........................default 6 agp 4x strobe & gd pad drive strength 0 drive strength set to compensation circuit default.....................................................default 1 drive strength controlled by rxb1[7-0] 5-3 agp compensation circuit n control output .ro 2-0 agp compensation circuit p control output .ro device 0 offset b1 ? agp drive strength (63h).............rw 7-4 agp output buffer drive strength n ctrl ... def=6 3-0 agp output buffer drive strength p ctrl.... def=3 device 0 offset b2 ? agp pad drive / delay control ... rw 7 gd/gbe/gds, sba/sbs control 1.5v (bit-1 = 0) 0 sba/sbs = no cap ............................... default gd/gbe/gds = no cap 1 sba/sbs = no cap gd/gbe/gds = cap 3.3v (bit-1 = 1) 0 sba/sbs = cap .................................... default gd/gbe/gds = no cap 1 sba/sbs = cap gd/gbe/gds = cap 6 reserved ........................................always reads 0 5 s2k slew rate control .....strapped from srasa# 0 enable .................................................... default 1 disable 4 gd[31-16] staggered delay 0 none .................................................... default 1 gd[31:16] delayed by 1 ns 3 reserved ........................................always reads 0 2 agp preamble control 0 disable................................................... default 1 enable 1 agp voltage 0 1.5v .................................................... default 1 3.3v 0 gds output delay 0 none .................................................... default 1 gds[1-0] & gds[1-0]# delayed by 0.4 ns (gds1 & gds1# will be delayed an additional 1ns if bit-4 = 1)
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 39- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 0 offset b3 ? cpu strapping control..................ro 7-3 cpu clock division .. 4 lsbs set from ma3-0 straps 00000 11 ................................................................ no strap default 00001 11.5 00010 12 00011 12.5 00100 5 00101 5.5 00110 6 00111 6.5 01000 7 01001 7.5 01010 8 01011 8.5 01100 9 01101 9.5 01110 10 01111 10.5 10000 3 10001 3.5 10010 4 10011 4.5 101xx -reserved- 2 s2k compensation drive strength 0 strap .....................................................default 1 auto calculate 1 fast address out decode .......... set from romsip, otherwise 0 0 normal .....................................no strap default 1 fast 0 s2k compensation circuit 0 enable on reset......................................default 1 enable on disconnect device 0 offset b4 ? s2k compensation strapping.......rw 7 internal pullup strength select 0 per strapping on ma[13-12] (see bits 5-4).. def 1 auto mode 6 reserved ........................................ always reads 0 5-4 internal pullup strength set from ma[13-12] straps 00 strapping mode .......................no strap default 01 strapping mode 10 strapping mode 11 auto mode 3 output drive strength select 0 per strapping on ma[10-9] (see bits 1-0).... def 1 auto mode 2 reserved ........................................ always reads 0 1-0 output drive strength .... set from ma[10-9] strap 00 auto mode ...............................no strap default 01 strapping mode 10 strapping mode 11 strapping mode device 0 offset b5 ? s2k compensation result 1 .......... ro 7-4 pullup autocompensation result ............default = 0 3-0 pulldown autocompensation result .......default = 0 device 0 offset b6 ? s2k compensation result 2 .......... ro 7 s2k edge dq mode ...............set from ma11 strap 0 central dq............................................. default 1 edge dq 6-5 reserved ........................................always reads 0 4-0 s2k strobe delay (edgedq) .................................... ...................... set from ma[8-4] straps 0 auto mode............................... no-strap default ~0 strapping mode device 0 offset b7 ? s2k compensation result 3 .......... ro 7-5 reserved ........................................always reads 0 4-0 s2k strobe delay from dll counter (auto) ..............................................default = 0 device 0 offset b8 ? s2k compensation result 4 .......... ro 7 s2k compensation circuit trigger 6 dll autodetect ................................................... ro 5 delay compensation counter control 4-3 s2k pad ac coupling to vref signal in address / data output clock 2-0 s2k pad slew rate ctrl (7h is strongest).... def=7h
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 40- device 0 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 0 offset c0 ? power management capability idro 7-0 capability id .................................. always reads 01h device 0 offset c1 ? power management new pointer..ro 7-0 new pointer ..........always reads 00h ( ? null ? pointer) device 0 offset c2 ? power mgmt capabilities i ............ro 7-0 power management capabilities .. always reads 02h device 0 offset c3 ? power mgmt capabilities ii...........ro 7-0 power management capabilities .. always reads 00h device 0 offset c4 ? power mgmt control / status .......rw 7-2 reserved ........................................ always reads 0 1-0 power state 00 d0 .....................................................default 01 -reserved- 10 -reserved- 11 d3 hot device 0 offset c5 ? power management status ............ro 7-0 power management status ............ always reads 00h device 0 offset c6 ? pci-to-pci bridge support ext. ...ro 7-0 p2p bridge support extensions .... always reads 00h device 0 offset c7 ? power management data...............ro 7-0 power management data .............. always reads 00h device 0 offset e0 ? miscellaneous control (00h) .........rw 7 agp pad power down 0 disable ...................................................default 1 enable 6 reserved (do not program) ....................... must be 0 5 internal graphics agp/pci concurrent ..... def = 0 4 cke drive select ..................................... default = 0 3-1 frame buffer bank location .................. default = 0 0 latch dram data using 0 internal dram dclk...........................default 1 external feedback dram dclk device 0 offset f0 ? bios scratch register 0 ............... rw 7-0 no hardware function ..............................default = 0 device 0 offset f1 ? bios scratch register 1 ............... rw 7-0 no hardware function ..............................default = 0 device 0 offset f2 ? bios scratch register 2 ............... rw 7-0 no hardware function ..............................default = 0 device 0 offset f3 ? bios scratch register 3 ............... rw 7-0 no hardware function ..............................default = 0 device 0 offset f4 ? bios scratch register 4 ............... rw 7-0 no hardware function ..............................default = 0 device 0 offset f5 ? bios scratch register 5 ............... rw 7-0 no hardware function ..............................default = 0 device 0 offset f6 ? revision id backdoor ................... rw 7-0 revision id rx8 ........................................default = 0 device 0 offset f7 ? foundry id..................................... rw 7-0 no hardware function .............. default = foundry id device 0 offset f8 ? dram arbitration timer (00h)... rw 7-4 agp timer (units of 4 dclks) ...............default = 0 3-0 host cpu timer (units of 4 dclks) ......default = 0 device 0 offset fc ? back door control 1 (00h)........... rw 7-4 priority timer ...........................................default = 0 3-2 probe signal select ...................................default = 0 1 back-door max # of agp requests ........default = 0 0 read of rxa7 always returns a value of 11111b (32 requests) ............................. default 1 read of rxa7 returns the value programmed in rxfd[4-0] 0 back-door device id enable ...................default = 0 0 use rx3-2 value for rx3-2 readback..... default 1 use rxfe-ff back-door device id for rx3-2 read device 0 offset fd ? back-doorcontrol 2 (00h) ........... rw 7-5 reserved ........................................always reads 0 4-0 max # of agp requests ...........................default = 0 00000 1 request 00001 2 requests 00010 3 requests ? ? 11111 32 requests (see also rxa7 and rxfc[1]) device 0 offset ff-fe ? back-door device id (0000h) rw 15-0 back-door device id ................................default=00
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 41- device 1 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 1 header registers - pci-to-pci bridge all registers are located in pci configuration space. they should be programmed using pci configuration mechanism 1 through cf8 / cfc with bus number of 0 and function number equal to 0 and device number equal to one . device 1 offset 1-0 - vendor id (1106h) ..........................ro 15-0 id code (reads 1106h to identify via technologies) device 1 offset 3-2 - device id (8305h)............................ro 15-0 id code (reads 8305h to identify the VT8363A pci- to-pci bridge device) device 1 offset 5-4 ? command (0007h) .........................rw 15-10 reserved ........................................ always reads 0 9 fast back-to-back cycle enable ........................ ro 0 fast back-to-back transactions only allowed to the same agent ........................................default 1 fast back-to-back transactions allowed to different agents 8 serr# enable ...................................................... ro 0 serr# driver disabled ...........................default 1 serr# driver enabled (serr# is used to report parity errors if bit-6 is set). 7 address / data stepping ...................................... ro 0 device never does stepping....................default 1 device always does stepping 6 parity error response ........................................ rw 0 ignore parity errors & continue ..............default 1 take normal action on detected parity errors 5 vga palette snoop (not supported) .................. ro 0 treat palette accesses normally ..............default 1 don ? t respond to palette writes on pci bus (10-bit decode of i/o addresses 3c6-3c9 hex) 4 memory write and invalidate command .......... ro 0 bus masters must use mem write ..........default 1 bus masters may generate mem write & inval 3 special cycle monitoring .................................... ro 0 does not monitor special cycles .............default 1 monitors special cycles 2 bus master ......................................................... rw 0 never behaves as a bus master 1 enable to operate as a bus master on the primary interface on behalf of a master on the secondary interface ................................default 1 memory space ..................................................... rw 0 does not respond to memory space 1 enable memory space access .................default 0 i/o space ......................................................... rw 0 does not respond to i/o space 1 enable i/o space access ........................default device 1 offset 7-6 - status (primary bus) (0230h) .... rwc 15 detected parity error ........................always reads 0 14 signaled system error (serr#) .......always reads 0 13 signaled master abort 0 no abort received .................................. default 1 transaction aborted by the master with master-abort (except special cycles) .............. ....................................... write 1 to clear 12 received target abort 0 no abort received .................................. default 1 transaction aborted by the target with target- abort ....................................... write 1 to clear 11 signaled target abort ........................always reads 0 10-9 devsel# timing 00 fast 01 medium....................................always reads 01 10 slow 11 reserved 8 data parity error detected ...............always reads 0 7 fast back-to-back capable ...............always reads 0 6 user definable features .....................always reads 0 5 66mhz capable ..................................always reads 1 4 supports new capability list .............always reads 1 3-0 reserved ........................................always reads 0 device 1 offset 8 - revision id (00h) ............................... ro 7-0 VT8363A chip revision code (00=first silicon) device 1 offset 9 - programming interface (00h) ........... ro this register is defined in different ways for each base/sub- class code value and is undefined for this type of device. 7-0 interface identifier ...........................always reads 00 device 1 offset a - sub class code (04h)........................ ro 7-0 sub class code .reads 04 to indicate pci-pci bridge device 1 offset b - base class code (06h)....................... ro 7-0 base class code .. reads 06 to indicate bridge device device 1 offset d - latency timer (00h) ......................... ro 7-0 reserved ........................................always reads 0 device 1 offset e - header type (01h) ............................ ro 7-0 header type code .......... reads 01: pci-pci bridge device 1 offset f - built in self test (bist) (00h) ......... ro 7 bist supported ...... reads 0: no supported functions 6 start test .......... write 1 to start but writes ignored 5-4 reserved ........................................always reads 0 3-0 response code ..........0 = test completed successfully
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 42- device 1 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 1 offset 18 - primary bus number (00h) ............rw 7-0 primary bus number ............................... default = 0 this register is read write, but internally the chip always uses bus 0 as the primary. device 1 offset 19 - secondary bus number (00h).........rw 7-0 secondary bus number ........................... default = 0 note: agp must use these bits to convert type 1 to type 0. device 1 offset 1a - subordinate bus number (00h).....rw 7-0 primary bus number ............................... default = 0 note: agp must use these bits to decide if type 1 to type 1 command passing is allowed. device 1 offset 1b ? secondary latency timer (00h) ....ro 7-0 reserved ........................................ always reads 0 device 1 offset 1c - i/o base (f0h)..................................rw 7-4 i/o base ad[15:12] .......................... default = 1111b 3-0 i/o addressing capability ....................... default = 0 device 1 offset 1d - i/o limit (00h)................................rw 7-4 i/o limit ad[15:12] ................................ default = 0 3-0 i/o addressing capability ....................... default = 0 device 1 offset 1f-1e - secondary status (0000h)..........ro 15-0 rx44[4] = 0: no function (always reads 0) rx44[4] = 1: read same value as rx7-6 (pri status) device 1 offset 21-20 - memory base (fff0h)..................rw 15-4 memory base ad[31:20] ...................default = fffh 3-0 reserved ........................................ always reads 0 device 1 offset 23-22 - memory limit (inclusive) (0000h) rw 15-4 memory limit ad[31:20] ........................ default = 0 3-0 reserved ........................................ always reads 0 device 1 offset 25-24 - prefetchable memory base (fff0h) rw 15-4 prefetchable memory base ad[31:20] default = fffh 3-0 reserved ........................................ always reads 0 device 1 offset 27-26 - prefetchable memory limit (0000h) ...............................................................................rw 15-4 prefetchable memory limit ad[31:20] ................... .............................................. default = 0 3-0 reserved ........................................ always reads 0 device 1 offset 2d-2c ? subsystem vendor id (0000h) rw device 1 offset 2f-2e ? subsystem id (0000h) .............rw device 1 offset 34 ? capability pointer (00h) .................ro 7-0 capability pointer .......................... always reads 00h device 1 offset 3f-3e ? pci-to-pci bridge control (0000h) .............................................................................. rw 15-4 reserved ........................................always reads 0 3 vga-present on agp 0 forward vga accesses to pci bus ....... default 1 forward vga accesses to agp bus note: vga addresses are memory a0000-bffffh and i/o addresses 3b0-3bbh, 3c0-3cfh and 3d0- 3dfh (10-bit decode). "mono" text mode uses b0000-b7fffh and "color" text mode uses b8000- bffffh. graphics modes use axxxxh. mono vga uses i/o addresses 3bx-3cxh and color vga uses 3cx-3dxh. if an mda is present, a vga will not use the 3bxh i/o addresses and b0000-b7fffh memory space; if not, the vga will use those addresses to emulate mda modes. 2 block / forward isa i/o addresses 0 forward all i/o accesses to the agp bus if they are in the range defined by the i/o base and i/o limit registers (device 1 offset 1c-1d) .................................................... default 1 do not forward i/o accesses to the agp bus that are in the 100-3ffh address range even if they are in the range defined by the i/o base and i/o limit registers. 1-0 reserved ........................................always reads 0
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 43- device 1 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 1 configuration registers - pci-to-pci bridge agp bus control device 1 offset 40 - cpu-to-agp flow control 1 (00h)rw 7 cpu-agp post write 0 disable ...................................................default 1 enable 6 cpu-agp dynamic burst 0 disable ...................................................default 1 enable 5 cpu-agp one wait state burst write 0 disable ...................................................default 1 enable 4 agp to dram prefetch 0 disable ...................................................default 1 enable 3 cpu to agp post write halt 0 disable ...................................................default 1 enable if set to 1, cpu-to-pci posted cycles can be delayed for pci master accesses (i.e., pci master access is allowed even if the cpu-to-pci buffer is not flushed) 2 mda present on agp 0 forward mda accesses to agp.............default 1 forward mda accesses to pci note: forward despite io / memory base / limit note: mda (monochrome display adapter) addresses are memory addresses b0000h-b7fffh and i/o addresses 3b4-3b5h, 3b8-3bah, and 3bfh (10-bit decode). 3bc-3be are reserved for printers. note: if rx3e bit-3 is 0, this bit is a don't care (mda accesses are forwarded to the pci bus). 1 agp master read caching 0 disable ...................................................default 1 enable 0 agp delay transaction 0 disable ...................................................default 1 enable table 7. vga/mda memory/io redirection 3e[3] vga pres. 40[2] mda pres. vga is on mda is on axxxx, b8xxx access b0000 -b7fff access 3cx, 3dx i/o 3bx i/o 0 - pci pci pci pci pci pci 1 0 agp agp agp agp agp agp 1 1 agp pci agp pci agp pci device 1 offset 41 - cpu-to-agp flow control 2 (00h) rw 7 retry status 0 no retry occurred................................... default 1 retry occurred ........................ write 1 to clear 6 retry timeout action 0 no action taken except to record status ....... def 1 flush buffer for write or return all 1s for read 5-4 retry count 00 retry 2, backoff cpu ............................ default 01 retry 4, backoff cpu 10 retry 16, backoff cpu 11 retry 64, backoff cpu 3 post write data on abort 0 flush entire post-write buffer on target-abort or master abort ....................................... default 1 pop one data output on target-abort or master- abort 2 cpu backoff on agp read retry timeout 0 disable................................................... default 1 enable 1-0 reserved ........................................always reads 0 device 1 offset 42 - agp master control (00h) ............ rw 7 read prefetch for enhance command 0 always perform prefetch ....................... default 1 prefetch only if enhance command 6 agp master one wait state write 0 disable................................................... default 1 enable 5 agp master one wait state read 0 disable................................................... default 1 enable 4 reserved ........................................always reads 0 3 agp delay transaction timeout 0 disable................................................... default 1 enable 2 prefetch disable when delay transaction occurs 0 normal operation................................... default 1 disable prefetch when doing fast response to the previous delay transaction or doing read caching 1 reserved ........................................always reads 0 0 generate stop# when agp master access crosses cache line boundary 0 disable................................................... default 1 enable
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 44- device 1 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 1 offset 43 - agp master latency timer (00h) rw 7-4 host to agp time slot 0 disable (no timer)...................................default 1 16 gclks 2 32 gclks ? ? f 240 gclks 3-0 agp master time slot 0 disable (no timer)...................................default 1 16 gclks 2 32 gclks ? ? f 240 gclks device 1 offset 44 ? backdoor register control (00h) .rw 7-6 reserved ........................................ always reads 0 5 rx34 capability back door 4 reflect rx7-6 status in rx1f-1e 0 disable (rx1f-1e always reads 0) .........default 1 enable (rx1f-1e reads same as rx7-6) 3-2 rx83[2-1] back door value 1 rx82[5] back door value (device specific intfc) 0 back door register enable for agp device id (rx47-46) 0 disable ...................................................default 1 enable device 1 offset 45 ? fast write control (72h) .............. rw 7 force fast write cycle to be qw aligned (if rx45[6] = 0) 0 disable................................................... default 1 enable 6 merge multiple cpu transactions into one fast write burst transaction 0 disable 1 enable ................................................... default 5 merge multiple cpu write cycles to memory offset 23-20 into fast write burst cycles (if rx45[6] = 0) 0 disable 1 enable ................................................... default 4 merge multiple cpu write cycles to prefetchable memory offset 27-24 into fast write burst cycles (if rx45[6] = 0) 0 disable 1 enable ................................................... default 3 reserved ........................................always reads 0 2 fast write burst 4t max (no slave flow control) 0 disable................................................... default 1 enable 1 fast write fast back to back 0 disable 1 enable ................................................... default 0 fast write initial block 1 wait state 0 disable................................................... default 1 enable rx45 cpu write cpu write bits address address 7-4 in mem1 in mem2 fast write cycle alignment x1xx - - qw aligned, burstable 0000 - - dw aligned, nonburstable x010 0 0 n/a 0010 0 1 dw aligned, non-burstable x010 1 - qw aligned, burstable x001 0 0 n/a x001 - 1 qw aligned, burstable 0001 1 0 dw aligned, non-burstable x011 0 0 n/a x011 1 - qw aligned, burstable x011 0 1 qw aligned, burstable 1000 - - qw aligned, non-burstable 1010 0 1 qw aligned, non-burstable 1001 1 0 qw aligned, non-burstable
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 45- device 1 register descriptions 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
device 1 offset 47-46 ? pci-to-pci bridge device id...rw 15-0 pci-to-pci bridge device id ............ default = 0000 device 1 offset 80 ? capability id (01h) ......................... ro 7-0 capability id .................................. always reads 01h device 1 offset 81 ? next pointer (00h) ........................... ro 7-0 next pointer: null .......................... always reads 00h device 1 offset 82 ? power mgmt capabilities 1 (02h) .. ro 7-6 power mgmt capabilities ..................always reads 0 5 power mgmt capabilities .programmed via rx44[1] 4-0 power mgmt capabilities .............. always reads 02h device 1 offset 83 ? power mgmt capabilities 2 (00h) .. ro 7-3 power mgmt capabilities ..................always reads 0 2-1 power mgmt capabilities programmed via rx44[3-2] 0 power mgmt capabilities ..................always reads 0 device 1 offset 84 ? power mgmt ctrl/status (00h)...... rw 7-2 reserved ........................................always reads 0 1-0 power state 00 d0 .................................................... default 01 -reserved- 10 -reserved- 11 d3 hot device 1 offset 85 ? power mgmt status (00h)............... ro 7-0 power mgmt status ..................................default = 00 device 1 offset 86 ? p2p br. support extensions (00h) . ro 7-0 p2p bridge support extensions................default = 00 device 1 offset 87 ? power management data (00h) ..... ro 7-0 power management data..........................default = 00
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 46- electrical specifications 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
e lectrical s pecifications absolute maximum ratings parameter min max unit case operating temperature 0 110 o c storage temperature -55 125 o c input voltage -0.5 5.5 volts output voltage (v cc = 3.1 - 3.6v) -0.5 v cc + 0.5 volts note: stress above the conditions listed may cause permanent damage to the device. functional operation of this device should be restricted to the conditions described under operating conditions. dc characteristics t c -0-85 o c, v cc =5v+/-5%, gnd=0v symbol parameter min max unit condition v il input low voltage -0.50 0.8 v v ih input high voltage 2.0 v cc +0.5 v v ol output low voltage - 0.45 v i ol =4.0ma v oh output high voltage 2.4 - v i oh =-1.0ma i il input leakage current - +/-10 ua 0 kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 47- electrical specifications 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
power characteristics t c -0-85 o c, v cc =5v+/-5%, gnd=0v symbol parameter typ max unit condition i cc3 power supply current ? vcc3 ma max operating frequency i sus3 power supply current ? vsus3 ma max operating frequency i tt power supply current ? vtt ma max operating frequency i ccs2k power supply current ? s2kvcc ma max operating frequency i ccq power supply current ? vccq ma max operating frequency i ccqq power supply current ? vccqq ma max operating frequency i cchck power supply current ? vcchck ma max operating frequency i ccmck power supply current ? vccmck ma max operating frequency i ccgck power supply current ? vccgck ma max operating frequency i ccs2kv power supply current ? s2kvref ua max operating frequency i ccagpv power supply current ? agpvref ua max operating frequency i clkv power supply current ? clkvref ua max operating frequency i cc power dissipation 3.5 w max operating frequency ac timing specifications ac timing specifications provided are based on external zero-pf capacitance load. min/max cases are based on the following tab le: table 8. ac timing min / max conditions parameter min max unit 3.3v power (vcc3, vsus3, vtt, vcchck, vccmck, vccgck) 3.135 3.465 volts 1.5v power (vccq, vccqq) 1.425 1.575 volts case temperature 0 85 o c drive strength for each output pin is programmable. see rx6d for details.
kt133a - VT8363A preliminary revision 0.1 , october 9, 2000 - 48- mechanical specifications 7hfkqrorjlhv� ,qf� 'holyhulqj 9doxh 'holyhulqj 9doxh ��� �����
����
��� �
����
m echanical s pecifications figure 5. mechanical specifications - 552-pin ball grid array package 552-pin bga ���� ����� $ % & ' ( ) * + - . / 0 1 3 5 7 8 9 : < $$ $% $& $' $( $) � � � � � � � � � �� �� �� �� �� �� �� �� �� �� �� �� �� �� �� �� �� ����� ?���� ����� ?���� ����� ���� % $ ������;� ���� 5() ���� 5() & 6($7,1* 3/$1( ��? 7<3 ���� & ���� ?���� ���� ?���� ? ���� ?���� ����[� ? ���� ? ���� & &$ % 66 6 6 �� �� �� �� �� �� �� �� �� �� �� �� �� �� �� �� �� � � � � � � � � � $) $( $' $& $% $$ < : 9 8 7 5 3 1 0 / . - + * ) ( ' & % $ 3,1 �� &251(5 ? ������;� 5() ����� 5() 35x35x2.33 mm jedec spec mo-151 ����� 5() ����
��? ��;� � � � � �������� � <<::55 7$,:$1 ///////// &0 y = date code year w = date code week r = chip revision l = lot code
|
